Technical catalogue
Low-voltage moulded-case
circuit-breakers
604050/012 en
Contents
ABB SACE
Presentation
1
Main features
2
Ranges
3
Accessories
4
Characteristic curves and
technical information
5
Dimensions and circuit diagrams
6
Order codes
7
1/1
SACE Isomax S.
The greatest project for moulded-case circuit-breakers
A single series for all applications
SACE Isomax S is a project which evolves continually and is today the largest and
most complete family of low voltage moulded-case circuit-breakers on the market,
able to fulfil all installation requirements, from the small user up to large industrial
electrical power distribution
plants.
Innovation, Technology and Quality have always been the main guides for ABB
SACE in developing products and are at their peak in the SACE Isomax S series –
the moulded-case circuit-breakers characterised by high quality, reliability, and
1
performance under all conditions, simplicity of installation and safety of operation.
The continual and constant evolution of the series has led to further extending the
range of products, thereby making the SACE Isomax S offer increasingly complete
over time.
The series, which is divided rationally into eight basic sizes from S1 to S8, does, in
fact, consist of different ranges destined to fulfil any installation need in a specific
and optimal way.
The completeness of the series can also
be noted in better rationalisation of use:
the overall dimensions, methods of
installation and possibility of applying
accessories are all the same, regardless
of the type of range the circuit-breaker is
placed in.
Great importance is also put on the
microprocessor-based electronic
releases (mounted on the circuitbreakers starting from 160A): SACE
PR211/P, PR212/P and SACE PR212/MP
(International ABB SACE Patent),
specifically designed to actuate dedicated functions for motor starting and
protection.
Thanks to innovative and state-of-the-art
protection functions, they ensure
reliability and precision and are unaffected by electromagnetic interference.
A basic characteristic of these types of
releases is their ability to communicate
and dialogue with the SACE SD-View 810
self-configuring software, thereby
allowing full integration of the circuitbreakers in the management logics
relative to electric network supervision
and control systems.
1/2
ABB SACE
The new series has
been studied
respecting the most
modern ergonomic
criteria. Witness to
this is the prize
awarded with the IF
seal to the circuitbreakers at the
Design Forum in
Hannover.
GSIS9071
1
ABB SACE
1/3
A world of solutions for installation design
engineering.
An answer to all requirements.
The SACE Isomax S family is divided into eight basic sizes, S1,
S2, S3, S4, S5, S6, S7 and S8 with rated uninterrupted currents
from 125 to 3200A.
The types of devices consist of: fixed, plug-in and withdrawThanks to its special construction char-
able circuit-breakers with seven ultimate rated breaking ca-
acteristics, this range of circuit-breakers combines normal Isomax safety
pacity levels - from 16 to 200kA (380-415V) - identified by the
characteristics with very high perform-
letters:
(double interruption per pole) and the
special shape of the breaking parts,
allow very high value short-circuit cur-
sidered
the
common
rents (200kA) to be tripped
GSIS9072
From this family, which is con-
extremely
rapidly, making these circuit-breakers
ideal wherever protection close to the
“nu-
power supply source is needed.
cleus”, a series of dedicated
ranges are configured, which
keep the same installation
characteristics and accessory application possibilities.
Alternating current
Within the series there are
therefore
circuit-breakers
available for alternating and
direct current distribution, current-limiting circuit-breakers,
circuit-breakers for motor protection, switch-disconnectors,
circuit-breakers for applications with voltages up to 1000V,
V
V~
V
V––
Direct current
Circuit-breakers with thermomagnetic
Pole connection in series allows appli-
releases and circuit-breakers fitted with
cations in the most severe operating
microprocessor-based SACE PR211/P,
conditions and in any type of network
PR212/P releases are available for pro-
(insulated, with earthed polarity, and with
tection of alternating current networks.
median point of the power supply
These feature an application field from
earthed). The circuit-breakers for direct
10 to 3200A and a rated voltage of 690V.
current with thermomagnetic releases
Apart from the more generic applica-
are available for operating currents be-
tions, they are particularly suited to pro-
tween 10A and 800 A, with rated
tection of generators, capacitors, trans-
voltages up to 750 V, with 3 poles in
formers and machine tools.
series, and 250 and 500V, with two poles
in series.
and residual current circuitbreakers, as well as specific
ranges (for motor protection
and switch-disconnectors)
Centralised supervision
complying
and control
with
the
North
American UL489 and CSA
C22.2 Standards.
This means wider application
possibilities both in industrial
systems
The reliability,
efficiency
and
quality
a
of
LV
electrical power
The range for applications at 1000V in
distribution service
and civil sectors.
is considerably in-
They can therefore be mounted
creased by constant
alternating current and direct current
extends the use of the moulded-case
circuit-breakers even further and is a
supervision of users
in primary (Power Center) and
and all the parameters of the installa-
secondary (Panel Board) dis-
tion itself. The information regarding
tor protection and control (Motor Control Center), in genera-
tion of the SACE Isomax S series. They
are particularly suitable for installation
the installations is collected using mi-
in special ambients, such as mines,
croprocessor-based field components
which can be mounted directly on board
the apparatus, such as the SACE
PR212/P release, or using the devices
tors and for end users. Their
in the SACE SD family. Moreover, the
performances are, however, of
use of the SACE SD-View 810 software
GSIS9073
tribution switchboards, for mo-
good example of the continual evolu-
petrochemical plants and for electric
traction.
allows a simple personal computer to
particular interest where criti-
be converted into a work station for
cal situations arise (very high
supervising and controlling electrical
rated and fault currents), or
power distribution plants.
ABB SACE proposes various solutions,
which allow type 2 coordinations to be
where complex plant engi-
made for switching and protecting mo-
neering solutions are needed
tors, from 0.37kW to 355kW.
It is possible to select either circuit-
(special coordination require-
breakers suited just to protection
ments and plant automation).
against short-circuit, or circuit-break-
They also guarantee total selectivity of the protections up
to full breaking capacity of the
circuit-breaker installed on the
ers fitted with the new SACE PR212/MP
GSIS9074
1
ances. The breaking technique used
B, N, S, H, L, V, X.
electronic release, which is technologically advanced and has been specifically studied for motor protection. The
latter integrates protection functions on
load side.
1/4
ABB SACE
The switch-disconnectors are derived from
the corresponding circuit-breakers, keeping
the overall dimensions, versions and
accessories unchanged. They guarantee
SACE Isomax S
current-limiting
circuit-breakers
operation and isolation in maximum safety
and their release device can be activated
SACE Isomax S
switch-disconnectors
1
either by the undervoltage release or by
the shunt opening release. They can also
GSIS9091
be fitted with residual current releases,
thereby constructing “pure” residualcurrent circuit-breakers.
GSIS9093
GSIS9075
SACE Isomax S
Power distribution
SACE Isomax S
for applications
up to 1000V
SACE Isomax S
according to UL/CSA
Standards
Thanks to a specific range of SACE Isomax S circuit-breakers complying
with the UL489 and CSA22.2 Standards, there are also greater possibilities for those customers operating on markets subject to the specifications defined in the North American standards.
The range consists of
seven sizes with rated uninterrupted current from 100A to 2500A and
breaking capacities, at 480 V AC, which can reach 100kA.
board the circuit-breaker which are nor-
Within the basic series, there are circuit-breakers with magnetic only
mally carried out by other devices,
releases (MCP - Motor Control Protection) for motor protection, and
thereby ensuring numerous installation
switches (Moulded-Case Switch - MCS) for use as isolators or switching
and service advantages.
devices for lines, busbars or plant parts.
SACE Isomax S
for motor protection
classical and advanced
ABB SACE
1/5
A world of success
The SACE Isomax S offer has been constantly renewed according to market
requirements – and often even anticipating these – and is always to the fore from
the technological viewpoint. Meanwhile, the quality and reliability have always
remained at the maximum levels expected and the market has shown its appreciation of this.
1
Behind every reference lies a require-
ABB SACE apparatus is also responsi-
ment fulfilled. It is facts which speak for
ble for protection (sometimes also
SACE Isomax S. SACE Isomax S is a
integrated with control functions) of
highly successful product of recog-
plants of considerable economic and
nised quality, with many fields of
technological importance, constructed
application and it involves different
within the sphere of large infrastruc-
sectors all over the world,
ture projects. Orders are processed
with either
standard or highly personalised
which stand out both for their size
products. There is nowhere electrical
(such as the pumping stations of gas
power is used where SACE Isomax S is
pipelines thousands of kilometres
not to be found: manufacturing indus-
long) and for their advanced context
tries, steelworks, refineries and
(astronomical observatories and
chemical plants, drilling rigs, gas
international research centres).
pipelines, water pipelines, hospitals,
SACE Isomax S imposes itself on the
airports, trains, railway and under-
markets worldwide. For example,
ground railway stations, calculation
apparatus has been supplied to some
centres, offices, congress centres,
of the most important European and
theatres, and skyscrapers, as well as
Middle Eastern electricity boards as
the most prestigious buildings world-
well as to North American and Asian
wide.
electrified transport companies.
Protection and control
in installations for electric
traction
ABB SACE has, moreover, acquired
knowledge which is practically
unsurpassed in application areas
where the highest degree of safety is
required, and this has qualified it as
Particularly severe
the world leader in various sectors.
environmental conditions
Thousands of ships of all types –
such as mines and steelworks
cruise ships, container ships, bulk
carriers, tankers, etc. – and flying the
flags of all nations – are equipped with
ABB SACE products, which are also
widely used in railway traction and are
the favourite product in the depths of
mines.
Refineries and chemical plants
as well as
gas pipelines, water pipelines
Installation on board ships
1/6
ABB SACE
1
Offices, theatres,
shopping malls and residential
GSIS9076
complexes
Underground railway
stations
Off-shore drilling rigs
Protection and control
of motors, generators
ABB SACE
1/7
Selection and design engineering tools,
management flexibility, services and consultancy:
an all-round offer
With the aim of guiding and facilitating selection of its products, ABB SACE
ensures 360° support, both before and after the sale. For this purpose, to design
and size electrical installations, it makes various work tools available, which
facilitate calculations, ensure compliance of the installation with the Standards
and reduce the risks of any errors.
These are basically divided into calculation, design and estimate software, and
manual tools.
1
D.O.C. (Design Optimization
The calculation methods and
& Computation) is a system
data indicated on the slide
which allows correct sizing of
rules are taken from the CEI,
industrial low voltage electri-
IEC and NFC Standards in
cal installations, able to pro-
force and from installa-
pose the most suitable design
tion practice.
–
selections regarding cables,
gineer to develop clear and
Guide to low
voltage installations is a brief
complete design documenta-
collection of le-
tion rapidly, based on the cal-
gal and techni-
culation models provided by
cal regulations
the most recent standards.
based
busbars and protection devices. It allows the design en-
–
C.A.T.
The
on
the
(Computer Aided
current stand-
Technical Selection) is both
ards, regarding
an electronic catalogue and
design, sizing
a technical aid tool for select-
and installation
ing and applying accessories
of
to each individual circuit-
plant.
breaker.
The guide takes into
By means of a guided path-
consideration the user
way, it is possible to select,
plant from the electric
configure and order the most
power delivery point (MV/LV
suitable apparatus for your
substation) in 1
own installation requirements.
systems.
Slide rules
an
electrical
st
category
colours, which make up the
Immediate ordering
and management flexibility
ABB Kits, allow rapid sizing
Rapid ordering procedures
calculations of the electrical
have been provided for cir-
installation. The following can
cuit-breakers in the SACE
be carried out:
Isomax S series, and the con-
-
Cable sizing and calcula-
figuration logic of the series
tion of the short-circuit cur-
enables efficient and flexible
rents (yellow slide rule)
warehouse management.
Checking the protections
An order file can be generated
against direct contact and
compatible with the EDIFACT
short-circuit of the cables
(Metel or ABB) standard, ready
(orange slide rule)
to be converted into EDI for-
Selective and back-up co-
mat and transmitted electroni-
ordination (green slide rule)
cally.
Four
-
-
-
of different
Sizing of motor lines and
transformer outgoing feeders (blue slide rule)
1/8
ABB SACE
1
Using EDI (Electronic Data In-
notes, under the guidance of
terchange) to send orders ra-
experts. Information and train-
tionalises the logistics chain,
ing have always been suc-
thereby reducing transit times
cess factors for professional
and the risk of errors. EDI
growth and development.
transmission allows the order
Professional refresher training
to be loaded automatically at
on both technical aspects and
ABB SACE so that the request
product developments, as well
is immediately sent to pro-
as on the standards and leg-
duction, together with the
islation, is essential, consid-
acknowledge-
ering that these have such im-
ment to the customer.
portant implications for the
The availability of
safety of people and plants.
standardised ac-
The primary aim is to meet the
order
for
information needs of profes-
g ro u p s o f c i r-
sionals, especially by convert-
cuit-breakers
ing the technical-standard
makes it pos-
and legislative concepts into
cessories
sible
to
duce
re-
practical terms which can be
the
applied directly to the various
number kept
products and installations.
in the warehouse
and
“ABB SACE Service”
short
Training courses are also pro-
procurement
vided for operators and main-
very
allow
tenance personnel who work
limited stocks
on ABB SACE apparatus and
to be kept as
systems. For this purpose and
times
be
to meet the need for evalua-
rapidly replen-
tion and maintenance of ex-
these
can
ished.
isting electrical installations,
the company has set up the
“Service Division” within its
ABB SACE
Training:
an indispensable tool
for professionals
own structure, which acts as
By means of its technical train-
the managers/users of the
ing courses, ABB SACE is
plants, to carry out mainte-
committed to putting its wealth
nance, repair and overhauling
of experience gained in over
activities at ABB SACE and on
more than 60 years of opera-
the user’s premises. The divi-
tion at disposal. The courses
sion also offers a spare parts,
are an opportunity for all op-
assembly and commissioning
erators in the sector to update
service for its own switch-
their knowledge and compare
boards.
a qualified interlocutor working in close collaboration with
1/9
Just one product for everyone
SACE Isomax S is a product which has been thought up and
constructed for all types of customers: the user, the design
engineer, the switchboard builder, the installer, the maintenance
technician and the wholesaler.
ABB SACE proposes technical solutions to the
user
which fulfil all requirements
and are always up to date
with technological innovations in the field of electrical
power distribution. It offers
high quality products,
reliability and precision,
which guarantee high
performances under any
conditions, safe products
ment of any faulty parts.
The
design engineer
has
simple installation inside the
products available which
switchboard. The whole
comply perfectly with the
range of products is divided
international technical
into eight sizes and con-
standards and which are
structed in only three depths,
able to do the job simply,
thereby allowing standardi-
safely and reliably at the
sation of the supporting
highest levels of perform-
structures and of the switch-
ance. SACE Isomax S circuit-
boards and installation in
breakers offer the design
prefabricated structures.
engineer solutions for sizing,
The dimensional uniformity
coordination and flexibility of
and the possibilities of
application which allow him
connection, thanks to the
to draw up a state-of-the-art
variety of terminal available,
project, selecting from
considerably facilitates
among well-known ranges
connections by means of
and circuit
busbars or cables.
diagrams to be
integrated in a complete
GSIS9079
necessary, simple replace-
GSIS9090
during service and, when
GSIS9092
1
system, and satisfying all
ABB SACE provides the
SACE Isomax S circuit-
to a current-limiting circuit-
installation requirements and
installer
breakers allow easy and safe
breaker).
performances according to
any type of plant, which are
maintenance to be carried
Standardisation of Isomax S
the standards.
practical to install, simple to
out, enabling the accessories
circuit-breakers and their
use, assemble and connect
to be inserted conveniently
accessories means simple
The requirements of a
and easy to check, thanks
on the front of the circuit-
and economical manage-
switchboard builder are fully
also to the quality of the
breaker.
ment of the spare parts
satisfied thanks to careful
accessories supplied with
Construction rationality as
warehouse for the
design of the product. The
the apparatus and the
well as modularity of the
saler.
limited volumes of the pieces
technical support documen-
structure, allow the
tation provided.
maintenance technician to carry out
Furthermore, the clarity of
of apparatus allow the
switchboard dimensions to
replacements without the
helps product ordering,
be kept to a minimum and
need for any special adapta-
reduces procurement times
the modularity and compact-
tion, even when changing
and allows limited stocks to
ness the ranges of products
from one type of circuit-
be kept in the warehouse
are conceived with allow
breaker to another (for
since the products can be
example from an automatic
replenished rapidly.
1/10
with products for
whole-
product coding considerably
ABB SACE
Main characteristics
Index
Panorama of the SACE Isomax S family
A single series for all applications ...................................................................................... 2/2
Construction characteristics
Distinctive features of the series ........................................................................................ 2/4
Conditions of use ................................................................................................................ 2/8
Modularity of the series SACE Isomax S ........................................................................... 2/10
Compliance with the Standards
Standards, Approvals, Certifications and company quality system ................................. 2/12
ABB SACE
2/1
2
Panorama of the SACE Isomax S family
A single series for all applications
CIRCUIT-BREAKERS FOR AC / DC DISTRIBUTION
Poles
Iu
Ue (AC)
Icu (380/415V AC)
[nr.]
[A]
[V~]
[kA]
B
N
S
H
L
V
Ue (DC)
2
CURRENT-LIMITING CIRCUIT-BREAKERS
Poles
Iu
Ue
Icu (380/415V)
Icu (690V)
CIRCUIT-BREAKERS FOR MOTOR PROTECTION
Poles
Iu
In
Ue
Magnetic only release IEC 60947-2
Electronic release PR211/P (I), IEC 60947-2
Electronic release PR212/MP, IEC 60947-4-1
[V–]
S1
3-4
125
500
S2
3-4
160
690
16
25
16
35
50
250
500
S2X 100
3
100
690
70
10
[nr.]
[A]
[A]
[V~]
S2X 80
3
80
1…80
690
-
[nr.]
[A]
[kA]
CIRCUIT-BREAKERS FOR APPLICATIONS AT 1000 V AC
Poles
Iu
Icu (1000V DC), 4 poles in series
[nr.]
[A]
[kA]
SWITCH-DISCONNECTORS according to IEC 60947-3 Standard
Poles
Ith
Ue
Icm
Icw
[nr.]
[A]
[V~]
[kA]
[kA]
2/2
SACE Isomax S2
[nr.]
[A]
[V~]
[kA]
[kA]
CIRCUIT-BREAKERS FOR APPLICATIONS AT 1000 V AC
Poles
Iu
Icu (1000V AC)
Circuit-breakers according to UL 489 and CSA 22.2 Standards
Poles
Maximum continuous current (40 °C)
Maximum Ampere Breaking Capacity (480 V)
Thermal-magnetic trip unit
Microprocessor based trip unit
MCP
MCS
SACE Isomax S1
[no.]
[A]
[kA]
S2D
3-4
125 - 160
690
3,1
2,2
S1N
3
100
20
-
ABB SACE
SACE Isomax S3
SACE Isomax S4
SACE Isomax S5
SACE Isomax S6
SACE Isomax S7
SACE Isomax S8
S3
3-4
160-250
690
S4
3-4
160-250
690
S5
3-4
400-630
690
S6
3-4
630-800
690
S7
3-4
1250-1600
690
S8
3-4
2000-2500-3200
690
35
35
35
65
85
65
100
65
100
35
50
65
100
50
65
100
85
750
-
750
750
-
S3X
3-4
125-200
690
200
75
S4X
3-4
250
690
200
75
S3 / S3X
3
160-250 / 125-200
25…200
690
S4 / S4X
3
160-250 / 250
100…250
690
-
S5
3
400-630
320…630
690
-
S6 / S6X
3
630-800 / 400-630
320..800
690
-
S4L / S4X
3
160-250 / 250
8 / 30
S5L
3
400
8
S6L / S6X
3
630-800 / 630
12 / 30
S5L
4
400
40
S6L
4
630 / 800
40 / 50
120
-
S6X
3-4
400-630
690
200
75
2
S7
3
1250-1600
1000…1600
690
-
-
S3L / S3X
3
160 / 125
6 / 30
S3L
4
160-250
40
S3D
3-4
100 - 160 - 250 - 320
690
10
6,5
S3 B/N/H/L
2-3
150 - 225
85
S3L
S3 H-D 150/225
ABB SACE
S6D
3-4
400 - 630 - 800
690
30
15
S7D
3-4
1000 - 1250 - 1600
690
52,5
25
S8D
3-4
2000-2500-3200
690
85
40
S4 N/H/L
2-3
250
100
-
S5 N/H/L
2-3
400
100
S6 N/H/L
2-3
800
100
S7H
2-3
1200
65
-
S8V
3
1600-2000-2500
100
-
S4 N/H/L
S4 H-D
S5 N/H/L
S5 H-D
S6 N/H/L
S6 H-D
S7H
S7 H-D
S8V
S8 V-D
2/3
Construction characteristics
Distinctive features of the series
Terminals
Fixed
contacts
Identification
nameplate
Arcing
chamber
Moving
contacts
Operating lever
Microprocessor-based
electronic release
2/4
GSIS9069
2
ABB SACE
GSIS9051
GSIS9048
Double insulation
Positive operation
The double insulation technique consists of total separation
The operating lever always indicates the exact position of the
between the power circuits and the auxiliary circuits and is a
circuit-breaker moving contacts, thereby guaranteeing safe and
characteristic of all SACE Isomax S apparatus from size S3 up.
reliable indications (I = Closed; O = Open; yellow-green line =
The housing of each electrical accessory is completely segre-
Open due to release trip). The circuit-breaker operating mecha-
gated from the power circuit, thus avoiding all risk of contact
nism has free release, regardless of the pressure on the lever
with live parts, thereby increasing operator safety conditions
or the speed of operation. Release tripping automatically opens
during management and inspection of the installations.
the moving contacts: to close them again, it is necessary to
Moreover, the circuit-breaker has redundant insulation be-
reset the operating mechanism by pushing the operating lever
tween the internal live parts, both regarding thickness of mate-
from the intermediate position to the lower limit of the open
rials and the distances, which are greater than those required
position.
by the IEC Standards and are in accordance with American
For plug-in or withdrawable circuit-breakers, the moving part
usage.
can only be detached from the fixed part with the circuit-breaker
2
open (moving contacts separate from the relative fixed con-
GSIS9050
GSIS0074
tacts).
Selectivity
Possibility of inspection
The complete range of releases means that the protection func-
With the circuit-breaker out of service, it is possible to check
tions of the apparatus can be coordinated according to cur-
the state of the internal parts and live components of the cir-
rent-type, time-type, energy-type or residual-current selectivity
cuit-breaker directly. The arcing chambers and the fixed and
chains. It is therefore possible to isolate only the areas affected
moving contacts are accessible simply by removing the cir-
by the fault, ensuring maximum service continuity. Circuit-break-
cuit-breaker cover. The operation, facilitated by the limited
ers in category B are available from 400 A up.
number of components, reduces maintenance times and ensures a higher degree of safety.
ABB SACE
2/5
Construction characteristics
Isolation behaviour
Racking-out with the door closed
In the open position, the circuit-breaker guarantees isolation of
This system, starting from 160 A, allows the circuit-breaker to
the circuit in compliance with the IEC 60947-2 Standard. For
be racked in and out with the compartment door closed, in-
plug-in or withdrawable version circuit-breakers, in the racked-
creasing operator safety and allowing construction of internal
out or withdrawn position, the power and auxiliary circuits are
arc proof low voltage switchboards. Racking out can only take
isolated, ensuring that no parts are live. Under these condi-
place with the circuit-breaker open, using a special racking-
tions and by means of special connectors, it is possible to
out crank handle supplied with the withdrawable version cir-
carry out blank tests, operating the circuit-breaker in complete
cuit-breaker.
safety. The redundant insulation distances guarantee the absence of leakage currents and dielectric strength in the event
GSIS9129
of any overvoltages between the input and output.
GSIS9127
2
GSIS9126
GSIS9125
Distinctive features of the series
Electromagnetic compatibility
Tropicalisation
By using SACE PR211/P, PR212/P, PR212/MP microprocessor-
The SACE Isomax S series of circuit-breakers and accessories
based overcurrent releases and SACE RC210, RC211, RC212
comply with the strictest regulations for use in hot-humid-sa-
electronic residual-current releases, the absence of unwar-
line climates (in compliance with climatograph 8 of the IEC
ranted trips is guaranteed even in the presence of interference
721-2-1 Standards), thanks to:
caused by electronic equipment, atmospheric disturbance or
– insulating cases made of fibreglass-reinforced synthetic res-
discharges of electrical type. Furthermore, the apparatus does
not generate interference with other electronic equipment in
the vicinity of the installation. This is in compliance with the IEC
ins;
– anti-corrosion treatment on all main metal parts (C UNI 356465 environment);
60947-2 Appendix F, IEC 1000-4, EN 61000-4, EN 50081-1, EN
– Fe/Zn 12 galvanisation (UNI ISO 2081), protected by a con-
50081-2, EN 50082-1, EN 50082-2 European Directive No. 89/
version layer consisting mainly of chromates (UNI ISO 4520).
336 specifications regarding electromagnetic compatibility
EMC.
2/6
ABB SACE
GSIS9062
GSIS9128
Installation positions
Mounting on DIN rail up to 630 A
The circuit-breaker can be installed in any position without any
The brackets for fixing onto standardised DIN EN 50022 rails
effect on its rated characteristics. In compliance with the IEC
for S1, S2 and DIN EN 50023 rails for S3, S4, S5 simplify assem-
60947-2 Standards, SACE Isomax S circuit-breakers can be
bly of the circuit-breakers up to 630 A in standard switchboards.
supplied through either top or bottom terminals, without jeop-
This allows standardised supporting structures to be used and
ardising operation of the apparatus.
facilitates the stage for designing and constructing the switch-
They can be installed in switchboards, mounted directly on the
board metalwork structure.
2
GSIS9130
GSIS9131
base plate or on Din rails up to size S5.
Resistance to vibration
Degrees of protection
The circuit-breakers are unaffected by vibrations generated
Different measures have been taken in SACE Isomax S circuit-
mechanically or due to electromagnetic effects, in compliance
breakers to achieve IP20 degree of protection for the fixed,
with the IEC 68-2-6 Standards and the strictest regulations of
plug-in and withdrawable version circuit-breaker, excluding
the major classification organisations:
the terminals, and IP30 for the front parts of the circuit-breakers
– RINA
installed in switchboards.
– DET Norske Veritas
The fixed parts are always provided with IP20 degree of protec-
– Lloyd’s Register of Shipping
tion. It is possible to achieve IP54 degree of protection in ac-
– Germanischer Lloyd
cordance with the IEC 60529 Standard with the circuit-breaker
– Bureau Veritas.
installed in a switchboard fitted with rotary handle operating
mechanism transmission on the compartment door and the
special insulation gaskets which can be ordered separately.
ABB SACE
2/7
Construction characteristics
Conditions of use
Degrees of protection (according to CEI EN 60529 Standard file 519)
Circuit-breaker
Circuit-breaker in switchboard
IP20
IP30
Direct operating mechanism
GSIS9082
2
GSIS9081
GSIS9080
IP30
Front for lever operating mechanism
without terminal covers
IP40 (1)
IP30
GSIS9085
Direct rotary handle
GSIS9084
GSIS9083
IP50
Rotary handle transmission
with terminal covers
IP54
IP40
with terminal covers
and direct rotary handle
Motor operator
(1) IP30 for withdrawable circuit-breakers
2/8
GSIS9088
Special IP54 protection
GSIS9087
GSIS9086
IP30 (2)
(2) IP40 for S1-S2 and S6-S7 circuit-breakers
ABB SACE
Operating temperature
SACE Isomax S circuit-breakers can be used in ambient con-
temperature but, in the case of temperatures higher than 40
ditions where the temperature in the surrounding atmosphere
°C, the maximum setting of the protection against overloads
varies between -25 °C and +70 °C and stored in ambients with
(function L) must be reduced to take into consideration inertial
temperatures between -40 °C and +70 °C.
phenomena that occur in the copper parts of the circuit-
The circuit-breakers fitted with thermomagnetic overcurrent
breaker through which the phase current passes (moving and
release have their thermal element set for a reference tem-
fixed contacts, and connection terminals) which cause a de-
perature
crease in the rated uninterrupted current as indicated in the
of +40 °C.
5/34.
For temperatures between +40 °C and +70 °C, with the same
table on page
setting, there is lowering of the thermal trip threshold due to
The performances of the circuit-breaker cannot be guaran-
the temperature-related behaviour of the bimetallic strip of the
teed for temperatures above +70 °C.
release itself.
To ensure service continuity of the installations, careful thought
For temperatures lower than +40 °C, on the other hand, there
must be given as to how to keep the temperature within ac-
is an increase in the thermal trip threshold as indicated in the
ceptable levels for operation of all the various devices and not
table on page
5/39.
only the circuit-breakers. For example, forced ventilation in
The electronic microprocessor-based overcurrent releases
the switchboards and in the areas where they are installed
do not undergo any variations in performance with changes in
may be necessary.
Altitude
Up to an altitude of 2000 m SACE Isomax S circuit-breaker
the rated uninterrupted current.
rated performances are unaffected.
As the altitude increases, the atmospheric properties change
in terms of composition, dielectric strength, cooling capacity
and pressure.
The circuit-breakers therefore undergo derating, which can
Altitude
[m]
2000
3000
4000
Rated service voltage, Ue
[V~]
690
600
500
Rated uninterrupted current, Iu
%Iu
100%
95%
90%
basically be measured through the change in significant parameters such as the rated maximum operating voltage and
ABB SACE
2/9
2
Construction characteristics
Modularity of the series SACE Isomax S
Starting from the fixed version circuit-breaker and by means of
– the bracket for rear fixing onto DIN EN 50022 rail for S1-S2
mounting the conversion kit, all the other versions which are
circuit-breakers, DIN EN 50023 rail for S3-S4-S5 circuit-break-
used for the various requirements are obtained.
The following are available:
– kit for conversion from fixed circuit-breaker to moving part of
a plug-in or withdrawable circuit-breaker
– conversion kit for the connection terminals which make it
ers
– direct action motor operator, with stored energy and with
solenoid.
– rotary handle operating mechanisms directly on the circuitbreaker and with transmission on the compartment door
possible to obtain front and rear terminals for Copper or
– residual-current releases
Aluminium cables, and front and rear terminals for flat bar
– accessories for microprocessor-based overcurrent releases
terminals.
Various accessories are also available:
– shunt opening releases
such as the signalling, dialogue and actuation unit and external CTs.
– the fixed parts for plug-in or withdrawable circuit-breakers
– undervoltage releases
with front terminals for cables or for flat bars and rear termi-
– auxiliary contacts
nals for flat bars.
– position contacts
2
2/10
ABB SACE
GSIS0159
2
ABB SACE
2/11
Compliance with the Standards
Standards, Approvals, Certifications and company quality
system
SACE Isomax S circuit-breakers and their
The attention paid to protecting the en-
accessories comply with the IEC 60947-
vironment is another important priority
2, EN 60947-2 (unified in 17 countries
for ABB SACE, and as confirmation of
of CENELEC), CEI EN 60947 and IEC
this, the environmental management
61000 international Standards and con-
system has been certified by RINA.
form with the EC directive:
– “Low Voltage Directives” (LVD)
no. 73/23 EEC
– “Electromagnetic Compatibility Directive” (EMC) no. 89/336 EEC.
GSIS9119
Certification of compliance with the
above-mentioned product Standards, is
carried out, in respect of the European
EN 45011 Standard, by the
2
GSIS9132
Italian certification organisation, ACAE (Association for
Certification of Electrical Apparatus),- member of the European organisation LOVAG
(Low
Vo l t a g e
A g re e m e n t
ABB SACE was the first industrial com-
Group).
pany in the electro-mechanical sector
in Italy to obtain this recognition, and,
thanks to a revision of its production
process with an eye to ecology, has
managed to reduce consumption of raw
materials, processing waste and the risk
of accidents by 20%.
ISO 9001
The attention paid to protecting the environment and to the safety of workers is
GSIS9119
a priority commitment of ABB SACE and
as confirmation of this, the company developed the Environmental Management
System in compliance with the InternaThe ABB SACE Quality System complies
tional ISO 14001 Standard, certified in
with the International ISO 9001 Stand-
1997, integrating this in 1999 with the
ard (model for assuring quality in design,
Health and Safety in the Workplace Man-
development, construction, installation
agement System in accordance with BS
and assistance) and to the equivalent
8800 (British Standards).
European EN ISO 9001 and Italian UNI
EN ISO 9001 Standards.
The prizes obtained by ABB SACE at the
The certification Organisation is RINA-
Forum Design in Hannover and at
QUACER.
Electro in Paris bear witness to the consideration given to man and the respect
ABB SACE obtained its first certification
for ergonomic criteria.
in 1990.
The ABB SACE Test Room is accredited
by SINAL. The apparatus complies with
the prescriptions for on-board installations and is approved by major Shipping
Registers, such as: LLOYD’S REGISTER
OF SHIPPING, GERMANlSCHER LLOYD,
BUREAU VERITAS, RINA, DET NORSKE
GSIS9118
VERITAS, POLSKI REIESTR STATKOW
2/12
Please contact ABB SACE for information
regarding the types of circuit-breakers ap-
and the AMERICAN BUREAU OF SHIP-
proved, the performances approved and
PING.
their relative validity.
ABB SACE
The ranges
Index
SACE Isomax S circuit-breakers for power distribution ........................................... 3/3
Electrical characteristics IEC 60947-2 .............................................................................. 3/4
General characteristics ..................................................................................................... 3/6
Thermomagnetic releases ................................................................................................. 3/8
Electronic releases ............................................................................................................ 3/10
SACE Isomax S current-limiting circuit-breakers ...................................................... 3/15
Electrical characteristics IEC 60947-2 .............................................................................. 3/16
General characteristics ..................................................................................................... 3/18
SACE Isomax S circuit-breakers for motor protection
(protection against short-circuit) .................................................................................. 3/23
Electrical characteristics IEC 60947-4 .............................................................................. 3/24
General characteristics ..................................................................................................... 3/26
SACE Isomax S circuit-breakers for motor protection
(integrated protection) .................................................................................................... 3/28
Electrical characteristics IEC 60947-2 and IEC 60947-4 ................................................. 3/28
General characteristics ..................................................................................................... 3/30
SACE Isomax S circuit-breakers for applications up to 1000V ................................ 3/35
Electrical and general characteristics IEC 60947-2 ......................................................... 3/36
SACE Isomax S switch-disconnectors ........................................................................ 3/39
Electrical and general characteristics IEC 60947-3 ......................................................... 3/40
SACE Isomax S circuit-breakers in accordance with UL489 and CSA C22.2
Standards .......................................................................................................................... 3/43
Electrical and general characteristics ............................................................................... 3/44
ABB SACE
3/1
3
Circuit-breakers for power
distribution
Eight sizes to optimise use for all plant and
installation requirements
690V • 125-3200 A • 16-120 kA (380/415 V)
GSIS9063
3
3/3
SACE Isomax S circuit-breakers
for power distribution
SACE Isomax S2
SACE Isomax S3
[A]
Nr.
125
3-4
160
3-4
160 - 250
3-4
[V]
[V]
500
250
690
500
690
750
[kV]
[V]
6
500
6
690
8
800
(AC) 50-60Hz
(DC)
Rated impulse withstand voltage, Uimp
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
Rated ultimate short-circuit breaking capacity, Icu
3
GSIS9135
SACE Isomax S1
Rated uninterrupted current, Iu
Poles
Rated service voltage, Ue
GSIS9134
GSIS9133
Electrical characteristics IEC 60947-2
[V]
B
3000
N
B
3000
N
S
N
3000
H
L
(AC) 50-60 Hz 220/230 V
(AC) 50-60 Hz 380/415 V[kA]
[kA]
25
16
40
25
25
16
50
35 (1)
65
50
65
35 (1)
100
65
170
85
(AC) 50-60 Hz 440 V
(AC) 50-60 Hz 500 V
[kA]
[kA]
10
8
16
12
10
8
20
12
25
15
30
25
50
40
65
50
(AC) 50-60 Hz 690 V
(DC) 250 V - 2 poles in series
[kA]
[kA]
16
25
6
16
8
35
10
50
14
35
18
65
20 (5)
85
(DC) 500 V - 2 poles in series
(DC) 500 V - 3 poles in series
[kA]
[kA]
-
-
16
35
50
35
-
50
-
65
-
50%
50%
100%
75%
75%
20
100%
35
75%
50
75%
32
8
52,5
6
32
8
74
7
105
6
74
8
143
7
187
6
(DC) 750 V - 3 poles in series
Rated short-circuit service breaking capacity, Ics (2)
[kA]
[%Icu]
Rated short-circuit making capacity (415 V)
Opening time (415V at Icu)
[kA]
[ms]
Rated short-time withstand current for 1 s, Icw
Utilisation category (EN 60947-2)
[kA]
A
A
A
fixed
F-P
FC-R
F-P
EF - FC - FC CuAl - R
F-P-W
F- EF - ES - FC
plug-in
FC-R
FC - R
FC CuAl - RC - R
EF - FC - R
-
-
EF - FC - R
Isolation behaviour
IEC 60947-2, EN 60947-2
Releases: thermomagnetic
T fixed, M fixed 5 Ith
T fixed, M fixed 10 Ith
T adjustable, M fixed 3 Ith
T adjustable, M fixed 5 Ith
T adjustable, M fixed 10 Ith
T adjustable, M adjustable
magnetic only
with microprocessor
M fixed
PR211/P (I-LI)
PR212/P (LSI-LSIG)
Interchangeability
Versions
Terminals
withdrawable (3)
Fixing on DIN rail
Mechanical life
[No. operations / hourly operations]
DIN EN 50022
25000/240
DIN EN 50022
25000/240
DIN EN 50023
25000/120
Electrical life (at 415 V)
Basic dimensions, fixed
[No. operations / hourly operations]
3/4 poles
L [mm]
8000/120
78/103
8000/120
90/120
10000(160A)-8000(250A)/120
105/140
70
120
70
120
103,5
170
[kg]
[kg]
0,9 /1,2
1 / 1,4
1,1/1,5
1,3/1,7
2,6 / 3,5
3,1 / 4,1
[kg]
-
-
3,5 / 4,5
D [mm]
H [mm]
Weights fixed
plug-in
withdrawable
3/4 poles
3/4 poles
3/4 poles
(1)
All the versions with Icu=35kA are certified at 36kA
(2)
For S3 N/H/L, S4 N/H/L, S5 N/H, and S6 N/S/H circuit-
with the front flange for the lever operating mechanism or
breakers the performance percentage of Ics at 690V is
with its alternative accessories, such as the rotary handle
reduced by 25%.
or the motor operator
3/4
(3)
The withdrawable version circuit-breakers must be fitted
(4)
For the S5 circuit-breaker, the plug-in version is only
(5)
The SACE S3 circuit-breaker with breaking capacity L at
available for the version with 400 A rated current
690 V can only be supplied from above
ABB SACE
SACE Isomax S6
SACE Isomax S7
SACE Isomax S8
160 - 250
3-4
400 - 630
3-4
630 - 800
3-4
1250 - 1600
3-4
2000 - 2500 - 3200
3-4
690
-
690
750
690
750
690
-
690
-
8
800
8
800
8
800
8
800
8
690
3000
GSIS9136
GSIS9098
SACE Isomax S5
GSIS9096
GSIS9097
GSIS9095
SACE Isomax S4
N
3000
H
L
N
3000
H
L
N
S
H
L
S
3000
H
L
H
V
65
35 (1)
100
65
200
100
65
35 (1)
100
65
200
100
65
35 (1)
85
50
100
65
200
100
85
50
100
65
200
100
85
85
120
120
30
25
50
40
80
65
30
25
50
40
80
65
30
25
45
35
50
40
80
65
40
35
55
45
80
70
70
50
100
70
18
-
22
-
30
-
20
35
25
65
30
100
20
35
22
50
25
65
30
100
20
-
25
-
35
-
40
-
50
-
-
-
-
35
-
50
-
65
-
20
-
35
-
50
-
65
-
-
-
-
-
-
100%
100%
75%
20
100%
35
100%
50
75%
100%
75%
50%
50%
50%
74
8
143
7
220
6
74
8
143
7
220
6
105
22
143
22
220
22
187
20
264
20
16
20
35
50
100% 100% 100% 75%
74
10
105
9
143
8
220
7
2500
3
A
5 (400A)
B (400A) - A (630A)
7,6 (630A) - 10 (800A)
B
15 (1250A) - 20 (1600A)
B
35
B
F-P-W
F - EF - ES - FC
F - P (400) - W
F - EF(400A) - ES - FC
F-W
F - EF - ES - FC CuAl
F-W
F - EF - ES - FC CuAl (1250A)
F
F (2000-2500A) - VR
FC CuAl - RC - R
EF - FC - R
FC CuAl (400A)-RC (400A)-R
EF - FC - R
RC - R
-
HR - VR
-
-
EF - FC - R
EF(400A) - ES - FC (400A)
R - VR (630A)
EF - HR - VR
EF - HR - VR
-
DIN EN 50023
20000/120
DIN EN 50023
20000/120
20000/120
10000/120
10000/20
10000(160A)-8000(250A)/120
105/140
7000(400A)-5000(630A)/60
140/184
7000(630A)-5000(800A)/60
210/280
7000(1250A)-5000(1600A)/20
210/280
2500(2500A)/20-1500(3200A)/10
406/556
103,5
254
103,5
254
103,5
268
138,5
406
242
400
4 / 5,3
4,5 / 5,9
5/7
6,1 / 8,4
9,5 / 12
-
17 / 22
-
57/76
-
6,4 / 8,7
12,1 / 15,1
21,8 / 29,2
-
4,9 / 6,3
KEY TO VERSIONS
F = Fixed
P = Plug-in
W = Withdrawable
ABB SACE
KEY TO TERMINALS
F = Front
EF = Extended front
ES = Extended spreaded front
FC = Front for copper cables
RC = Rear for copper or aluminium cables
FC CuAl = Front for copper or aluminium cables
HR = Rear horizontal flat bar
R = Rear threaded
VR = Rear vertical flat bar
3/5
SACE Isomax S circuit-breakers
for power distribution
General characteristics
The SACE Isomax S series of moulded-case circuit-breakers conforming to the IEC
60947-2 Standard, is divided into eight basic sizes, with rated uninterrupted currents
from 125 to 3200 A and breaking capacities from 16 to 120 kA (380/415 V).
Selection of the size allows the basic electrical characteristics to be identified simply and immediately, whereas selection of the overcurrent release depends on the
type of application required.
Range of application of the alternating current circuit-breakers
GSIS0078
3
For protection of alternating current networks, SACE S1, S2, and S3 circuit-breakers fitted with thermomagnetic releases
KEY
TM = Thermomagnetic
M = Magnetic only
PR211-PR212 = Electronic releases
and SACE S4, S5, S6, S7, and S8 circuitbreakers fitted with SACE PR211/P or
PR212/P electronic releases are available. These are characterised by an application range from 10 to 3200 A and by
a rated voltage of 690 V.
3/6
ABB SACE
Range of application of the direct current circuit-breakers
GSIS0079
3
SACE S1, S2, S3, S5, and S6 circuit-
capacities up to 100 kA (250 V DC) and
breakers fitted with thermomagnetic re-
65 kA (500 V DC); whereas the SACE
leases are used in protection of direct
S3, S5, and S6 circuit-breakers with 3
current networks, with an application
poles in series can reach 750 V and
range from 10 to 800 A and a minimum
breaking capacities up to 50 kA.
operating voltage of 24 V DC.
The various possible wiring diagrams
With 2 poles in series, SACE Isomax S
and the trip threshold correction factors
circuit-breakers can be used with rated
are indicated on page 5/47.
KEY
TM = Thermomagnetic
M = Magnetic only
voltage of 250 and 500 V and breaking
ABB SACE
3/7
SACE Isomax S circuit-breakers
for power distribution
Thermomagnetic releases
SACE Isomax S1, S2, S3, S5, and S6 circuit-breakers can be
fitted with thermomagnetic releases and are used for protection of alternating current networks with the S1, S2, and S3
circuit-breakers (for applications from 10A to 250A) and in
direct current with the S1, S2, S3, S5, and S6 circuit-breakers
(from 10A to 800A). They allow protection against overloads
using a thermal device (with fixed threshold for S1 and adjustable threshold for S2, S3, S5, and S6) carried out using the
GSIS9058
bimetallic strip technique, and protection against short-circuit
using a magnetic device (with fixed threshold for S1, S2, and
S3 and adjustable threshold for S5 and S6).
The four-pole circuit-breakers are always fitted with the neutral protected by the release.
3
Thermomagnetic releases
L1 - L2 - L3
R10
R12,5
R16
R20
R25
R32
R32
R40
R50
R50
R63
R80
R100
R125
R125
neutral
R10
R12.5
R16
R20
R25
R32
R32
R40
R50
R50
R63
R80
R100
R125
R80
S1 125
S2 160
S3 160
S3 250
S5 400
S5 630
S6 630
S6 800
10 x Ith L1-L2-L3
5 x Ith
3 x Ith
500
500
500
500
500
500
500
500
500
500
630
800
1000
1250
1250
neutral
500
500
500
500
500
500
500
500
500
500
630
800
1000
1250
800
L1-L2-L3
160
160
160
200
200
200
300
200
250
300
320
400
500
630
630
neutral
160
160
160
200
200
200
300
200
250
300
320
400
500
630
400
L1-L2-L3
300
375
neutral
300
240
TM adjustable
L1-L2-L3
neutral
3/8
ABB SACE
Magnetic only releases
L1 - L2 - L3
R16
R40
R50
R50
R63
R80
R100
R125
R125
R125
R160
R200
R250
neutral
R16
R40
R50
R50
R63
R80
R100
R125
R80
R80
R100
R125
R160
L1-L2-L3
500
500
630
800
1000
1250
1250
1250
1600
2000
2500
neutral
500
500
630
800
1000
1250
800
800
1000
1250
1600
S1 125
S2 160
S3 160
S3 250
10 x Ith
5 x Ith
L1-L2-L3
160
200
250
300
320
400
630
neutral
160
200
250
300
320
400
400
The magnetic only releases which equip the SACE
S1, S2, and S3 circuit-breakers have a fixed trip
threshold as indicated in the table. For S1, the magnetic only release is available in the version with
breaking capacity N = 25 kA; for S2, breaking capacities N = 36 kA and S = 50 kA are available. The
GSIS0068
latter version is only available in the 10 x Ith version.
R160
R200
R250
R320
R400
R500
R630
R800
R100
R125
R160
R200
R250
R320
R400
R500
3
The letter “R” identifies the setting current for phase (L1-L2-L3) and neutral protection
(second line). The ones indicated are the combinations provided as standard.
On request, circuit-breakers with neutral at 100% of the phase setting can be supplied.
The thermomagnetic releases which equip the SACE
S2 and S3 circuit-breakers have the thermal element
with threshold adjustable from 0.7 ÷ 1 x In. The regulated current value which is obtained by using the
appropriate selector must be intended as the rated
threshold, with trip values which vary according to
the phase setting.
The S2 circuit-breaker with breaking capacity S = 50 kA
GSIS0069
value at 40 °C. The magnetic element has fixed trip
is only available in the 10 x Ith version.
The thermomagnetic releases which equip SACE S5
and S6 circuit-breakers have the thermal element with
threshold adjustable from 0.7 ÷ 1 x In. The regulated
current value which is obtained by using the appropriate selector must be intended as the rated value at
5 ÷ 10 x In. The table gives the maximum magnetic
trip values (10 x In) for protection of the phases (L1
- L2 - L3) and of the neutral.
1600
2000
2500
1000
1250
1600
800
1000
1250
500
625
800
480
600
750
300
375
480
GSIS0070
40 °C. The magnetic element can be adjusted from
The trip thresholds of the magnetic protection are a function of the setting used both
for protection of the phases (L1 - L2 - L3) and of the neutral. The releases denominated
10 x Ith are indicated for all distribution applications, whereas the releases denominated 5 x Ith and 3 x Ith are used where a low magnetic trip threshold is required. With
ABB SACE
regard to this, the 3 x Ith are particularly suitable for protection of generators.
3200
4000
5000
6300
8000
2000
2500
3200
4000
5000
3/9
SACE Isomax S circuit-breakers for power
distribution
Electronic releases
The SACE Isomax S4, S5, S6, S7 and S8 circuit-breakers for protection in alternating
current can be fitted with SACE PR211/P or SACE PR212/P overcurrent releases,
constructed using electronic microprocessor-based technology. This allows protection functions to be obtained which guarantee a high level of reliability and tripping precision and which are unaffected by the external ambient. The power supply
needed for correct operation is supplied directly by the release current transformers,
in the presence of a phase current higher than or equal to 18% of their rated current,
GSIS9060
even with a single phase supplied with voltage. There is only one adjustment for all
the phases and the neutral and the release is simultaneous for all the circuit-breaker
poles, with trip characteristics which are unaffected by the external ambient. The
functions and settings of the release protections can be verified by means of the
SACE TT1 and SACE PR010/T Test units.
3
SACE PR211/P
SACE PR212/P
The SACE PR211/P release (available
The SACE PR212/P release (available
PR212/T actuator unit which is always
from S4 to S7) provides protection func-
from S4 to S8) provides protection func-
supplied when the dialogue unit is re-
tions against overload L and instanta-
tions against overload L, delayed short-
quired.
neous short-circuit I, and is available in
circuit S and instantaneous short-circuit
It is particularly suitable in applications
the versions with functions I and LI.
I, and against earth fault G. It is available
with selective coordination require-
The wide range of adjustments make this
in the
versions PR212/P with functions
ments, for earthing protection against the
release particularly suitable in all distri-
LSI and LSIG; both allow use of the
risk of fire and evolutionary faults, and
bution where tripping reliability and pre-
PR010/K signalling unit, the PR212/D
for remote control and parametrisation,
cision is required and where magnetic
dialogue unit and the PR212/T actuator
network supervision and centralised
only protection is needed (from 1.5 to
unit, which can be used either simulta-
load management.
12 x In), using the SACE PR211/P ver-
neously or individually, except for the
sion I release.
In
100 A
160 A
250 A
320 A
L
40÷100
64÷160
100÷250
128÷320
S
100÷1000
160÷1600
250÷2500
320÷3200
I
150÷1200
240÷1920
375÷3000
480÷3840
G
20÷100
32÷160
50÷250
64÷320
neutral (50%)
20÷50
32÷80
50÷125
64÷160
neutral (100%)
40÷100
64÷160
100÷250
128÷320
S4 160
S4 250
S5 400
S5 630
S6 630
S6 800
S7 1250
S7 1600
S8 2000
S8 2500
S8 3200
3/10
ABB SACE
For four-pole circuit-breakers fitted with
The protection release consists of cur-
coincides with circuit-breaker opening.
SACE PR212/P release (LSI-LSIG), pro-
rent transformers (three or four accord-
All the protection functions with relative
tection of the neutral can be set to 50%
ing to the circuit-breaker polarity), the
trip times can be verified and tested us-
or 100% of the phase protection setting
SACE PR211/P or SACE PR212/P pro-
ing the SACE PR010/T accessory unit
(by means of dip-switches on the front
tection unit and an OS demagnetising
(only for PR212/P).
of the release).
opening solenoid which acts directly on
In the versions with SACE PR212/P - LSI/
For those with SACE PR211/P release (I-
the circuit-breaker operating mecha-
LSIG release, it is possible to set the
LI), protection of the neutral at 100% can
nism group.
adjustment parameters of the protection
be ordered by means of an additional
The current transformers are housed
functions directly from the front (dip-
code 1SDA037505R1.
inside the release box and supply the
switch positioned on MAN), or to set the
With three-pole and distributed neutral
energy needed for correct operation of
parameters remotely (dip-switch posi-
circuit-breakers, external toroids can be
the protection and the signal required to
tioned on ELT) thanks to the use of the
used by connecting these directly either
determine the current. They are avail-
SACE PR212/D dialogue units.
to the SACE PR211/P release, or to the
able with primary rated current as indi-
In case of any anomalies in remote
SACE PR212/P release. On request, it is
cated in the table below.
parametrisation, the protection auto-
possible to obtain full protection of the
When the protection intervenes, the cir-
matically uses the set of parameters set
neutral with setting equal to 100% of the
cuit-breaker opens by means of the
manually on the front of the circuit-
protection.
opening solenoid (OS), which changes
breaker.
The SACE PR211/P and SACE PR212/P
over a contact for signalling release
The PR010/K signalling or PR212/D dia-
microprocessor-based releases are
tripped. Resetting the signal is of me-
logue units supply the PR212/P (24 VDC
self-supplied and ensure correct opera-
chanical type and takes place with re-
±20%) protection release continuously
tion of the protection functions, even with
setting of the circuit-breaker operating
and this allows the adjustment param-
only a single phase supplied with volt-
lever.
eters to be set even with the circuit-
age, in the presence of a current higher
It is possible to test the opening sole-
breaker open.
than or equal to 18% of the rated phase
noid (OS) by means of the SACE TT1
value.
test device. A positive result of the test
400 A
630 A
800 A
1000 A
1250 A
1600 A
2000 A
2500 A
3200 A
160÷400
252÷630
320÷800
400÷1000
500÷1250
640÷1600
800÷2000
1000÷2500
1280÷3200
400÷4000
630÷6300
800÷8000
1000÷10000
1250÷12500
1600÷16000
2000÷20000
2500÷25000
3220÷32000
600÷4800
945÷7560
1200÷9600
1500÷12000
1875÷15000
2400÷19200
3000÷24000
3750÷30000
4800÷38400
80÷400
126÷630
160÷800
200÷1000
250÷1250
320÷1600
400÷2000
500÷2500
640÷3200
80÷200
126÷315
160÷400
200÷500
250÷625
320÷800
400÷1000
500÷1250
640÷1600
160÷400
252÷630
320÷800
400÷1000
500÷1250
640÷1600
–
–
–
ABB SACE
3/11
3
SACE Isomax S circuit-breakers
for power distribution
Electronic releases
Protection functions and parametrisation of the SACE PR211/P, PR212/P releases
Protection function
Trip threshold
I1 = 0,4 - 0,5 - 0,6 - 0,7 - 0,8 - 0,95 - 1 x In PR211/P (I - LI)
Against overload with inverse long time
delay and trip characteristic according to
a time dependent curve (I2t = constant)
I1 = 0,4 - 0,5 - 0,55 - 0,6 - 0,65 - 0,7 - 0,75 - 0,8 - 0,85 - 0,875 0,9 - 0,925 - 0,95 - 0,975 - 1 x In PR212/P (LSI - LSIG)
CANNOT
BE EXCLUDED
Release between 1,05 ... 1,30 x I1 (IEC 60947-2)
I2t=cost
ON
Against short-circuit with inverse short
time delay and trip characteristic with
dependent time (I2t = constant) or
independent time
CAN
BE EXCLUDED
I2 = 1 - 2 - 3 - 4 - 6 - 8 - 10 x In
Tolerance + 10%
I2t=cost
OFF
I2 = 1 - 2 - 3 - 4 - 6 - 8 - 10 x In
Tolerance + 10%
I3 = 1,5 - 2 - 4 - 6 - 8 - 10 - 12 x In (*)
Against short-circuit with adjustable
instantaneous trip
CAN
BE EXCLUDED
3
CAN
BE EXCLUDED
Against earth fault with short inverse
time delay and trip characteristic
according to a dependent time curve
(I2t = constant)
Tolerance + 20%
(*) For S5 630, I3 max = 8 x In
I4 = 0,2 - 0,3 -0,4 - 0,6 - 0,8 - 0,9 - 1xIn
Tolerance + 20%
SACE PR211/P electronic release, functions I or LI
Protection I
Against overload
Against short-circuit with
instantaneous trip
Socket for Test
SACE TT1 Test unit
GSIS9054
Protection L
3/12
ABB SACE
Characteristics of SACE PR211/P,
SACE PR212/P electronic releases
Trip curves
A
B
C
D
Operating temperature
–25 °C ÷ +70 °C
at 6 x I1
t1 = 3s
at 6 x I1
t1 = 6s
at 6 x I1
t1 = 12s
at 6 x I1
t1 = 18s
Relative humidity
90%
Service frequency
45 ... 66 Hz
able to measure
harmonics
up to 550 Hz
(tolerance: + 10% up to 2 x In; + 20% above 2 x In)
at 8 x In
at 8 x In
at 8 x In
at 8 x In
t2 = 0,05s
t2 = 0,1s
t2 = 0,25s
t2 = 0,5s
(tolerance: + 20% )
t2 = 0,05s
t2 = 0,1s
t2 = 0,25s
t2 = 0,5s
(tolerance: + 20% )
Electromagnetic compatibility (LF and HF) IEC 60947-2 Annex F
Electrostatic discharges
IEC 61000-4-2
Radiated electromagnetic field
IEC 61000-4-3
Short-time transients
IEC 61000-4-4
Mean time between failure (MTBF)
15 years (at 45 °C)
Characteristics of the signalling contact
Maximum interrupted current
0,5 A
Maximum interrupted voltage
24 VDC/AC
up to 3,25 x I4
up to 2,25 x I4
up to 1,6 x I4
up to 1,25 x I4
Breaking capacity
3 W/VA
t4 = 100ms
t4 = 200ms
t4 = 400ms
t4 = 800ms
Contact/contact insulation
500 VAC
Contact/coil insulation
1000 VAC
(tolerance: + 20% )
3
SACE PR212/P electronic release, functions LSI or LSIG
Protection L
Protection S
Protection I
Protection G
Against overload
Against short-circuit
with delayed trip
Against short-circuit
Against earth fault
ABB SACE
selection for electronic
or manual setting
dip-switch for
setting the neutral
GSIS9056
Socket for Test
SACE TT1 Test unit
with instantaneous trip
Socket for connection of
SACE PR010/T Test unit
3/13
SACE Isomax S current-limiting
circuit-breakers
To interrupt and “limit” even
the worst faults
690V • 100-630A • 70-200kA (380/415 V)
GSIS9064
3
3/15
SACE Isomax S current-limiting
circuit-breakers
GSIS9137
Electrical characteristics IEC 60947-2
SACE Isomax S2X 100
Rated uninterrupted current, Iu
Poles
[A]
No.
100
3
Rated service voltage, Ue (AC) 50-60Hz
Rated impulse withstand voltage, Uimp
[V]
[kV]
690
6
[V]
690
3000
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
[kA]
X
100
(AC) 50-60 Hz 380/415 V
(AC) 50-60 Hz 440 V
[kA]
[kA]
70
70
(AC) 50-60 Hz 500 V
(AC) 50-60 Hz 690 V
[kA]
[kA]
50
10
Rated ultimate short-circuit breaking capacity, Icu
(AC) 50-60 Hz 220/230 V
3
Rated service short-circuit breaking capacity, Ics (1)
Rated short-circuit making capacity (415 V)
Opening time (415V at Icu)
Utilisation category (EN 60947-2)
[%Icu]
[kA]
75%
154
[ms]
3,5
A
Isolation behaviour
IEC 60947-2, EN 60947-2
Releases:
thermomagnetic - T adjustable, M fixed 10 Ith
with microprocessor PR211/P (I-LI)
with microprocessor PR212/P (LSI-LSIG)
Interchangeability
Versions
Terminals
F-P
EF - FC - FC CuAl - R
fixed
FC-R
-
plug-in
withdrawable
DIN EN 50022
25000/240
Fixing on DIN rail
Mechanical life
Electrical life (at 415 V)
Basic dimensions, fixed
Weights, 3/4 poles
[No. operations / hourly operations]
[No. operations / hourly operations]
L (3/4 poles)
D
[mm]
[mm]
H
fixed
[mm]
[kg]
plug-in
withdrawable
70
120
1,1/1,5
1,3/1,7
[kg]
[kg]
-
(1) The value of Ics at 500V and 690V for S3X, S4X and S6X is reduced by 25%
KEY TO VERSIONS
(2) For S3X with R32 setting:
Icu (690V) = 50 kA and Ics = 100% Icu
F = Fixed
Icu (500V) = 75 kA and Ics = 100% Icu
P = Plug-in
(3)
3/16
8000/120
90/120
S3X at 690V can only be supplied from above
W = Withdrawable
ABB SACE
GSIS9100
GSIS9099
GSIS9138
SACE Isomax S3X
SACE Isomax S4X
SACE Isomax S6X
125-200
3-4
250
3-4
400-630
3-4
690
8
690
8
690
8
800
3000
800
3000
800
3000
X
300
X
300
X
300
200
180
200
180
200
180
150
75 (2)(3)
150
75
150
75
100%
440
100%
440
100%
440
3,5
A
3,5
A
3,5
A
F-P-W
F - EF - ES - FC - FC CuAl - RC - R
F-P-W
F - EF - ES - FC - FC CuAl - RC - R
F-W
F - EF - ES - FC CuAl - RC - R
EF - R
EF - R
EF - R
EF - R
EF - HR - VR
DIN EN 50023
25000/120
DIN EN 50023
20000/120
20000/120
10000(125A)-8000(200A) / 120
105/140
800 / 120
105/140
7000(630A)-5000(800A)/60
210/280
103,5
255
103,5
339
103,5
268
3,6 / 4,8
6,3 / 8,7
5/7
8,2 / 10,7
9,5 / 12
-
7,1 / 9,5
9 / 11,5
12,1 / 15,1
KEY TO TERMINALS
FC = Front for copper cables
RC = Rear for copper or aluminium cables
F = Front
FC CuAl = Front for copper or aluminium
HR = Rear horizontal flat bar
EF = Extended front
cables
VR = Rear vertical flat bar
ES = Extended spreaded front
R = Rear threaded
ABB SACE
3
3/17
SACE Isomax S current-limiting
circuit-breakers
General characteristics
SACE Isomax S2X 100 - S3X - S4X - S6X current-limiting
circuit-breakers
These pieces of apparatus are characterised by a rated voltage Ue of 690 V AC, by
rated uninterrupted currents from 100 A to 630 A, by service currents from 1 to 630 A
and by an ultimate short-circuit breaking capacity up to 200 kA at 380/415 V AC and
75 kA at 690 V AC.
The circuit-breakers, which comply with IEC 60947-2 Standards, are available in the
three- and four-pole type (only three-pole for S2X 100) in the fixed, plug-in and
withdrawable versions.
The function carried out by the current-limiting circuit-breakers is to “limit” the specific let-through energy to a maximum in the case of short-circuit, safeguarding the
integrity of the circuits and of the apparatus located on the load side.
The breaking system used, which foresees double interruption per pole, allows very
GSIS9028
high value short-circuits to be interrupted extremely rapidly.
Moreover, the special shape of the interruptive parts allows the peak values of fault
currents to be limited to figures considerably lower than those of the short-circuit
current present at the point of installation.
For the circuit-breakers on the load side, the rapidity of opening notably reduces
exposure to the electrodynamic stresses which occur in the case of a fault.
Integration with the SACE Isomax S family
The range of current-limiting circuit-
application flexibility which allows all
For S3X, S4X and S6X, conversion from
breakers has been conceived as a prod-
low voltage application requirements to
the fixed circuit-breaker into the mov-
uct aimed at particularly severe require-
be covered.
ing part of plug-in or withdrawable cir-
ments, but comes within the sphere of
In the SACE Isomax S series, the cur-
cuit-breaker is carried out by means of
the general SACE Isomax S project in
rent-limiting circuit-breakers offer the
special kits listed under the chapter en-
any case.
same benefits of modular construction.
titled “Ordering codes” (for S2X 100, the
The user gains considerable advan-
All the other versions can be made from
kit is the same as the corresponding
tages because it means being able to
the “basic” version of the current-limit-
S2 B/N/S one).
optimise stocks, standardise support
ing circuit-breaker by means of special
The fixed parts of current-limiting plug-
and installation structures and rational-
conversion kits.
in or withdrawable version circuit-breakers can, on the other hand, be used ei-
ise circuit-breaker selection thanks to
ther for the current-limiting circuit-breakers themselves or for the corresponding
SACE S2 - S3 - S4 and S6 automatic circuit-breakers.
With regard to accessories, too, the S2X
100, S3X, S4X and S6X current-limiting
GSIS9029
circuit-breakers use the same accessoGSIS9114
3
ries provided for the corresponding automatic circuit-breakers and also keep
the same electrical characteristics.
SACE Limitor
SACE Isomax S
LN A 32-63-100
S2X 100
LN 100 / LN 125
S3X 125
LN 160 / LN 200
S3X 200
LN 320 (setting 250 A)
S4X 250
LN 320
S6X 400
LN 500 / LN 630
S6X 630
The electrical characteristics of
the SACE Isomax S currentlimiting circuit-breakers allow a
comparison with the circuitbreakers in the previous SACE
Limitor series to be established,
to determine any replacements in
3/18
the case of installation upgrading.
ABB SACE
Applications
Only the following are an exception:
– the mechanical interlocking plate for
two superimposed circuit-breakers
S3X and S4X)
civil, industrial and service sector
plants, as well as in electrical installa-
The wiring diagrams are those of the
corresponding SACE S2, S3, S4 and S6
circuit-breakers.
to the corresponding S2 B/N/S, of the
circuit-breakers, the S3X, S4X and S6X
current-limiting circuit-breakers keep
the standardised depth of 103.5 mm,
standardised widths of 105 mm (S3XS4X) / 210mm (S6X) for the three-pole
140
tions on board ships, in mines, on offshore oil rigs and, generally, wherever
very high short-circuit currents can oc-
Apart from S2X 100 which are identical
and
The current-limiting circuit-breakers are
suitable for installation in all types of
– the bracket for fixing onto DIN rail (for
versions
They can also be inserted in plants
mm
(S3X-S4X)
/
280mm (S6X) for the four-pole versions,
identical drilled fixing holes for the plug-
cur due to the high powers of the generators and transformers – up to 200 kA
at 380/415 V AC, 180 kA at 440 V AC
where back-up protection is foreseen,
which allows use on the load side of circuit-breakers with breaking capacity
lower than the prospective short-circuit
current at the point of installation.
The breaking capacities of the SACE
Isomax S current-limiting circuit-breakers have exceeded the best performances achieved by other apparatus of
this type.
and 75kA at 690 V AC.
The circuit-breakers can be placed
near the power supply source both for
general protection (plants, user groups
and electrical lines) and for protection
of electric machines (motors, generators, transformers, capacitor banks).
in and withdrawable versions and identical drilled holes for the compartment
door in all the versions and for all the
accessories.
3
Limited
let-through current
Prospective
short-circuit
current
The increased contact opening
speed, the dynamic blast action
produced by the magnetic field
and the structure of the arcing
chamber contribute to extinguishing the arc in the shortest
GSIS0084
possible time, limiting the specific
ABB SACE
2
let-through energy value I t and
the peak current.
3/19
SACE Isomax S current-limiting
circuit-breakers
General characteristics
Thermomagnetic overcurrent releases
The table below summarises the size values for the different types of releases:
Ith
Im
In
-
rated current of the thermomagnetic release, referred to an ambient temperature of 40 °C
-
magnetic trip current
-
rated current of the electronic release
Thermomagnetic overcurrent releases
Circuit-breaker
S2X 100
L1 - L2 - L3 phases
S3X 200
Neutral
Setting
Thermal adjustment [A]
Magnetic trip [A]
Setting
[A]
0.7 ... 1 x Ith
Im = 10 x Ith
[A]
R1
0.7 ... 1
10
–
R 1,6
1.1 ... 1.6
16
–
R 2.5
1.75 ... 2.5
25
–
R4
2.8 ... 4
40
–
R 6.3
4.4 ... 6.3
63
–
R 10
7 ... 10
100
–
R 12.5
8.7 ... 12.5
125
–
R 16
11 ... 16
160
–
R 20
14 ... 20
200
–
R 25
17.5 ... 25
250
–
R 32
22.5 ... 32
320 (S2X 100) - 500 (S3X)
R 32 (S3X)
R 40
28 ... 40
400
–
R 50
35 ... 50
500
R 100 (S3X)
R 63
44 ... 63
630
–
R 80
56 ... 80
800
R 80 (S3X)
R 100
70 ... 100
1000
R 100 (S3X)
R 125
87.5 ... 125
1250
R 80
R 160
112 ... 160
1600
R 100
R 200
140 ... 200
2000
R 125
GSIS9057
3
S3X 125
SACE S2X 100 and S3X circuit-breakers, with
thermomagnetic overcurrent releases
3/20
ABB SACE
Electronic overcurrent releases
SACE PR211/P - PR212/P electronic overcurrent releases
Circuit-breaker
S4X 250
L
S
I
G
(1)
S6X 400
Release
S6X 630
L1 - L2 - L3 phases
Neutral (1)
Neutral
current
L
S
I
G
In [A]
I1 [A]
I2 [A]
I3 [A]
I4 [A]
[A]
[A]
100
40 ... 100
100 ... 1000 150 ... 1200
20 ... 100
20 ... 50
40 ... 100
160
64 ... 160
160 ... 1600 240 ... 1920
32 ... 160
32 ... 80
64 ... 160
250
100 ... 250
250 ... 2500 375 ... 3000
50 ... 250
50 ... 125
100 ... 250
320
128 ... 320
320 ... 3200 480 ... 3840
64 ... 320
64 ... 160
128 ... 320
400
160 ... 400
400 ... 4000 600 ... 4800
80 ... 400
80 ... 200
160 ... 400
630
252 ... 630
630 ... 6300 945 ... 7560
126 ... 630
126 ... 315 252 ... 630
=
Protection function against overload
=
Protection function against short-circuit with delayed trip
=
Protection function against short-circuit with instantaneous trip
=
Protection function against earth fault with delayed trip
(50% Ith) (100% Ith)
Only for PR212/P. Available on request for PR211/P, with additional ordering code 1SDA037505R1.
N.B. For more detailed information about the protection functions, please see page
3/12.
GSIS9115
3
SACE S4X, S6X circuit-breakers, with microprocessorbased overcurrent releases
ABB SACE
3/21
3/22
ABB SACE
SACE Isomax S circuit-breakers
for motor protection
Protection against short-circuit
Magnetic only and electronic circuit-breakers for
classical switching coordinations and
motor protection of any power
690V • 80-1600 A • 70-200 kA (380/415 V)
3
Integrated protection
The evolution of motor protection:
intelligence on board the circuit-breaker to “design”
protection around the motor, optimising space and time
GSIS9065
690V • 160-1250 A • 35-200 kA (380/415 V)
3/23
SACE Isomax S circuit-breakers for
motor protection (protection against short-circuit)
S2X 80
S3X
S3
Rated uninterrupted current, Iu
[A]
80
160 / 250
125 / 200
Rated service current, In
Poles
[A]
Nr.
1…80
3
3…160 / 160…200
3
3… 125 / 125…200
3
[V]
[kV]
690
6
690
8
690
8
[V]
[V]
690
3000
800
3000
800
3000
[kA]
X
100
N
65
H
100
L
170
X
300
(AC) 50-60 Hz 380/415 V
(AC) 50-60 Hz 440 V
[kA]
[kA]
70
70
35 (1)
30
65
50
85
65
200
180
(AC) 50-60 Hz 500 V
(AC) 50-60 Hz 690 V
[kA]
[kA]
50
10
25
14
40
18
50
20
150
75 (3)
[%Icu]
[kA]
75%
154
100%
74
75%
143
75%
187
100%
440
[ms]
3,5
A
8
7
A
Rated service voltage, Ue (AC) 50-60Hz
Rated impulse withstand voltage, Uimp
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
Rated ultimate short-circuit breaking capacity, Icu
(AC) 50-60 Hz 220/230 V
3
GSIS9138
GSIS9135
GSIS9139
Electrical characteristics IEC 60947-2 and IEC 60947-4-1
Rated service short-circuit breaking capacity, Ics (2)
Rated short-circuit making capacity (415 V)
Opening time (415V at Icu)
Utilisation category (EN 60947-2)
3,5
A
6
Isolation behaviour
IEC 60947-2, EN 60947-2
Releases:
-
-
-
-
-
F-P
EF - FC
F-P-W
F - EF - ES - FC
F-P-W
F - EF - ES - FC
FC CuAl - R
FC - R
FC CuAl - RC - R
EF - FC - R
FC CuAl - R - RC
EF - R
DIN EN 50022
EF - FC - R
DIN EN 50023
EF - R
DIN EN 50023
25000/240
90
25000/120
105
25000/120
105
D [mm]
H [mm]
70
120
103,5
170
103,5
255
fixed, 3 poles
plug-in, 3 poles
[kg]
[kg]
1,1
1,3
2,6
3,1
3,6
6,3
withdrawable, 3 poles
[kg]
-
3,5
7,1
magnetic only, fixed 13xIn
magnetic only, adjustable 4…12xIn
-
microprocessor-based, PR211/P (I)
Interchangeability
Versions
Terminals
fixed
plug-in
withdrawable
Fixing on DIN rail
Mechanical life
Basic dimensions fixed, 3 poles
Weights
[No. operations / hourly operations]
L [mm]
(1) All the versions with Icu=35kA are certified at 36kA
KEY TO VERSIONS
(2) For S3N/H/L, S4N/H/L, S5N/H, and S6N/H circuit-breakers, the percentage performance of Ics at 690V is reduced by 25%
F = Fixed
(3) S3X at 690V can only be supplied from above
P = Plug-in
W = Withdrawable
3/24
ABB SACE
S4X
S5
S6
GSIS9106
GSIS9105
GSIS9104
GSIS9103
GSIS9102
GSIS9101
S4
S6X
S7
160 / 250
250
400 / 630
630 / 800
400 / 630
1250 / 1600
100, 160 / 250
3
100, 160, 250
3
320, 400 / 630
3
630 / 800
3
320, 400 / 630
3
1000, 1250 / 1600
3
690
8
690
8
690
8
690
8
690
8
690
8
800
3000
800
3000
800
3000
800
3000
800
3000
800
3000
N
65
H
100
L
200
X
300
N
65
H
100
L
200
N
65
S
85
H
100
L
200
X
300
S
85
H
100
L
200
35 (1)
30
65
50
100
80
200
180
35 (1)
30
65
50
100
80
35 (1)
30
50
45
65
50
100
80
200
180
50
40
65
55
100
80
25
18
40
22
65
30
150
75
25
20
40
25
65
30
25
20
35
22
40
25
65
30
150
75
35
20
45
25
70
35
100%
74
100%
143
75%
220
100%
440
100%
74
100%
143
75%
220
100%
74
100%
105
100%
143
75%
220
100%
440
100%
105
75%
143
50%
220
8
7
A
6
3,5
A
8
7
6
B(400A) / A(630A)
10
9
8
7
3,5
A
22
22
B
22
B
-
-
-
-
-
-
F-P-W
F - EF - ES - FC
F -P - W
F - EF - ES - FC
F - P(400A) - W
F - EF - ES - FC
F-W
F - EF - ES
F-W
F - EF - ES
F-W
F - EF - ES -
FC CuAl - R - RC
EF - FC - R
FC CuAl - R - RC
EF - R
FC CuAl - R - RC(400A)
EF - FC - R
FC CuAl - R - RC
-
FC CuAl - R - RC
-
FC CuAl (1250A) - HR - VR
-
EF - FC - R
DIN EN 50023
EF - R
DIN EN 50023
EF - FC - R - VR (630A)
DIN EN 50023
EF - HR - VR
-
EF - VR - HR
-
EF - VR - HR
-
20000/120
105
20000/120
105
20000/120
140
20000/120
210
20000/120
210
10000/120
210
103,5
254
103,5
339
103,5
254
103,5
268
103,5
406
138,5
406
4
4,5
5
8,2
5
6,1
9,5
-
15
-
17
-
4,9
9
6,4
12,1
25,4
21,8
KEY TO TERMINALS
FC = Front for copper cables
RC = Rear for copper or aluminium cables
F = Front
FC CuAl = Front for copper or aluminium cables
HR = Rear horizontal flat bar
EF = Extended front
R = Rear threaded
VR = Rear vertical flat bar
ES = Extended spreaded front
ABB SACE
3/25
3
SACE Isomax S circuit-breakers for
motor protection (protection against short-circuit)
General characteristics IEC 60947-2 and IEC 60947-4-1
Magnetic and electronic overcurrent releases
Three-phase asynchronous motor starting, switching and pro-
The new SACE S2X 80, with fixed magnetic protection at 13
tection are essential operations for its correct use. The tradi-
times the rated service current, is an extremely compact cir-
tional system used for this purpose has three different devices:
cuit-breaker, which stands out for its exceptional performances
a circuit-breaker for protection against short-circuit, a thermal
in terms of breaking capacity and limitation of the specific let-
relay for protection against overload and lack of or unbal-
through energy.
anced phase, and a counter for the motor operations. Every-
Extremely simple and rapid to install, it has the same possibility
thing must necessarily take into account the problems which
of mounting accessories and personalisation as the S2B/N/S
arise on start-up.
circuit-breakers. It can be used in a vast range of start-ups,
In particular, different factors must be taken into account when
from 0.37kW to 37kW and from 400V-50kA up to 690V-50kA.
selecting these devices, such as:
SACE S3 N/H/L 160/250 circuit-breakers and the S3X 125/200
-
the motor power
current-limiting circuit-breaker are fitted with a magnetic only
-
the starting diagram
release adjustable from 4 to 12 times the rated service cur-
-
the type of motor: with cage rotor or with wound rotor
rent. They cover coordinations from 37 to 132kW and allow
-
the fault current at the point of motor installation in the net-
optimal motor protection thanks to their great flexibility due to
work.
the wide setting range of the magnetic threshold.
ABB SACE proposes a wide range of circuit-breakers, which
Finally, SACE S4 160/250, S5 400/630, S6 630/800, and S7
by implementing the protection against short-circuit exclusively,
1250/1600, with different N-S-H-L breaking capacity levels,
are suitable for use inside protected starters of traditional type.
like the current-limiting S4X and S6X, can be fitted with the
3
Magnetic only fixed overcurrent releases
SACE Isomax S2X 80
Phases L1 - L2 - L3
Setting
[A]
Magnetic trip
Im = 13 x In [A]
R1
13
R1.6
21
R2
26
R2.5
32
R3.2
42
R4
52
R5
65
R6.5
84
R8.8
110
R11
145
R12.5
163
R16
210
R20
260
R25
325
R32
415
R42
545
R52
680
R63
820
R80
1040
Circuit-breaker
with magnetic
3/26
release
Contactor
Thermal relay
GSIS9116
Motor
ABB SACE
PR211/P (I) electronic microprocessor-based release. Above
all, they are used for protection of high power motors and, thanks
to adjustment of the protection against short-circuit from 1.5 to
12 times, allow the optimum trip value to be selected for any
GSIS9141
type of motor.
Magnetic only adjustable overcurrent releases
Circuit-breaker
S3N 160
S3H 160
S3L 160
Phases L1 - L2 - L3
S3N 250
S3H 250
S3L 250
S3X 125
S3X 200
(*)
Setting
Magnetic adjustment [A]
[A]
Im = 4 ... 12 x Ith
R3
12 ... 36
R5
20 ... 60
R 10
40 ... 120
R 25
100 ... 300
R 50
200 ... 600
R 100
400 ... 1200
R 125
500 ... 1500
R 160
640 ... 1600 (10 x Ith)
R 160
640 ... 1920
R 200
800 ... 2400
3
(*) Only to be used in coordination with contactors
SACE PR211/P (I) electronic microprocessor-based overcurrent releases for motor protection
Circuit-breaker
S4N 160
S4H 160
S4L 160
S4N 250
S4H 250
S4L 250
S5N 400
S5H 400
S5L 400
S6N 630
S6H 630
S6L 630
S6N 800
S6H 800
S6L 800
S7S 1250 S7S 1600
S7H 1250 S7H 1600
S7L 1250 S7L 1600
Phases L1 - L2 - L3
S4X 250
S6X 400
S6X 630
Rated current
of release
In [A]
I3 [A]
100
150 ... 1200
160
240 ... 1920
250
375 ... 3000
320
480 ... 3840
400
600 ... 4800
630
945 ... 7560
800
1200 ... 9600
1000
1500 ... 12000
1250
1875 ... 15000
1600
2400 ... 19200
I (*)
(*) I = Protection function against short-circuit
ABB SACE
3/27
SACE Isomax S circuit-breakers for motor
protection (integrated protection)
GSIS9107
Electrical characteristics IEC 60947-2 and IEC 60947-4
S4
Rated uninterrupted current, Iu
[A]
160 / 250
Rated service current, In
Poles
[A]
Nr.
100, 160 / 200
3
[V]
[kV]
690
8
[V]
[V]
800
3000
Rated service voltage, Ue (AC) 50-60Hz
Rated impulse withstand voltage, Uimp
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
[kA]
N
65
H
100
L
200
(AC) 50-60 Hz 380/415 V
(AC) 50-60 Hz 440 V
[kA]
[kA]
35 (1)
30
65
50
100
80
(AC) 50-60 Hz 500 V
(AC) 50-60 Hz 690 V
[kA]
[kA]
25
18
40
22
65
30
100%
74
100%
143
75%
220
8
7
A
6
Rated ultimate short-circuit breaking capacity, Icu
(AC) 50-60 Hz 220/230 V
3
Rated service short-circuit breaking capacity, Ics (2)
Rated short-circuit making capacity (415 V)
[%Icu]
[kA]
Opening time (415V at Icu)
Utilisation category (EN 60947-2)
[ms]
Isolation behaviour
IEC 60947-2, EN 60947-2, IEC 60947-4-1, EN 60947-4-1
PR212/MP (LRIU) microprocessor-based releases
Interchangeability
Versions
Terminals
fixed
F-P-W
F - EF - ES - FC
plug-in
FC CuAl - R - RC
EF - FC - R
EF - FC - R
withdrawable
Fixing on DIN rail DIN EN 50023
Mechanical life
Basic dimensions, fixed 3 poles
[No. operations / hourly operations]
L [mm]
D [mm]
H [mm]
Weights
20000/120
105
103,5
254
fixed, 3 poles
plug-in, 3 poles
[kg]
[kg]
4
4,5
withdrawable, 3 poles
[kg]
4,9
(1) All the versions with Icu=35kA are certified at 36kA
KEY TO VERSIONS
(2) For S4N/H/L, S5N/H, and S6N/H circuit-breakers the percentage performance of
F = Fixed
Ics at 500V and 690V is reduced by 25%
P = Plug-in
W = Withdrawable
3/28
ABB SACE
S5
S6
250
100, 160, 200
400
320
3
3
690
8
800
3000
X
300
200
180
150
75
100%
440
3,5
A
F-P-W
F - EF - ES - FC FC CuAl - R RC
EF - R
EF - R
20000/120
105
103,5
339
5
8,2
9
GSIS9112
GSIS9111
GSIS9110
GSIS9109
GSIS9108
S4X
S6X
S7
630
400 / 630
1250
630
3
320, 400 / 630
3
1000
3
690
8
690
8
690
8
690
8
800
3000
800
3000
800
3000
800
3000
N
65
H
100
L
200
N
65
H
100
L
200
X
300
S
85
H
100
35(1)
30
65
50
100
80
35(1)
30
65
50
100
80
200
180
50
40
65
55
25
20
40
25
65
30
25
20
40
25
65
30
150
75
35
20
45
25
100%
74
100%
143
75%
220
100%
74
100%
143
75%
220
100%
440
100%
105
75%
143
8
7
B
6
9
8
B
7
3,5
A
22
22
B
F-P-W
F - EF - ES - FC
F-W
F - EF - ES
F-W
F - EF
F-W
F - EF - ES
FC CuAl - R - RC
EF - FC - R
FC CuAl - R - RC
-
FC CuAl - R - RC
-
FC CuAl - HR - V
-
EF - FC - R
EF - HR - VR
-
EF - VR - HR
-
EF - VR - HR
-
20000/120
140
20000/120
210
20000/120
210
10000/120
210
103,5
254
103,5
268
103,5
406
138,5
406
5
6,1
9,5
-
15
-
17
-
6,4
12,1
25,4
21,8
KEY TO TERMINALS
FC = Front for copper cables
RC = Rear for copper or aluminium cables
F = Front
FC CuAl = Front for copper or aluminium cables
HR = Rear horizontal flat bar
EF = Extended front
R = Rear threaded
VR = Rear vertical flat bar
3
ES = Extended spreaded front
ABB SACE
3/29
SACE Isomax S circuit-breakers for motor
protection (integrated protection)
General characteristics
SACE PR212/MP electronic microprocessor-based releases
SACE Isomax S4N-H-L 160/250, S5N-H-L 400, S6N-H-L 800,
S7S-H 1250 and S4X 250, S6X 400/630 circuit-breakers are
Circuit-breaker with
fitted with SACE PR212/MP electronic releases constructed
SACE PR212/MP
using microprocessor-based electronic technology. This al-
electronic
lows functions to be obtained which guarantee high trip preci-
microprocessor-based
sion, utmost reliability and insensitivity to variations in the ex-
release
ternal temperature. The SACE PR212/MP electronic release
guarantees complete motor protection as is fully integrated on
board the circuit-breaker; moreover, it is able to control contactor opening in the case of a fault (except for short-circuit),
Contactor
by means of the SACE PR212/CI contactor accessory operating mechanism unit. Furthermore, the PR010/T unit for testing
the release and checking the protection functions, the PR010/K
signalling unit and the PR212/D dialogue unit are available.
The electronic microprocessor-based releases are self-supplied and consist of three current transformers, the SACE
PR212/MP protection unit and an opening solenoid which acts
directly on the circuit-breaker operating mechanism unit. The
Motor
current transformers – housed inside the release box, supply
the energy and the signal required for correct operation of the
The release is temperature-compensated and sensitive to lack
of phase according to Table IV of the 60947-4-1 7.2.1.5.2 Standard.
SACE PR212/MP electronic microprocessor-based releases for motor protection
Circuit-breaker
S4N 250
S4H 250
S4L 250
S5N 400
S5H 400
S5L 400
S6N 800
S6H 800
S6L 800
S7S 1250
S7H 1250
S4X 250
S6X 400
S6X 630
Release rated
current
In [A]
L
R
I
U
I1 [A]
I5 [A]
I3 [A]
Iu [A]
100
40 ... 100
600 ... 1300
160
64 ... 160
960 ... 2080
200
80 ... 200
1200 ... 2600
320
128 ... 320
400
160 ... 400
630
252 ... 630
3780 ... 8190
1000
400 ... 1000
6000 ... 13000
L
=
R
=
Protection function against rotor block with relative setting current and time (I5 = 3-4-5-6-7-8-10 x I1 - t5 = 1-4-7-10 s)
I
=
Protection function against short-circuit with relative setting current (I3 = 6-7-8-9-10-11-12-13 x In)
U
=
Protection function against lack of or unbalance of
3/30
1920 ... 4160
0,4 x I1
S4N 160
S4H 160
S4L 160
Phases L1 - L2 - L3
3 ... 10 x I1
3
protection.
2400 ... 5200
Protection function against overload with relative setting current (I1 = 0.4 ... 1 x In, with 0.01 steps - Class = 10A, 10, 20, 30)
phase with relative setting current and time (Iu = 0.4 x I1 - t = 4 s)
ABB SACE
The SACE Isomax S range of moulded-
thereby saving space, assembly mate-
case circuit-breakers for motor protec-
rial, installation time and relative cabling
tion is perfectly coordinated with the new
operations.
ABB line of contactors. The latter, de-
The circuit-breaker-contactor group en-
fined as A-Line, together with the line of
hances this characteristic even further
overload thermal relays and SACE
with the SACE PR212/MP electronic
Isomax S moulded-case circuit-break-
overcurrent release, which allows con-
ers, is the basis for the new generation
struction of an extremely compact pro-
of apparatus specially designed to guar-
tected starter, implementing protection
antee a system of products which can
against overload in accordance with the
be integrated according to the applica-
IEC 60947-4-1 Standard.
tions required. All this is done with the
aim of not only continuously improving
the products, but above all to provide
designers, installers and end users with
the best solutions in terms of performance and reliability, combined with simplicity of the system.
In particular, SACE Isomax S circuitbreakers and the “A” series of contac-
SACE Isomax S moulded-case circuit-breakers and the new A series contactors share the same
width and depth and have been
designed to construct a single
tors are an extraordinary solution in terms
compact unit
of compactness, since they share the
same width and design characteristics,
GSIS9061
3
Typical operating characteristic of an asynchronous motor
l1
=
trip current function L
l3
=
trip current function I
I5
=
trip current function R
t5
=
trip time function R
I6
=
trip current function U
t6
=
trip time function U
le
=
rated service current of the motor
la
=
starting current of the motor
Ip
=
peak value of the subtransient starting
current
ta
=
motor starting time
tp
=
duration of the starting subtransient phase
m
=
typical motor starting curve
c
=
example of trip curve of a motor
protection circuit-breaker with electronic
release
The different curves of the functions, with numerous threshold and time settings, allow an overall
GSIS0082
trip curve to be drawn which is really close to the
ABB SACE
motor starting curve, thereby optimising its protection
3/31
SACE Isomax S circuit-breakers
for motor protection (integrated protection)
General characteristics
Protection functions and parametrisation of the SACE PR212/MP release
Function L
Protection against overload
Parametrisation of protection L
l1 = 0,4 ... 1 x In with 0.01 x In steps
Function L protects the motor against undesired overloads according
to the indications and classes defined in the IEC 60947-4-1 Standards.
Protection is based on a pre-established thermal model (ABB SACE
International Patent) which, by simulating the copper and iron
overtemperatures inside the motor, allows precise safeguarding of
the
machine.
The
protection
intervenes
when
the
preset
overtemperature is reached. The trip time is fixed by selecting the trip
class defined in the above-mentioned Standards.
The function is temperature-compensated and sensitive to phase
where l1 is the rated service current of the circuit-breaker, which
must be the same or higher than that of the motor to be protected (I1
> Ie), and In is the rated current of the current transformers.
t1 = 4 - 8 - 16 - 24 s
where t1 is the trip at 7.2 x I1 cold,
depending on the class selected
Class 10A - 10 - 20 - 30
are the motor starting classes which determine the trip times for
overload according to the IEC 60947-4-1 4.7.3 Table II Standards.
missing/unbalance in accordance with the IEC 60947-4-1 Standard.
In the case of auxiliary power supply, the thermal memory function is
guaranteed, which allows the release to continue calculating the motor
temperature even after an opening operation.
3
Release of the contactor: in normal operating mode
Tolerances: in accordance with the IEC 60947-4-1 Standard.
Function R
Protection against rotor block
Parametrisation of protection R
Function R protects the motor against any rotor block during operation.
where l5 is the current at which the rotor is considered to be blocked
and l1 is the rated service current of the circuit-breaker selected for
function L.
This protection is automatically disabled for the whole of the motor
starting phase and is then re-activated.
The protection already provides its function from low current increases
l5 = OFF - 3 - 4 - 5 - 6 - 7- 8 - 10 x l1
t5 = 1 - 4 - 7 - 10 s
(from 3 times the l1 service current of the circuit-breaker) and can
also be disabled.
where t5 is the preset time threshold above which the release trips.
Both the current level to be tripped and the trip time delay can be
selected.
The protection intervenes when at least one of the phase currents
exceeds the preset value and remains above that threshold for the
Release of the contactor: in normal operating mode
Tolerances:
± 10%
± 20%
of the trip thresholds
of the trip times
set t5 time.
Function I
Protection against short-circuit
This protection function intervenes in the case of a short-circuit between phases. It is sufficient for a single phase to exceed the set
threshold to cause immediate opening of the circuit-breaker (the protection cannot be excluded).
The trip current can be adjusted up to 13 times the rated current of the
release, whereas the time is fixed.
To prevent unwarranted trips during starting, the protection recognises whether the motor to be protected is in the starting phase or
whether there is a short-circuit. This is to allow starting under com-
Parametrisation of protection I
l3 = 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 x In
where I3 is the instantaneous trip current for short-circuit and In is
the rated current of the current transformers.
To prevent unwarranted trips during the inrush phase of the motor,
instantaneous tripping of protection I takes place at 1.5 x I3 (for I3 <
9 x In), whereas for higher values (I3 > 9 x In) tripping takes place
at 13.5 x In.
Tolerances: ± 20% of the trip thresholds
± 20% of the trip times
pletely safe conditions.
Function U
Protection against lack of and/or unbalance of a
phase
Function U can be used in those cases where particularly precise
control is needed regarding lack of and/or unbalance of phase currents. This function can be excluded and intervenes if the effective
Parametrisation of protection U
On, (with I6 = 0.4 x l1 and t6 = 4 s).
Off, in the Off position, the release remains sensitive to the lack of
phase according to the IEC 60947-4-1 Standard, modifying the trip
curves for protection L.
Release of the contactor: in normal operating mode
value of one or two currents drops below the level of 0.4 of the l1
current set with function L and remains there for more than 4 seconds.
3/32
Tolerances: ± 20% of the trip thresholds
± 20% of the trip times
ABB SACE
Parametrisation of the release
Operating methods
Back-up protection
By means of the microswitch located on the
front, the release can be fitted for
parametrisation:
Man. (manual), thresholds and times are adjusted by using the microswitches on the front
of the relay
Elt. (electronic), thresholds and times are adjusted remotely by means of the SACE
PR212/D dialogue unit.
Normal mode: in the case of a fault detected
by functions L-R-U, contactor opening can be
controlled by means of the accessory SACE
PR212/CI module or directly, without the need
for external modules, with an ABB contactor
fitted with an electronic interface with the circuit-breaker.
Heavy duty mode: the circuit-breaker opens
for any type of L-R-I-U fault.
The electronic release verifies whether the
circuit-breaker or the contactor is effectively
in the open or relay tripped position following
an opening command. If this is not so, after a
delay set to long or short time, the command
for circuit-breaker opening is given again.
Protection L
against motor
overload
luminous signalling of
overload:
fixed for I > 0.9 x I1;
flashing for I > 1.05 x I1
Protection R
Protection I
Protection U
Man. / Elt.
against blocked
rotor
against
instantaneous
short-circuit
against the lack
and/or unbalance
of a phase
release
parametrisation
methods
socket for connection
of SACE PR010/T Test
unit
GSIS9053
3
Class
class of
motor starting
according to the IEC
60947-4-1 Standards
socket for selection between:
SACE TT1 - PTC (*) temperature
Test unit sensor input
- 0/1 generic input
setting the
back-up time
setting the Reset
following a trip:
- manual
- automatic
setting
the work
methods
(*) A special input is available to connect a PTC temperature probe, inserted in the motor to be protected
Characteristics of the SACE PR212/MP electronic microprocessor-based release
Overloading capacity
2 x In continuously, 7.2 x In for 35 s at 45 °C
Operating temperature
– 25 °C ... + 70 °C
Maximum relative humidity percentage
90% without condensation
Rated service frequency
45 - 66 Hz, able to measure harmonics up to 550 Hz
Current measurement methods
r.m.s. up to 3 x In (functions L, R, U)
peak value for values over 3 x In (functions L, R, U)
peak value for function I
Electromagnetic compatibility
According to: IEC 60947-2 Standard Annex F
Electrostatic discharges
According to: IEC 61000-4-2 Standard
Radiated electromagnetic field
According to: IEC 61000-4-3 Standard
Short-time transients
According to: IEC 61000-4-4 Standard
Mean time between failure (MTBF)
15 years (at 45 °C)
ABB SACE
3/33
3/34
ABB SACE
SACE Isomax S circuit-breakers
for applications up to 1000V
Taking the SACE Isomax S limits higher and higher
1000 V • 160-800 A • 6-50 kA
GSIS9066
3
3/35
SACE Isomax S circuit-breakers
for applications up to 1000V
Electrical and general characteristics IEC 60947-2
Within the panorama of Isomax proposals, there is also the range of circuitbreakers and switch-disconnectors for
direct current and alternating current
applications up to 1000V.
The typical application sectors are installations in mines, road or railway tunnels, traction and industrial applications
in general.
The circuit-breakers for direct current
(connection diagrams on page 5/47) are
available in the four-pole version,
whereas those for alternating current are
available in the three-pole version, with
adjustable or electronic thermomagnetic
releases and have the same dimensions
as the standard versions.
They can also be combined with all the
accessories available for the Isomax
series.
~
V
V~
Range at 1000 V in a.c.
S3
Rated uninterrupted current, Iu
Poles
Rated service voltage, Ue (AC) 50-60Hz
Rated impulse withstand voltage, Uimp
[A]
Nr.
160
3
[V]
[kV]
1000
8
[V]
1000
3000
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
Rated ultimate short-circuit breaking capacity,
Icu (AC) 50-60 Hz 1000 V
[kA]
L
6
Rated short-circuit making capacity
Opening time
[kA]
[ms]
9,2
20
Rated short-time withstand current for 1 s, Icw
Utilisation category (EN 60947-2)
[kA]
A
Isolation behaviour
IEC 60947-2, EN 60947-2
Thermomagnetic releases T adjustable, M fixed 10 Ith
PR211/P (LI only) microprocessor-based releases
PR212/P (LSI-LSIG) microprocessor-based releases
Versions
F
Terminals
Fixing on DIN rail
F
DIN EN 50023
Mechanical life
Dimensions
3
[No. operations / hourly operations]
L [mm]
D [mm]
H [mm]
Weights
Range at 1000 V in d.c.
[kg]
–
V
V–
Rated uninterrupted current, Iu
Poles
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
103,5
170
2,6
S3
S5
S6
S6
160-250
4
400
4
630
4
800
4
[V –]
[kV]
1000
8
1000
8
1000
8
1000
8
[V]
1000
3000
1000
3000
1000
3000
1000
3000
[A]
Nr.
Rated service voltage, Ue
Rated impulse withstand voltage, Uimp
25000/120
105
Ultimate rated short-circuit breaking capacity, Icu
(4 poles in series)
[kA]
L
40
L
40
L
40
L
50
Rated short-circuit making capacity
Opening time
[kA]
[ms]
40
25
40
35
40
45
50
50
Rated short-time withstand current for 1 s, Icw
Utilisation category (EN 60947-2)
[kA]
–
A
5
B
7,6
B
10
B
–
–
–
Isolation behaviour
IEC 60947-2, EN 60947-2
Thermomagnetic releases, T adjustable - M fixed 10 Ith
Thermomagnetic releases, T adjustable - M adjustable
–
Versions
Terminals
F
F
F
F
F
F
F
F
DIN EN 50023
25000/120
DIN EN 50023
20000/120
–
20000/120
–
20000/120
L [mm]
D [mm]
140
103,5
184
103,5
280
103,5
280
103,5
H [mm]
[kg]
170
3,5
254
7
268
12
268
12
Fixing on DIN rail
Mechanical life
Basic dimensions, fixed
Weights, fixed
3/36
[No. operations / hourly operations]
ABB SACE
S3X
S4
S4X
S5
S6
S6X
125
3
160-250
3
250
3
400
3
630-800
3
630
3
1000
8
1000
8
1000
8
1000
8
1000
8
1000
8
1000
3000
1000
3000
1000
3000
1000
3000
1000
3000
1000
3000
X
30
L
8
X
30
L
8
L
12
X
30
63
10
13,6
30
63
20
13,6
30
24
30
63
25
A
A
A
5
B
7,6 (630A)-10 (800A)
B
A
F
F
F
F
F
F
F
DIN EN 50023
F
DIN EN 50023
F
DIN EN 50023
F
DIN EN 50023
F
–
F
–
25000/120
105
20000/120
105
20000/120
105
20000/120
140
20000/120
210
20000/120
210
103,5
255
103,5
254
103,5
254
103,5
254
103,5
268
103,5
406
3,6
4
4
5
9,5
15
3
Circuit-breakers with electronic release for alternating current
In100
S4L 160
In400
In630
In800
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
150…1200
375…3000
600 ... 4800
945…7560
S4L 250
S4X 250
S5L 400
S6L 630
S6X 630
S6L 800
Im = 1,5 …12 x In [A]
In250
1200…9600
Circuit-breakers with thermomagnetic release for alternating current
(thermal threshold adjustable from 0.7 to 1 x In; fixed magnetic threshold)
R32
R50
R80
R100
R125
R160
R200
R250
–
–
S3L 160
S3X 125
Im AC (10xIn) [A]
500
500
800
1000
1250
–
–
–
1600
2000
2500
Circuit-breakers with thermomagnetic release for direct current
R32 (1)
R50 (1)
R80 (1)
R100 (1)
R125 (1)
R160 (1)
R200 (1)
R250 (1)
R400 (2)
R630 (2)
R800 (2)
S3L 250
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
S5L 400
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
500
500
800
1000
1250
1600
2000
2500
S3L 160
S6L 630
S6L 800
Im DC (10xIn) [A]
Im DC (5-10xIn) [A]
–
–
–
–
–
–
2000-4000 3150-6300 4000-8000
(1) Thermal threshold adjustable from 0.7 and 1 x In; fixed magnetic threshold
(2) Thermal threshold adjustable from 0.7 and 1 x In; magnetic threshold adjustable between 5 and 10 x In.
ABB SACE
3/37
3/38
ABB SACE
SACE Isomax S
switch-disconnectors
Close, carry and isolate.
The certainty of operating in complete safety.
690 V • 125-3200 A • 3,1-85 KA (Icm) • 2,2-40 kA (Icw)
GSIS9067
3
3/39
SACE Isomax S switch-disconnectors
GSIS9142
GSIS9143
Electrical and general characteristics IEC 60947-3
Conventional thermal current at 60 °C, Ith
Number of poles
Rated service voltage, Ue
(AC) 50-60Hz
(DC)
Rated current, Iu
Rated impulse withstand voltage, Uimp
Rated insulation voltage, Ui
Test voltage at industrial frequency for 1 min.
Rated short-circuit making capacity (415 V~), Icm
Rated short-time withstand current for 1 s, Icw
S2D
S3D
[A]
Nr.
125 / 160
3/4
100 / 160 / 250 / 320
3/4
[V~]
[V–]
690
500
690
750
[A]
[kV]
125-160
6
100-160-250-320
8
[V]
[V]
690
3000
800
3000
[kA]
[kA]
3,1
2,2
10
6,5
F-P
EF - FC - FC CuAl
F-P-W
F - EF - FC
R - RC
FC - R
FC CuAl - R - RC
F - FC - R
25000/240
F - FC - R
25000/120
Isolation behaviour
IEC 60947-3
3
Versions
Terminals
fixed
plug-in
Mechanical life
withdrawable
[No. of operations / hourly operations]
Basic dimensions, fixed
Weights, fixed
L (3/4 poles)
D
[mm]
[mm]
90/120
70
105/140
103,5
H
3/4 poles
[mm]
[kg]
120
1,1/1,5
170
2,6/3,5
Coordination with the circuit-breakers (kA at 380-415 V AC)
LOAD SIDE
SUPPLY SIDE
S2D 125
Þ
S2D 160
S3D 100
S3D 160
S1B
16
16
S1N
25
25
S2B
16
16
16
16
S2N
35
35
35
35
S2S
50
50
S3D 250
S3D 320
50
50
S3N
35
35
35
35
S3H
65
65
65
65
S6D 400
S6D 630
S6D 800
S5N
35
35
35
S5H
35
35
35
S6N
35
35
35
S6S
50
50
50
S6H
65
65
65
S7D 1000
S7S
50
S7H
65
S8H
S8V
3/40
ABB SACE
GSIS9146
GSIS9145
GSIS9144
S6D
S7D
S8D
400 / 630 / 800
3/4
1000 / 1250 / 1600
3/4
2000 / 2500 / 3200
3/4
690
750
690
750
690
750
400-630-800
8
1000-1250-1600
8
2000-2500-3200
8
800
3000
800
3000
800
3000
30
15
52,5
25
85
40
F-W
F - EF - FC CuAl
F-W
F - EF - FC CuAl (1250A)
F
EF (2500A)-R
R - RC
-
HR - VR
-
-
F - HR - VR
20000/120
F - HR - VR
10000/120
10000/20
210/280
103,5
210/280
138,5
406/556
242
268
9,5/12
406
17/22
400
57/76
S7D 1250
S7D 1600
S8D 2000
S8D 2500
The switch-disconnectors derive from the corresponding circuit-breakers, of which they keep the same overall dimensions,
versions, fixing systems and possibility of mounting accessories.
They are characterised by a rated voltage of 690 V in alternating current and 750 V in direct current.
Applications
S8D 3200
They can be used as general circuit-breakers in sub-switchboards, as switching and isolating parts for lines, busbars or
groups of apparatus, or as bus-ties. They can be part of general isolation devices of groups of machines or units for motor
switching and protection.
Isolation
The main function carried out by these circuit-breakers consists of isolating the circuit they are inserted in.
Once open, the contacts are at a sufficient distance to prevent
an arc striking, in accordance with the standard prescriptions
relative to isolation behaviour. The position of the operating
lever corresponds with certainty to that of the contacts (positive operation).
Protection
Each switch-disconnector must be protected on the supply
side by a coordinated device which safeguards it against shortcircuits. The coordination table at the side shows the SACE
Isomax S circuit-breaker which can carry out the protection
function for each switch-disconnector. These are always pieces
of apparatus of a size corresponding to or lower than that of
the switch-disconnector.
Making capacity
The making capacity, Icm, is of considerable importance, since
a switch-disconnector must be able to withstand the dynamic,
thermal and current stresses that can occur during closing
without being destroyed, up to and including closing under
short-circuit conditions.
50
50
65
65
ABB SACE
Endurance in the closed position
85
85
85
120
120
120
This identifies the capacity for maintaining the closed position
for short-time overcurrents. It is an important parameter which
qualifies the performances of these pieces of apparatus.
3/41
3
3/42
ABB SACE
SACE Isomax S circuit-breakers
according to UL489 and
CSA C22.2 Standards
SACE Isomax S quality to conquer “New worlds”
480/600 V • 100-2500 A • 25-100 kA (480V)
GSIS9068
3
3/43
SACE Isomax S circuit-breakers according to
UL489 and CSA C22.2 Standards
Electrical and general characteristics
Circuit-breaker type
S1
Maximum frame continuous current 40 °C
[A]
100
150
Number of poles
Rated operational voltage (AC) 50-60 Hz
Nr.
[V]
3
277/480
2-3
600
(DC)
Test voltage (1min.) 50-60 Hz
[V]
[V]
3000
600
3000
UL/CSA short-circuit interrupting capacity
240 V AC
S3 225
225
2-3
240 (B); 480 (N/H/L)
500
3000
[kA rms]
[kA rms]
N
50
N
65
H
100
L
150
B
150
N
65
H
100
L
150
[kA rms]
14 (R15)
20 (R20-R100)
25
50
65 (R15, R30)
85
-
25
50
65
600 V AC
[kA rms]
500 V DC (2 poles in series)[kA rms]
-
14
35
14
50
25
65
50
20
35
50
600 V DC (3 poles in series) [kA rms]
Overcurrent trip relays
-
20
35
50
-
-
-
-
480 V AC
Thermal-magnetic
Microprocessor based
-
-
-
[in/mm]
4,72 / 120
6,70 / 170
6,70 / 170
W
D
[in/mm]
[in/mm]
3,07 / 78
2,75 / 70
4,13 / 105
4,07 / 103,5
4,13 / 105
4,07 / 103,5
Mechanical duration
Weights (fixed - 3P)
[op./ frequency]
[lbs.]
25000 / 240
2,42
25000 / 120
6,75
25000 /120
6,75
Interchangeability
Dimensions
H
fixed version
3
S3 150
In the field of moulded-case circuit-breakers, complying with
the UL489 and CSA22.2 standards, the SACE Isomax S offer is
enriched by the following ranges:
– circuit-breakers for power distribution (fitted with
thermomagnetic or electronic releases)
– circuit-breakers with magnetic only releases for motor protection (Motor Control Protection – MCP)
– switch-disconnectors for use as isolators or switching devices for lines, busbars or parts of a plant circuit-breakers
(Moulded Case Switch – MCS).
The SACE Isomax S offer in compliance with UL/CSA Standards is completed with the introduction of three new sizes. There
are therefore increasing possibilities for those customers who
also operate on markets subject to the standards defined in the
UL/CSA Standards, with a whole range of moulded-case circuit-breakers available, with rated currents which go from 100A
to 2500A and breaking capacities, at 480 V AC, which can
reach 100kA.
Apart from lowering the range of rated currents, introduction of
3/44
the S1 size allows all those applications typical of power subdistribution where a circuit-breaker characterised by limited
dimensions, but guaranteeing great versatility of application of
accessories and installation, is particularly convenient.
They further increase the possibility of selection, thanks to the
introduction of the new rating for S3, Iu=225A, with three levels
of breaking capacity (N/H/L), up to service voltage values of
Ue=480V AC and 500 V DC.
Finally, the S8 circuit-breaker according to the UL/CSA Standard also allows completion towards higher rated currents.
Isomax S8V 1600, 2000 and 2500 are suited to installation
immediately to the load side of power supply sources of low
voltage systems and can operate safely under the most severe
service conditions required by modern installations. Their high
performances, great flexibility in mounting accessories, simple
coordination with the devices on the load side and the possibility of limiting the depth of the switchboards thanks to their compact overall dimensions, make Isomax S8 a particularly advantageous choice.
ABB SACE
S4
S5
S6
S7
S8
250
400
800
1200
1600-2000-2500
2-3
600
2-3
600
2-3
600
2-3
600
3
600
3000
600
3000
600
3000
3000
3000
N
65
H
150
L
200
N
65
H
150
L
200
N
65
H
150
L
200
H
100
V
120
25
65
100
35
65
100
50
65
100
65
100
18
-
22
-
35
-
22
35
22
50
35
65
25
35
35
50
42
65
50
-
85
-
-
-
-
20
35
50
20
35
50
-
-
-
-
-
10,00 / 254
10,00 / 254 (300A); 13,62 / 346 (400A)
14,25 / 268
16 / 406
15,75 / 400
4,13 / 105
4,07 / 103,5
5,51 / 140
4,07 / 103,5
8,27 / 210
4,07 / 103,5
8,27 / 210
5,45 / 138.5
15,98 / 406
9,25 / 235
20000 / 120
8,8
20000 / 120
11
20000 / 120
22
10000 / 120
37,5
10000 / 20
135
Motor Control protection - MCP
Type
Poles
Trip Unit
S3L
S4 N/H/L
S5 N/H/L
S6 N/H/L
S7H
S8V
3
3
3
3
3
3
3
Adjustable magnetic only
(4...12xIn)
PR211/P - I
Rating
3…25
50…150
400
400
400
1000-1200
1600-2000-2500
Interrupting capacity
240 V AC
[A]
L
50
L
150
N
65
H
150
L
200
N
65
H
150
L
200
N
65
H
150
L
200
H
100
V
120
480 V AC
600 V AC
25
10
85
25
25
18
65
22
100
35
35
22
65
22
100
35
50
25
65
35
100
42
65
50
100
85
65
50
-
-
-
-
-
-
-
-
-
-
-
500 V DC
600 V DC
(1)
65
50
(1)
(1)
100-250
600-800 600-800 600-800
Performance available only for the 25 A rating version
Moulded Case Switches - MCS
Type
S3 H-D 150
S3 H-D 225
S4 H-D
S5 H-D
S6 H-D
S7 H-D
S8 V-D
Rating
Poles
[A]
150
3
225
3
250
3
400
3
800
3
1200
3
2500
3
Magnetic trip
Rated voltage
[A]
1500
2250
3000
5000
10000
20000
35000
(AC) 50-60 Hz
[V~]
(DC) 3 poles in series [V–]
600
600
480
500
600
600
600
600
600
600
600
600
600
600
ABB SACE
3/45
3/46
ABB SACE
Accessories
Index
Versions ............................................................................................................................. 4/3
Connection terminals ..................................................................................................... 4/6
Service releases ............................................................................................................... 4/10
Electric signals ................................................................................................................. 4/14
Remote controls .............................................................................................................. 4/17
Operating mechanisms and locks ................................................................................ 4/22
Residual current releases ............................................................................................... 4/26
Accessories for electronic releases .............................................................................. 4/30
Installation accessories and spare parts ..................................................................... 4/35
4
ABB SACE
4/1
GSIS9070
4
4/2
ABB SACE
Accessories
Versions
GSIS9120
GSIS9122
GSIS9121
SACE Isomax S circuit-breakers are available in the FIXED, PLUG-IN or WITHDRAWABLE, three-pole or four-pole versions.
F
P
W
FIXED
PLUG-IN
WITHDRAWABLE
The FIXED version circuit-breaker with
The PLUG-IN version circuit-breaker con-
The WITHDRAWABLE version circuit-
three or four-poles has:
sists of:
breaker is made up of:
– the same upper and lower terminals
– fixed part to be installed directly on the
– fixed part, to be installed directly on
– lever operating mechanism
base plate of the cubicle
the base plate of the cubicle with the
– thermomagnetic or electronic release
– moving part obtained from the fixed
side group mounted on the fixed part
– flange for the front door of the switch-
circuit-breaker with the addition of the
to allow the racking-out/racking-in
board
isolating contacts in correspondence
– possibility of assembly on base plate
or on DIN rail (up to 630A)
– circuit-breakers featuring only four
movement
with the connection terminals, of the
– moving part obtained from the fixed
rear frame for fixing to the fixed part
circuit-breaker with the addition of the
and of the terminal covers.
isolating contacts in correspondence
depths (70mm for S1-S2, 103.5 for
Circuit-breaker racking out is carried out
with the connection terminals, of the
S3...S6, 138.5 for S7 and 242 for S8)
by unscrewing the top and bottom fixing
rear frame (which is coupled with the
– standardised front for groups of circuit-
screws. A special lock prevents the cir-
side piece provided on the fixed part
breakers (45mm for S1...S5, 105mm for
cuit-breaker from being racked in and out
for sliding) for fixing to the fixed part,
S3...S7).
with the contacts in the closed position.
and of the terminal covers.
– accessory to be applied on the front of
the circuit-breaker with selection between front for lever operating mechanism, motor operator and rotary han-
F
P
W
Fixed
Plug-in
Withdrawable
dle operating mechanism; application
of one of these accessories allows the
S1 125
–
circuit-breaker lock to be made in the
withdrawn position.
Racking-in/out of the moving part is car-
S2 160
–
S3 160
ried out by means of the special operating lever supplied with the circuit-breaker
in the moving part for withdrawable ver-
S3 250
sion or with the conversion kit of the fixed
S4 160
circuit-breaker into moving part of with-
S4 250
drawable circuit-breaker. The special
mechanism allows the circuit-breaker to
S5 400
be put into the isolated position (with
S5 630
–
power and auxiliar y circuits discon-
S6 630
–
nected) with the compar tment door
S6 800
–
S7 1250
–
S7 1600
–
S8 2000
–
–
S8 2500
–
–
S8 3200
–
–
closed, providing increased operator
safety. The lever can only be inserted with
the circuit-breaker open.
Once racked out or withdrawn, the circuit-breaker can be operated in the open/
closed position and, by means of the
special connection extensions, blank
operating tests of the auxiliary control
circuits can be carried out.
ABB SACE
4/3
4
Accessories
Versions
Starting from the fixed version with front terminals, SACE Isomax S circuit-breakers can be converted into the various versions
using the Conversion kits. This makes management of the product, its versions and stocks as a whole highly flexible. It is, in
any
case, always possible to ask for the circuit-breaker in the required version fully prepared in the factory.
Conversion kit into moving part for plug-in circuit-breaker
This allows the fixed circuit-breaker with
front terminals to be converted into the
S1-S2
S3-S4
moving part of a plug-in circuit-breaker.
The kit consists of:
– tulip isolating contacts
– frame
– assembly screws and nuts.
The fixed part is needed to complete the
GSIS0102
GSIS9036
GSIS0101
circuit-breaker.
4
Fixed part
The fixed part allows the circuit-breaker
to be constructed in the plug-in or
withdrawable version. It can also be
provided in the switchboard as a reserve
power supply to be completed with a
circuit-breaker at the appropriate time.
For plug-in or withdrawable version
circuit-breakers, different circuit-breaker
positions are possible:
– Withdrawable: racked-in – racked-out
- withdrawn.
GSIS9123
– Plug-in: racked-in – racked-out
The fixed part for withdrawable version
circuit-breaker is fitted with a guide for
supporting the moving part during the
isolation or withdrawal operations of the
breakers, there are two guides.
4/4
GSIS9124
moving part. For SACE S6-S7 circuit-
ABB SACE
Conversion kit into moving part for withdrawable circuit-breaker
This allows the fixed circuit-breaker with
front terminals to be converted into the
moving part of a withdrawable circuitbreaker. The kit consists of isolating contacts, frame, assembly screws and nuts.
The circuit-breakers in the withdrawable
version must always be completed, alternatively, with one of the following accessories:
– front for lever operating mechanism
– rotary handle operating mechanism
– motor operator,
in order to make the racking-out lock if
necessary.
The fixed part is needed to complete the
GSIS9037
circuit-breaker.
4
Conversion kit for fixed part of plug-in into fixed part of withdrawable
A guide for converting the fixed part of a
plug-in version circuit-breaker into the
fixed part of a withdrawable version circuit-breaker is available for SACE S3-S4-
GSIS9047
S5 circuit-breakers.
Racking-out handle
This allows racking-out and racking-in –
even with the door closed – of the circuit-breaker in the fixed part.
The handle is the same for the whole
as standard with the Conversion kit or
with the circuit-breakers supplied in the
GSIS9012
range of circuit-breakers and is supplied
withdrawable version.
ABB SACE
4/5
Accessories
Connection terminals
The basic version of the circuit-breaker is supplied with:
The information needed to make the connections is summa-
– front terminals for SACE S3, S4, S5, S6, S7, and S8 circuit-
rised for each type of terminal on pages
4/8-9.
Flat bars of
different dimensions and composition are recommended for
breakers
connection with busbars. Furthermore, the minimum depth
– front terminals for copper cables for SACE S1, and S2 cir-
the flat bar to be connected must have is also indicated, if it is
cuit-breakers.
Different types of terminals are available, which can be com-
of a different composition to the one recommended. The mini-
bined in different ways (upper of one type, lower of another
mum and maximum cross-section of the cables which can be
type), allows the circuit-breaker to be connected to the plant
tightened in the terminals and the diameter of the terminal are
in the most suitable way for installation requirements.
indicated for connection with bare cables
The following distinctions can be made between:
The torque values to be applied to the tightening screws of the
–
–
front terminals which allow connection of cables or busbars
terminals for cable and to the screws used for connecting the
by acting directly from the front of the circuit-breaker.
busbars to the flat bar terminals are given.
rear terminals
which allow installation of the circuit-break-
ers in switchboards with rear access to both cable and
The circuit-breakers can be ordered complete with the termi-
busbar connections.
nals required, mounted directly in the factory, or the terminals
Terminals for connection of busbars or cables terminated with
can be ordered individually in packs of 3 - 4 - 6 - 8 pieces.
cable terminals and terminals for direct connection of bare
Codes for ordering circuit-breakers directly in the configura-
cable are available.
tion
with upper / lower terminals of the same type are avail-
able.
F
EF
ES
FC Cu
GSIS0089
GSIS0088
GSIS0087
GSIS0086
4
Front
terminals
Front extended
terminals
Front extended
spreaded terminals
Front terminals
for copper cables
S1 125
—
—
—
F-P
S2 160
—
F
—
F-P
S2X 80, S2X 100
—
F
—
F-P
S3 160 / 250
F
F-P-W
F
F-P-W
S3X 125 / 200
F
F-P-W
F
F-P-W
S4 160 / 250
F
F-P-W
F
F-P-W
S4X 250
F
F-P-W
F
F-P-W
S5 400 / 630
F
F(400A)-P(400A)-W(400A)
F - W(630A)
F - P(400A) - W(400A)
S6 630 / 800
F
F-W
F
—
S6X 400 / 630
F
F - W (only at the bottom)
F
—
S7 1250 / 1600
F
F-W
F
—
F (2000A / 2500A)
—
—
—
S8 2000 / 2500 / 3200
F = Fixed
4/6
P = Plug-in
W = Withdrawable
ABB SACE
Insulating terminal covers
The terminal covers are applied to the terminals of the circuitbreaker to prevent accidental contacts with live parts and
thereby guarantee protection against indirect contacts. The
following are available:
which guarantee IP40 degree of
GSIS9052
– lower terminal covers,
protection for fixed circuit-breakers with rear terminals and
for moving parts of plug-in or withdrawable circuit-breakers.
– upper terminal covers
for fixed circuit-breakers with front
terminals, front terminals for cables and rear terminals, which
guarantee IP40 degree of protection.
– terminal covers for fixed parts
Screws for sealing the terminal covers
of plug-in or withdrawable
circuit-breakers, guarantee IP40 degree of protection on the
These are applied to the terminal covers of fixed circuit-break-
front with moving part connected. They are available in a
ers or to the moving parts of plug-in or withdrawable circuit-
single version.
breakers. They prevent removal of the upper or lower terminal
The degrees of protection indicated are valid for circuit-break-
covers, and can be locked with wire and a lead seal.
ers installed in switchboards.
FC CuAl
R
RC
HR
VR
GSIS0194
GSIS0193
GSIS0192
GSIS0191
GSIS0190
4
Front terminals
for Cu/Al cables
Rear threaded
terminals
Rear terminals
for Cu/Al cables
Rear terminals
in horizontal flat bar
Rear terminals
in vertical flat bar
—
F-P
—
—
—
F
F-P
—
—
—
F
F-P
—
—
—
F
F-P-W
F
—
—
F
F-P-W
F
—
—
F
F-P-W
F
—
—
F
F-P-W
F
—
—
F(400A)
F - P(400A) - W
F(400A)
—
W(630A)
—
F
F
W
W
F
F
F
W
W
F(1250A)
—
—
F-W
F-W
—
—
—
—
F
ABB SACE
4/7
Accessories
Connection terminals
S3-S4-S5
Front terminals
S6
These allow busbars or cables terminated with a cable terminal to be connected
Type
S3 160, S3X 125
S3 250, S3X 200
S4 160
S4 250, S4X 250
S5 400
S5 630
S6 630,
S6X 400-630
S6 800
S7 1250
S7 1600
S8 2000
S8 2500
S7
S2
S3-S4-S5
S6 630
version pieces
F
F
F
F
F
F
1
1
1
1
2
2
L
20
20
20
20
25
25
F
F
F
F
F
F
2
2
2
2
3
4
40
50
50
50
100
100
busbars [mm]
H
P
10
4
10
6
10
4
10
6
12
5
12
8
12
12
20
20
5
5
8
10
5
5
hole
9
9
9
9
11
11
tightening
B [Nm]
9
9
9
9
18
18
2x7
2x7
2 x 11
2 x 11
4 x 15
4 x 15
9
9
18
18
70 (2)
70 (2)
terminal covers
upper
lower fixed part
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
Front extended terminals
These allow busbars or cables terminated with a cable terminal to be connected
S6 800
Type
S7
S2 160
S3 160, S3X 125
S3 250, S3X 200
S4 160
S4 250, S4X 250
S5 400
S6 630,
S6X 400-630
S6 800
S7 1250
S7 1600
PF S3-S4-S5
PF S6
4
version
pieces
F
F-P-W
F-P-W
F-P-W
F-P-W
F-P-W
1
1
1
1
1
2
busbars [mm]
L
P
hole
20
4
8
20
4
8.5
20
6
8.5
20
4
8.5
20
6
8.5
25
5
11
F-W
F-W
F-W
F-W
2
2
2
2
40
50
50
50
11
14
4x11(4)
4x11(4)
40
50
tightening [Nm]
A
B
5
9
9
9
9
9
9
9
9
9
18
18
11
14
9
9
45
45
terminal covers
upper lower fixed p.
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
18
30
18
18
R
R
R
R
Front extended spreaded terminals
PF S7
These allow busbars or cables terminated with a cable terminal to be connected
Type
version
pieces
L
S3-S4-S5
5
5
8
10
cable term. [mm ]
L
hole
20
8
20
8.5
20
8.5
20
8.5
20
8.5
25
11
PF S5 630
busbars [mm]
P
hole
cable term. [mm]
L
hole
tightening [Nm]
A
B
terminal covers
upper lower fixed p.
S3
F
1
30
4
8.5
30
8.5
9
9
S
S4
F
1
30
4
8.5
30
8.5
9
9
S
S5 400
F
2
40
5
11
40
11
18
18
S
S5 630
F-W
2
40
5
11
40
11
18
18
S
S6
F
2
50
5
3 x 13
4 x 45
13
9
30
S7 1600
F
2
50
10
3 x 13
4 x 45
13
45
20
Front terminals for copper cables
These allow bare copper cables to be connected directly to the circuit-breaker. They are not
suitable for tube cable terminals
Type
S6
S1
S2
S3
S3
S4
S4
S5
S5
S3-S4-S5
4/8
pieces
125
160
160, S3X 125
250, S3X 200
160
250, S4X 250
400
630
F-P
F-P
F-P-W
F-P-W
F-P-W
F-P-W
F-P-W
F-W
1
1
1
1
1
1
1
2
cable
[mm2 ]
1.5...50
1.5...70
6...185
6...185
6...185
6...185
16...240
50...185
busbars cable term. tightening
L [mm]
L [mm]
B [Nm]
max.10
max.10
2.5-5 (1)
max.12
max.12
2.5-5 (1)
16
16
16
16
25
31
Ø clamps
[mm]
11
12.5
18
18
18
18
24
20
terminal covers
upper lower fixed p.
R
R
R
R
R
R
S
R
R
S
R
R
S
R
R
S
R
R
S
S
Key
GSIS0095
S1-S2
version
S7
(1) Tightening torque of 2.5 Nm for < 10 mm2
cable cross-section
(2) M12 class 8.8 screws
(3) M16 class 8.8 screws
(4) Only use two holes diagonally
A = Tightening of the terminal onto the circuit-breaker
B = Tightening the cable/busbar or cable terminal onto
the terminal
R = On request
S = Standard
ABB SACE
Front terminals for copper or aluminium cables
S2-S3-S4-S5
S5
These allow copper or aluminium cables to be connected directly to the circuit-breaker (it is not possible to
use solid aluminium cables). For the SACE S2 circuit-breaker, these terminals must be connected to the
front extended terminals, which are supplied if the circuit-breaker is ordered fitted directly in the factory,
whereas the front extended terminal kit must be specified if they are ordered as loose parts..
Type
S2 160
S3 160 (R100A)
S3 160, S3X 125
S3 250, S3X 200
S4 160
S4 250, S4X 250
S5 400
S6 630, S6X400-630
S6 800
S7 1250
version
F
F
F
F
F
F
F
F
F
F
F
F
pieces
1
1
1
1
1
1
1
2
1
2
3
4
cable
[mm2]
tightening
A [Nm]
B [Nm]
2.5...50
35...95
2.5...50
35...95
25...150
35...95
25...150
95...120
120...240
120...240
70...185
95...240
9
9
9
9
9
9
9
18
18
5
9
37
Ø clamps
[mm]
5.6
13.5
5.6
13.5
31
13.5
31
31
43
31
43
43
9.5
13.5
10
14.2
17
14.2
17
15.5
21.5
21.5
19
21.5
terminal covers
upper lower fixed p.
S6 630
S
S
R
R
R
R
R
S
R
R
S
S
S6 800
S7
S3-S4-S5
S6 630
Rear terminals for copper or aluminium cables
These allow copper or aluminium cables to be connected directly to the circuit-breaker.
Type
S3 160, S3X 125
S3 250, S3X 200
S4 160
S4 250, S4X 250
S5 400
S6 630, S6X400-630
S6 800
version
F
F
F
F
F
F
F
pieces
1
1
1
1
1
2
3
tightening
A [Nm]
9
9
9
9
18
9
9
Ø clamps
B [Nm]
31
31
31
31
43
43
31
[mm]
16
16
16
16
21
21
17.5
terminal covers
upper lower fixed p.
S
S
S
S
S
S
S
Rear threaded terminals
S6 800
S1-S2
S3-S4-S5-S6
These allow rear connection of busbars.
Type
S1 125
S2 160
S3 160, S3X 125
S3 250, S3X 200
S4 160
S4 250, S4X 250
S5 400
S5 630
S6 630, S6X 400-630
S6 800
version
pieces
F
P
F
P
F
P-W
F
P-W
F
P-W
F
P-W
F
P-W
F
P-W
F
F
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
busbars [mm]
L
P
hole
16
3
16
3
18
4
18
4
20
4
12.5
20
4
12.5
20
6
12.5
20
6
12.5
20
4
12.5
20
4
12.5
20
6
12.5
20
6
12.5
25
5
16.5
25
5
16.5
40
5
25
40
5
25
40
5
25
50
5
25
cable term. [mm] tightening
terminal covers
L
hole
A
B upper lower fixed p.
5
8
S
8
5
8
S
8
20
12.5 10
20
S
20
12.5 10
20
20
12.5 10
20
S
20
12.5 10
20
20
12.5 10
20
S
20
12.5 10
20
20
12.5 10
20
S
20
12.5 10
20
25
16.5 18
40
S
25
16.5 18
40
40
25
18
100
S
40
25
18
100
40
25
18
100
S
50
25
18
100
S
4
PF S3-S4-S5-S5 630
S7
PF S6 630
Rear terminals in horizontal and vertical flat bar
These allow rear connection of busbars.
S5 630
S6 630, S6X 400-630
S6 800
S7 1250
S7 1600
S8 2000
S8 2500
S8 3200
ABB SACE
version
pieces
W
W
W
F-W
F-W
F
F
F
2
2
2
2
2
3
4
6
busbars [mm]
L
P
hole
40
5
11
40
5
14
50
5
14
50
8 4x11 (4)
50
10 4x11 (4)
100
5
4x15
100
5
4x15
100
5
4x18
PF S6
cable term. [mm] tightening
L
hole
B [Nm]
40
11
20
40
14
30
50
14
30
20
20
70 (2)
70 (2)
100 (3)
terminal covers
upper lower fixed p.
PF S7
S
S
GSIS0096
Type
4/9
Accessories
Service releases
The service releases, shunt opening and undervoltage releases, housed and fixed in a slot in the left part of the circuit-break er
are always alternative to each other. The power supply is made by means of special connectors for sizes S3 to S7, whereas for
S1-S2, it is made by means of free wires 0.6 m long or with plug-socket connectors which can be supplied on request.
Assembly is carried out by pressure into the appropriate housing in the left part of the circuit-breaker.
Shunt opening release
This allows circuit-breaker opening by
S1-S2
means of an electric command. Release
S3-S4-S5
operation is guaranteed for a voltage
between 70% and 110% of the rated
power supply voltage Un, both in AC and
in DC. It is always fitted with an auxiliary
GSIS0108
GSIS0107
limit contact.
(*)
S8
4
GSIS0110
GSIS0109
GSIS9001
S6-S7
(*) For the SACE S1-S2 circuit-breakers , the service releases are fixed to the circuit-breaker cover
Power supply voltages
S1 - S2
S3 -S4 - S5
S6 - S7
S8
50-60 Hz
DC
50-60 Hz
DC
50-60 Hz
DC
50-60 Hz
DC
[V~]
[V–]
[V~]
[V–]
[V~]
[V–]
[V~]
[V–]
60
24
24
24
24
24
30
48
48
48
48
48
48
100 ... 27
24 … 30
12
48
100 … 130
12
24
220 … 250
60
60 ... 72
60
60
380 … 440
110 … 120
110 … 125
110 … 120
110 … 125
100 ... 127
60
24
220 … 240
220 … 250
220 … 240
220 … 250
127 ... 150
48
380 … 400
380 … 400
150 ... 180
160
110
480
480
200 ... 255
200 ... 250
220
380 ... 500
250
Powers absorbed
on inrush
S1...S5
Circuit-breaker
opening times
S6...S7
S8
S3
Number of
operations
S4...S7
S8
S3-S4
S5
S6-S7
AC
DC
AC
DC
AC
DC
[ms]
[ms]
[ms]
[nr.]
[nr.]
[nr.]
[VA]
[W]
[VA]
[W]
[VA]
[W]
< 15
< 15
< 20
10000
7500
2500
100
120
150
150
200
150
4/10
ABB SACE
Undervoltage release
This opens the circuit-breaker due to a
S1-S2
power supply failure to the release, or
S3-S4-S5
voltage drops to minimum values of 0.7
x Un with a trip range from 0.7 to 0.35 x
Un.
After tripping, the circuit-breaker can be
GSIS0111
closed again, starting with a voltage
voltage release de-energised, neither
GSIS0108
higher than 0.85 x Un. With the under(*)
circuit-breaker nor main contact closure
is possible.
S8
Power supply voltages
GSIS0112
GSIS0109
GSIS9002
S6-S7
(*) For the SACE S1-S2 circuit-breakers , the service releases are fixed to the cover of the circuit-breaker
S1 - S2
S3 -S4 - S5
S6 - S7
S8
50 Hz
60 Hz
DC
50-60 Hz
DC
50-60 Hz
DC
50 Hz
60 Hz
DC
[V~]
[V~]
[V–]
[V~]
[V–]
[V~]
[V–]
[V~]
[V~]
[V–]
24
48
24
24
48
48
60
60
110 … 127
110 … 127
220 … 250
220 … 250
380 … 440
380 … 440
480
480
48
110
110
220
380
380 … 440
24
24
4
30
30
48
48
60
24
24
24
48
48
48
100
110...115
110...115
125 .. 127
60
60
60
110
110 … 125
110 … 125
60
110...125
120
220
220 … 250
220 … 250
127...130
208...220
220...250
220
230...240
277
240
310
380
380...400
440
415...440
480
500
Powers absorbed
during continuous service
S1...S5
S6 - S7
Circuit-breaker
opening times
S1...S2
S8
S3
Number
of operations
S4...S7
S8
S3-S4
S5
S6-S7
AC
DC
AC
DC
AC
DC
[ms]
[ms]
[ms]
[ms]
[nr.]
[nr.]
[nr.]
[VA]
[W]
[VA]
[W]
[VA]
[W]
< 15
< 18
< 25
< 25
10000
7500
2500
6
3
10
4
30
15
ABB SACE
4/11
Accessories
Service releases
Time-delayed undervoltage release
The undervoltage release can be combined with an external electronic power
supply time-delay device, which allows
circuit-breaker opening to be delayed in
the case of a power cut
to the release
itself, according to fixed time-delays of
GSIS9042
0.5-1-2-3 [s], so as to avoid unwarranted
trips caused by temporary malfunctions.
It is available for the SACE S3, S4, S5,
S6, and S7 circuit-breakers with power
supply voltages at 110-220 V (50-60 Hz)
only coupled with an undervoltage release at 310 V DC. Different power supply voltages are possible for S8.
Shunt closing release
This allows circuit-breaker closure by
means of an electric command. Opera-
Power supply voltages
S8
S8
tion of the release is guaranteed for a
50 Hz
60 Hz
DC
voltage between 80% and 110% of the
[V~]
[V~]
[V–]
rated power supply voltage Un, both in
24
AC and in DC.
24
24
GSIS0112
30
4
30
48
48
60
60
100
110...115
110...115
125...127
GSIS9003
110...125
120
127...130
220
208...220
220...250
230...240
277
240
310
380...400
440
380
415 ... 440
480
500
Powers absorbed
on inrush
Circuit-breaker
closing times
S8
S8
4/12
AC
DC
[ms]
[VA]
[W]
< 55
200
220
ABB SACE
Connectors for service releases
These allow the shunt opening release
or the undervoltage release to be con-
S1 - S2
nected to the power supply circuit. They
are available in the following versions:
GSIS0113
(free cables always supplied)
GSIS0114
– plug-socket for S1-S2 circuit-breakers
– for fixed S3 ... S7 circuit-breakers
– for plug-in/withdrawable S3 ... S7
circuit-breakers.
Assembly is by means of pressure into
special slots in the left side of the circuit-
S3 ... S7
breaker.
GSIS9013
GSIS0115
GSIS0116
Cables of different lengths are available.
4
Extension for testing service releases
Available for SACE S3, S4, S5, S6, and
S7 circuit-breakers, this allows supply to
the service releases with the circuitbreaker in the racked-out position. It is
erating tests of the circuit-breaker with
the circuit-breaker in safe conditions, i.e.
GSIS9017
therefore possible to carry out blank op-
isolated in relation to the power circuits.
ABB SACE
4/13
Accessories
Electric signals
These allow information relative to the circuit-breaker state of operation to be taken outside the circuit-breaker.
Installation of these accessories is carried out directly from the front of the circuit-breaker in special slots, completely se gregated
from the live parts, with increased operator safety.
Auxiliary contacts
These carry out electrical signalling of the
operating state of the circuit-breaker:
S1-S2
S3-S4-S5
– Open/closed: indicates the position of
the circuit-breaker contacts.
– Release trip: signals circuit-breaker
opening because the overcurrent release has tripped (for an overload or
shunt opening or undervoltage release
has tripped, or the emergency open-
GSIS0118
GSIS0117
shor t-circuit), the residual current,
(*)
ing pushbutton of the motor operator
or
the
test
pushbutton
has
been
pressed. Signalling is reset when the
S6-S7
circuit-breaker is reset (recovery).
For SACE S3, S4, S5, S6, and S7 circuitbreakers the auxiliary contacts of the circuit-breaker are also available in the
gold-plated version for digital signals,
also suitable for use with voltages Un <
24 V with the same type of signalling and
GSIS0119
versions.
The signals indicated in the table are
available:
4
(*) For SACE S1-S2 circuit-breakers the auxiliary contacts are fixed to the cover of the circuit-breaker
GSIS9004
Signals
S1...S2
4/14
In [A]
S8
–
1 contact during open/closed changeover +
1 contact during release tripped changeover
–
1 circuit-breaker open signal + 1 circuit-breaker
closed signal + 1 release tripped signal
–
–
3 NO or NC contacts
–
–
–
release tripped signal
–
–
–
microswitch for signalling closing springs
charged
–
–
–
S3-S4-S5-S6-S7
ohmic load
inductive In [A]
S4...S7
2 contacts during open/closed changeover
S1-S2
Rated voltage Un
V ~ (50-60 Hz) V –
S3
Rated voltage Un
V ~ (50-60 Hz)
V–
–
S8
ohmic load
In [A]
Rated voltage Un
V ~ (50-60 Hz)
V–
220
ohmic load
In [A]
–
30
4
–
–
125
0,3
–
127
–
4
2A (cosj = 0,3)
–
250
0,15
380
1
6
220
–
4
2A (cosj = 0,3)
250
6
500
3
400
3
ABB SACE
Connectors for auxiliary contacts
These allow the auxiliary contacts to be
connected to the relative power supply
S1 - S2
circuit. For S1, S2 circuit-breakers, the
wires or with mobile plug-socket connecGSIS0113
tors. For SACE S3, S4, S5, S6, and S7
circuit-breakers, the auxiliary contacts
GSIS0114
power supply is made by means of free
(fitted with plug connector) can only be
supplied by means of the specific connection connectors to be ordered specifying the size and version of the circuit-
S3 ... S7
breaker (fixed or plug-in/withdrawable).
Assembly is carried out by pressure into
special slots in the right side of the cir-
GSIS0120
GSIS0121
cuit-breaker.
GSIS9015
(*)
(*) Connectors for auxiliary contacts, for fixed, plug-in or withdrawable circuit-breakers
4
Extension for testing auxiliary contacts
Available for SACE S3, S4, S5, S6, and
S7 circuit-breakers, this allows the auxiliary contacts to be connected to the relative power supply circuit with the circuit-
the circuit-breaker in safe conditions, i.e.
isolated in relation to the power circuits,
GSIS9089
breaker in the racked-out position. With
blank tests of circuit-breaker operation
can be carried out.
ABB SACE
4/15
Accessories
Electric signals
Early auxiliary contact for undervoltage release
The early auxiliary contact for the undervoltage release, interlocked with the ro-
S3 ... S7
tary handle operating mechanism, keeps
the release de-energised with the circuit-
GSIS0122
breaker open.
It is supplied complete with socket connector of the type with double slide for
simultaneous connection of the under-
GSIS9038
GSIS0123
voltage release and the accept contact.
Circuit-breaker position contacts
For the fixed part of the SACE S2, S3, S4,
S5, S6, and S7 circuit-breakers, these
S3 ... S7
carry out electrical position signalling of
part: racked-in, racked-out. They can
only be connected by means of free wires
and are available in the following ver-
GSIS9006
sions:
– Contacts for signalling circuit-breaker
racked in
GSIS0160
4
the circuit-breaker in relation to the fixed
– Contacts for signalling circuit-breaker
racked out.
A maximum of three contacts for S2, two
contacts for S3, three contacts for S4-S5
and five contacts for S6-S7 can be installed on the fixed part, in any combination.
The circuit-breaker position contacts are
also available in the gold-plated version
for digital signals also suitable for use
with voltages Un < 24 V with the same
type of signals and combinations.
4/16
S2
Rated voltage Un
V ~ (50-60 Hz) V –
S3-S4-S5-S6-S7
ohmic load
In [A]
inductive In [A]
Rated voltage Un
V ~ (50-60 Hz)
V–
ohmic load
In [A]
–
30
4
–
–
125
0,3
127
–
4
2A (cosj = 0,3)
–
250
0,15
220
–
4
2A (cosj = 0,3)
250
6
400
3
ABB SACE
Accessories
Remote controls
These allow remote control of circuit-breaker opening and closing and are particularly suitable for use in electrical network
supervision and control systems. They are complete with manual operating lever and emergency opening pushbutton (starting
from S3). A selector allows changeover from automatic to manual operation. They are always fitted with a padlock and, on
request, can be fitted with a key lock in the open position.
Solenoid operating mechanism for SACE S1-S2
circuit-breakers
S1-S2
This operates both opening and closing
of the circuit-breaker, acting directly on
its lever.
There are two versions available, one
placed “beside” the circuit-breaker (for
installation on a panel or DIN EN 50022
GSIS0124
rail), the other on the “front”, suitable for
being installed directly on the front of the
circuit-breaker.
Both versions can be used either for S1
GSIS0125
or for S2 and in the three- and four-pole
version.
Rated voltage, Un
AC
48
[V]
110
60
[V]
220 ... 230
110
[V]
–
220
Operating voltage
85 ... 110% Un
85 ... 110% Un
Inrush power absorption, Ps
2300-2500 [VA]
GSIS9022
–
Duration
Mechanical life
GSIS9023
Minimum duration of the opening
and closing command impulse
4
700-900 [W]
opening [s]
< 0.1
closing [s]
< 0.1
[no. operations]
25000
Degree of protection, on the front
ABB SACE
DC
[V]
IP 30
[ms]
> 100
4/17
Accessories
Remote controls
Direct action motor operator for SACE S3-S4 and S5 circuit-breakers
Both the opening and closing command
is controlled by the motor, which acts di-
S3-S4-S5
rectly on the circuit-breaker lever. The
table shows the power supply voltage
GSIS0126
GSIS9021
GSIS0127
values Un [V].
Rated voltage, Un
AC
–
24
[V]
–
48-60
[V]
110-127
110-125
[V]
220-240
220-250
[V]
380
–
[V]
440
–
85 ... 110% Un
85 ... 110% Un
Inrush power absorption, Ps
500 [VA]
500 [W]
Service power absorption, Pc
350 [VA]
Operating voltage
Operating frequency
[Hz]
Time constant
Duration
4
[ms]
18
0.1
[no. operations]
Degree of protection, on the front
Minimum duration of the opening
and closing command impulse
350 [W]
50-60
opening [s]
closing [s]
Mechanical life
4/18
DC
[V]
0.1
15000 (S3-S4) / 10000 (S5)
IP 30
[ms]
> 150
ABB SACE
Stored energy motor operator for SACE S6-S7 circuit-breakers
With the stored energy operating mechanism, during circuit-breaker opening the
S6-S7
release mechanism automatically precharges a system of springs: the stored
energy is exploited for closing the circuitbreaker. It is supplied complete with
shunt closing release (Ps=100VA~/
GSIS0128
door. The table shows the power supply
GSIS0129
100W–) and flange for the compartment
voltage values Un [V].
In the case of interlocked circuit-breakers, the key lock against manual operation is necessary.
GSIS9020
Rated voltage, Un
AC
DC
[V]
–
24
[V]
–
48
[V]
–
60
[V]
110
110
[V]
120-127
120-127
[V]
220-250
220-250
[V]
380
–
[V]
–
–
85 ... 110% Un
85 ... 110% Un
Inrush power absorption, Ps
660 [VA]
600 [W]
Service power absorption, Pc
180 [VA]
Operating voltage
Operating frequency
[Hz]
Time constant
[ms]
Duration
0.09
opening
1.2
[no. operations]
Degree of protection, on the front
Minimum duration of the opening
and closing command impulse
ABB SACE
22
closing
resetting
Mechanical life
180 [W]
50-60
4
2
10000 (S6) / 5000 (S7)
IP 30
[ms]
> 100
4/19
Accessories
Remote controls
Geared motor for SACE S8 circuit-breaker
This allows the springs of the circuitb re a k e r
closing
mechanism
to
Rated voltage, Un
AC
DC
–
24-30
be
[V]
charged automatically, immediately fol-
[V]
–
48-60
lowing an closing operation. It includes
[V]
100-130
100-130
[V]
a limit microswitch for electrical signal-
Inrush power absorption, Ps
ling of closing springs charged.
Service power absorption, Pc
220-250
1000 [W]
230 [VA]
Charging time
[s]
[no. operations]
230 [W]
7 ... 10
5000
GSIS9007
Mechanical life
220-250
1000 [VA]
Connectors for motor operators
The motor operators, from S3 to S7, can
only be supplied by means of the spe-
S3 ... S7
cific connection connectors. They are of
the slide type and allow simultaneous
connection of both the motor operator
and the auxiliary contacts to the relative
power supply circuit. They are an alternative to the corresponding connectors
GSIS0130
are housed in the same seat. They must
be ordered specifying the size and version of the circuit-breaker (fixed or plugin/withdrawable).
Extension for testing motor operators
For the SACE S3, S4, S5, S6, and S7 cirS3 ... S7
cuit-breakers, this allows both motor operators and the auxiliary contacts to be
connected to the relative power supply
circuit with the circuit-breaker in the
racked-out position. With the circuitbreaker in safe conditions, i.e. isolated
in relation to the power circuits, blank
operating tests of the circuit-breaker can
be carried out. It must be ordered speci-
GSIS9016
4
GSIS9014
for the auxiliary contacts only since they
fying the size and version of the circuitbreaker (fixed or plug-in/withdrawable)
and automatically excludes the corresponding extension for testing the auxiliary contacts
4/20
ABB SACE
Rotary handle operating mechanism
The rotary handle operating mechanism
facilitates operation thanks to its ergo-
S1-S2
nomic handle. It is always fitted with a
padlock in the open position, which prevents the circuit-breaker being closed.
The lock slot can take up to 3 padlocks –
stem Ø 6 mm (not supplied). On request
it can be fitted with a compartment door
lock or a key lock in the open position.
For SACE S2, S3, S4, S5, S6, and S7 circuit-breakers, application of the rotary
handle operating mechanism is an alterGSIS0131
native to the front flange for the lever operating mechanism and for the motor
operator. Different types of rotary handle
S6-S7
operating mechanism are available.
The position of the rotary handle indicates
with certainty the position of the contacts:
open, closed, relay tripped. The release
S3-S4-S5
settings and the nameplate data remain
accessible to the user. For the SACE S6,
S7 circuit-breakers, the direct rotary handle operating mechanism on the circuitbreaker is always supplied complete with
GSIS0123
flange for the compartment door.
The rotary handle operating mechanism
GSIS0132
in the emergency version, complete with
red-yellow handle and yellow plate, suitable for machine tool control, is also available for all the circuit-breakers.
S1-S2
GSIS9025
F/P
Direct
Direct emergency
W
F
W
–
–
–
–
119,5 mm
–
–
–
–
Transmitted with fixed emergency distance
119,5 mm
–
–
–
–
Transmitted with adjustable emergency distance
GSIS9024
F/P
S6-S7
Transmitted with fixed distance
Transmitted with adjustable distance
ABB SACE
S3-S4-S5
Extension for transmitted handle
–
300 mm 300 mm
500 mm 500 mm
–
300 mm
–
500 mm
–
180/500 mm
500 mm
–
–
–
4/21
4
Accessories
Operating mechanisms and locks
Front flange for lever operating mechanism
This can be installed on SACE S3, S4,
S5, S6, and S7 fixed, plug-in or withdraw-
S6-S7
S3-S4-S5
able circuit-breakers. In the case of withdrawable circuit-breakers installed in
compartments, it allows the IP40 degree
of protection to be kept for the whole isolation run of the circuit-breaker. It is always fitted with a padlock in the open
position (stem Ø 6 mm - up to three pad-
GSIS0133
locks - not supplied) which prevents closing of the circuit-breaker. On request, it
can be fitted with a key lock in the open
GSIS0134
position for one or more circuit-breakers
and with the compartment door lock.
It is available in the following versions:
– for fixed or plug-in circuit-breaker.
– for withdrawable circuit-breaker.
For the SACE S6, S7 circuit-breakers, it
is always supplied complete with flange
for the compartment door, whereas for
the SACE S3, S4, and S5 circuit-breakers the flange supplied with the circuit-
GSIS9026
breaker can be used.
4
Key lock in open position
This allows the mechanical closing operation of the circuit-breaker to be locked.
S3 ... S7
The following versions are available:
– lock with different key for each circuitbreaker
– lock with the same key for groups of
circuit-breakers.
Different locks are supplied for direct
front flange for lever operating mecha-
GSIS0136
motor operator, and for rotary handle or
GSIS0135
action motor operator, for stored energy
nism. The circuit-breaker lock in the open
position ensures circuit isolation in com-
GSIS9008
pliance with the IEC 947-2 Standard.
4/22
ABB SACE
Compartment door lock
This prevents the compartment door being opened with the circuit-breaker
S3...S7
closed. It can be used with the SACE S3,
S4, S5, S6, and S7 circuit-breakers in the
fixed, plug-in or withdrawable version
and fitted with rotary handle operating
mechanism or front flange for lever operating mechanism. It consists of two eleGSIS9010
ments: one applied to the rotary handle
operating mechanism or to the front
flange for the lever operating mechanism,
the other, consisting of a metal striker, to
be applied onto the compartment door.
GSIS0137
For the SACE S1-S2 circuit-breakers it is
an integral part of the rotary handle operating mechanism.
Lock for fixed part of withdrawable circuit-breaker
Key locks or padlocks are available to
be applied to the guide of the fixed part
S3...S7
of a withdrawable circuit-breaker to prevent the moving part from being rackedin. The following different versions are
available:
– Padlock, which can take up to three
padlocks with stem Ø 6 mm (not sup-
GSIS0138
ferent key for each circuit-breaker
GSIS0139
plied).
– Key lock in the open position with dif-
– Key lock in the open position between
two or more circuit-breakers with the
same key for groups of circuit-breakers
GSIS9009
GSIS0140
– Key lock of Ronis type (without key).
ABB SACE
4/23
4
Accessories
Operating mechanisms and locks
Padlock for operating lever
This is applied on the cover of the SACE
S1-S2 circuit-breakers
S1-S2
to prevent the
operating lever movement. If activated,
the circuit-breaker remains locked in the
open position, guaranteeing circuit isolation in compliance with the IEC 947-2
GSIS9035
GSIS0141
Standard.
Anti-tampering lock
S2-S3
S2, S3 circuit-breakers in correspondence with the regulator of the thermal element of the thermomagnetic release
GSIS0142
GSIS0143
and prevents it being tampered with.
GSIS0144
GSIS9049
4
This is applied on the cover of the SACE
4/24
ABB SACE
Mechanical interlock between two circuit-breakers
This allows installation of two circuitbreakers on a single support and, by
S3 ... S7
means of special lever mechanism,
makes them mechanically inter-dependent. It prevents operation in parallel of two
power supply sources (e.g.: normal emergency). It consists of a kit with levers and assembly accessories and a
metallic support.
The circuit-breakers and any operating
mechanism accessories must be ordered
separately. The mechanical interlock is
available for SACE S3, S4, S5, S6, and
S7 circuit-breakers in side by side and
superimposed versions.
To be able to take the circuit-breakers
mounted directly on the interlocking
plate, the code “1SDA050093R1” must
be specified as an accessory of the sec-
N.B. for the S3X, S4X , S6X circuit-breakers,
GSIS0145
is to be interlocked.
GSIS0146
ond circuit-breaker (or fixed part) which
only the version side by side can be used.
4
ABB SACE
4/25
Accessories
Residual current releases
All the circuit-breakers in the SACE Isomax S series are preset for combined assembly with residual current releases. In partic ular,
the SACE S1, S2, and S3 circuit-breakers can be combined with residual current releases in the SACE RC210, RC211 or RC212
series, in the version side by side or underneath the circuit-breaker.
Apart from the protection against overloads and short-circuits typical of circuit-breakers, the residual current circuit-breake rs
which are derived from them also guarantee protection against earth fault currents, thereby ensuring protection against the ris
k
of fire. The residual current releases can also be mounted on the SACE S2D and S3D switch-disconnectors. In that case, the
derived apparatus is a “pure” residual-current circuit-breaker, which
therefore guarantees only residual current protection an d
not the protections typical of circuit-breakers. The “pure” residual-current circuit-breakers are only sensitive to the earth f ault
current and are generally applied as main isolators in small distribution switchboards towards end users.
The use of “pure” and “non-pure” residual-current circuit-breakers allows continuous monitoring of the state of insulation of t he
installation, ensuring effective protection against the risk of fire and explosion and, in the case of devices with I
Dn
£
30mA, they
guarantee protection of people against indirect and direct contacts to integrate the compulsory measures foreseen by the
standards and by the accident prevention regulations.
The residual-current releases are constructed in compliance with the following standards:
– IEC 947-2 appendix B
– IEC 255-3 and IEC 1000: for protection against unwarranted trips.
SACE RC210 polarised residual-current release
The SACE RC210/1 polarised residualcurrent release is available for four-pole
S1
SACE Isomax S1 circuit-breakers for assembly side by side on DIN 50022 rail.
The release is constructed using polarised type technology and acts directly
on the release operating mechanism of
piston which passes through a pre-cut
GSIS9027
4
GSIS0147
the circuit-breaker, by means of a small
window on the side of the circuit-breaker.
It is fitted with a test button for periodically checking the circuit-breaker.
SACE RC211, RC212 electronic residual current releases
The SACE
RC211 and RC212 residual
current releases can be installed both
on the SACE S1, S2 and S3 circuit-breakers and on the SACE S2D and S3D
– SACE RC211/2, RC212/2 for S2 circuitbreakers
– SACE RC211/3, RC212/3 for S3 circuitbreakers.
presence of one-direction pulsating currents with continuous components.
The operating conditions of the apparatus can be controlled constantly by
switch-disconnectors, in the fixed four-
They are constructed using analogue
means of the test pushbutton of the elec-
pole version, and can be supplied in two
technology and act directly on the cir-
tronic circuit and the residual current trip
versions as follows:
cuit-breaker by means of an opening
magnetic indicator.
– for assembly in position beside the
solenoid, supplied with the release, to
The circuit-breaker complete with re-
be housed in the special slot made in
sidual current release can be fitted with
the area of the third pole.
the electrical accessories normally avail-
They do not require an auxiliary power
able for the circuit-breaker. The opening
supply since they are supplied directly
and undervoltage releases are housed
The following releases are available:
from the network and their operation is
in the special slot made in the fourth pole.
– SACE RC211/1, RC212/1 for S1 circuit-
guaranteed even with only a single
circuit-breaker
– for assembly in position under the circuit-breaker.
breakers
4/26
phase supplied with voltage and in the
ABB SACE
Residual current release beside the four-pole version circuit-breaker
This is supplied complete with:
– power cables for connection to the
S1-S2-S3
lower terminals of the circuit-breaker
(respecting correspondence with the
neutral and phases)
– an opening solenoid to be housed in
GSIS0148
the area of the third pole, complete with
plug-socket connector for connection
to the residual current release
– 2 brackets for fixing on DIN rail (one
for the circuit-breaker and one for the
residual current release)
– plug connector to make the connection of the remote opening pushbutton
beside
(to be provided by the customer).
For SACE S1-S2 circuit-breakers the residual current release is fitted with front
terminals for cables.
For the SACE S3 circuit-breaker, the residual current release is fitted with front
On request, the front terminals for ca-
terminals and is also supplied with a front
bles can be mounted, using the stand-
flange H= 45 mm for the circuit-breaker.
ard circuit-breaker kit.
Residual current release under the four-pole version circuit-breaker
This is supplied complete with:
– an opening solenoid to be housed in
4
S1-S2-S3
the area of the third pole, complete with
plug-socket connector for connection
to the residual current release
– plug connector to make the connection of the remote opening pushbutton
(to be provided by the customer) with
the SACE RC212 residual current release
– flange for compartment door (one for
SACE S1, S2; two for SACE S3)
– protection for assembly in the area
GSIS0149
between the circuit-breaker and residual current release.
For SACE S1, S2 circuit-breakers, the residual current release is supplied with
front terminals for cables On request, the
rear threaded terminals can be mounted,
under
using standard kit of the circuit-breaker.
For SACE S3 circuit-breakers, the residual current release is supplied with
nals for cables can be mounted or the
front terminals (together with a front flange
rear terminals using the kit with 4 pieces
H= 45mm for circuit-breaker). On re-
for the circuit-breaker can be mounted
quest, using the standard kit of the cir-
(code 1SDA023365R1) and the kit for
cuit-breaker, front terminals for cables,
residual
extended front terminals, or rear termi-
1SDA025543R1).
ABB SACE
current
release
(code
4/27
Accessories
Residual current releases
Technical characteristics
Residual current releases
Technology
Action
Primary operating voltage
SACE RC210
SACE RC211
polarised type
electronic
SACE RC212
electronic
direct
with solenoid
with solenoid
[V]
up to 500
220 ... 500
50 ... 500
[Hz]
50 ÷ 60 Hz ± 10%
50 ÷ 60 Hz ± 10%
50 ÷ 60 Hz ± 10%
Range of test operation
[V]
230 ... 500
220 ... 500
50 ... 500
Rated service current
[A]
up to 125
up to 250
up to 250
Trip thresholds IDn
[A]
0,3 - 0,5
0,03 - 0,1 - 0,3
0,03 - 0,1 - 0,3 - 0,5 - 3
Tolerance for IDn
[%]
+0, -25
+0, -20
instantaneous
instantaneous
0 - 0,1 - 0,25 - 0,5 - 1 - 1,5
Operation frequency
Trip times
Tolerance over trip times
[s]
[%]
± 20
Trip signalling
Self-supply
Input for remote opening
Indication of pre-alarm at 50%
AC type only for alternating current
Type A for alternating current, pushbutton
Low sensitivity
High sensitivity
Mounting under the circuit-breaker
Mounting beside the circuit-breaker
Dimensions (L x H x P)
[mm]
103 x 120 x 70
120 x 120 x 70
140 x 170 x 108
Connection to the residual current circuit-breaker network
4
Network connection diagrams for which the protection
Network connection diagrams for which the protection
is active with at least two phases supplied with voltage
GSIS0077
is active even with only one phase supplied with voltage
(1) Terminal to be connected to the neutral or to the earthing conductor.
4/28
ABB SACE
SACE RCQ switchboard residual-current relays
The SACE Isomax S4, S5, S6, and S7 circuit-breakers can be combined with the
SACE RCQ switchboard residual-current
relay with separate toroid (to be installed
externally on the line conductors) and
satisfies requirements with trip thresholds
up to 30 A and times up to 5 s or where
the installation conditions are particuGSIS9046
larly restrictive, such as circuit-breakers
already installed, limited space in the circuit-breaker compartment.
Thanks to its wide setting range, the
SACE RCQ switchboard residual-current
relay is suitable for applications where a
coordinated residual current protection
system is to be constructed at the various distribution levels, from the main
switchboard to the end user. It is particularly suitable where low sensitivity residual current protection is required, for
example in partial (current-type) or total
(time-type) selective chains, and for high
sensitivity applications (with physiologi-
Residual-current relay
Power supply voltage
SACE RCQ
AC [V]
DC [V]
Operation frequency
80 ... 500
48 ... 125
[Hz]
50 ÷ 60 Hz ± 10%
- 1a range of adjustments
[A]
0,03 - 0,05 - 0,1 - 0,3 - 0,5
- 2a range of adjustments
[A]
1 - 3 - 5 - 10 - 30
[s]
0 - 0,1 - 0,2 - 0,3 - 0,5 - 0,7 - 1 - 2 - 3 - 5
Trip threshold adjustment IDn
cal sensitivity) to realise protection of
Trip time adjustment
people against direct contacts
Pre-alarm threshold adjustment
On a drop in the auxiliary power supply
Range of use of the closed transformers
[%] x IDn
25 ... 75% x IDn
IDn
voltage, the opening command inter-
- Toroidal transformer Ø 60 [mm]
[A]
0,03 ... 30
venes after a minimum time of 100 ms
- Toroidal transformer Ø 110 [mm]
[A]
0,03 ... 30
and after the time set plus 100 ms.
- Toroidal transformer Ø 185 [mm]
[A]
0,1 ... 30
The SACE RCQ relay is suitable for use
in the presence of earth currents of alternating type only (AC Type), for alternating current and/or pushbutton with continuous components (Type A) and is suit-
Range of use of the transformers which can be opened
[A]
0,3 ... 30
- Toroidal transformer Ø 180 [mm]
[A]
0,3 ... 30
- Toroidal transformer Ø 230 [mm]
[A]
Alarm pre-threshold signalling
1 N.O. changeover contact
6 A - 250 V AC 50/60 Hz
Residual-current relay trip signalling
Yellow flashing LED
The SACE RCQ relay is of the type with
2 changeover contacts (N.O. N.C.; N.O.)
indirect action and acts on the release
mechanism of the circuit-breaker by
6 A - 250 VAC 50/60 Hz
Remote opening command
N.O. Contact
means of the circuit-breaker shunt opening release (to be ordered by the user)
Trip time 15 ms
Connection to the toroidal transformer
By means of 4 twisted conductors
Maximum length 5 m
to be housed in the special slot made on
the third pole of the circuit-breaker.
ABB SACE
1 ... 30
Yellow flashing LED
able for carrying out residual current selectivity .
4
Dn
I
- Toroidal transformer Ø 110 [mm]
Dimensions L x H x D
[mm]
96 x 96 x 131,5
Drilling for assembly on door
[mm]
92 x 92
4/29
Accessories
Accessories for electronic releases
SACE PR212/D-M Modbus and SACE PR212/D-L Lon dialogue unit
The dialogue unit is a device which al-
in any case, in accordance with what
lows two-way communication from the
has been set manually. The SACE PR212/
circuit-breaker to the outside and vice
D-M and SACE PR212/D-L dialogue units
versa. ABB SACE has built two distinct
are always fitted in combination with the
dialogue units able to support two differ-
SACE PR212/T actuator unit, which al-
ent standard market protocols: SACE
lows remote closing or opening opera-
PR212/D-M (Modbus RTU protocol) and
tion of the circuit-breaker (Remote Con-
SACE PR212/D-L (LonTalk protocol by
trol) by means of two digital outputs which
Echelon). Both units are housed in exter-
can be disabled thanks to the dip-switch
nal modules, which can be installed on
(LOC/REM) positioned on LOC.
DIN rails, and can be used with the S4,
S5, S6, and S7 circuit-breakers fitted with
Information available
SACE PR212/P electronic release, both
– State of the circuit-breaker: open;
in the LSI and LSIG versions, or SACE
PR212/MP release. They must be sup-
closed; tripped
– Installation alarms: pre-alarm L; tripped
plied with a stabilised voltage of 24 VDC
(±20% with maximum ripple ±5%) and
L-S-I-G-R-V-PTC
– Measurements: currents; N° opera-
be earthed. Communication towards the
outside is generally addressed to a su-
tions; N° trips
– Reading and writing curves and trip
pervision and control unit, which has the
t h re s h o l d s :
task of collecting and storing the infor-
(MAN), electronic reading and writing
mation regarding the part of the plant
controlled.
only
manual
re a d i n g
(ELT)
– Circuit-breaker commands: opening;
In the case of an error in the serial com-
closing; reset.
munication due to a fault in the dialogue
unit or lack of auxiliary power supply, the
SACE PR212/P protection unit works according to the last parameters set and,
4
PR212/DM
PR212/D-M
Protocol
Modbus RTU
LonTalk
EIA RS485
TP (Twisted Pair)
9600 – 19200 bit/s
78Kbit/s
bus
bus
Physical means of transmission
Speed
Architecture
4/30
PR212/D-L
ABB SACE
The SACE PR212/T actuator unit allows
The PR212/D dialogue unit sends the
circuit-breaker opening and closing by
digital opening and closing commands,
means of the motor operator mounted on
received from the supervision and con-
the circuit-breaker. It is always supplied
trol system, to the inputs of the SACE
in combination with the SACE PR212/D
PR212/T actuator unit, which carries out
dialogue unit. An auxiliary power supply
circuit-breaker closing and opening by
with a stabilised voltage of 24 VDC
means of a power relay. The motor op-
(±20%, with maximum ripple - ±5%) and
erator of the circuit-breaker (use the
earthed is required for operation of the
versions with power supply voltage at
unit.
110 V AC/DC or 220 V AC) must be
GSIS9043
SACE PR212/T actuator unit
connected to these relays.
This allows control of tripping of the SACE
input bushings located on the front of the
PR211/P, SACE PR212/P, and SACE
SACE PR211/P, SACE PR212/P, or SACE
PR212/MP electronic releases and the
PR212/MP releases.
trip test of the opening solenoid OS. The
The limited dimensions of the accessory
device is supplied by means of a 12 V
make it practically pocket-type. The trip
replaceable battery and is fitted with a
test device can be used on the SACE
two-pole polarised connector-tracer point
Isomax S4, S5, S6, S7, and S8 circuit-
housed on the bottom of the box, which
breakers.
GSIS9031
SACE TT1 Test unit
allows connection of the device to the test
4
The SACE PR212/K signalling unit, only
garding the state of activation of the pro-
available for S8, is able to convert the
tection functions passes, on the basis of
digital signals supplied by the SACE
which the relative power contacts are
PR212/P - (LSIG) protection unit into elec-
closed to signal:
tric signals by means of normally open
– pre-alarm for protection function L
electrical contacts. An auxiliary power
(I>0.9 x I1)
supply is needed to operate the unit. It is
– protection function L, S, I, G trip
connected to the internal bus of the pro-
– release trip
tection unit by means of a dedicated se-
– communication error with protection
rial line over which the information re-
GSIS9041
SACE PR212/K signalling unit
unit.
PR212/K
Auxiliary power supply
24 V DC ±20%
maximum ripple 5%
Maximum current interrupted
5A
Maximum voltage interrupted
250 V AC / 130 V DC
Breaking capacity – resistive load
50 W / 800 VA (48 V DC and 220 V AC)
Breaking capacity - inductive load
25 W / 500 VA (48 V DC and 220 V AC)
Contact/contact insulation
1000 Veff
Contact/coil insulation
2000 Veff
ABB SACE
4/31
Accessories
Accessories for electronic releases
The SACE PR010/K signalling unit can
Alarm signalling remains active for the
convert the signals received via the bus
whole duration of the overload up to any
from the SACE PR212/P (LSI or LSIG) and
release trip.
SACE PR212/MP (LRIU) protection units
The protection trip signals remain ac-
into electric signals by means of normally
tive during the timing phase and remain
open electrical power contacts.
that way even after release trip.
An auxiliary power supply with a voltage
A Reset pushbutton on the front of the
stabilised at 24V DC (±20% with maxi-
unit allows the state of all signals to be
mum ripple - ±5%) and ear thed is
reset.
needed to operate the unit.
There are also two LEDs available on the
It is connected to the Internal Bus of the
unit for visually signalling the following
protection unit by means of a dedicated
information:
serial line over which the information re-
– “Power ON”: auxiliary power supply
garding the state of activation of the pro-
present
tection functions passes, on the basis of
– “TX (Int Bus)”: flashing synchronised
which the relative power contacts are
with the communication activity with
closed.
GSIS9147
SACE PR010/K signalling unit
the Internal Bus
In particular, the following signals are
The table below shows the characteris-
available:
tics of the signalling relays available in
the SACE PR010/K unit.
K51
4
PR212/P (LSI-LSIG)
PR010/K
1
Protection L alarm
Auxiliary power supply
2
Protection S alarm
Maximum current interrupted
5A
3
Protection I alarm
Maximum voltage interrupted
250 V AC / 130 V DC
4
Protection G alarm
5
Bus K.O.
7
Release trip
8
Protection L pre-alarm
K51
PR212/MP (LRIU)
1
Protection L alarm
2
Protection R alarm
3
Protection I alarm
4
Protection U alarm
Welded contactor alarm contacts
5
Bus K.O.
6
PTC alarm
(temperature sensor on motor) (*)
Generic input 0/1
7
Release trip
8
Protection L pre-alarm
Back-up protection alarm
24 V DC ±20%
maximum ripple 5%
Breaking capacity – resistive load
50 W / 800 VA (48 V DC and 220 V AC)
Breaking capacity – inductive load
25 W / 500 VA (48 V DC and 220 V AC)
Contact/contact insulation
1000 Veff
Contact/coil insulation
2000 Veff
(*) alternatively by means of dip-switch
4/32
ABB SACE
SACE PR010/T Test and Configuration Unit
The SACE PR010/T unit is an instrument
possible to upgrade the SW of the SACE
able to carry out the Test, programming
PR010/T unit to allow adaptation of the
and parameter readout functions for the
Test unit to evolution of new products.
protection units which equip the SACE
The results of most importance regard-
Isomax S moulded-case circuit-breakers
ing the test can also be stored in the unit
and the SACE Emax air circuit-breakers.
itself and sent to the Personal Computer
In particular, for circuit-breakers fitted
on explicit request for “issue of report”.
with SACE PR212/P or SACE PR212/MP
Both in automatic and manual mode, the
releases, the test, programming and
SACE PR010/T unit is able to test the fol-
readout parameter functions are avail-
lowing:
able.
– protection functions L, S, I, G;
All the functions mentioned can be car-
– protection functions LRIU for SACE
SACE PR010/T unit to the multipin front
flange connector on the protection unit;
PR212/MP;
– monitoring of correct operation of the
microprocessor.
connection is guaranteed by means of
The SACE PR010/T unit is of the portable
special interfacing cables supplied as
type and operates with rechargeable bat-
standard with the unit.
teries and/or with an external power supply.
The man-machine interface is guaran-
In its standard supply, the unit includes:
teed by using a membrane keyboard and
– SACE PR010/T Test unit complete with
a multi-line alphanumerical display.
the PC (serial RS232)
– instruction manual and diskette with
– SACE TT1 Test unit
signal the following respectively:
– 100...240 V AC /12 V DC external
application SW
–
power supply
situation of the battery charging state.
– connection cables between the unit
Two different types of Test are provided:
and the multipin connector present on
automatic and manual.
the ranges of releases which equip the
By means of connection to the PC (with
SACE Isomax S and the SACE Emax
software provided by ABB SACE), it is
series
–
– connection cable between the unit and
– power supply cable
rechargeable batteries
There are also two LEDs on the unit which
– POWER-ON and STAND BY situation
GSIS9045
ried out ON BOARD by connection of the
plastic container.
4
SACE PR212/CI contactor control unit
The SACE PR212/CI accessory unit can
be associated with all the circuit-breakers fitted with SACE PR212/MP electronic
release for motor protection. When the
appropriate dip-switch on the front of the
release is positioned on the “Normal
opened in the case of fault for overload
L, blocked rotor R or phase missing/
GSIS9040
mode”, it allows the contactor to be
unbalance U.
The SACE PR212/CI unit can always be
installed both on a DIN rail and on the
rear of the door.
ABB SACE
4/33
Accessories
Accessories for electronic releases
CT for external neutral
This is applied to the neutral conductor
S4
S5
S6
S7
S8
and allows protection against earth faults
[A]
100
160
250
[A]
320
400
630
[A]
630
800
[A]
1000
1250
1600
[A]
1600
2000
2500
3200
with three-pole circuit-breakers to be realised. The circuit-breaker must be fitted
with SACE PR212/P – LSIG release. The
transformer must be connected to the
GSIS9005
release by means of the specific X3-X4
connectors, selected according to the
version of the circuit-breaker and the type
of protection release used.
Connectors
These allow connection of the microprocessor-based release to units or components of external plants. They are, in fact,
available outside and to connect the protection transformer of the neutral conductor outside the circuit-breaker or to the
actuator, dialogue and signalling units, if
GSIS0150
– Connector X3 for circuit-breaker fixed
GSIS0151
these are provided.
fitted with releases SACE PR211/P
– Connector X3 for plug-in/withdrawable
circuit-breaker (to be applied in the
fixed part) fitted with SACE PR211/P
release
– Connectors X3-X4 for fixed circuit-
Connectors X3
Connectors X4
breaker fitted with SACE PR212/P release
– Connectors X3-X4 for plug-in/withdrawable circuit-breaker fitted with
SACE PR212/P release
GSIS9030
4
used to make the relay tripped signal
4/34
ABB SACE
Accessories
Installation accessories and spare parts
Bracket for fixing on DIN rail
This is applied to the fixed circuit-breaker
and allows installation on standardised
S3-S4-S5
S1-S2
DIN rails. It simplifies assembly of circuitbreakers up to 630 A in standard switchboards.
– Bracket for fixing on DIN EN 50022 rail
for
SACE S1-S2 circuit-breakers.
for SACE S3-S4-S5 circuit-breakers.
The fixing bracket kit for SACE S3-S4-S5
GSIS0153
GSIS0152
– Bracket for fixing on DIN EN 50023 rail
circuit-breakers also includes the front
GSIS9011
flange H = 45mm.
Flange for compartment door
This is always supplied with the circuitbreaker and can also be used with the
4
S3 ... S7 fixed
S1-S2
rotary handle operating mechanism for
the SACE S3, S4, S5, S6, and S7 circuitbreakers, the front flange for lever operating mechanism and the motor operator. In case of use of these accessories
with SACE S6, S7 circuit-breakers, a
It is not supplied for SACE S1, S2, and
GSIS0155
the one supplied with the circuit-breaker.
GSIS0154
flange is supplied to be used instead of
S3 circuit-breakers which are complete
with SACE RC210, RC211, RC212 re-
ABB SACE
S3 ... S7 withdrawable
S8
GSIS0157
GSIS9018
beside the circuit-breaker.
GSIS0156
sidual current releases in the version
4/35
Accessories
Installation accessories and spare parts
IP54 protection for rotary handle
This allows IP54 degree of protection to
be attained. It is available in the follow-
S1-S2
ing versions:
– for rotary handle operating mechanism
on compartment door with fixed dis-
GSIS9034
tance for SACE S1-S2 circuit-breakers
– for rotary handle operating mechanism
GSIS0158
on compartment door with adjustable
distance for circuit-breakers SACE S3S4-S5-S6 and S7 circuit-breakers.
Spare parts
The following spare parts are available:
– kit with washers, screws and dowels
– operating lever
for assembly of the connection termi-
– cover group
nals.
– arcing chambers
– isolating contacts
– opening
solenoid
For further details, please ask the Servfor
the
SACE
RC211and RC212 residual current re-
ice Division of ABB SACE for the spare
parts catalogue.
leases
4
4/36
ABB SACE
Characteristic curves and
technical information
Index
Characteristic curves
Trip curves for distribution
Circuit-breakers with thermomagnetic releases ................................................................ 5/2
Circuit-breakers with SACE PR211/P, SACE PR212/P electronic releases ..................... 5/7
Trip curves for motor protection
Circuit-breakers with magnetic only releases ................................................................... 5/9
Use of the trip curves of circuit-breakers with SACE PR212/MP electronic release ...... 5/10
Circuit-breakers with electronic release SACE PR212/MP ............................................... 5/12
Limitation curves
230 V .................................................................................................................................... 5/14
400-440 V ............................................................................................................................ 5/17
500 V .................................................................................................................................... 5/20
690 V .................................................................................................................................... 5/21
Specific let-through energy curves
230 V .................................................................................................................................... 5/24
400-440 V ............................................................................................................................ 5/27
500 V .................................................................................................................................... 5/30
690 V .................................................................................................................................... 5/31
Technical information
Temperature performance
Circuit-breakers with electronic releases .......................................................................... 5/34
Circuit-breakers with thermomagnetic releases ................................................................ 5/39
Power loss values ............................................................................................................. 5/40
Operation and protection of the low-voltage side of three-phase transformers .. 5/42
Operation and protection of three-phase AC capacitors .......................................... 5/44
Protection of three-phase AC generators .................................................................... 5/46
Applications in direct current ......................................................................................... 5/47
Backup protection (backup table) ................................................................................. 5/50
ABB SACE
5/1
5
Trip curves for distribution
Circuit-breakers with thermomagnetic releases
SACE
S1 125 - S2 160
t [s]
Magnetic tripping threshold
Im = 10 x Ith
104
103
102
10
1
10-1
S1
R50…125
S2
R50…160
R32
R40
R20
R25
R12,5
R16
R10
SACE
S1 125 - S2 160
Magnetic tripping threshold
Im = 5 x Ith
t [s]
1
1,05
10
102
x Ith
GSIS0201
10-1
102
x Ith
GSIS0202
10-2
104
103
102
5
10
1
10-1
S1
R40…125
S2
R40…160
R25
R32
R12,5
R16
R20
R10
10-2
10-1
5/2
1
1,05
10
ABB SACE
SACE S2X 100
104
t [s]
Magnetic tripping threshold
Im = 10 x Ith
103
102
10
1
10-1
10-1
SACE S3 160
1
1,05
102
x Ith
10
GSIS0203
10-2
Y
=
=
70
70
=
650
70
120
70
70
Y
70
=
46
284
=
273
=
375
=
350
A
=
=
ø9
=
5
101
R
=
X
30
13.5
Magnetic tripping threshold
Im = 10 x Ith
101
=
X
331
=
=
525
10.5
1
4
2
65
Y
3
5
103.5
288
27.5
Y
Y
51.5 70
70
70
48.5
Y
5
293
=
=
R
20
26
273
280
1
=
109
129 =
109
=
X
101
525
175
820
=
ø9
273
779
X
109
=
129 =
109
26
3
2
310
Y
ABB SACE
=
4
65
288
27.5
GSIS0204
17
=
GSIS0024
Y
5/3
Trip curves for distribution
Circuit-breakers with thermomagnetic releases
SACE
S3 160 - S3 250
t [s]
Magnetic tripping threshold
Im = 10 x Ith
104
103
102
10
1
S3 160 R80…R160
S3 250 R200, R250
10-1
10-1
SACE S3 160
Magnetic tripping threshold
Im = 5 x Ith
t [s]
1
1,05
102
x Ith
10
GSIS0205
10-2
104
103
102
5
10
1
10-1
R50
R32
10-1
5/4
1
1,05
10
102
x Ith
GSIS0206
10-2
ABB SACE
SACE
S3 160 - S3 250
t [s]
Magnetic tripping threshold
Im = 3 x Ith
Magnetic tripping threshold
Im = 5 x Ith
104
103
102
10
1
S3 160 R80…R160
S3 250 R200, R250
10-1
10-1
SACE S5 400
(R320-400)
SACE S5 630
(R500)
Thermal tripping threshold
In = 0,7÷1 x Ith
Magnetic tripping threshold
Im = 5÷10 x Ith
t [s]
1
1,05
10
102
x Ith
GSIS0207
10-2
104
103
102
5
10
1
10-1
10-1
ABB SACE
1
1,05
10
102
x Ith
GSIS0208
10-2
5/5
Trip curves for distribution
Circuit-breakers with thermomagnetic releases
SACE S6 630 (R630)
t [s]
Thermal tripping threshold
In = 0,7÷1 x Ith
Magnetic tripping threshold
Im = 5÷10 x Ith
104
103
102
10
1
10-1
10-1
SACE S6 800 (R800)
Thermal tripping threshold
In = 0,7÷1 x Ith
Magnetic tripping threshold
Im = 5÷10 x Ith
t [s]
1
1,05
10
102
x Ith
GSIS0209
10-2
104
103
102
5
10
1
10-1
10-1
5/6
1
1,05
10
102
x Ith
GSIS0210
10-2
ABB SACE
Trip curves for distribution
Circuit-breakers with electronic releases
SACE S4-S5-S6-S7
t [s]
104
SACE PR211/P
Functions LI - I
0,5
0,4
103
0,7 0,95
0,6 0,8 1
0,9
1,5
N.B. For S5 630
The maximum threshold that
can be set for the I function is
8 x In
2
D
C
102
B
4
A
6
8
D
C
10
10
12
B
A
1
10-1
10-1
SACE
S4-S5-S6-S7-S8
SACE PR212/P
Function LSI,
S inverse short delay
(I2t = constant ON)
t [s]
1
1,05
102
x In
10
GSIS0211
10-2
104
0,4-0,5-0,55-0,6-0,65-0,7-0,75-0,80,85-0,875-0,9-0,925-0,95-0,975-1
0,4
1
103
1,5
2
D
C
102
N.B. For S5 630
The maximum threshold that
can be set for the I function is
8 x In
5
4
B
1
A
6
8
D
10
C
D
C
2
3
B
A
1
10
12
B
4
A
6
8
10
I2t ON
10-1
10-1
ABB SACE
1
1,05
10
102
x In
GSIS0212
10-2
5/7
Trip curves for distribution
Circuit-breakers with electronic releases
SACE
S4-S5-S6-S7-S8
t [s]
104
0,4-0,5-0,55-0,6-0,65-0,7-0,75-0,80,85-0,875-0,9-0,925-0,95-0,975-1
0,4
SACE PR212/P
Function LSI,
S definite short delay
(I2t = constant OFF)
1
103
1,5
102
N.B. For S5 630
The maximum threshold that
can be set for the I function is
8 x In
2
D
C
B
4
A
6
1
8
10
D
C
2
10
12
B
3
A
4
1
6
8 10
D
C
10-1
I2t OFF
B
A
SACE
S4-S5-S6-S7-S8
t [s]
104
1
0,2
0,3 0,4
0,6
1,05
10
102
x In
GSIS0213
10-1
10
102
x In
GSIS0214
10-2
0,8
0,9
1
SACE PR212/P
Function G
103
102
5
10
1
D
C
B
10-1
A
10-2
10-1
5/8
1
1,05
ABB SACE
Trip curves for motor protection
Circuit-breakers with magnetic only releases
SACE S2X 80
t [s]
104
13
Fixed magnetic tripping
threshold
Im = 13 x Ith
SACE S3
Adjustable magnetic
tripping threshold
Im = 4÷12 x Ith
4
12
S3
S3
103
S2X80
102
10
1
10-1
10-1
1
1,05
10
102
x In
GSIS0215
10-2
5
ABB SACE
5/9
Trip curves for motor protection
Use of the trip curves of circuit-breakers with
SACE PR212/MP electronic release
For correct parameter setting of the SACE PR212/MP electronic release, it may be useful to compare the overall circuit-breaker
curve with the motor starting curve.
For this purpose, with the protection function graphics shown on the following pages, it is possible to draw the overall curve
required for the circuit-breaker fitted with SACE PR212/MP release simply and immediately.
N.B. For function L, as for all the other functions, make sure you place a glossy tracing sheet over the curve so that the time
s on
the axis of the co-ordinates coincide.
• Function L (cannot be excluded) Protection against overload
To protect the motor against any overloads, as a first step it
is necessary to adjust function L to a current
or equal to the rated current of the motor Ie:
I1 higher than
I1 > Ie.
• Function I (cannot be excluded) Protection against short-circuit
This protection function against short-circuit recognises
whether the motor is in the starting phase, thereby avoiding
unwarranted trips; the trip threshold can be set from 6 x In to
For example, if Ie = 135 A, an S4H160 circuit-breaker can
13 x In.
be selected with In = 160 A and the following adjustment
To trace the curve correctly on the glossy sheet, simply
carried out: I1 = 0.85 x In = 136 A.
place the glossy sheet over the graph of function I so that
The second step is to select the trip class according to the
I/In = 1 (on the glossy sheet) corresponds to I/In = 1 (on the
motor starting time
ta.
For a motor with a start-up overload
graph) and draw the desired curve.
of 6 seconds, class 10 can be selected, with a trip time of 8s
at 7.2 x I1.
To trace the curve correctly on the glossy sheet, according
to
I/In,
simply place the glossy sheet over the graph of
function L so that I/In = 0.85 (on the glossy sheet) corresponds to I/I1 = 1 (on the graph) and draw the curve relative
• Function U (can be excluded) Protection against loss and/or unbalance
of a phase
Protection against loss or unbalance of a phase, if set to
ON, intervenes when one or two phases have a current
to class 10.
lower than 0.4xI1 (0.4 x 0.85 x In = 0.4 x 0.85 x 160 A =
54.4A in this case).
• Function R (can be excluded) Protection against rotor blockage
Protection against rotor blockage can be set both with re-
5
I5 = 3 ... 10xI1 (in this case I5 = 3 ...
10 x 0.85 x 160), and with regard to the trip time t5.
gard to the trip current
To trace the curve correctly on the glossy sheet, simply
place the glossy sheet over the graph of function U so that
I/In = I1/In (on the glossy sheet) corresponds to I/I1 = 1 (on
the graph). In this case I/In = I1/In = 0.85,
and draw the
desired curve.
To trace the curve correctly on the glossy sheet, simply
place the glossy sheet over the graph of function R so that
I/In = I1/In (on the glossy sheet) corresponds to I/I1 = 1 (on
the graph). In this case I/In = I1/In = 0.85,
and draw the
desired curve.
5/10
ABB SACE
Typical operating characteristic of an asynchronous motor
l1
=
function L trip current
l3
=
function I trip current
I5
=
function R trip current
t5
=
function R trip time
I6
=
function U trip current
t6
=
function U trip time
le
=
rated service current of the motor
la
=
motor starting current
Ip
=
peak value of the sub-transient starting
current
ta
=
motor starting time
tp
=
duration of the sub-transient starting phase
m
=
typical motor starting curve
c
=
example of trip curve of a motor protection
circuit-breaker with electronic release
GSIS0082
5
ABB SACE
5/11
Trip curves for motor protection
Circuit-breakers with electronic releases SACE PR212/MP
SACE S4-S5-S6-S7
t [s]
SACE PR212/MP
Function L (hot and cold
trip)
105
hot
cold
104
103
102
10
30
20
10
10A
1
30
20
10
10A
10-1
SACE S4-S5-S6-S7
SACE PR212/MP
Function L (hot trip with 1
or 2 phases supplied)
t [s]
1
1,05
102
I / I1
10
GSIS0216
10-1
105
hot
104
103
5
102
10
30
1
20
10
10A
10-1
5/12
1
1,05
10
102
I / I1
GSIS0217
10-1
ABB SACE
SACE S4-S5-S6-S7
t [s]
SACE PR212/MP
Function R - U
105
Function U
Function R
104
103
3
102
4
5
6
7
8
10
10
10
7
4
1
1
10-1
SACE S4-S5-S6-S7
t [s]
1
1,05
102
I / I1
10
GSIS0218
10-1
103
13
SACE PR212/MP
Function I
12
11
102
10
9
8
7
10
5
6
1
10-1
10-2
10-1
ABB SACE
1
1,05
10
102
x In
GSIS0219
10-3
5/13
Limitation curves
230 V
SACE S1
Ip [kA] 100
50
20
125
100
80
10
63
50
1
40
32
5
25
20
16
12,5
10
2
1
SACE S2
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0220
1
Ip [kA] 100
50
5
20
160
125
100
80
10
63
50
40
32
5
25
20
16
12,5
2
1
5/14
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0221
1
ABB SACE
SACE S3 160,
S3 250
Ip [kA] 100
50
250
200
160
125
20
100
80
50
32
10
5
2
1
SACE S4 160,
S4 250, S5, S6 630,
S6 800, S7, S8
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0222
1
Ip [kA] 300
S7
200
S8
100
S6 800
5
S6 630
S5
50
S4 250
S4 160
20
10
5
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0223
3
5/15
Limitation curves
230 V
SACE S2X 80,
S2X 100
Ip [kA] 100
42-52-6380-100
10
25-32
20
16
12,5
11
1
8,5
6,5
5
4
3,2
2,5
2
0,1
1,6
0,01
0,01
SACE S3X 125,
S3X 200, S4X, S6X
0,1
10
1
100
1000
Is [kA]
GSIS0224
1
Ip [kA] 100
50
S6X
S4X
5
20
S3X 200
In200
S3X 200
In160
S3X 200
In125
10
S3X 125
In125
S3X 125
In100
S3X 125
In80
5
S3X 125
In50
S3X 125
In32
2
1
5/16
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0225
1
ABB SACE
Limitation curves
400-440 V
SACE S1
Ip [kA] 100
50
20
125
100
80
10
63
50
40
32
5
25
20
16
12,5
10
2
1
SACE S2
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0226
1
Ip [kA] 100
50
160
20
5
125
100
80
63
10
50
40
32
25
5
20
16
12,5
2
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0227
1
5/17
Limitation curves
400-440 V
SACE S3 160,
S3 250
Ip [kA] 100
50
250
200
160
20
125
100
80
50
10
32
5
2
SACE
S4 160, S4 250,
S5, S6 630, S6 800,
S7, S8
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0228
1
500
1000
Is [kA]
GSIS0229
1
Ip [kA] 300
200
S8
S7
100
S6 800
5
S6 630
S5
50
S4 250
S4 160
20
10
5
3
1
5/18
2
5
10
20
50
100
200
ABB SACE
SACE S2X 80,
S2X 100
Ip [kA] 100
42-52-6380-100
10
25-32
20
16
12,5
11
8,5
6,5
1
5
4
3,2
2,5
2
1,6
0,1
1
0,1
0,01
SACE S3X 125,
S3X 200, S4X, S6X
1000
Is [kA]
100
10
1
GSIS0230
0,01
Ip [kA] 100
S6X
50
S4X
S3X 200
In 200
S3X 200
In 160
S3X 200
In 125
20
5
S3X 125
In 125
S3X 125
In 100
10
S3X 125
In 80
S3X 125
In 50
S3X 125
In 32
5
2
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0231
1
5/19
Limitation curves
500 V
SACE S1
Ip [kA] 100
50
20
125
100
10
80
63
50
40
5
32
25
20
16
12,5
2
10
1
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0232
1
5
5/20
ABB SACE
Limitation curves
690 V
SACE S2
Ip [kA] 100
50
20
10
160
125
100
80
5
63
50
40
32
25
2
20
16
12,5
1
SACE S3 160,
S3 250
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0233
1
Ip [kA] 100
50
250
20
5
200
160
125
100
10
80
50
32
5
2
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0234
1
5/21
Limitation curves
690 V
SACE
S4 160, S4 250, S5,
S6 630, S6 800, S7,
S8
Ip [kA] 300
200
100
S8
S7
50
S6 800
S6 630
S5
S4 250
20
S4 160
10
1
SACE S2X 80,
S2X 100
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0235
5
Ip [kA] 100
42-52-6380-100
10
25-32
5
20
16
12,5
11
8,5
1
6,5
5
4
3,2
2,5
0,1
2
1,6
0,01
0,01
5/22
0,1
1
10
100
1000
Is [kA]
GSIS0236
1
ABB SACE
SACE S3X 125,
S3X 200, S4X, S6X
Ip [kA] 100
S6X
50
S4X
S3X 200
In 200
S3X 200
In 160
20
S3X 200
In 125
S3X 125
In 125
S3X 125
In 100
10
S3X 125
In 80
S3X 125
In 50
S3X 125
In 32
5
2
1
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0237
1
5
ABB SACE
5/23
Specific let-through energy curves
230 V
SACE S1
I2t [A2s] 108
107
125
106
100
80
63
50
40
32
105
25
20
16
12,5
10
1
SACE S2
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0238
104
I2t [A2s] 108
107
5
160
106
125
100
80
63
50
40
32
105
25
20
16
12,5
1
5/24
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0239
104
ABB SACE
SACE S3 160,
S3 250
I2t [A2s] 108
107
250
200
106
160
125
100
80
50
32
105
1
SACE S4 160,
S4 250, S5, S6 630,
S6 800, S7, S8
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0240
104
I2t [A2s] 109
S8
S7
108
5
S6 800
107
S6 630
S5
S4 250
S4 160
106
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0241
105
5/25
Specific let-through energy curves
230 V
SACE S2X 80,
S2X 100
I2t [A2s] 106
42-52-6380-100
105
25-32
20
16
12,5
104
11
8,5
6,5
5
4
103
3,2
2,5
2
1,6
102
1
0,01
SACE S3X 125,
S3X 200, S4X, S6X
0,1
1
10
100
1000
Is [kA]
GSIS0242
10
I2t [A2s] 108
107
S6X
5
S4X
106
S3X 200
In 200
S3X 200
In 160
S3X 200
In 125
S3X 125
In 125
S3X 125
In 100
105
S3X 125
In 80
S3X 125
In 50
S3X 125
In 32
1
5/26
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0243
104
ABB SACE
Specific let-through energy curves
400-440 V
SACE S1
I2t [A2s] 108
107
125
100
80
63
106
50
40
32
25
105
20
16
12,5
10
1
SACE S2
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0244
104
I2t [A2s] 108
107
5
160
125
100
80
106
63
50
40
32
25
105
20
16
12,5
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0245
104
5/27
Specific let-through energy curves
400-440 V
SACE S3 160,
S3 250
I2t [A2s] 108
107
250
200
160
125
100
106
80
50
32
105
SACE S4 160,
S4 250, S5, S6 630,
S6 800, S7, S8
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0246
1
1000
Is [kA]
GSIS0247
104
I2t [A2s] 109
S8
S7
108
5
S6 800
S6 630
107
S5
S4 250
S4 160
106
105
5/28
1
2
5
10
20
50
100
200
500
ABB SACE
SACE S2X 80,
S2X 100
I2t [A2s] 106
42-52-6380-100
25-32
105
20
16
12,5
11
8,5
6,5
104
5
4
3,2
2,5
103
2
1,6
102
1
0,01
SACE S3X 125,
S3X 200, S4X, S6X
0,1
1
10
100
1000
Is [kA]
GSIS0248
10
I2t [A2s] 108
S6X
107
5
S4X
S3X 200
In 200
S3X 200
In 160
106
S3X 200
In 125
S3X 125
In 125
S3X 125
In 100
S3X 125
In 80
105
S3X 125
In 50
S3X 125
In 32
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0249
104
5/29
Specific let-through energy curves
500 V
SACE S1
I2t [A2s] 108
107
106
125
100
80
63
50
40
32
105
25
20
16
12,5
10
1
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0250
104
5
5/30
ABB SACE
Specific let-through energy curves
690 V
SACE S2
I2t [A2s] 108
107
160
106
125
100
80
63
50
40
105
32
25
20
16
12,5
1
SACE S3 160,
S3 250
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0251
104
I2t [A2s] 108
107
5
250
200
160
125
106
100
80
50
32
105
1
ABB SACE
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0252
104
5/31
Specific let-through energy curves
690 V
SACE S4 160,
S4 250, S5, S6 630,
S6 800, S7, S8
I2t [A2s] 109
108
S8
S7
S6 800
S6 630
107
S5
S4 250
S4 160
106
1
SACE S2X 80,
S2X 100
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0253
105
I2t [A2s] 106
42-52-6380-100
25-32
105
20
16
12,5
5
11
8,5
104
6,5
5
4
3,2
2,5
103
2
1,6
1
102
0,01
5/32
0,1
1
10
100
Is [kA]
GSIS0254
10
ABB SACE
SACE S3X 125,
S3X 200, S4X, S6X
I2t [A2s] 108
S6X
107
S4X
S3X 200
In 200
S3X 200
In 160
106
S3X 200
In 125
S3X 125
In 125
S3X 125
In 100
S3X 125
In 80
S3X 125
In 50
105
S3X 125
In 32
1
2
5
10
20
50
100
200
500
1000
Is [kA]
GSIS0255
104
5
ABB SACE
5/33
Temperature performance
Circuit-breakers with electronic releases
SACE S4 160
Fixed
Front flat bar
Front for cables
Rear for cables
Rear threaded
Plug-in - Withdrawable
up to 40 °C
50 °C
Imax [A]
I1 Imax [A]
160
1 160
160
1 160
160
1 160
160
1 160
I1
1
1
1
1
60 °C
Imax [A]
160
160
160
160
I1
1
1
1
1
70 °C
Imax [A]
I1
160
1
160
1
152
0.95
152
0.95
Front flat bar
Front for cables
Rear for cables
Rear threaded
up to 40 °C
50 °C
Imax [A]
I 1 Imax [A]
160
1 160
160
1 160
160
1 160
160
1 160
Front flat bar
Front for cables
60 °C
I 1 Imax [A]
1 160
1 160
1 160
1 160
70 °C
I1 Imax [A]
I1
1 152
0.95
1 152
0.95
1 144
0.9
1 144
0.9
Front flat bar
Front for cables
Rear for cables
Rear threaded
GSIS0256
Rear for cables
Rear threaded
SACE S4 250
Fixed
Front flat bar
Front for cables
Rear for cables
Rear threaded
Plug-in - Withdrawable
up to 40 °C
50 °C
Imax [A]
I1 Imax [A]
250
1 250
250
1 250
250
1 250
250
1 250
I1
1
1
1
1
60 °C
Imax [A]
250
250
250
250
I1
1
1
1
1
70 °C
Imax [A]
I1
237.5
0.95
237.5
0.95
225
0.9
225
0.9
Front flat bar
Front for cables
Rear for cables
Rear threaded
up to 40 °C
50 °C
Imax [A]
I 1 Imax [A]
250
1 250
250
1 250
250
1 250
250
1 250
60 °C
I 1 Imax [A]
1 250
1 250
1 250
1 250
70 °C
I1 Imax [A]
I1
1 225
0.9
1 225
0.9
1 200
0.8
1 200
0.8
5
Front flat bar
Front for cables
Rear for cables
Rear threaded
GSIS0257
Rear for cables
Rear threaded
Front flat bar
Front for cables
5/34
ABB SACE
SACE S5 400
Fixed
Front flat bar
Front for cables
Rear for cables
Rear threaded
Plug-in - Withdrawable
up to 40 °C
50 °C
Imax [A]
I 1 Imax [A]
400
1 400
400
1 400
400
1 400
400
1 400
I1
1
1
1
1
60 °C
Imax [A]
400
400
400
400
I1
1
1
1
1
70 °C
Imax [A]
I1
380
0.95
380
0.9
360
0.9
320
0.8
Front flat bar
Front for cables
Rear for cables
Rear threaded
up to 40 °C
50 °C
60 °C
70 °C
Imax [A]
I 1 Imax [A]
I 1 Imax [A]
I 1 Imax [A]
I1
400
1 400
1 400
1 380
0.95
400
1 400
1 380
0.95 360
0.9
400
1 400
1 380
0.95 360
0.9
400
1 380
0.95 360
0.9 320
0.8
Front flat bar
Front flat bar
Front for cables
Rear for cables
Front for cables
Rear for cables
Rear threaded
GSIS0258
Rear threaded
SACE S5 630
Fixed
Front flat bar
Front for cables
Rear threaded
Withdrawable
up to 40 °C
50 °C
60 °C
70 °C
Imax [A]
I 1 Imax [A]
I1 Imax [A]
I1 Imax [A]
I1
630
1 598.5
0.95 567
0.9 504
0.8
630
1 567
0.9 504
0.8 441
0.7
630
1 504
0.8 441
0.7 378
0.6
Front flat bar
Rear flat bar
Rear threaded
up to 40 °C
50 °C
60 °C
70 °C
Imax [A]
I 1 Imax [A]
I 1 Imax [A]
I 1 Imax [A]
I1
630
1 504
0.8 441
0.7 378
0.6
630
1 567
0.9 504
0.8 441
0.7
630
1 441
0.7 378
0.6 315
0.5
5
Front flat bar
Rear flat bar
Front for cables
Rear threaded
Front flat bar
GSIS0259
Rear threaded
ABB SACE
5/35
Temperature performance
Circuit-breakers with electronic releases
SACE S6 630
Fixed
Front flat bar
Front for cables
Rear for cables
Rear threaded
Withdrawable
up to 40 °C
50 °C
Imax [A]
I1 Imax [A]
630
1 630
630
1 630
630
1 630
630
1 630
I1
1
1
1
1
60 °C
70 °C
Imax [A]
I1 Imax [A]
I1
630
1 598.5
0.95
598.5
0.95 567
0.9
598.5
0.95 567
0.9
567
0.9 504
0.8
Front flat bar
Rear vertical flat bar
Rear horizontal flat bar
up to 40 °C
50 °C
60 °C
70 °C
Imax [A]
I 1 Imax [A]
I 1 Imax [A]
I1 Imax [A]
I1
630
1 630
1 598.5
0.95 567
0.9
630
1 630
1 598.5
0.95 567
0.9
630
1 598.5
0.95 567
0.9 504
0.8
Front flat bar
Rear vertical flat bar
Front flat bar
Rear horizontal flat bar
Front for cables
GSIS0260
Rear threaded
SACE S6 800
Fixed
Front flat bar
Front for cables
Rear for cables
Rear threaded
5
Plug-in - Withdrawable
up to 40 °C
50 °C
Imax [A]
I1 Imax [A]
800
1 800
800
1 800
800
1 800
800
1 800
I1
1
1
1
1
60 °C
70 °C
Imax [A]
I1 Imax [A]
I1
800
1 760
0.95
760
0.95 720
0.9
760
0.95 720
0.9
720
0.9 640
0.8
Front flat bar
Rear vertical flat bar
Rear horizontal flat bar
up to 40 °C
50 °C
60 °C
70 °C
Imax [A]
I 1 Imax [A]
I 1 Imax [A]
I1 Imax [A]
I1
800
1 800
1 760
0.95 720
0.9
800
1 800
1 760
0.95 720
0.9
800
1 760
0.95 720
0.9 640
0.8
Front flat bar
Rear vertical flat bar
Front flat bar
Rear horizontal flat bar
Front for cables
Rear for cables
GSIS0261
Rear threaded
5/36
ABB SACE
SACE S7 1250
Fixed
Front flat bar
Rear vertical flat bar
Front for cables
Rear horizontal flat bar
Withdrawable
up to 40 °C
Imax [A]
I1
1250
1
1250
1
1250
1
1250
1
50 °C
Imax [A]
1250
1250
1250
1250
I1
1
1
1
1
60 °C
70 °C
Imax [A]
I1 Imax [A]
I1
1250
1 1187.5
0.95
1250
1 1187.5
0.95
1187.5
0.95 1125
0.9
1250
1 1125
0.9
Front flat bar
Rear vertical flat bar
Rear horizontal flat bar
up to 40 °C
Imax [A]
I1
1250
1
1250
1
1250
1
50 °C
Imax [A]
1250
1250
1250
60 °C
70 °C
I 1 Imax [A]
I 1 Imax [A]
I1
1 1187.5
0.95 1125
0.9
1 1187.5
0.95 1125
0.9
1 1125
0.9 1000
0.8
Front flat bar
Rear vertical flat bar
Front flat bar
Rear vertical flat bar
Rear horizontal flat bar
Front for cables
GSIS0262
Rear horizontal
flat bar
SACE S7 1600
Fixed
Front flat bar
Rear vertical flat bar
Rear horizontal flat bar
Withdrawable
up to 40 °C
Imax [A]
I1
1600
1
1600
1
1600
1
50 °C
60 °C
Imax [A]
I1 Imax [A]
I1
1520
0.95 1440
0.9
1520
0.95 1440
0.9
1440
0.9 1280
0.8
70 °C
Imax [A]
I1
1280
0.8
1280
0.8
1120
0.7
Front flat bar
Rear vertical flat bar
Rear horizontal flat bar
up to 40 °C
Imax [A]
I1
1600
1
1600
1
1600
1
Front flat bar
Rear vertical flat bar
60 °C
70 °C
Imax [A]
I 1 Imax [A]
I1
1280
0.8 1120
0.7
1280
0.8 1120
0.7
1120
0.7 906
0.6
5
Front flat bar
Rear vertical flat bar
Rear horizontal
flat bar
GSIS0263
Rear horizontal
flat bar
50 °C
Imax [A]
I1
1440
0.9
1440
0.9
1280
0.8
ABB SACE
5/37
Temperature performance
Circuit-breakers with electronic releases
SACE S8 2000
SACE S8 2500
Fixed
Fixed
up to 40 °C
Imax [A]
I1
2000
1
2000
1
Front flat bar
Rear vertical flat bar
50 °C
Imax [A] I1
2000
1
2000
1
60 °C
70 °C
Imax [A]
I1 Imax [A]
I1
1900 0,95 1715
0,85
2000
1
1785
0,9
up to 40 °C
50 °C
Imax [A]
I1 Imax [A]
I1
2500
1
2500
1
2500
1
2500
1
Front flat bar
Rear vertical flat bar
60 °C
70 °C
Imax [A]
I1 Imax [A]
I1
2270
0,9 2040
0,8
2375 0,95 2130
0,85
2550
2050
Rear vertical flat bar
Rear vertical flat bar
2500
2000
2450
1950
2400
2350
1900
2300
1850
2250
Front flat bar
1800
2200
Front flat bar
2150
1750
2100
1700
2050
2000
1650
35
40
45
50
55
60
65
30
70
35
40
45
50
55
60
65
70
GSIS0264
30
SACE S8 3200
Fixed
up to 45 °C
50 °C
60 °C
70 °C
Imax [A]
I1 Imax [A]
I1 Imax [A] I1 Imax [A]
I1
3200
1
3060 0,95 2780 0,85 2510
0,8
Rear vertical flat bar
3300
3200
3100
3000
2900
2800
Rear vertical flat bar
2700
2600
2500
30
5/38
35
40
45
50
55
60
65
70
GSIS0265
5
ABB SACE
Temperature performance
Circuit-breakers with thermomagnetic releases
SACE S1
10 °C
20 °C
30 °C
40 °C
50 °C
60 °C
70 °C
R 10
13
12
11
10
9
8
7
R 12,5
13
12
11
10
9
8
7
R 16
20
18,5
17
16
15
14
13
R 20
24
22,5
21
20
19
18
17
R 25
30
28
26,5
25
23
21
19
R 32
38
36
34
32
30
28
26
R 40
49
45
43
40
37
35
34
R 50
60
56
53
50
47
44
41
R 63
75
71
67
63
59
55
51
R 80
96
91
86
80
74
68
62
R 100
120
114
108
100
94
88
82
R 125
145
138
132
125
120
112
104
11...15,5
10...14,5
9,5...13
9...12,5
8...11,5
7,5...10,5
6,5...9,5
SACE S2
R 12,5
R 16
14...19
13...18
11,5...17
11...16
10,5...15
9,5...14
8,5...13
R 20
18...24,5
16,5...23
15...21,5
14...20
13...18
12...17
11...16
R 25
21...30
19,5...28
18,5...26,5
17,5...25
16,5...23
15...21
13...19
R 32
28...38
25,5...36
24...34
22,5...32
20,5...29
19...27
17...25
R 40
33...47
32...45
30...42
28...40
26...37
24...34
21...31
R 50
44...58
39...56
38...53
35...50
33...47
30...43
27...40
R 63
53...74
50...70
47...66
44...63
42...60
38...56
34...52
R 80
66...94
63...90
59...85
56...80
52...75
49...70
44...65
R 100
84...118
80...112
76...106
70...100
65...94
59...85
49...75
R 125
102...145
100...140
93...133
88...125
81...116
75...108
58...101
R 160
130...184
125...176
120...168
112...160
106...150
100...140
90...130
SACE S3
R 32
26...43
24...39
22...36
19...32
16...27
14...24
11...21
R 50
37...62
35...58
33...54
30...50
27...46
25...42
22...39
R 80
59...98
55...92
52...86
48...80
44...74
40...66
32...58
R 100
83...118
80...113
74...106
70...100
66...95
59...85
49...75
R 125
103...145
100...140
94...134
88...125
80...115
73...105
63...95
R 160
130...185
124...176
118...168
112...160
106...150
100...104
90...130
R 200
162...230
155...220
147...210
140...200
133...190
122...175
107...160
R 250
200...285
193...275
183...262
175...250
168...240
160...230
150...220
SACE S5 400/630
R 320
260...368
245...350
234...335
224...320
212...305
200...285
182...263
R 400
325...465
310...442
295...420
280...400
265...380
250...355
230...325
R 500
435...620
405...580
380...540
350...500
315...450
280...400
240...345
SACE S6 630/800
ABB SACE
R 630
520...740
493...705
462...660
441...630
405...580
380...540
350...500
R 800
685...965
640...905
605...855
560...800
520...740
470...670
420...610
5/39
5
Power loss values
Power [W]
5
S1
S2
Setting
Iu [A]
F
P
R 10
10
4
4,5
R 12,5
12,5
6
R 16
16
R 20
20
R 25
S3
S4
F
P
F
P-W
6,5
6
6,5
8
8,5
7,5
8,5
8
8,5
8
9
25
9
9,5
10
11
R 32
32
13
14
14
15
12
13
R 40
40
11
12
10
11
R 50
50
13
14
13
14
16
18
R 63
63
15
16
16
17
R 80
80
19
20
21
23
18
21
R 100
100
16
17
18
20
21
25
R 125
125
20
22
24
26
20
26
R 160
160
30
35
30
40
R 200
200
36
46
R 250
250
50
65
R 320
F
S5
P-W
S6
F
P-W
320
60
90
R 400
400
65
96
R 500
500
–
–
R 630
R 800
S7
F
W
630
92
117
800
93
119
90
115
96
125
In= 100
100
5
8
In= 160
160
15
22
In= 250
250
40
55
In= 320
320
In= 400
400
60
90
In= 630
630
170
200
45
S8
F
W
F
65
In= 800
800
In= 1000
1000
102
140
In= 1250
1250
160
220
In= 1600
1600
260
360
In= 2000
2000
200
In= 2500
2500
315
In= 3200
3200
500
The values indicated in the table refer to balanced loads, with a current flow equal to the Iu and to both three-pole and fourpole fixed version
apparatus. For the latter, the current of the neutral is nil by definition.
5/40
ABB SACE
Power [W]
S2X 80
S2X 100
Setting
Iu [A]
F
P
F
P
R1
1
8
R 1,6
1,6
8
8,2
8
8,2
8,2
8
8,2
R 2,5
2,5
R 4,3
4,3
11
11,2
11
11,2
11
11,2
11
R 6,3
11,2
6,3
11
11,2
11
11,2
R 10
10
16
16,3
16
16,3
R 12,5
12,5
20
20,3
20
20,3
R 16
16
10
10,6
10
10,6
R 20
20
13
13,6
13
13,6
R 25
25
13
13,7
13
13,7
R 32
32
26
26,6
26
26,6
R 40
40
26
26,9
26
26,9
R 50
50
22
23,3
22
23,3
R 63
63
22
24,1
22
24,1
R 80
80
26
29,1
26
29,1
R 100
100
30
34,4
R 125
S3X
S4X
F
P-W
125
30,8
37,8
R 200
200
48
58
In= 250
250
In= 400
In= 630
S6X
F
P-W
F
W
400
60
75
80,4
101
630
126,6
151,6
The values indicated in the table refer to balanced loads, with a current flow equal to the Iu and to both three-pole and fourpole fixed version
apparatus. For the latter, the current of the neutral is nil by definition.
Shock resistance
Tests according to IEC 60068-2-27
Shock value [g]
S1 **
12
S2 **
12
S3-S3X *
12
S4X-S4X *
12
S5 *
12
S6-S6X *
12
S7 *
12
5
* for fixed/plug-in/withdrawable circuitbrakekers with motor operator, undervoltage
release and auxiliary contacts
** for fixed/plug-in circuit-brakekers
with
undervoltage release and auxiliary contacts
ABB SACE
5/41
Operation and protection of the low-voltage side
of three-phase transformers
In order to choose the SACE Isomax S circuit-breakers to install
of use. The table has been drawn up considering infinite power
both on the transformer risers and on the lines branching
upstream and the most unfavourable case has been assumed,
downstream of them, reference can be made to the following
that is, that the short circuit occurs on the transformer clamps.
table dealing with transformers with no-load voltage on the
As regards users, the short circuit is considered downstream
secondary equal to 400 V which is the most common condition
of the user circuit-breaker clamps.
Power supply transformers
P
Ucc
Ib riser
Ib total
Icc riser
[kVA]
%
[A]
[A]
[kA]
type
type
settings
1 x 63
4
91
91
2,2
S1B125
R100
0,95
91
182
2,2
S1B125
R100
0,95
144
144
3,6
S2B160
R160
0,95
144
288
3,6
S2B160
R160
0,95
180
180
4,5
S3N/S4N250
R200/In = 250 A
0,95/0,8
180
360
4,5
S3N/S4N250
R200/In = 250 A
0,95/0,8
231
231
5,8
S3N/S4N250
R250/In = 250 A
0,95/0,95
231
462
5,8
S3N/S4N250
R250/In = 250 A
0,95/0,95
289
289
7,2
S5N400
In = 320 A
0,95
289
578
7,2
S5N400
In = 320 A
0,95
361
361
9
S5N400
In = 400 A
0,95
361
722
9
S5N400
In = 400 A
0,95
455
455
11,3
S6N630
In = 630 A
0,8
455
910
11,3
S6N630
In = 630 A
0,8
577
577
14,4
S6N630/S6N800
In = 630/800 A
0,95/0,8
577
1154
14,4
S6N630/S6N800
In = 630/800 A
0,95/0,8
722
722
18
S6N800/S7S1250
In = 800/1000 A
0,95/0,8
722
1444
18
S6N800/S7S1250
In = 800/1000 A
0,95/0,8
909
909
23
S7S1250
In = 1000 A
0,95
2 x 630
909
1818
23
S7S1250
In = 1000 A
0,95
3 x 630
909
2727
46
S7S1250
In = 1000 A
0,95
1155
1155
23
S7S1250/S7S1600
In = 1250/1600 A
0,95/0,8
1155
2310
23
S7S1250/S7S1600
In = 1250/1600 A
0,95/0,8
2 x 63
1 x 100
4
2 x 100
1 x 125
4
2 x 125
1 x 160
4
2 x 160
1 x 200
4
2 x 200
1 x 250
4
2 x 250
1 x 315
4
2 x 315
1 x 400
4
2 x 400
1 x 500
4
2 x 500
1 x 630
5
Circuit-breaker "A"(secondary of transformer)
1 x 800
4
5
2 x 800
3 x 800
SACE Isomax S
Release TM / PR211-212
1155
3465
46
S7S1250/S7S1600
In = 1250/1600 A
0,95/0,8
1443
1443
29
S7S1600
In = 1600 A
0,95
2 x 1000
1443
2886
29
S7S1600
In = 1600 A
0,95
3 x 1000
1443
4329
58
S7H1600
In = 1600 A
0,95
1 x 1000
1 x 1250
5
1804
1804
36
S8H2000
In = 2000 A
0,95
2 x 1250
1804
3608
36
S8H2000
In = 2000 A
0,95
3 x 1250
1804
5412
72
S8H2000
In = 2000 A
0,95
2309
2309
37
S8H2500
In = 2500 A
0,95
2 x 1600
2309
4618
37
S8H2500
In = 2500 A
0,95
3 x 1600
2309
6927
74
S8H2500
In = 2500 A
0,95
2887
2887
46
S8H3200
In = 3200 A
0,95
2 x 2000
2887
5774
46
S8H3200
In = 3200 A
0,95
3 x 2000
2887
8661
92
S8V3200
In = 3200 A
0,95
1 x 1600
1 x 2000
5/42
5
6,25
6,25
ABB SACE
GSIS0272
Circuit-breaker "B" (user outgoing)
Icu user
User rated current and type of circuit-breaker
[kA]
32 A
63 A
2,2
S250
S250
125 A
4,4
S250
S250
S1B125
3,6
S250
S250
S1B125
160 A
250 A
400 A
7,2
S250
S250
S1B125
4,5
S250
S250
S1B125
S2B160
9
S250
S250
S1B125
S2B160
5,8
S250
S250
S1B125
S2B160
11,6
S1B125
S1B125
S1B125
S2B160
S3N250
7,2
S250
S250
S1B125
S2B160
S3N250
14,4
S1B125
S1B125
S1B125
S2B160
S3N250
S5N400
9
S250
S250
S1B125
S2B160
S3N250
–
630 A
18
S1N125
S1N125
S1N125
S2N160
S3N250
S5N400
11,3
S1B125
S1B125
S1B125
S2B160
S3N250
S5N400
22,6
S1N125
S1N125
S1N125
S2N160
S3N250
S5N400
S5N / S6N630
14,4
S1B125
S1B125
S1B125
S2B160
S3N250
S5N400
–
800 A
1250 A
28,8
S2N160
S2N160
S2N160
S2N160
S3N250
S5N400
S5N / S6N630
18
S1N125
S1N125
S1N125
S2N160
S3N250
S5N400
S5N / S6N630
36
S2N160
S2N160
S2N160
S2N160
S3N250
S5N400
S5N / S6N630
S6N800
23
S1N125
S1N125
S1N125
S2N160
S3N250
S5N400
S5N / S6N630
S6N800
46
S2S160
S2S160
S2S160
S2S160
S3H250
S5H400
S5H / S6S630
S6S800
S7S1250
69
S2X100
S2X100
S3L160
S3L160
S3L250
S5L400
S5L / S6L630
S6L800
S7L1250
23
S1N125
S1N125
S1N125
S2N160
S3N250
S5N400
S5N / S6N630
S6N800
–
46
S2S160
S2S160
S2S160
S2S160
S3H250
S5H400
S5H / S6S630
S6S800
S7S1250
1600 A
5
69
S2X100
S2X100
S3L160
S3L160
S3L250
S5L400
S5L / S6L630
S6L800
S7L1250
29
S2N160
S2N160
S2N160
S2N160
S3N250
S5N400
S5N / S6N630
S6N800
S7S1250
58
S2X100
S2X100
S3H160
S3H160
S3H250
S5H400
S5H / S6H630
S6H800
S7H1250
S7H1250
87
S4L160
S4L160
S4L160
S4L160
S4L250
S5L400
S5L/S6L630
S6L800
S7L1250
S7L1250
36
S2N160
S2N160
S2N160
S2N160
S3N250
S5N400
S5N/S6N630
S6N800
S7S1250
S7S1600
72
S3L160
S4L160
S3L160
S3L160
S3L250
S5L400
S5L/S6L630
S6L800
S7L1250
S7L1250
108
S3X125
S3X125(R80)
S3X125
S3X200
S4X250
S6X400
S6X630
S8V2000
S8V2000
S8V2000
37
S2S160
S2S160
S2S160
S2S160
S3H250
S5H400
S5H/S6S630
S6S800
S7S1250
S7S1600
74
S3L160
S3L160(R80)
S3L160
S3L160
S3L250
S5L400
S5L/S6L630
S6L800
S7L1250
S7L1600
111
S3X125
S3X125(R80)
S3X125
S3X200
S4X250
S6X400
S6X630
S8V2000
S8V2000
S8V2000
46
S2S160
S2S160
S2S160
S2S160
S3H250
S5H400
S5H/S6S630
S6S800
S7S1250
S7S1600
92
S4L160
S4L160
S4L160
S4L160
S4L250
S5L400
S5L/S6L630
S6L800
S7L1250
S7L1600
138
S3X125
S3X125(R80)
S3X125
S3X200
S4X250
S6X400
S6X630
–
–
–
ABB SACE
5/43
Operation and protection of three-phase
AC capacitors
Table for choosing SACE Isomax S circuit-breakers in relation
to the rated current of the bank and the power of the transformer
installed.
Circuit-breaker
Rated
current of
release
Rated
current of
capacitor
Max
electronic/
magnetic
release setting
400
440
500
690
[kA]
[A]
[A]
PR... / TM
[V]
[V]
[V]
[V]
man
man/h
man
man/h
16 / 25
125
83
- / Im=10 In
58
64
72
100
25000
240
8000
120
S2 B/N/S 160
16 / 35 / 50
160
107
- / Im=10 In
74
81
92
127
25000
240
8000
120
S3 N/H/L 160
35 / 65 / 85
160
107
- / Im=10 In
74
81
92
127
25000
120
10000
120
S3 N/H/L 250
35 / 65 / 85
250
167
- / Im=10 In
115
127
144
199
25000
120
8000
120
S4 N/H/L 160
35 / 65 / 100
160
107
I3=OFF / -
74
81
92
127
20000
120
10000
120
S4 N/H/L 250
35 / 65 / 100
250
167
I3=OFF / -
115
127
144
199
20000
120
8000
120
S5 N/H/L 400
35 / 65 / 100
400
267
I3=OFF / Im=10 In
185
203
231
319
20000
120
7000
60
S5 N/H/L 630
35 / 65 / 100
500/630
333
I3=OFF / Im=10 In
231
254
288
398
20000
120
5000
60
S6 N/S/H/L 630
35/50/65/100
630
420
I3=OFF / Im=10 In
291
320
364
502
20000
120
7000
60
S6 N/S/H/L 800
35/50/65/100
800
533
I3=OFF / Im=10 In
369
406
462
637
20000
120
5000
60
S7 S/H/L 1250
50 / 65 / 100
1250
833
I3=OFF / -
577
635
722
996
10000
120
7000
20
S7 S/H/L 1600
50 / 65 / 100
1600
1067
I3=OFF / -
739
813
924
1275
10000
120
5000
20
S8 H/V 2000
85 / 120
2000
1333
I3=OFF / -
924
1016
1155
1593
10000
120
3000
20
S8 H/V 2500
85 / 120
2500
1667
I3=OFF / -
1155
1270
1443
1992
10000
120
2500
20
S8 H/V 3200
85 / 120
3200
2133
I3=OFF / -
1478
1626
1847
2550
10000
120
1500
10
Type
S1 B/N 125
Icu
380/415 V
Maximum rating
of capacitor bank
in kVAR-50 Hz
Mechanical
endurance
Electrical
endurance
5
5/44
ABB SACE
Coefficient for calculating capacitor bank power in kVAR/kW
to increase the cos
j
value.
Cosj to be obtained
Initial Cosj
0,81
0,85
0,9
0,91
0,92
0,93
0,94
0,95
0,96
0,97
0,98
0,99
1
0,60
0,584
0,714
0,849
0,878
0,905
0,939
0,971
1,005
1,043
1,083
1,131
1,192
1,334
0,61
0,549
0,679
0,815
0,843
0,870
0,904
0,936
0,970
1,008
1,048
1,096
1,157
1,299
0,62
0,515
0,645
0,781
0,809
0,836
0,870
0,902
09,36
0,974
1,014
1,062
1,123
1,265
0,63
0,483
0,613
0,749
0,777
0,804
0,838
0,870
0,904
0,942
0,982
1,030
1,091
10233
0,64
0,450
0,580
0,716
0,744
0,771
0,805
0,837
0,871
0,909
0,949
0,997
1,058
1,200
0,65
0,419
0,549
0,685
0,713
0,740
0,774
0,806
0,840
0,878
0,918
0,966
1,007
1,169
0,66
0,388
0,518
0,654
0,682
0,709
0,743
0,775
0,809
0,847
0,887
0,935
0,996
1,138
0,67
0,358
0,488
0,624
0,652
0,679
0,713
0,745
0,779
0,817
0,857
0,905
0,966
1,108
0,68
0,329
0,459
0,595
0,623
0,650
0,984
0,716
0,750
0,788
0,828
0,876
0,937
1,079
0,69
0,299
0,429
0,565
0,593
0,620
0,654
0,686
0,720
0,758
0,798
0,840
0,907
1,049
0,70
0,270
0,400
0,536
0,564
0,591
0,625
0,657
0,691
0,729
0,769
0,811
0,878
1,020
0,71
0,242
0,372
0,508
0,536
0,563
0,597
0,629
0,663
0,701
0,741
0,783
0,850
0,992
0,72
0,213
0,343
0,479
0,507
0,534
0,568
0,600
0,634
0,672
0,712
0,754
0,821
0,963
0,73
0,186
0,316
0,452
0,400
0,507
0,541
0,573
0,607
0,645
0,685
0,727
0,794
0,936
0,74
0,159
0,289
0,425
0,453
0,480
0,514
0,546
0,580
0,618
0,658
0,700
0,767
0,909
0,75
0,132
0,262
0,398
0,426
0,453
0,487
0,519
0,553
0,591
0,631
0,673
0,740
0,882
0,76
0,105
0,235
0,371
0,399
0,426
0,460
0,492
0,526
0,564
0,604
0,652
0,713
0,855
0,77
0,079
0,209
0,345
0,373
0,400
0,434
0,466
0,500
0,538
0,578
0,620
0,687
0,829
0,78
0,053
0,182
0,319
0,347
0,374
0,408
0,440
0,474
0,512
0,552
0,594
0,661
0,803
0,79
0,026
0,156
0,292
0,320
0,347
0,381
0,413
0,447
0,485
0,525
0,567
0,634
0,776
0,80
0,130
0,266
0,294
0,321
0,355
0,387
0,421
0,459
0,499
0,541
0,608
0,750
0,81
0,104
0,240
0,268
0,295
0,329
0,361
0,395
0,433
0,473
0,515
0,582
0,724
0,82
0,078
0,214
0,242
0,269
0,303
0,335
0,369
0,407
0,447
0,489
0,556
0,698
0,83
0,052
0,188
0,216
0,243
0,277
0,309
0,343
0,381
0,421
0,462
0,530
0,672
0,84
0,026
0,162
0,190
0,217
0,251
0,283
0,317
0355
0,395
0,437
0,504
0,645
0,85
0,136
0,164
0,191
0,225
0,257
0,291
0,329
0,369
0,417
0,478
0,620
0,86
0,109
0,140
0,167
0,198
0,230
0,264
0,301
0,343
0,390
0,450
0,593
0,87
0,083
0,114
0,141
0,172
0,204
0,238
0,275
0,317
0,364
0,424
0,567
0,88
0,054
0,085
0,112
0,143
0,175
0,209
0,246
0,288
0,335
0,395
0,538
0,89
0,028
0,059
0,086
0,117
0,149
0,183
0,230
0262
0,309
0,369
0,512
0,031
0,058
0,089
0,121
0,155
0,192
0,234
0,281
0,341
0,484
0,90
ABB SACE
5/45
5
Protection of three-phase AC generators
(Ue = 400 V)
Power
In
generator
[kVA]
[A]
S1
S2
S3
S3
S4
S4
S5
S5
S6
S6
S7
S7
S8
S8
S8
125
160
160
250
160
250
400
630
630
800
1250
1600
2000
2500
3200
R
R
R
R
In [A]
In [A]
In [A]
In [A]
In [A]
In [A]
In [A]
In [A]
In [A]
In [A]
In [A]
250
320
250
320
40
100
50
100
63
91
100
100
100
160
160
100
100
144,5
160
231,2
200
289
320
630
630
250
361
400
630
630
800
315
455
630
630
800
1000
400
578
630
630
800
1000
500
723
800
1000
1600
630
910
1000
1600
800
1156
1250
1600
1000
1445
1600
1120
1617
1600
1250
1804
1400
2021
2500
1600
2309
2500
2000
2887
200
250
160
2000
3200
5
5/46
ABB SACE
Applications in direct current
Connection diagrams
Suitable connection arrangements must be adopted to obtain
breaking capacity required at the various operating voltages.
the number of poles in series necessary to guarantee the
Circuit protection and isolation with three-pole circuit-breakers
Diagram A: breaking
with 1 pole per polarity
Diagram B:breaking
with 2 poles in series
per polarity and
Diagram C: breaking
1 pole for the
with 3 poles in series
per polarity
other polarity
Load
Load
Load
Poles in parallel
Diagram D:breaking
with 2 poles in parallel
Diagram E: breaking
per polarity
with series of 2 poles in
parallel per polarity
Load
Load
Use at 1000 V DC with four-pole circuit-breakers
Diagram F: breaking
with 4 poles in series
Diagram G:3+1
Diagram H:2+2
poles in series
poles in series
for one polarity
Load
Load
5
GSIS0271
Load
The following table shows which connection arrangement to
to obtain the required breaking capacity for the type of
adopt according to the number of poles to connected in series
distribution network.
Rated
voltage
< 250
< 500
< 750
< 1000
Protection
Function
Isolation
Distribution network
isolated
from earth
with one
polarity* to earth
with median
point to earth
A, D
A, D
A, D
-
E
-
A, D
B
A, D
-
C, E
-
earth being sufficient for the fault
B
G
H
the circuit breaking poles is
-
C
-
G, H
-
H
than 750V the 1000 VDC range
-
F
-
3) Diagram D and diagram E
* The negative pole is assumed
to be earthed.
Notes
1) The risk of a double fault to
current to affect only one side of
considered negligible.
2) For rated voltages greater
is required.
only for S6.
ABB SACE
5/47
Applications in direct current
Connection diagrams
Example of tripping threshold adjustment in DC - diagram A
Setting
S1 125
Ith
Im=5Ith
Ith
Im=10Ith
S3 160
Im=5Ith
S3 250
Ith
Im=10Ith
Im=5Ith
R 200
140÷200
2600
1300
R 250
175÷250
3250
1625
R 10
Im=10Ith
S2 160
Ith
Im=10Ith
Im=5Ith
19÷32
650
390
30÷50
650
390
10
208
12,5
208
9÷12,5
208
R 16
16
208
11,2÷16
208
R 20
20
650
260
14÷20
650
260
R 25
25
650
260
17,5÷25
650
260
R 32
32
650
260
22,5÷32
650
260
R 40
40
650
260
28÷40
650
260
R 50
50
650
325
35÷50
650
325
R 63
63
819
416
44÷63
819
416
R 80
80
1040
520
56÷80
1040
520
48÷80
1040
520
R 100
100
1300
650
70÷100
1300
650
70÷100
1300
650
R 125
125
1625
819
87,5÷125
1625
819
87,5÷125
1625
819
112÷160
2080
1040
112÷160
2080
1040
R 12.5
R 160
N.B. For the lower settings R10, R12.5, R16 only the version I = 5
m
Ith
can be used
The correction value to adopt for the protection thresholds of
each circuit-breaker is shown in the following table.
Circuit-breaker
5
Diagram A
Diagram B
Diagram C
Diagram F
Diagram G
Diagram H
S1
km= 1
km= 1
km= 1
–
–
–
S2
km= 1
km= 1
km= 1
–
–
–
S3
km= 1
km= 1,15
km= 1,15
km= 1
km= 1
km= 1
S5
km= 1,1
km= 1
km= 1
km= 1,1
km= 1,1
km= 1,1
S6
km= 1,1
km= 1
km= 1
km= 0,9
km= 0,9
km= 0,9
5/48
ABB SACE
Setting
S5 400
S5 630
Ith=0,7÷1xIn
Im=5÷10xIn
R 320
225÷320
1760÷3520
R 400
280÷400
2200÷4400
S6 630
Ith=0,7÷1xI n
Im=5÷10xIn
350÷500
2750÷5500
R 500
R 630
S6 800
Ith=0,7÷1xI n
Im=5÷10xIn
440÷630
3065÷6930
R 800
Ith=0,7÷1xIn
Im= 5÷10xIn
560÷800
4400÷8800
Using these the correction factors means that the tripping cur-
therefore in this specific case, having chosen circuit-breaker
rent values will be higher for the same tripping threshold, or,
S6 R630 (ln = 630 A), the magnetic threshold setting value will
vice versa, that having identified the tripping value one needs
be:
to set the tripping threshold following the reclassified scale
range.
set =
Example
5000
1,1 x 630
»7
– Operating current: Ib = 600 A
– Magnetic protection required: Im = 5000 A
– Magnetic protection required
to set:
set =
Im
km x In
5
ABB SACE
5/49
Backup protection
(backup table with Ue = 400 V~)
The table below shows the backup protection available, with
circuit-breakers (SACE Isomax S, SACE Limitor LNA and SACE
the related breaking capacities for the rated voltage
Emax) and pro
M
system modular circuit-breakers.
Ue=400V~, between ABB moulded-case and air low voltage
CIRCUIT-BREAKER UPSTREAM
S270 S280/20 S280/20 S290 S500
In [A] <
Icu [kA]
15
20
25
15
50
S1B
125
S2B
160
S1N
125
S2N
160
S3N
250
S4N
250
S5N
630
S6N
800
S2S
160
S6S
800
S7S
1600
16
16
25
35
35
35
35
35
50
50
50
S240
S240
S240
S240
S250
S250
S250
S250
S270
S280/20
S280/25
S1B
S270
CIRCUIT-BREAKER DOWNSTREAM
10
15
S240
S250
16
20
25
30
S240
S240
S250
S240
S250
S270
S240
S250
S270
S240
S250
S1B
S2B
S1B
S2B
S270
S280/20
S280/20
S1B
S2B
S1B
S1N
S2B
S1N
S250
S1B
S2B
S270
S280/20 S280/25 S280/25
S280/25
S1B
S1N
S2B
35
S250
S270
S280/20
S1N
S1N
S280/25
S250
S1N
40
50
S270
S280/20
S280/25
S1B
S1N
S1B
S1N
S2B
S2N
S3N
S4N
S5N
S6N
S2N
S3N
S4N
S5N
65
5
85
100
130
150
170
200
5/50
ABB SACE
In the interest of facilitating clear representation, the latter must
be read using the follow key:
S250:
S270:
S250, S260, S270K
S270 (B-C-D), S280 (In = 3 ... 8 A),
S280 (In = 50 ... 63 A), S290
S280/20: S280
S280/25: S280
(In = 32 ... 40 A)
(In = 10... 25 A)
S3H
250
S4H
250
S5H
630
S6H
800
S7H
1600
S2X
100
S3L
250
S4L
250
S5L
630
S6L
800
S7L
1600
S3X
125
S3X
200
S4X
250
S6X
630
E2L
1600
E3L
2500
65
65
65
65
65
70
85
100
100
100
100
200
200
200
200
130
130
S250
S250
S1B
S2B
S5N
S6N
S240
S250
S250
S270
S250
S1B
S2B
S1B
S2B
S240
S250
S270
S1B
S2B
S1B
S2B
S250
S270
S280/20
S280/20
S250
S270
S280/20
S280/20
S270
S280/25 S280/25
S1B
S2B
S240
S280/25 S280/25
S280/20
S1B
S2B
S1N
S1N
S3N
S4N
S5N
S6N
S270
S280/20
S280/25
S1B
S1N
S2N
S2S
S3N
S280/25
S280/25 S280/25
S1N
S1N
S2N
S2S
S3N
S270
S270
S280/20 S280/20
S2N
S2S
S3N
S4N
S1B
S2B
S1N
S1N
S2B
S1B
S6N
S2N
S2S
S3N
S4N
S5N
S2N
S3N
S4N
S1N
S2N
S2S
S3N
S3H
S3N
S4N
S5N
S1N
S2N
S2S
S3N
S3H
S3L
S2N
S3N
S4N
S5N
S2S
S3H
S3L
S4H
S1N
S6N
S1B
S2B
S5H
S6S
S6H
S6S
S1B
5
S2S
S3H
S3L
S4H
S5H
S2B
S1B
S2B
S2N
S3N
S4N
S1N
S2S
S5H
S6S
S6H
S7S
S7H
S5L
S6L
S7L
S6H
S7S
S7H
S6L
S7L
S1N
S1N
S500
LNA
S2N
S2S
ABB SACE
S500
LNA
S2N
S2S
S3N
S3H
S3L
LNA
S2N
S2S
S3N
S3H
S3L
S5N
S3H
S3L
S4H
S4L
S5H
S5L
S6S
S6H
S6L
5/51
5
5/52
ABB SACE
Overall dimensions and
circuit diagrams
Index
Overall dimensions
SACE Isomax S1-S2
Fixed circuit-breaker ............................................................................................................
Plug-in circuit-breaker ..........................................................................................................
Circuit-breaker with SACE RC210-RC211-RC212 residual current releases .....................
Accessories ..........................................................................................................................
6/2
6/3
6/4
6/5
SACE Isomax S3-S4-S5-S3X-S4X
Fixed circuit-breaker ............................................................................................................
Mounting parts for fixed circuit-breaker ...............................................................................
Plug-in circuit-breaker - withdrawable circuit-breaker .........................................................
Mounting parts for plug-in circuit-breaker - withdrawable circuit-breaker ...........................
SACE S3 circuit-breaker with SACE RC211/3 - RC212/3 residual current releases .........
Accessories ..........................................................................................................................
6/7
6/9
6/10
6/11
6/12
6/14
SACE Isomax S6-S6X
Fixed circuit-breaker ............................................................................................................
Mounting parts for fixed circuit-breaker ...............................................................................
Withdrawable circuit-breaker ...............................................................................................
Mounting parts for withdrawable circuit-breaker .................................................................
Accessories ..........................................................................................................................
6/18
6/20
6/22
6/23
6/24
SACE Isomax S7
Fixed circuit-breaker ............................................................................................................
Mounting parts for fixed circuit-breaker ...............................................................................
Withdrawable circuit-breaker ...............................................................................................
Mounting parts for withdrawable circuit-breaker .................................................................
Accessories ..........................................................................................................................
6/28
6/29
6/30
6/31
6/32
SACE Isomax S8
Fixed circuit-breaker ............................................................................................................ 6/36
Mounting parts for fixed circuit-breaker ............................................................................... 6/37
Distances to be respected ..............................................................................................
Minimum distance between centres .............................................................................
6/38
6/39
Circuit diagrams
Index ................................................................................................................................... 6/41
ABB SACE
6/1
6
Overall dimensions
SACE S1-S2
Fixed circuit-breaker
Mounting on
sheet metal
Mounting on
DIN EN 50022 channel
Terminal covers
(to order when not included in supply)
(*) 75 with sealable screws
Y
B
(4 POL)
A
E
E
E
1
4
3
G
(3 POL)
71
1.5÷2
4
3
71(*)
40
2
1
120
4
=
96
=
X
X 45 X
X 45
X
=
=
Low
High
48
2
C
D
(3 POL)
F
75
(4 POL)
Y
Terminals
Front for Cu cables or flat
bars
Front for Cu cables or
flat bars
(with separator plates between the
phases)
(with high or low terminal
covers)
Extended front for S2
Threaded rear
(*) high terminal covers included in
supply
(**) low terminal covers included in supply (protection class IP20)
23.5
View A
5
3
17.5
3
ø 8.5
(*)
24.5
42
A
L
15
(**)
I
I
H
E
27.5
H
M8
ø 11
E
102
X
E
X
X
X
39
M
75
Template for drilling sheet metal support
Template for drilling compartment door and fitting flange
(minimum thickness of sheet metal: 3 mm)
For front terminals
(thickness of sheet metal: 1.5 - 2 mm)
For threaded rear terminals
Y
4 POL
Y
=
Key
3 POL
(3-4 POL)
E
E
E
ø18
E
Y
=
1
Flange for compartment door
2
Bracket for fitting circuit-breaker
on DIN channel (to order)
3
Separator plate
4
Sealable screws
O
Q
62 63
62
100
102 100
X
X
64
53
X
ø4
P
M4/ø4.5
M4/ø4.5
N
= =
E
GSIS0001
6
R 1.5
Y
N
O
3 POL 4 POL
3 POL 4 POL
A
B
C
D
E
F
G
H
I
L
M
S1
78
103
39
91
25
116
91
25.5
10.5 x 11
29
62
83.5 108.5
86
S2
90
120
45
103
30
133
93
27.5
12.5 x 12.5
27
60
95.5 125.5
98
6/2
P
Q
...
...
...
111
42
43
...
...
...
128
48
49
...
...
...
ABB SACE
Plug-in circuit-breaker
Fixed parts mounted on sheet metal or channel
(terminal covers for mobile part with IP20 always included in supply)
Y
B
=
E
A
E
(4 POL)
123 (*)
³ 2.5
10
(3 POL)
=
E
3
(*)127 mm with sealable screws
4
1.5÷2 mm
Key
2
1
1
SAC
O
=
45
=
96 163
o
I
X
off
70
124
X
50
75
1
Flange for compartment door
2
Sealable screws
3
Fixed part
4
Moving part complete with terminal
covers
42
C
(3 POL)
D
52
(4 POL)
F
G
Terminals
Front
Threaded rear
2.5
View A
10
H
I
A
2.5
76
40
26
M8
E
X
102
X
X
E
X
39
E
65.5
Drilling template for support (5) or channel (6)
Template for drilling
compartment door and fitting
flange
(minimum thickness of sheet metal: 2.5 mm)
For threaded rear terminals
Y
Y
L
M
(thickness of sheet metal: 1.5 - 2 mm)
L
M
(4 POL)
(3 POL)
(4 POL)
(3 POL)
R
R
5
5
Y
O
84
X
144
60
MAX
5.5
35
6
144
60
102 MAX
5.5
35
63
6
64
53
R 1.5
R 13
M4 ø4.5
Q
84
ø4
P
M4 ø4.5
R
R
E (3 POL)
M (4 POL)
E
(3 POL)
M
(4 POL)
N
Y
Y
Y
N
O
3 POL 4 POL
3 POL 4 POL
A
B
C
D
E
F
G
H
I
L
M
S1
78
103
39
91
25
116
91
28
10.5 x 11
75
50
83.5 108.5
86
S2
90
120
45
103
30
133
93
28
12.5 x 12.5
90
60
95.5 125.5
98
ABB SACE
6
X
GSIS0002
For front terminals
P
Q
R
...
...
111
42
43
12.5
...
...
128
48
49
15
...
...
6/3
Overall dimensions
SACE S1-S2
Circuit-breaker with SACE RC210-RC211-RC212 residual current release
Vertical installation RC211-RC212
(*) Without terminal covers
(**) With low terminal covers
(***) With high terminal covers
(mounting on sheet metal)
Front terminals for Cu
cables or flat bars
Threaded rear terminals
(low terminal covers included in supply)
Version with high terminal covers:
front or rear output cables
(high terminal covers to order)
Y
C
A
71
B
71(•)
4
24.5
3
71(•)
1.5÷2 mm
1.5÷2 mm
3
SAC
X1
45
=
=
I
o
O
off
96
245
249 325
(**) (***)
80
(*)
3
X1
245
249 227
3
3
325
SAC
X2
45
48
=
X2
96
=
3
75
75
Y
(•) 75 with sealable screws
Template for drilling sheet metal support
(minimum thickness of sheet metal: 3 mm)
75
4 POL
3 POL
= =
D
D
Template for drilling compartment door and fitting
flange (thickness of sheet metal: 1.5 - 2 mm)
D
ø20
G
H
ø18
E
96.5
63 62
X1
M4 - Ø4,5
100
X1
38
25
293
Holes for rear
terminals only
Holes for cables
with rear outlet only
X1 53 64
125
100
X2
39
125
F
ø4
X2
38
71.5
G
R1.5
ø18
X2 53 64
ø20
= =
D
Y
Horizontal installation SACE RC210-RC211-RC212
=
D
=
D
=
I
D
Key
70
=
1
24.5
2
120
X
X
=
=
=
45
Bracket for mounting on DIN EN 50022 channel
3
Flange for compartment door
4
Separator plate
GSIS0003
75
3
A
B
C
D
E
F
G
H
I
–
–
–
25
–
–
–
–
206
S1 - RC211/RC212
103
39
116
25
43
41.7
111
108.5
206
S2 - RC211/RC212
120
45
133
30
49
47.7
128
125.5
240
6/4
2
Note
See the various different versions for the dimensions
of the terminals
~70
S1 - RC210
Front terminals for cables and flat bars
X
=
48
6
1
ABB SACE
Accessories
Solenoid operator at the side of the circuit-breaker
B
24.5
Key
92
70.2
3
A
4
6.7
Y
1
Y
E
120
SACE S
=
45
=
X
48
124
100 –+0.15
X
X
=
X
=
1
+
66 –0.15
F
62
52
80 –+0.15
Y
2
C
Y
2
Plate for fixing circuitbreaker onto DIN EN 50022
rail (a richiesta)
3
Separator plates between
the phases
4
Spacer
(for SACE S1 only)
X
50
3
D
A 3 POL B 3 POL C 4 POL D 4 POL
E
F
S1
78
162
64
187
25 ± 0.15
38.5 ± 0.2
S2
90
168
75
198
30 ± 0.1
36 ± 0.2
Drilling for fixing the circuitbreaker and solenoid
operator assembly onto
sheet
Key
Solenoid operator on the front of the circuit-breaker
B
A
3
78
24.5
1
150
147
2
Y
1.5-2
1
3
=
SACE S
=
X 96
X
83.5
X 45
X
64 –+0.15 X
R1.5
Separator plates between
the phases
A 3 POL B 4 POL
X 53
85
=
=
140.5
GSIS0004
Y
91
=
2
Template for drilling
compartment door and
fitting flange
124
=
50
+0.15
–
Flange for compartment
door
23
S1
78
103
S2
90
120
Interlock across two horizontally-installed circuit-breakers
Y
1
Y
Y1
120 (S2÷S2)
117.5 (S1÷S2)
115 (S1÷S1)
30
62
100
90
30
X
X
S2÷S2
6
4.5-M4
25
SACE
2
90
30
X
Key
X
S1÷S2
X
X
25
90
3
Y1
Note
See the various different versions for the dimensions of the circuit-breakers
ABB SACE
2
Template for drilling sheet
metal support
3
Tightening torque 1,1 Nm
Remove the screws for
stirruping the cover and
replace them with the ones
in the KIT.
X
S1÷S1
Y
Interlock device
30
Y
GSIS0005
X
1
6/5
Overall dimensions
SACE S1-S2
Accessories
Compartment door-mounted rotary handle operating mechanism for fixed or plug-in circuit-breakers
Fixed depth
Adjustable depth (max 300 mm)
23 max
119.5
18
20 (*)
68
Shaft lenght= A+B-137.5
B = 18 (20*)
3
=
=
3
45
45
X
X
=
=
X
47
137.5
51.5
49.5 (*)
68
23 max
A =168 min. 300 max (298*)
47
7
5
8
5
≤2.5
2
≤2.5
2
1
(*) If protection class IP54 required
1
(*) If protection class IP54 required A = 298
B = 20
Adjustable depth (max 621,5 mm)
Y
C = 340 min. 621.5 max (619.5*)
23 max
47
137.5
68
Shaft lenght= C+B-137.5
3
ø65
X
=
X
B = 18 (20*)
9
6.8
45
=
X
42
7
5
2.5
4
45°
≤2.5
(*) If protection class IP54 required C max = 619.5
B = 20
GSIS0006
R min. 200
6
8
2
1
ø5
6.8
X
³ø33
6
53
Y
Note
See the various different versions for the circuitbreaker mounting holes
6/6
Key
X
1
Padlock device for open position (max 3 padlocks with ø 6 to be
provided by customer)
2
Transmission assembly
3
Rotary handle assembly
4
Minimum radius of rotation for fulcrum of compartment door
5
Circuit-breaker operating lever
6
Drilling of compartment door
7
Joint
8
Shaft
9
Support
ABB SACE
Overall dimensions
SACE S3-S4-S5-S3X-S4X
Fixed circuit-breaker
Mounting on sheet metal
Mounting on DIN EN
50023 channel
Terminal covers
(to order when not included in supply)
Y
117
B
(4 POL)
A
=
=
(3 POL)
3
25
Z
4
V
135
101.5
108
46
4.5
2.5
H
F
1
D
10.25
=
o
I
X
C
O
161
105
G
22.5
X1
=
off
H
O
3
2
1
o
I
I
o
45
O
off
Low
X
off
High
4
E
E
5
E
103.5
107
105
2
Y
57 (S5 630)
53.8 (S5 400)
Terminals
Front for flat bars
10 (S3-S3X)
15 (S4-S5)
3 (*)
31.8
Front for cables
L
31.2
ø15.5 (S5 400)
ø20 (S5 630)
ø21
M8 (S3/S3X-S4/S4X)
M10 (S5)
(**)
(**) high terminal covers
included in the supply
I
I
20
X
X
1 x 240 mm2 (S5 400)
(*) 3 mm = minimum admissible
thickness for S5 400
For SACE S3 - S4
S5 400 - S3X - S4X only
GSIS0007
5
2 x 120 mm2
For SACE S5 400 - S5 630 only
Key
A
B
C
S3
105
140
S4
105
140
S5 400
140
S5 630
140
S3X
S4X
ABB SACE
D
E
F
G
H
170
87.25
35
Ø8
143
10
254
125.25
35
Ø8
218
11
183.75
254
125.25
43.75
Ø 10
218
12
183.75
254
125.25
43.75
Ø 10
218
12
100
140
255
175.25
35
Ø8
228
10
105
140
359
210.25
35
Ø8
307.5
11
I
L
V
Z
73.75
18x18
24
17.5
107.25 18x18
24
17.5
107.25 24x24
31
19.5
107.25
31
19.5
158.75 18x18
24
17.5
196.75 18x18
24
17.5
–
1
Flange for compartment door
2
Bracket for mounting on DIN EN 50023
channel
3
45 mm front flange
4
Tightening torque 2 Nm
6
6/7
Overall dimensions
SACE S3-S4-S5-S3X-S4X
Fixed circuit-breaker
Terminals
For rear Cu/Al cables
Extended front
25
13.5 (S3/S3X-S4/S4X)
16.5 (S5)
Y
(**)
L
(***)
O
6
12.5
P
46
33.5
N
D
I
I
o
I
X
O
(**) high terminal covers included in supply
X
off
(***) Separator plates between the phases to order
Extended front spreaded
A1
C1
F1
G1
B1
C1
D1
E1
F1
G1
H1
101
D1
D1
I1
E1
H1
2.5
L1
5
60
2.5
o
I
X
O
o
I
O
off
3 POL
X
off
4 POL
Threaded rear
View A
25
A
Q
(**)
R
S
U
X
6
GSIS0008
I
X
T
(**) low terminal covers included in supply
D
I
L
N
O
P
Q
R
S
T
U
A1
B1
C1
D1
E1
F1
G1
H1
I1
L1
S3
87.25
73.75
Ø 16
20
Ø 8.5
100
81.5
36.5
55
100
M 12
130
165
50
45
30
155
...
Ø 8.5
12.5
45
S4
125.25 107.25
Ø 16
20
Ø 8.5
100
81.5
36.5
55
100
M 12
130
165
50
45
30
155
...
Ø 8.5
12.5
45
S5 400
125.25 107.25
Ø 21
25
Ø 11
100
86.5
39.5
62
108
M 16
...
...
...
...
...
...
...
...
...
...
S5 630
125.25 107.25
–
–
–
–
106
41
70
135
M 24
158
202
59
54
40
...
Ø 11
15
49
S3X
175.25 158.75
Ø 16
20
Ø 8.5
100
81.5
36.5
55
100
M 12
130
165
50
45
30
155
...
Ø 8.5
12.5
45
S4X
210.25 196.75
Ø 16
20
Ø 8.5
100
81.5
36.5
55
100
M 12
130
165
50
45
30
155
...
Ø 8.5
12.5
45
6/8
189
max
ABB SACE
Mounting parts for fixed circuit-breaker
Template for drilling sheet metal support
(minimum thickness of sheet metal: 3 mm)
For terminals:
Front for flat bars
Extended front
Front for cables
For terminals for rear
Cu/Al cables
For threaded rear terminals
Y
Y
Y
A
(3 POL)
B
(4 POL)
A
(3 POL)
B
(4 POL)
A
A
A
M5/ø5.5
M
X
X
L
F
D
C
A
M
E
D
X
A
Y
G
C
X
X
D
X
C
N
D
L
X
N
C
X
E
A
M5/ø5.5
H
E
A
M5/ø5.5
(3 POL)
Y
B
(3 POL)
I
(4 POL)
Y
For threaded rear
terminals
Y
Y
Template for drilling compartment door
and fitting flange
Y
43.75 43.75 43.75
ø32
B
For SACE S3 - S4 - S5 400 -S3X - S4X only
Y
43.75 43.75
(4 POL)
ø32
(thickness of sheet metal: 2 mm)
M5/ø5.5
Y
112
=
=
105.25
107.25
105.25
=
80
=
87.5
=
218 X
X 214
X
112 142
X
X
214
43.75
=
22
8
=
X
=
8
ø7
GSIS0009
Y
M5/ø5.5
(3 POL)
(4 POL)
Y
Y
6
For SACE S5 630 only
A
B
C
S3
35
70
S4
35
70
S5
43.75
S3X
35
S4X
35
70
ABB SACE
D
E
F
G
H
I
139
71.75
214
105.25
87.5
214
70
224
L
M
N
17.5
94.75
185
R15
17.5
128.25
260
R15
105
73.75
Ø 24
143
105
107.25
Ø 24
218
105.25
22
134.25
272
R20
156.75
17.5
179.75
270
R15
131.25 107.25
105
158.5
Ø 30
218
Ø 24
228
303.5 194.75
17.5
218
350
R15
105
196.75
Ø 24
307.5
6/9
Overall dimensions
SACE S3-S4-S5-S3X-S4X
Plug-in circuit-breaker - withdrawable circuit-breaker
Plug-in SACE S3-S4-S5 400-S3X-S4X
Witdrawable SACE S3-S4-S5 400-S3X-S4X
Y
27.5
117
B
A
=
3
(3 POL)
3
T
5
=
I
o
off
(3 POL)
=
=
3
2
D
O
(4 POL)
A
1
2
4
1
3
X C
B
3
(4 POL)
=
Y
isolating travel
161
105
G
X 105
X
G
ø5.5
=
=
5
=
D
T
5
=
=
C
X
161
1.75
5
E
E
153
E
E
105
H
96
Y
Witdrawable SACE S5 630
1
Fixed part
2
Moving part complete with IP20 protection class terminal
covers
Y
27.5 isolating travel
2
4
B
3
(4 POL)
A
=
(3 POL)
=
1
Flange for compartment door (included in supply)
3
133.25
D
4
Lock for compartment door (to order)
5
Tightening torque 1,1 Nm (S3-S4-S3X-S4X) - 2 Nm (S5)
1
5
=
X 105
C
The withdrawable circuit-breaker must be completed with
one of the following accessories:
– front flange for operating lever mechanism
– rotary handle operating mechanism
– motor operator
X
161 G 270
ø5.5 1.75
=
Note
E
F
74
Y
Key
E
195.5
184.5
105
3
167
190
2
2
156.5
F
1
5
167
190
2
E
E
E
F
H
96
195.5
78,5
Y
Terminals
Front for flat bars (up to 400 A and S5 630-400A)
I
Front for cables (up to 400 A)
17,5
(S3X-S4X)
M
Threaded rear
Q
L
A
R
P
L
L
N
S
Front spreaded for SACE S5 630
158
View A
U
Vertical flat bar rear terminals for SACE S5 630
31 (S3-S4-S3X-S4X)
34 (S5 400)
54,5 (S5 630)
201,7
8
V
5,5
184
15 ø11
59
59.5
54
6
35
59,5
5,5
83 (S3-S4-S3X-S4X)
84 (S5 400)
118 (S5 630)
108
43.75
40
40
GSIS0010
ø11
Z
A
B
C
D
E
F
G
H
I
L
M
N
O
P
Q
R
S
T
U
V
Z
S3
105
140
175
89.75
35
52.5
143
84
10
33.5
Ø 8.2
20
5
37.5
79.5
36
18x18
73.75
48
M12
100
S4
105
140
259
127.75
35
52.5
218
84
10
33.5
Ø 8.2
20
5
37.5
79.5
36
18x18 107.25
48
M12
100
S5 400
140
183.75
259
127.75 43.75
70
218
101.5
14
43.5
Ø 10.2
25
6
47.5
91.5
37
24x24 107.25
58
M16
108
S5 630
140
183.75
259
127.75 43.75
70
218
101.5
14
49
Ø 10.2
25
6
55.75
91.5
37
24x24 109.25
80
M24x2
143
S3X
105
140
260
174.5
35
52.5
143
84
10
33.5
Ø 8.2
20
5
–
–
–
–
73.75
48
M12
100
S4X
105
140
344
212.75
35
52.5
218
84
10
33.5
Ø 8.2
20
5
–
–
–
–
107.25
48
M12
100
6/10
ABB SACE
Mounting parts for plug-in circuit-breaker - withdrawable circuit-breaker
Template for drilling sheet metal support
(minimum thickness of sheet metal: 3 mm)
SACE S3-S4-S5 400-S3X-S4X
SACE S5 630
For terminals
Threaded rear
For terminals:
Front for flat bars
Front for cables
Y
Y
A
Y
(3 POL)
B
(4 POL)
Y
(3 POL)
115 (3 POL)
160 (4 POL)
(4 POL)
B
A
For terminals:
Front
Front for Cu cables
Front spreaded
For terminals:
Vertical flat bar rear terminals
Threaded rear
F
115 (3 POL)
160 (4 POL)
52
ø6 (M5)
65
ø6 (M5)
G
D
X
C
D
83.25
65.75
C
H
83.25
65.75
X
X
135
135
86.75
F
57.5
57.5
86.75
E
N
52
I
72
R4
65
E
Y
L
(3 POL)
M
(4 POL)
132,5 (3 POL)
177,5 (4 POL)
144 (3 POL)
188 (4 POL)
Y
Y
Y
Template for drilling compartment door and fitting flange
(thickness of sheet metal: 2 mm)
ø4
80°
Y
Y
112
135
=
=
80
63
=
45
=
=
72.5
112 142
X
=
X
94
=
=
126
X
27.5
16
=
=
ø7
142 X
=
81
125
R min. 200
ø7
Y
Y
For plug in circuit-breaker
S3 - S3X
Nr. 3 ø8
For withdrawable circuit-breaker
A
B
C
D
E
70
105
100
52.25
25
F
G
H
I
L
M
N
M4-Ø5 73.75
143
35
70
105
R14
S4 - S4X
82
117
135
65.75
41
M4-Ø5 107.25
218
35
70
105
R14
S5
115
160
135
65.75
58
M5-Ø6 107.25
218
43.75
87.5
131.25
R18
ABB SACE
6
GSIS0011
=
6/11
Overall dimensions
SACE S3-S4-S5-S3X-S4X
SACE S3 circuit-braker with SACE RC211/3 - RC212/3 residual current release
Vertical installation
(mounting on sheet metal)
(*) Without terminal covers
(**) with low terminal covers
(***) with high terminal covers
Front terminals for cables
Rear terminals
(terminal covers to order)
(low terminal covers included in supply)
Y
1.5÷2
109
153
140
109
25
1
1.5÷2
81,5
2
2
36,5
97.5
X1
45
=
=
45
X1
310 397
(**) (***)
305
(*) 90.5
X2
X1
96
X1
305
X1
X1
279
280
35
ø 12
35
310
35
=
=
X2
96
X2
X2
X2
X2
55
100
3
52.5
50
³3
Y
Version with extended front
terminals
Terminals for rear Cu/Al cables
(high terminal covers included in supply)
Y
153
140
35 35 35
1.5÷2
109
3
31
1
45
=
=
X1
96
X1
X2
45
=
=
ø 8.5
X1
346 305
90.5
X2
96
Key
X1
X2
Tightening torque 2 Nm
2
Flange for compartment door
397
X2
X2
Note
See the various different versions
for the dimensions of the terminals
1
6
3
1
X1
305 279
279
X2
Y
1.5÷2
2
2
97.5
X1
109
12.5
45
Template for drilling sheet metal support
Template for drilling compartment door
and fitting flange
(minimum thickness of sheet metal: 3 mm)
(thickness of sheet metal: 1.5 - 2 mm)
Y
70
±0.1
Y
17.5
145.5
±0.1
R1
6
55.25
ø4
105.5
82
84
X1
X1
321
274
±0.15
279
Holes for threaded Holes for rear
rear terminals only terminals for
cables only
X1
64
±0.1 53
X1
135.5
ø5.5 - M5
64
±0.1 53
X2
56.5
35 35 35
148
Y
6/12
Y
GSIS0012
X2
ø24
ABB SACE
SACE S3 circuit-braker with SACE RC211/3 - RC212/3 residual current release
Horizontal installation
140
140
25
Y
35
35
1
35
2
97.5
=
SACE S3
I
o
O
off
X1
TEST
=
45
=
X1
=
50
Y
3.5
108
X1
GSIS0013
170
X1
Key
1
Front terminals for cables
2
Bracket for mounting on DIN EN 50023
channel
6
ABB SACE
6/13
Overall dimensions
SACE S3-S4-S5-S3X-S4X
Accessories
Motor operator for fixed circuit-breaker
Key
Y
(4 POL)
A
2
220
B
=
(3 POL)
=
C
1
=
=
112
80
3
=
2
=
=
Drilling of compartment door
S3-S4
S3X-S4X
Y
=
117
3
=
ø7
=
Dimensions with connectors
See the various different versions for
the circuit-breaker mounting holes
112 142 X
225.5
2
Note
=
=
161
105
Flange for compartment door
(included in supply)
=
=
X
1
Y
S5
A
B
C
140
105
58
183.75
140
75.5
Y
Key
Motor operator for plug in circuit-breakers
Y
2
B
=
269.5
=
C
(3 POL)
Y
3
112
1
=
=
=
80
=
X
=
105
Dimensions with connectors
3
Drilling of compartment door
See the various different versions for
the circuit-breaker mounting holes
=
=
112 142
161
=
2
Note
2
=
Flange for compartment door
(included in supply)
(4 POL)
A
isolating travel
27.5
1
=
=
X
A
B
C
140
105
58
183.75
140
75.5
=
S3-S4
S3X-S4X
ø7
=
S5
Y
=
117
Y
Key
Motor operator for withdrawable circuit-breaker
Y
78.5
2
A
269.5
=
(4 POL)
B
C
6
=
63
=
ø5.5
126
16
=
=
2
167
Nr. 3 ø8
94
=
161
X 105
Drilling of compartment door
See the various different versions for
the circuit-breaker mounting holes
135
ø7
1.75
2
Note
Y
1
=
Flange for compartment
door (included in supply)
(3 POL)
=
Y
ø7
81
125
R min. 200
Y
=
27.25
142 X
=
GSIS0014
isolating travel
27.5
1
96
S3-S4
S3X-S4X
S5
6/14
A
B
C
140
105
58
183.75
140
101.5
ABB SACE
Accessories
Interlock across two horizontally-installed circuit-breakers
Y
=
B
B B
Key
Y
=
A
C
= =
B B
=
=
M
P
B
N
=
E
X
F
G
X
X
Q
I
O
=
5
(S5)
1 (S3-S4)
Template for drilling
mounting holes in sheet
metal
3
Drilling template for all
versions with rear terminals
4
Dimensions with four-pole
withdrawable version
mounted on right
5
Tightening torque 3,7 Nm
ø7
H
4
2
R
Y
1
Interlock device
R
L
105
D
1
N
2
3
Y
65
103.5
Y
275
Note
See the various different versions
for the dimensions of the circuitbreakers
Y
27.5
A
B
C
D
E
F
G
H
I
L
M
N
O
P
Q
R
S3
350
35
66
265
134.5
87.2
170
12
227.5
116
324
155
R15
16
68
75
S4
350
35
66
350
173.5
125.3
254
12
315
156
324
155
R15
16
143
75
S5
500
43.75
119
350
173.3
125.3
254
16
315
156
472
202
R15
48
114
117
S3X
350
35
66
265
135
172
255
12
227.5
116
324
155
R15
16
68*, 153**
75
S4X
350
35
66
350
173.3
210
339
12
315
156
324
155
R15
16
143*, 232.5**
75
* Per interruttore estraibile
con terminals posteriori
** Per interruttore fisso con
terminals posteriori (uscita posteriore)
Interlock across two vertically-installed circuit-breakers (S3-S4-S5)
Y
103.5
Key
Y
=
A
65
=
=
2
5
H
N
=
3
Q
P
M
1
Interlock device
2
Drilling template for
mounting circuit-breakers on
sheet metal
3
Drilling template for all
versions with rear terminals
4
Dimensions with four-pole
withdrawable version
5
Tightening torque 3,7 Nm
F
=
105
=
N
G
=
M
C
1
X
O
E
D
M
F
X
I
=
6
=
G
=
N
M
11.5
27.5
isolating travel
R
P
Note
4
B B B
275
Nr. 8 ø7
Y
Y
GSIS0015
105
See the various different versions
for the dimensions of the circuitbreakers
A
B
C
D
E
F
G
H
I
L
M
N
O
P
Q
R
S3
180
35
152.5
157.5
578
87.5
170
157.5
350
155
75
68
92
14
77.5
R15
S4
180
35
198.5
195.5
750
125.3
254
157.5
490
155
75
143
101
23.5
77.5
R15
S5
220
43.75
198.5
195.5
750
125.3
254
201
490
202
107
114
66
9
98.5
R15
ABB SACE
6/15
Overall dimensions
SACE S3-S4-S5-S3X-S4X
Accessories
Rotary handle operating mechanism on fixed or plug in circuit-breaker
Key
Y
=
105
=
5
ø4
2
80°
1
Rotary handle operating
mechanism
2
Lock for compartment door
(to order)
3
Drilling of compartment door
4
Dimensions for connector
for early contact for
undervoltage release
5
Flange for compartment
door (included in supply)
Y
45
==
=
X 105
161
=
ø7
=
117
80
= =
112
= =
X
3
R min 200
1
=
72.5
= =
142 112
= =
X
X
A
Y
A
Y
Note
See the various different versions
for the circuit-breaker mounting
holes
S3-S4
S3X-S4X
III
58
S3-S4
S3X-S4X
IV
93
S5
III
75.5
S5
IV
119.25
4
Compartment door-mounted rotary handle operating mechanism with adjustable depth for fixed or
plug in circuit-breaker
7
9
Y
105
1
1
2
11.5
X
105
90°
52.5
X
X
4
R min 200
Y
Y
5
=
X
11.5
=
33
Key
Y
See the various different versions for
the circuit-breaker mounting holes
X
27
R min 200
Note
46
5
54
6/16
3
59
46.5
26
6
10
GSIS0016
26
6
3
8
1
Transmission assembly
2
Rotary handle assembly with
door lock device
3
Padlock device for open
position (maximum 3
padlocks with max ø6mm to
be provided by customer)
4
Minimum radius of rotation
for fulcrum of door
5
Drilling of door
6 Support for depths of up to
500 mm
7 66 ... 300 mm
(with IP54 protection min. 90)
8 Distance 7 + 2 mm
(shaft length)
9 301...500 mm
(with IP54 protection min.325)
10 Distance 9 + 2 mm
(Shaft length)
ABB SACE
Accessories
Rotary handle operating mechanism on withdrawable circuit-breaker
Key
Y
2
170
105
=
38.5 22
ø4
80°
2
Rotary handle
operating mechanism
2
Lock for compartment
door (to order)
Y
135
63
45
=
X 105
72.5 =
126
X
=
X
161
=
Nr. 5 ø7
27.25 =
142 X
=
94
16
R min. 200
Padlock device for
open position
(maximum 3 padlocks
max. ø 6 mm to be
provided by user)
Note
See the various different
versions for the circuitbreaker mounting holes
Y
35
3
81
125
3
1
35
1
=
37
42.5
Y
Front flange for operating lever mechanism
Y
105
=
37
=
4
2
Key
2
80°
ø4
Y
45
==
1
Front flange for lever
operating mechanism
2
Lock for compartment
door (to order)
3
Drilling of compartment
door
4
Flange for
compartment door
(included in supply)
=
=
=
X
161 X
X 105
=
=
=
1
72.5
=
112
142
X
=
ø7
80
= =
112
= =
Y
117
=
Note
See the various different
versions for the circuitbreaker mounting holes
42.5
=
3
Y
External neutral for SACE S4-S5 circuit-breakers
76.5
50
25
36.25
4
=
6
=
=
In
120
66 40
5
6 Line
100
160
200
250
Load
95
320
400
=
=
ABB SACE
X3
GSIS0017
11
1 4 5 6
=
6/17
Overall dimensions
SACE S6 - S6X
Fixed circuit-breaker (S6)
Y
Terminal covers
104.75
1
=
107
(4 POL)
279.5
210
140 =
³3
(3 POL)
2
(to order when not included in the supply)
12
low
101.5
2
125.25
high
111.75
47
=
161
X 268
241
105
2.5
X
=
16.5
=
=
152
14
Key
9
103.5
Mounting on sheet metal
Y
159
1
Flange for compartment door
(included in supply)
2
Tightening torque 2 Nm
Terminals
Front extended
70
70
Front
70
40
41.5
5
ø11
40
15
23 5 min.
22.5 ±0.1
ø6.5
48.5
62
47
12
S6 630
S6 630 - S6 800
Threaded rear
41.5
ø14
50
53.5
8
67
20
47
(low terminal covers included in supply)
70
70
70
73
44
2.5
M24x2
S6 800
S6 630 - S6 800
Y
45
116
90
116
116
22.5
23
22.5
45
ø13
49.5
Front for Cu/Al cables
For rear Cu/Al cables
(IP20 high terminal covers included in
the supply for S6 800)
(IP20 high terminal covers included in
the supply)
ø21.5
47
32
8 20
ø21
19.5
12
116.5
6
S6 630
S6 630
59
S6 630 - S6 800
ø20
42
25
ø17.5
16.75
12
S6 800
S6 800
6/18
GSIS0018
Front extended spreaded
ABB SACE
Fixed circuit-breaker (S6X)
Terminal covers
Y
(to order when not included in the supply)
105
1
=
280
210
140
(4 POL)
2
107
-3
(3 POL)
=
101.5
2
12
249.75
low
263.25
high
47
=
161
X 406
379
105
2.5
X
=
16.5
Key
14
=
103.5
115
=
152
Mounting on sheet
metal
Y
9
159
1
Flange for compartment door (included in
supply)
2
Tightening torque 2 Nm
Terminals
Extended front
70
70
Front for Cu/Al cables
70
40
ø21.5
47
32
41.5
48.5
15
5
ø11
62
47
For rear Cu/Al cables
Front
(IP54 high terminal covers included in the supply)
40
23 5 min.
22.5 ±0.1
ø6.5
ø21
19.5
12
12
14
9
Threaded rear
6
(low terminal covers included in supply)
70
70
2.5
73
44
M24x2
23
ABB SACE
GSIS0019
70
6/19
Overall dimensions
SACE S6 - S6X
Mounting parts for fixed circuit-breaker
(S6)
Template for drilling sheet metal support
(minimum thickness of sheet metal: 3 mm)
For terminals:
Front for flat bars
Front extended
Front for cables
For terminals for rear Cu/Al cables
SACE S6 630
SACE S6 800
Y
Y
70
70
140
140
(3 POL)
70
(3 POL)
(4 POL)
X
237
X
(4 POL)
35
141.75
109.75
(3 POL)
140
35
(4 POL)
109.75
X
Y
237
141.75
109.75
301
237
M5/ø5.5
M5/ø5.5
M5/ø5.5
R18
R21.5
84
35
168
Y
238
X
301
85.75
(3 POL)
(4 POL)
Y
171.5
(3 POL)
241.5
(4 POL)
Y
Template for drilling
compartment door and
fitting flange
For terminals threaded rear
(thickness of sheet metal: 2 mm)
Y
Y
=
70
109.75
X
237
111.75
70
70
70
241
109.75
147
70
105
70
35
=
=
115
=
111.75
237
241
X
M5/ø5.5
ø35
=
M5/ø5.5
6
6/20
X
=
ø35
ø7
Y
=
112 142
X
8
8
=
Y
Y
GSIS0021
3 POL
Y
4 POL
ABB SACE
Mounting parts for fixed circuit-breaker (S6X)
Template for drilling sheet metal support
(minimum thickness of sheet metal: 3 mm)
For terminals:
Front for flat bars
Front extended
Front for cables
For terminals for rear Cu/Al cables
Y
Y
70
70
140
140
(3 POL)
(3 POL)
(4 POL)
35
(4 POL)
247.75
279.75
247.75
109.75
X
109.75
X
375
X
439
375
M5/ø5.5
M5/ø5.5
X
R18
84
35
168
Y
238
(3 POL)
(4 POL)
Y
Template for drilling
compartment door and
fitting flange
For terminals threaded rear
3 POL
(thickness of sheet metal: 2 mm)
Y
4 POL
Y
70
70
70
Y
105
35
147
=
249.75
247.75
249.75
109.75 379
70
X
247.75
375
=
109.75
379
=
=
X
375
=
115
112 142
X
=
70
70
M5/ø5.5
ø35
M5/ø5.5
ø35
X
=
GSIS0020
8
8
=
ø7
Y
Y
ABB SACE
Y
6/21
6
Overall dimensions
SACE S6 - S6X
Withdrawable circuit-breaker
Key
Y
27.5 isolating travel
(4 POL)
280
4
210
1
2
70
70
(3 POL)
70
3
133
89.5
=
140
Fixed part
2
Moving part
3
Flange for compartment
door (included in supply)
4
Lock for compartment door
(to order)
5
Tightening torque 9 Nm
58
ø5.5
X
1
14.5
208
145
=
196 X
A
295
5
152
A
167
2
96
190
131
136.5
123.5
195.5
S6
273
S6X
411
193.5
Y
Terminals
Front for SACE S6 630, S6 800
31
70
3
ø14
10
70
70
40
20
158
X
X
X
X
Horizontal or vertical rear flat bar for SACE S6 630, S6 800
3
80.5
20
ø14
40
X
X
X
X
10
6/22
GSIS0022
6
ABB SACE
Mounting parts for withdrawable circuit-breaker
Template for drilling sheet metal support
(minimum thickness of sheet metal: 3 mm)
Y
140
(3 POL)
210
(4 POL
70
(4 POL)
77.5
R2
57.5
45.5
X
120
X
ø8.5 (M8)
86.5
77.5
107
(4 POL)
214
(3 POL)
284
(4 POL)
Y
Template for drilling compartment door and fitting flange
(thickness of sheet metal: 2 mm)
ø4
80°
Y
170
80.5
45
==
Nr. 5 ø8
90
X
9
161
39
19.75
16
101
162.5
121
R min 200
Y
ABB SACE
=
177
X
=
ø7
GSIS0023
ø7
6
6/23
Overall dimensions
SACE S6 - S6X
Accessories
Interlock across two horizontally-installed circuit-breakers
Y
=
=
70
70
Key
=
650
70
120
70
70
Y
70
1
=
46
284
=
X
273
=
375
350
A
=
=
=
ø9
=
5
101 =
R
=
2
30
13.5
101
3
331
X
=
Drilling template for all
versions with rear terminals
4
Dimensions with
withdrawable version
mounted on right
5
Tightening torque 9 Nm
4
2
65
Y
3
Note
See the various different
versions for the dimensions of
the circuit-breakers
103.5
288
isolating travel
Drilling template for
mounting circuit-breaker on
sheet metal
=
525
10.5
1
Interlock device
27.5
A mm
Y
S6
129 (fixed, withdrawable)
S6X
267 (fixed)
129 (withdrawable)
Interlock across two vertically-installed circuit-breakers (for S6 only)
Y
51.5 70
70
Key
70 48.5
1
Y
5
2
293
=
R
20
26
273
=
280
1
=
109
X
=
ø9
6
X
129 =
Y
6/24
=
4
65
288
27.5
isolating travel
Tightening torque 9 Nm
GSIS0024
310
5
Note
See the various different versions
for the dimensions of the circuitbreakers
3
Y
=
Dimensions with
withdrawable version
mounted underneath
109
26
2
17
4
109
=
273
Drilling template for all
versions with rear terminals
109
101 779
525
175
820
Drilling template for
mounting circuit-breaker on
sheet metal
3
129 =
=
Interlock device
ABB SACE
Accessories
Motor operator for fixed circuit-breaker
Y
2
222.5
1
198.5
23.5
91.5
Y
81.25±0.1
81.25±0.1
19.75
ø8 (7 fori)
192.25
338
125.25
270
304
319
R8
72.25
X
22.75
111.75
174
122±0.1
R. min.200
67
140 =
215.5
285.5
X
159.5
102.25 94.75
=
2
96.5
Y
3
Key
Y
Note
See the various different
versions for the circuit-breaker
mounting holes
1
Flange for compartment
door (included in supply)
2
Template for drilling
compartment door
3
Dimensions with connectors
Motor operator for withdrawable circuit-breakers
Y
27.5
222.5
isolating travel
91.5
1
Y
81.25±0.1
81.25±0.1
19.75
ø8 (7 fori)
186.5
338
270
304
R
X
A
319
72.25
X
159.5
22.75
B
117.5
174
122±0.1
R. min.200
23.5
2
247.5
140
=
6
Y
GSIS0025
=
2
Y
Key
S6
S6X
ABB SACE
A
B
108
100.5
102.25 94.75
Note
See the various different
versions for the circuit-breaker
mounting holes
1
Flange for compartment door
(included in supply)
2
Template for drilling
compartment door
6/25
Overall dimensions
SACE S6 - S6X
Accessories
Rotary handle operating mechanism on fixed circuit-breaker
Key
Y
2
104.75
152
140
=
4
=
5
103.5
44.5 22
37
2
Y
45
2
Lock for compartment door
(to order)
3
Drilling of compartment door
4
Flange for compartment
door (included in supply)
5
Tightening torque 2 Nm
2.75
= =
177 147
= =
196
140
X
Rotary handle operating
mechanism on circuitbreaker
80°
ø4
=
=
1
=
=
90
X
ø7
=
=
1
115
147
R min 200
Y
42.5
Drilling only required for version with rear terminals
3 POL
Y
70
4 POL
106 (S6)
244 (S6X)
70
237 (S6)
375 (S6X) 104
X
70
133
241 (S6)
379 (S6X)
70
237 (S6)
375 (S6X) 104
133
8
M5/ø5.5
70
105
Note
See the various different versions
for the circuit-breaker mounting
holes
70
106 (S6)
244 (S6X)
35
241 (S6)
379 (S6X)
X
8
M5/ø5.5
ø35
3
=
=
ø35
Y
Y
Compartment door-mounted rotary handle mechanism with adjustable depth for fixed circuit-breaker
Y
105
41.5
2
6
Key
22
63
103.5
31
5
23
Y
41.5
5
19
1
1
Transmission assembly
2
Rotary handle assembly
with door lock device
3
Padlock device (maximum 3
padlocks max ø 6 mm to be
provided by customer only
for circuit-breaker open
position)
4
Minimum radius of rotation
for fulcrum of door
=
46
28
28
X
=
105
X
33
36
3
2
27
7
54
R min 200
168
Y
5
4
6
Drilling template for
mounting circuit-breaker on
sheet metal
R min 200
Drilling only required for version with rear terminals
106 (S6)
244 (S6X)
70
237 (S6)
375 (S6X) 104
X
70
133
241 (S6)
379 (S6X)
70
M5/ø5.5
ø35
Y
237 (S6)
375 (S6X) 104
133
8
6/26
70
4 POL
70
72...506 mm (with IP54
protection min. 96)
7
Distance 6 -4 mm
(shaft length)
105
70
35
106 (S6)
244 (S6X)
241 (S6)
379 (S6X)
8
M5/ø5.5
ø35
Y
X
GSIS0026
3 POL
6
Y
Note
See the various different versions
for the circuit-breaker mounting
holes
ABB SACE
Accessories
Rotary handle operating mechanism on withdrawable circuit-breaker
Key
Y
80°
ø4
210
2
2 44.5
22
1
Rotary handle on
circuit-breaker
2
Lock for compartment
door (to order)
Y
170
80.5
45
==
Nr. 5 ø8
X
196
X
=
3
90
9
177
161
X
=
39
3
151
16
19.75
101
162.5
121
R min 200
1
37
222.5
91.5
123.5
Note
See the various different versions
for the circuit-breaker mounting
holes
Y
42.5
Padlock device for
open position
(maximum 3 padlocks
max. ø 6 mm to be
provided by user)
131
136.5
Y
Front flange for operating lever mechanism
Y
104.75
152
140
=
5
4
=
103.5
37
Key
2
2
80°
ø4
1
Front flange for operating
lever mechanism
2
Lock for compartment door
(to order)
3
Drilling of compartment door
4
Flange for compartment
door (included in supply)
5
Tightening torque 2 Nm
Y
45
=
=
X
=
=
177 147
=
=
196
140
=
=
2.75
X
ø7
=
=
1
115
147
=
3
=
Y
42.5
Y
3 POL
Note
See the various different versions
for the circuit-breaker mounting
holes
Drilling only required for
version with rear terminals
106 (S6)
244 (S6X)
237 (S6)
375 (S6X) 104
70
133
8
External neutral
241 (S6)
379 (S6X)
70
X
115
75
X
70
40
52.5
10
=
6
25
=
ø35
M5/ø5.5
4 POL
90
Y
70
70
70
=
5
6
Line
In
115
100 A
160 A
185 77 49
200 A
250 A
106 (S6)
244 (S6X)
237 (S6)
375 (S6X)
104
105
35
320 A
400 A
Load
241 (S6)
379 (S6X)
X
=
X
5
6
=
X
25
4
8
=
M5/ø5.5
ø35
Y
ABB SACE
11
GSIS0027
1
133
6/27
Overall dimensions
SACE S7
Fixed circuit-breaker
Y
210
152
=
70
70
Terminal covers
(4 POL)
(3 POL)
280
=
2
low
70
7
7
30.5
37
1
217
177
=
=
406
X
161
X
105
326
X
=
=
37
Key
7
140
3
Y
Terminals
138.5
140.5
146.5
214.5
Front
1
Flange for compartment door
(included in supply)
2
Tightening torque 2 Nm
2
Front extended
Y
Y
10 10 10
33.5
140
50
22
70
70
39 15
70
22
50
ø11
ø11
22
107
71
22
22
Front for Cu/Al cables for S7 1250
Y
70
70
ø21.4
97
78
57
38
70
Horizontal or vertical flat bar rear terminals
30.5
37
Y
70
70
85
70
16
A
171.5
Front extended spreaded
Y
45
116
90
315
116
116
22.5
22.5
23
45
X
50
X
15
ø13
B
107
50
22
GSIS0028
6
ø11
14
22
A = horizontal installation
B = vertical installation
6/28
ABB SACE
Mounting parts for fixed circuit-breaker
Template for drilling sheet metal support
(Minimum thickness of sheet metal:3 mm)
For terminals:
Front
Front extended
Front for Cu/Al cables
For flat bar rear terminals
Y
70
3 POL
4 POL
Y
Y
(3 POL)
140
(4 POL)
220
203
X
378
ø 3.6 H12
290
50 80
203
X
ø 3.6 H12
X
378
171.5
315
R40
70
= =
70
70
50 80
203
378
171.5
140
X
315
R40
70
70
70
M5/ø5.5
35
ø5.5 - M5
35
Y
ø5.5 - M5
Y
Y
Template for drilling compartment door
and fitting flange
(thickness of sheet metal: 2 mm)
Y
147
=
=
115
=
=
=
112 142
X
=
ø7
Y
X
=
GSIS0029
=
6
ABB SACE
6/29
Overall dimensions
SACE S7
Withdrawable circuit-breaker
Key
Y
241.5
280
210
140
3
2
(4 POL)
(3 POL)
1
2
1
Fixed part
2
Moving part
3
Flange for compartment
door (included in supply)
4
Lock for compartment door
(to order)
5
Tightening torque 9 Nm
3
4
211.25
143.25
=
X
160
max
8.25
140
270
196
406
X
=
5
96
131
123.5
136.5
ø5.5
218.5
247
193.5
27.5 isolating travel
Y
Terminals
Front
Y
31
70
3
16
70
70
50
22
ø11
14
67
22
X
X
Horizontal or vertical flat bar rear terminals
108
3
Y
ø11
22 50
6
143.25
22
14
X
X
70
6/30
70
70
GSIS0030
16
ABB SACE
Mounting parts for withdrawable circuit-breaker
Template for drilling sheet metal support or channel
(Minimum thickness of sheet metal: 3 mm)
Y
140
(3 POL)
210
(4 POL)
70
120.5
92.5
68.25
X
120
X
ø8.5 (M8)
76
120.5
107
214
(3 POL)
284
(4 POL)
Y
Template for drilling compartment door and fitting flange
(thickness of sheet metal: 2 mm)
ø4
80°
Y
170
ø7
80.5
45
==
Nr. 5 ø8
90
X
9
161
=
177
39
X
=
ø7
19.75
16
101
6
121
R min 200
Y
ABB SACE
GSIS0031
162.5
6/31
Overall dimensions
SACE S7
Accessories
Interlock across two horizontally-installed circuit-breakers
Y
Key
Y
660
=
70
70
70
120
70
70
70
=
30
300
300
7
406 450
=
420
117 407
=
ø9
115
=
40
5.5
1
2
Drilling template for
mounting circuit-breaker on
sheet metal
3
Drilling template for all
versions with rear terminals
4
Dimensions with
withdrawable version
mounted on right
5
Tightening torque 9 Nm
X
=
6.5
7
5
Interlock device
115 =
R
=
=
X
20
6.5
1
=
550
40
4
65
Y
2
3
140.5
336
isolating travel
Note
See the various different versions
for the dimensions of the circuitbreakers
27.5
Y
Interlock across two vertically-installed circuit-breakers
Key
Y
1
Interlock device
2
Drilling template for
mounting circuit-breaker on
sheet metal
3
Drilling template for all
versions with rear terminals
4
Tightening torque 9 Nm
7
Y
=
315
=
406
=
1
115
=
=
7
290
=
=
=
=
=
X
875
166
1100
=
=
7
408
R30
994
X
=
=
6
ø9
=
406
=
2
=
Y
3
4
=
70
70
70
Y
6/32
=
65
340
336
27.5
isolating travel
GSIS0032
7
Note
See the various different versions
for the dimensions of the circuitbreakers
ABB SACE
Accessories
Motor operator for fixed circuit-breaker
Y
222.5
91.5
140
=
=
2
1
Y
23.5
231.5
81.25±0.1
81.25±0.1
19.75
7
Nr. 7 ø8
217
195.75
338
304
319
R8
270
72.25
X
X
159.5
98.75
108.25
91.25
22.75
174
122±0.1
R. min.200
91
215.5
2
Y
3
285.5
Key
Y
Note
See the various different
versions for the circuit-breaker
mounting holes
1
Flange for compartment
door (included in supply)
2
Template for drilling
compartment door
3
Dimensions with connectors
Motor operator for withdrawable circuit-breaker
Y
27.5 isolating travel
222.5
91.5
140
=
=
Y
1
81.25±0.1
81.25±0.1
19.75
7
Nr. 7 ø8
211.25
190
338
304
R8
X
319
72.25
159.5
104.5
114
22.75
174
122±0.1
R. min.200
23.5
2
X
97
2
Y
295.5
6
GSIS0033
270
Y
Key
Note
See the various different
versions for the circuit-breaker
mounting holes
ABB SACE
1
Flange for compartment door
(included in supply)
2
Template for drilling
compartment door
6/33
Overall dimensions
SACE S7
Accessories
Rotary handle operating mechanism on fixed circuit-breaker
Y
140
=
44.5
2
105
5
=
6
140.5
22
Key
37
1
80°
ø4
=
Y
2
45
211.25
1
=
X
=
406
196 140
2.75
=
90
177147
= =
X
=
=
115
147
4
4 POL
X
378
315
70
50
378
70
Drilling template for
mounting circuit-breaker on
sheet metal
5
Flange for compartment
door (included in supply)
6
Tightening torque 2 Nm
Y
197.25 165.75
70
Drilling of compartment door
Y
50
197.25 165.75
3
3
=
Drilling only required for version with rear terminals
Y
Lock for compartment door
(to order)
=
R min 200
42.5
3 POL
2
4
ø7
152
Rotary handle operating
mechanism on circuitbreaker
Note
See the various different versions
for the dimensions of the circuitbreakers
35
X
315
70
70
140
70
ø5.5- M5
ø5.5- M5
R 40
R 40
Compartment door-mounted rotary handle operating mechanism for fixed circuit-breaker
Y
105
Key
1
105
41.5
63
7
31
22
5
19
41.5
5
=
X
2
Rotary handle assembly
with door lock device
3
46
=
28
406
105 28
36
Transmission assembly
23
2
211.25
1
Y
X
33
90°
3
27
2
4
Minimum radius of rotation
for fulcrum of door
5
Template for drilling
compartment door
6
Drilling template for
mounting circuit-breaker on
sheet metal
7
72 ... 506 mm (with IP54
protection min. 96)
8
Distance
lenght)
54
R min 200
8
205
6
Y
4
R min 200
Drilling only required for version with rear terminals
Y
6
4 POL
Y
50
197.25 165.75
X
378
315
70
70
378
70
ø5.5- M5
R 40
220
Y
6/34
50
197.25 165.75
ø3.6 H12
315
35
7 - 4 mm (shaft
X
70
70
140
70
ø5.5- M5
80
R 40
290
Y
ø3.6 H12
80
GSIS0034
3 POL
Padlock device (maximum 3
padlocks max ø 6 mm to be
provided by customer only
for circuit-breaker open
position)
Note
See the various different versions
for the dimensions of the circuitbreakers
ABB SACE
Accessories
Rotary handle operating mechanism on withdrawable circuit-breaker
Y
210
=
80°
ø4
2
=
2 44.5
Key
22
Y
1
Rotary handle operating
mechanism on circuitbreaker
2
Lock for compartment door
(to order)
170
80.5
45
==
211.25
=
X
90
X
196
X
Nr. 7 ø7
=
9
177
161
39
406
=
3
16
19.75
101
162.5
121
R min 200
1
222.5
131
136.5
91.5
123.5
X 3
=
37
Y
Padlock device for open
position (maximum 3
padlocks max. ø 6 mm to be
provided by user)
Note
See the various different versions
for the circuit-breaker mounting
holes
42,5
Y
Front flange for operating lever mechanism
Y
140
Key
2
105
=
5
6
=
140.5
37
80°
ø4
1
Front flange for lever
operating mechanism
2
Lock for compartment door
(to order)
3
Drilling of compartment door
Y
=
2
45
211.25
=
=
X
406
196 140
2.75
=
90
177 147
=
X
=
4
ø7
1
=
=
115
147
3
=
=
Y
3 POL
Drilling only required for
version with rear terminals
Y
50
197.25 165.75
X
378
Flange for compartment
door (included in supply)
6
Tightening torque 2 Nm
70
Note
See the various different versions
for the circuit-breaker mounting
holes
4
External neutral
70
315
5
42.5
152
Drilling template for
mounting circuit-breaker on
sheet metal
X
70
115
75
40
ø5.5- M5
52.5
10
6
=
R 40
25
=
Y
4 POL
=
5
6
Line
In
115
100 A
185 77 49
50
197.25 165.75
4
320 A
400 A
Load
35
70
70
140
70
=
X
=
X
25
1
4
ø5.5- M5
6
315
200 A
250 A
5
X 378
160 A
Y
ABB SACE
11
GSIS0035
=
R 40
6/35
Overall dimensions
SACE S8
Fixed circuit-breaker
380
=
2
Y
242
556
=
2.5
2
Y
1
3
20
20
ø9
400
313
X 280
X
X
X
280 400
20
120
15
X
X
20
150
120
120
120
236,5
203
406
=
286,5
=
530
Y
Y
3 POL
4 POL
Terminals
Front (S8 2000-2500)
Rear (S8 2000-2500)
Y
Y
65
324
80
20
40
=
Ø15
20
=
120
115
324
20
80
=
40
=
20
=
20
85
65
80 40
40
= Ø15
40
40
20
15
150
120
120
150
120
Y
20
120
Y
20
Rear (S8 3200)
100
95
50
324
85
17,5
Y
20
100
40
20
40
20
3
X
X
6
580
520
X
X
X
X
25
50
Ø15
65
65
25
Ø18
Ø15
=
150
40
120
=
80
120
Y
20
Key
1
Flange for compartment door
2
Circuit-breaker mounting holes
3
Internal side of compartment door
6/36
5
5
GSIS0036
15
20
ABB SACE
Mounting parts for fixed circuit-breaker
Template for drilling sheet metal support
Template for drilling compartment door
and fitting flange
(Minimum thickness of sheet metal: 3mm)
(Minimum thickness of sheet metal: < 2,5mm)
N. 8 Ø 9
N. 8 Ø 9
3 POL
4 POL
Key
1
Hole for rear terminals only
2
Minimum radius of rotation of compartment door
Accessories
External neutral
6
ABB SACE
6/37
Overall dimensions
Distances to be respected
Insulation distances for installation in metal compartment with wall
to chassis ground or wall to chassis ground protected with insulating plate
B
Wall to chassis ground [mm]
A
A(*)
(Ub £ 415V)
(Ub ³ 440V)
B
C
S1
25
50
20
20
S2
25
50
20
20
S3
35
100
25
20
S4
35
100
25
20
S5
35
100
25
20
S6
35
100
25
20
I
S7
50
100
30
20
O
S8
200
200
30
120
A
o
off
(*) these distances are valid for operating voltages of > 440 V and for
circuit-breakers with breaking capacity level L.
B
C
D
E
GSIS0038
C
A
F
3 POL 3 POL
S2X100
25
20
20
169
135
–
73
S3X
50
25.5
30
340
161
196
112
S4X
60
25.5
30
430
161
196
112
S6X
60
30.5
30
500
275
345
E
F
B
152
A - B - C = Distances inside compartment walls
D - E - F = Distances outside compartment
B
A
Insulation distances for installation in insulated
compartment
Insulated wall [mm]
B
C
S1
25
0
20
S2
25
0
20
S3
35
0
20
S4
35
0
20
S5
35
0
20
S6
35
10
20
S7
50
10
20
S8
120
15
120
6/38
D
I
O
o
off
C
GSIS0071
6
A
The dimensions shown apply for operating voltages Ub of up
to 690 V.
The dimensions to be respected must be added to the
maximum dimensions of the various different versions of the
circuit-breakers, including the terminals.
ABB SACE
Minimum distance between centres for two horizontally
or vertically-installed circuit-breakers
For horizontal or vertical installation, make sure that the connection busbars or cables don’t reduce the air insulation distan ces.
Minimum distance between centres for horizontallyinstalled circuit-breakers
Circuit-breaker
I
width [mm]
[mm]
3 POL
4 POL
3 POL
4 POL
S1
78
103
78/93(*)
103/118(*)
S2
90
120
90/105 (*)
120/135(*)
S3
105
140
105/119(*)
140
S4
105
140
105/119(*)
140
S5
140
184
140
185
S6
210
280
210
280
S7
210
280
210
280
S8
435
585
435
585
Y
Y
on
on
off
off
l
Y
Y
(*) these are the distances to be respected for circuit-breakers fitted
with a flange for the compartment door or side conductor outlets.
The distances between centres are for the installation of fixed
and plug in circuit-breakers. When installing withdrawable
SACE S3, S4, S5, S6, S7 circuit-breakers you should also take
into account the dimensions of the metal supporting channel
that needs to be fitted between the guides of the fixed parts of
two adjacent circuit-breakers.
Minimum distance between centres for verticallyinstalled circuit-breakers
H [mm]
60
S2
90
S3
140
S4
140
S5
140
S6
180
S7
180
S8
300
ABB SACE
1
2
3
H
H
6
H
GSIS0040
S1
1
Connection not insulated
2
Insulated cable
3
Cable terminals
6/39
6/40
ABB SACE
Circuit-diagrams
Index
Operating status shown ................................................................................................. 6/42
Duty releases ..................................................................................................................... 6/44
Auxiliary contacts ............................................................................................................. 6/46
Position contacts ............................................................................................................. 6/48
Auxiliary circuits of electronic releases ........................................................................ 6/50
Motor operators ................................................................................................................ 6/53
Graphic symbols for circuit-diagrams (IEC 617 and CEI 3-14 … 3-26) ..................... 6/54
Key and reference notes ................................................................................................. 6/55
6
ABB SACE
6/41
Circuit diagrams
Operating status shown
The circuit is shown in the following conditions:
-
fixed, plug in or withdrawable circuit-breaker (depending
-
motor operator with springs loaded (for S6-S7 circuit-breakers)
on type of circuit-breaker), open and racked in
The circuit-breaker is only fitted with those accessories speci-
-
circuits de-energised
fied in the ABB SACE confirmation of order. Consult this cata-
-
releases not tripped
logue for information on how to make out an order.
SACE S1-S2-S3-S5-S6
SACE S3D-S6D-S7D-S8D
Three-pole or four-pole
switch-disconnector
GSIS0046
GSIS0045
Three-pole or four-pole circuit-breaker
with thermomagnetic release
SACE S1-S2-S3
Four-pole fixed circuit-breaker
with vertically-installed residual-current release
SACE RC211 o RC212
Four-pole fixed circuit-breaker with
horizontally-installed residual-current release
SACE RC210, RC211 o RC212
6/42
RC210
RC211
RC212
GSIS0048
RC211
RC212
GSIS0047
6
ABB SACE
SACE S4-S5-S6-S7
Three-pole or four-pole circuit-breaker
with SACE PR212/P
microprocessor-based release
Three-pole circuit-breaker
with SACE PR212/MP
GSIS0051
microprocessor-based release
GSIS0050
GSIS0049
Three-pole or four-pole circuit-breaker
with SACE PR211/P
microprocessor-based release
SACE S4-S5-S6-S7
Three-pole plug-in or withdrawable
circuit-breaker with current transformer on
neutral conductor outside circuit-breaker
Circuit of current
transformer on neutral
conductor outside circuitbreaker (for withdrawable
circuit-breaker)
External
circuit
Three-pole fixed circuit-breaker
with current transformer on neutral
conductor outside circuit-breaker
6
If using a fixed circuit-breaker with a current trans-
breaker, you must short-circuit the terminals of the TI/N
transformer when you want to remove the circuit-
Term.X5
breaker.
ABB SACE
6/43
GSIS0053
former on the neutral conductor outside the circuit-
External
circuit
N.B.
Internal
circuit
GSIS0052
Term.X5
Circuit diagrams
Duty releases
SACE S1-S2
Opening
solenoid of
SACE RC211
residualcurrent
release
Opening solenoid
of SACE RC212
residual-current
release
Instantaneous
undervoltage
release
Opening
release
Opening
solenoid of
SACE RC211
residualcurrent
release
Opening solenoid
of SACE RC212
residual-current
release
Instantaneous Version of instantaneous
undervoltage undervoltage release for
machine tools
release
External
circuit
Opening
release
Internal
circuit
Conn. X1
GSIS0054
External
circuit
Conn. X1
SACE S3
External
circuit
Undervoltage release with
electronic time-lag device
outside the circuit-breaker
Term. XV
Internal
circuit
6
6/44
GSIS0055
External
circuit
Term. XV
ABB SACE
Incompatibility
SACE S4-S5
The circuits indicated in the fol-
Opening
release
Instantaneous Version of instantaneous
undervoltage undervoltage release for
release
machine tools
Undervoltage release with
electronic time-lag device
outside the circuit-breaker
lowing figures cannot be powered
simultaneously on the same circuit-breaker
1 - 4 - 5 - 6
2 - 3
Availability
External
circuit
Connectors X1 and X2 are only
supplied to order for circuit-breakers S1 - S2.
Notes
(*A) The undervoltage release is
Conn. X1
powered from upstream of the circuit-breaker or by an independent
Term. XV
power supply: closing of the circuit-breaker is only allowed when
the release is energised (the clos-
Internal
circuit
ing lock is implemented mechanically).
(*B) Contact S4 shown in Fig. 5
opens the circuit when the circuitbreaker is open and closes it again
upon a manual closing command
from the rotary handle, in con-
Term. XV
formity with the Standards governing machine tools (the circuit-
Conn. X1
External
circuit
breaker will not close, however, if
the undervoltage release is not
GSIS0056
powered).
SACE S6-S7
Instantaneous
undervoltage
release
Undervoltage release with
electronic time-lag device
outside the circuit-breaker
External
circuit
Opening
release
Conn. X1
Term. XV
Internal
circuit
6
Term. XV
ABB SACE
GSIS0057
External
circuit
Conn. X1
6/45
Circuit diagrams
Auxiliary contacts
SACE S1-S2
One change-over contact for electrical signalling
of circuit-breaker open or closed and one changeover contact for electrical signalling of circuitbreaker open due to tripping of thermomagnetic
releases YO, YO1, YU (tripped position)
External
circuit
Two change-over
contacts for electrical
signalling of circuitbreaker open/closed
Internal
circuit
Conn. X2
GSIS0058
External
circuit
Conn. X2
SACE S3-S4-S5-S6-S7
One change-over contact for electrical signalling
of circuit-breaker open or closed and one changeover contact for electrical signalling of circuitbreaker open due to tripping of thermomagnetic
releases YO, YO1, YU (tripped position)
External
circuit
Two change-over
contacts for electrical
signalling of circuitbreaker open/closed
Conn. X2
Term. XV
Internal
circuit
6
Term. XV
6/46
GSIS0059
External
circuit
Conn. X2
ABB SACE
Incompatibility
SACE S6-S7
The circuits indicated in the fol-
One contact for electrical signalling of circuit-breaker open, one change-over
contact for electrical signalling of circuit-breaker closed and one contact for
electrical signalling of circuit-breaker not open due to tripping of thermomagnetic releases YO1, YO1, YU (not tripped/tripped position) to be used, for
example,
for the enabling shown in Fig.8
lowing figures cannot be powered
simultaneously
on
the
same
circuit-breaker:
11-12-13-14
External
circuit
Availability
Connectors X1 and X2 are only
supplied to order for circuit-breakers S1 - S2.
Notes
Conn. X2
(*C) The electrical signalling contact for the microprocessor-based
Term. XV
overcurrent release, shown in Fig.
41, has the following electrical
characteristics:
– rated voltage = 125V AC /
Internal
circuit
30V DC
– breaking capacity (resistive
load = 3 W/VA)
– maximum interrupted current =
0.5 A
Term. XV
GSIS0080
External
circuit
Conn. X2
SACE S4-S5-S6-S7
External
circuit
Contact for
signalling release
Y01 tripped
6
Internal
circuit
Term. X6
Term. X5
Term. X5
ABB SACE
GSIS0060
External
circuit
Term. X6
6/47
Circuit diagrams
Position contacts
SACE S2
Second circuitbreaker position
contact, for
electrical signalling
of inserted
Third circuitbreaker position
contact, for
electrical
signalling of
inserted
First circuitbreaker position
contact, for
electrical
signalling of
inserted
Second circuitbreaker position
contact, for
electrical signalling
of inserted
First circuit-breaker
position contact, for
electrical signalling of
racked out or removed
External
circuit
First circuitbreaker position
contact, for
electrical
signalling of
inserted
Internal
circuit
Term. XV
GSIS0061
External
circuit
Term. XV
External
circuit
SACE S3
Term. XV
Internal
circuit
6
6/48
GSIS0062
External
circuit
Term. XV
ABB SACE
SACE S4-S5
Second circuitbreaker position
contact, for
electrical
signalling of
inserted
Third circuitbreaker position
contact, for
electrical
signalling of
inserted
First circuit-breaker
position contact, for
electrical signalling of
racked out or
removed
Second circuitbreaker position
contact, for electrical
signalling of racked
out or removed
Third circuit-breaker
position contact, for
electrical signalling of
racked out or
removed
External
circuit
First circuitbreaker position
contact, for
electrical
signalling of
inserted
Internal
circuit
Term. XV
GSIS0063
External
circuit
Term. XV
SACE S6-S7
Incompatibility
The circuits
Fifth circuit-breaker position
contact, for electrical signalling of
racked out
Fourth circuit-breaker position
contact, for electrical signalling of
racked out
Third circuit-breaker position
contact, for electrical signalling of
racked out
Second circuit-breaker position
contact, for electrical signalling of
racked out
First circuit-breaker position
contact, for electrical signalling of
racked out
Fifth circuit-breaker position
contact, for electrical signalling of
inserted
Fourth circuit-breaker position
contact, for electrical signalling of
inserted
Third circuit-breaker position
contact, for electrical signalling of
inserted
Second circuit-breaker position
contact, for electrical signalling of
inserted
First circuit-breaker position
contact, for electrical signalling of
inserted
indicated in the
following figures
cannot be powered
simultaneously on
the same circuitbreaker:
20 - 21 - 31
22 - 32
23 - 33
24 - 34
25 - 35
Notes
(*D) The circuitbreaker can be
fitted with position
Term. XV
contacts S75I and
S75S in any
combination up to a
maximum of
Internal
circuit
– total of 2 contacts
for S3
– total of 3 contacts
for S4, S5
– total of 5 contacts
Term. XV
ABB SACE
GSIS0064
for S6, S7
6/49
6
Circuit diagrams
Auxiliary circuits of SACE PR212/P electronic releases
SACE PR212/P release connected to the dialogue unit SACE PR212/D and actuator unit SACE PR212/T
SACE S4-S5-S6-S7
SACE PR212/P release connected to the dialogue unit SACE PR212/D, signalling unit SACE PR010/K
and actuator unit SACE PR212/T
GSIS0161
SACE S4-S5-S6-S7
GSIS0162
6
6/50
ABB SACE
Circuit diagrams
Auxiliary circuits of SACE PR212/MP electronic releases
for motor protection
SACE PR212/MP release connected to the dialogue unit SACE PR212/D-L and actuator unit
SACE PR212/T
SACE S4-S5-S6-S7
SACE PR212/MP release connected to the dialogue unit SACE PR212/D-L, actuator unit
SACE PR212/T and contactor operator unit SACE PR212/CI
GSIS0164
SACE S4-S5-S6-S7
GSIS0163
6
ABB SACE
6/51
Circuit diagrams
Auxiliary circuits of SACE PR212/MP electronic releases
for motor protection
SACE PR212/MP release connected to the signalling unit SACE PR010/K and contactor operator unit
SACE PR212/CI
SACE S4-S5-S6-S7
SACE PR212/MP release connected to the dialogue unit SACE PR212/D-L, actuator unit
SACE PR212/T, signalling unit SACE PR010/K and contactor operator unit SACE PR212/CI
GSIS0165
GSSC0318
SACE S4-S5-S6-S7
6/52
GSIS0166
GSSC0319
6
ABB SACE
SACE PR212/MP release connected to the dialogue unit SACE PR212/D-L and actuator unit
SACE PR212/T
GSIS0167
SACE S4-S5-S6-S7
6
ABB SACE
6/53
Circuit diagrams
Motor operators
SACE S1-S2
SACE S3-S4-S5
External
circuit
External
circuit
Solenoid operator
Conn. X2
Conn. X2
Direct action motor operator
Internal
circuit
Internal
circuit
Term. XV
Term. XV
Conn. X2
GSIS0065
External
circuit
GSIS0081
External
circuit
Conn. X2
SACE S6-S7
External
circuit
Stored-energy motor operator
Conn. X2
6
Internal
circuit
Term. XV
Term. XV
6/54
GSIS0066
External
circuit
Conn. X2
ABB SACE
Circuit diagrams
Graphic symbols for circuit diagrams
(Standards IEC 617 and CEI 3-14...3-26)
ABB SACE
Thermal effect
Terminal or clamp
Make contact with
held position
Electromagnetic effect
Socket (female) or pole of a
socket
Make position contact
(limit contact)
Time delay
Socket and plug (female and
male)
Opening position contact (limit
contact)
Mechanical
connection
Temperature dependent
resistor
Change-over position contact
with temporary interruption (limit
contact)
Manual mechanical control
(general case)
Resistor (general symbol)
Switch-disconnector
Pushbutton actuator
Induction motor, threephase,
squirrel cage
Contactor (closing contact)
Key control
Motor (general symbol)
Circuit-breaker with automatic
release
Cam control
Brush
Control coil (general symbol)
Earth (general symbol)
Motor energised
in series
Instantaneous overcurrent
relay
Equipotentiality
Current transformer with primary
formed by 4 through conductors
and wound secondary, with
socket
Overcurrent relay with
adjustable short time-delay trip
Galvanically separated
converter
Current transformer
Overcurrent relay with short
inverse time-delay trip
Shielded cable conductors
(example: two conductors)
Make contact
Overcurrent relay with inverse
long time delay
Conductors or stranded cables
(example: two conductors)
Break contact
Earth fault overcurrent relay with
inverse short time-delay trip
Connection of conductors
Change-over contact with
temporary interruption
Residual current relay
6/55
6
Circuit diagrams
Key and notes
=
Figure number of diagram
Q
= Main switch
*
= See the note indicated by the letter
Q/0 ... 2
= Auxiliary contacts of the circuit-breaker
A1
= Applications of the circuit-breaker
R
= Resistor outside the circuit-breaker, supplied for motor
A2
= Applications of the motor operators
A4
= Example switchgear and connections for control and
S1
= For S3 - S4 - S5: position contact operated by a circuit-
A11
= PR212/D-L dialogue unit, for connection to a centralised
power supply voltages of more than 220 V
signalling, outside the circuit-breaker
breaker cam For S6 - S7: contact controlled by the
motor operator cam: closes when the circuit-breaker
control system
A12
reaches its closed position and opens when the circuit-
= PR212/T actuator unit, with auxiliary relays for execut-
breaker reaches its open position (doesn’t switch when
ing commands from the dialogue unit
A12/KC
= Actuator unit closing control
the circuit-breaker goes into its tripped position)
S2
= For S3 - S4 - S5: safety contact operated by:
A12/KO
= Actuator unit opening control
- key lock (if fitted)
A13
= PR010/K signalling unit with auxiliary relays for electrical
- padlock device
signalling of the protection functions of the microproc-
- manual control selector.
essor-based overcurrent release
For S6 - S7: contact controlled by the motor operator
A14
= Interface unit with SACE PR212/CI operator unit
cam: opens when the circuit-breaker reaches its closed
D
= Electronic time-lag device of undervoltage release (out-
position and closes when the circuit-breaker reaches
side the circuit-breaker)
K51
its open position (doesn’t switch when the circuit-breaker
= PR211, PR212/P or PR212/MP microprocessor-based
overcurrent release
goes into its tripped position).The contact is also oper-
with the following protection func-
tions:
ated by the key lock device (if present)
S3
= Contact controlled by the motor operator cam: opens
- L overload protection with inverse long time-delay trip
after contact KO has closed and closes when the cir-
- S short-circuit protection with inverse or definite short
cuit-breaker reaches its open position (doesn’t switch
time-delay trip (only available with PR212/P release)
when the circuit-breaker goes into its tripped position)
- I short-circuit protection with instantaneous trip
S4
- G earth fault protection with inverse short time-delay
S75I/1...5 =
trip (only available with PR212/P release)
K51/X
K51/X
cuit-breakers)
S75S/1...5 = Contacts for electrical signalling of circuit-breaker in
= Electrical signalling of alarm for protection function G in
removed or racked-out position (only for plug in or with-
tripping zone
K51/X
= Electrical signalling of alarm for protection function I in
K51/X
= Electrical signalling of alarm for protection function L in
drawable circuit-breakers)
SC
tripping zone
= Electrical signalling for protection function L in pre-alarm
K51/X
= Electrical signalling of alarm for protection function S in
K51/X
= Electrical signalling of alarm for release YO1 tripped
operating mechanism must have a time of not less than
100ms
SO
zone
or for motor stop
For circuit-breakers S3 - S4 - S5, the operating mechanism must have a time of not less than 100 ms (see
due to overcurrent or ‘trip test’ (Fig. 41)
6
KO
“Instructions for resetting the circuit-breaker after the
= RC211-RC212 residual-current release (for circuitbreakers S1-S2-S3) or RC210 (for circuit-breaker S1)
releases have tripped”)
SY
= For S3 - S4 - S5: auxiliary opening relay.
= Contact for electrical signalling of circuit-breaker open
due to tripping of thermomagnetic releases, YO, YO1,
For S6 - S7: opening and spring-loading relay with held-
M
= Pushbutton or contact for opening the circuit-breaker
SO1, S02 = Pushbuttons or contacts for opening the circuit-breaker.
tripping zone
K87
= Pushbutton or contact for closing the circuit-breaker or
for motor start. For circuit-breakers S3 - S4 - S5, the
tripping zone
K51/X
Contacts for electrical signalling of circuit-breaker in
inserted position (only for plug in or withdrawable cir-
= Electrical signalling of alarm for internal communication
fault
= Contact operated by the circuit-breaker rotary handle
YU (tripped position)
position make contact, released by a cam of the motor
TI
= Toroidal current transformer
operator when the circuit-breaker reaches its open po-
TI/L1
= Current transformer located on phase L1
sition and the closing springs have been loaded
TI/L2
= Current transformer located on phase L2
TI/L3
= Current transformer located on phase L3
TI/N
= Current transformer located on neutral
= For S3 - S4 - S5: motor with energising in series for
opening and closing of the circuit-breaker. For S6 - S7:
motor for opening the circuit-breaker and loading the
closing springs of the circuit-breaker
M1
6/56
= Three-phase asinchronous motor
ABB SACE
Circuit diagrams
Graphic symbols for circuit diagrams
(Standards IEC 617 and CEI 3-14...3-26)
W1
= Serial interface with monitoring system (EIA RS485 interface)
X1, X2
The electrical opening control (contact SO2) is connected in se-
= Connectors for the auxiliary circuits of the circuit-breaker.
For circuit-breakers S1 - S2 supplied to order only.
X3, X4
= Connectors for the circuits of the microprocessor-based
overcurrent release (with plug in or withdrawable circuit-breakers, the connectors are pulled out at the same
time as the circuit-breaker)
X5, X6
3) Electrical resetting always enabled
= Terminal deliver y block for microprocessor-based
overcurrent release circuits
XO
= Connector for the opening solenoid YO1
XV
= Terminal blocks for accessories
YC
= Closing release
YO
= Opening release
YO1
= Opening solenoid of the RC211 or RC212 residual cur-
ries directly to relay KO for S3 - S4 - S5 or connected directly to
pole A3 of connector X2 (for S6 - S7) and is therefore always
enabled.
Example of use: automatic resetting of the circuit-breaker immediately after the releases have been tripped
N.B. If an overcurrent release is fitted, it will be necessary to
identify the causes that brought it to its tripped position in order
to prevent it from closing again in short-circuit conditions.
Manual resetting is always allowed in each of these examples.
rent release (for S1 - S2 - S3) and of the overcurrent
release (for S4 ... S8)
= Undervoltage release
Instructions for resetting the circuit-breaker after the releases
have tripped
The circuit-breaker can open both through the action of the motor
operator and due to the following releases tripping:
External
circuit
YU
– overcurrent
– undervoltage
– opening
Conn.X1
with consequent opening of contact SY (if fitted) in series with relay
Term.XV
KO.
A reset operation involving manual or electric opening will have to be
Contact SY closes again at the end of the operation. The type of
resetting should be chosen to suit the design requirements and duty
Internal
circuit
carried out in order to close the circuit-breaker again after tripping.
conditions. A number of possible solutions are suggested below:
1) Manual resetting only
GSIS0067
Term.XV
(contact SO1) must be connected
in series with contact SY. Opening (for S3 - S4 - S5 using the
auxiliary relay KO) is therefore prevented until the circuit-breaker
is in its tripped position. To reset the circuit-breaker one needs to
operate the related lever until the circuit-breaker is in its open
Conn.X1
External
circuit
The electrical opening control
position and the closing springs are fully loaded.
6
2) Electrical resetting, responsibility of the operator
The normal electric opening control (contact SO1) must be connected in series with contact SY.
Another opening control is provided (contact SO2), connected
in series directly to relay KO for S3 - S4 - S5 or connected directly
to pole A3 of connector X2 for S6 - S7.
This control must be protected by, for example, a pushbutton
keyswitch. It should only be used if the information relayed to the
control station manager allows one to rule out the possibility of the
tripping having been caused by a short circuit, or if the causes of
the short circuit have been removed.
ABB SACE
6/57
6/58
ABB SACE
Order codes
Index
General information .......................................................................................................... 7/2
Circuit-breakers for power distribution
SACE Isomax S1 ...................................................................................................
SACE Isomax S2 ...................................................................................................
SACE Isomax S3 ...................................................................................................
SACE Isomax S4 ...................................................................................................
SACE Isomax S5 ...................................................................................................
SACE Isomax S6 ...................................................................................................
SACE Isomax S7 ...................................................................................................
SACE Isomax S8 ...................................................................................................
7/3
7/6
7/13
7/26
7/32
7/41
7/47
7/51
Current-limiting circuit-breakers
SACE Isomax S2X 100 .........................................................................................
SACE Isomax S3X .................................................................................................
SACE Isomax S4X .................................................................................................
SACE Isomax S6X .................................................................................................
7/52
7/53
7/56
7/58
Circuit-breakers for motor protection
SACE Isomax S2X 80 ...........................................................................................
SACE Isomax S3 ...................................................................................................
SACE Isomax S4 ...................................................................................................
SACE Isomax S5 ...................................................................................................
SACE Isomax S6 ...................................................................................................
SACE Isomax S7 ...................................................................................................
SACE Isomax S3X-S4X-S6X ................................................................................
7/60
7/61
7/62
7/63
7/63
7/63
7/64
Circuit-breakers for applications up to 1000 V .............................................................. 7/65
Switch-disconnectors
SACE Isomax S2D
SACE Isomax S3D
SACE Isomax S6D
SACE Isomax S7D
SACE Isomax S8D
................................................................................................
................................................................................................
................................................................................................
................................................................................................
................................................................................................
7/67
7/68
7/70
7/71
7/72
Accessories ....................................................................................................................... 7/73
7
ABB SACE
7/1
Order codes
General information
Interpretation of abbreviations used for article description
Im
F = Front
terminals
FC Cu = Front
terminals for
copper cables
RC = Rear
terminals for
cables
EF = Extended
front terminals
FC CuAl = Front
terminals for
copper /
aluminium cables
VR = Vertical
flat-bar rear
terminals
ES = Spreaded
extended front
terminals
R = Threaded
rear terminals
HR = Horizontal
flat-bar rear
terminals
Magnetic
trip current
PR211
P
Microprocessorbased electronic
release SACE
PR211/P (functions I
- LI)
PR212
P
Microprocessorbased electronic
release SACE
PR212/P (functions
LSI - LSIG)
Im = 3 Ith
Im = 5 Ith
Im = 10 Ith
Im = 5...10
Ith
PR212
MP
Microprocessorbased electronic
release for motor
protection SACE
PR212/MP
(functions LRIU)
DC –
Direct current
circuit-breakers for
applications up to
1000V
AC ~
Alternate current
circuit-breakers for
applications up to
1000V
Iu
Rated uninterrupted
current of the circuitbreaker
In
Rated current of
electronic release
Ith
Rated current of
thermomagnetic
release
Icw
Rated short-time
withstand current
Icu
Rated ultimate
short-circuit
breaking capacity
Icm
Rated duty shortcircuit making
capacity (peak
value)
7
7/2
ABB SACE
Order codes
SACE Isomax S1 circuit-breaker
F = FIXED
S1B 125
Iu (40 °C) =
PSIS9601
Thermomagnetic
release
FC Cu = Front terminals
for copper cables
S1B 125 F FC Cu
R 10
S1B 125 F FC Cu
R 12.5
S1B 125 F FC Cu
R 16
S1B 125 F FC Cu
R 20
S1B 125 F FC Cu
R 25
S1B 125 F FC Cu
R 32
S1B 125 F FC Cu
R 40
S1B 125 F FC Cu
R 50
S1B 125 F FC Cu
R 63
S1B 125 F FC Cu
R 80
S1B 125 F FC Cu
R 100
S1B 125 F FC Cu
R 125
R = Terminali posteriori filettati
S1B 125 F R
R 10
S1B 125 F R
R 12.5
S1B 125 F R
R 16
S1B 125 F R
R 20
S1B 125 F R
R 25
S1B 125 F R
R 32
S1B 125 F R
R 40
S1B 125 F R
R 50
S1B 125 F R
R 63
S1B 125 F R
R 80
S1B 125 F R
R 100
S1B 125 F R
R 125
125 A
Im = 5 Ith
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
16 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
160A
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
23645
23647
23649
23651
23653
23655
23657
23659
23661
23663
23665
23667
24245
24247
24249
24251
24253
24255
24257
24259
24261
24263
24265
24267
500A
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
00002
00004
00006
00008
00010
00012
00014
00016
00018
00020
00022
00024
00052
00054
00056
00058
00060
00062
00064
00066
00068
00070
00072
00074
160A
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
23765
23767
23769
23771
23773
23775
23777
23779
23781
23783
23785
23787
23885
23887
23889
23891
23893
23895
23897
23899
23901
23903
23905
23907
500A
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
00027
00029
00031
00033
00035
00037
00039
00041
00043
00045
00047
00049
00077
00079
00081
00083
00085
00087
00089
00091
00093
00095
00097
00099
7
ABB SACE
7/3
Order codes
SACE Isomax S1 circuit-breaker
F = FIXED
S1N 125
Iu (40 °C) =
PSIS9601
Thermomagnetic
release
FC Cu = Front terminals
for copper cables
S1N 125 F FC Cu
R 10
S1N 125 F FC Cu
R 12.5
S1N 125 F FC Cu
R 16
S1N 125 F FC Cu
R 20
S1N 125 F FC Cu
R 25
S1N 125 F FC Cu
R 32
S1N 125 F FC Cu
R 40
S1N 125 F FC Cu
R 50
S1N 125 F FC Cu
R 63
S1N 125 F FC Cu
R 80
S1N 125 F FC Cu
R 100
S1N 125 F FC Cu
R 125
R = Threaded rear terminals
S1N 125 F R
R 10
S1N 125 F R
R 12.5
S1N 125 F R
R 16
S1N 125 F R
R 20
S1N 125 F R
R 25
S1N 125 F R
R 32
S1N 125 F R
R 40
S1N 125 F R
R 50
S1N 125 F R
R 63
S1N 125 F R
R 80
S1N 125 F R
R 100
S1N 125 F R
R 125
Magnetic
release
FC Cu = Front terminals
for copper cables
S1N 125 F FC Cu
In 16A
S1N 125 F FC Cu
In 40A
S1N 125 F FC Cu
In 50A
S1N 125 F FC Cu
In 63A
S1N 125 F FC Cu
In 80A
S1N 125 F FC Cu
In 100A
S1N 125 F FC Cu
In 125A
R = Threaded rear terminals
S1N 125 F R
In 16A
S1N 125 F R
In 40A
S1N 125 F R
In 50A
S1N 125 F R
In 63A
S1N 125 F R
In 80A
S1N 125 F R
In 100A
S1N 125 F R
In 125A
Im = 5 Ith
FC Cu = Front terminals
for copper cables
S1N 125 F FC Cu
R 63A
S1N 125 F FC Cu
R 80A
S1N 125 F FC Cu
R 100A
S1N 125 F FC Cu
R 125A
R = Threaded rear terminals
S1N 125 F R
R 63A
S1N 125 F R
R 80A
S1N 125 F R
R 100A
S1N 125 F R
R 125A
7
7/4
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
25 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
160A
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
23669
23671
23673
23675
23677
23679
23681
23683
23685
23687
23689
23691
24269
24271
24273
24275
24277
24279
24281
24283
24285
24287
24289
24291
500A
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
00152
00154
00156
00158
00160
00162
00164
00166
00168
00170
00172
00174
00202
00204
00206
00208
00210
00212
00214
00216
00218
00220
00222
00224
160A
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
23789
23791
23793
23795
23797
23799
23801
23803
23805
23807
23809
23811
23909
23911
23913
23915
23917
23919
23921
23923
23925
23927
23929
23931
500A
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
00177
00179
00181
00183
00185
00187
00189
00191
00193
00195
00197
00199
00227
00229
00231
00233
00235
00237
00239
00241
00243
00245
00247
00249
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
160A
200A
250A
320A
400A
33676
33684
33686
33688
33690
33772
33780
33782
33784
33786
160A
200A
250A
320A
400A
33724
33732
33734
33736
33738
33820
33828
33830
33832
33834
S1N 125 Curva D
Thermomagnetic
release
125 A
Iu (40 °C) =
125 A
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
630A
800A
1000A
1250A
33662
33664
33666
33668
33670
33758
33760
33762
33764
33766
500A
630A
800A
1000A
1250A
33710
33712
33714
33716
33718
33806
33808
33810
33812
33814
Icu (415 V) =
Im = 10 Ith
25 kA
code 1SDA0 . . . . . R1
4 poles
1250A
1250A
1400A
1500A
45084
45087
45089
45091
1250A
1250A
1400A
1500A
45093
45095
45097
45099
ABB SACE
Order codes
SACE Isomax S1 circuit-breaker
Moving part
S1B 125
Iu (40 °C) = 125 A
PSIS9601
P = PLUG-IN
Thermomagnetic
release
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
S1B 125 P MP
Im = 5 Ith
R 10
R 12.5
R 16
R 20
R 25
R 32
R 40
R 50
R 63
R 80
R 100
R 125
S1N 125
Iu (40 °C) =
Thermomagnetic
release
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
R 10
R 12.5
R 16
R 20
R 25
R 32
R 40
R 50
R 63
R 80
R 100
R 125
160A
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
Im = 5 Ith
In
In
In
In
In
In
In
16A
40A
50A
63A
80A
100A
125A
160A
200A
250A
320A
400A
S1N 125 Curva D
Thermomagnetic
release
FC Cu = Front terminals
for copper cables
S1N 125 P MP
R 63A
S1N 125 P MP
R 80A
S1N 125 P MP
R 100A
S1N 125 P MP
R 125A
code 1SDA0 . . . . . R1
3 poles
4 poles
24005
24007
24009
24011
24013
24015
24017
24019
24021
24023
24025
24027
125 A
Im = 5 Ith
Magnetic
release
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
S1N 125 P MP
160A
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
Icu (415 V) =
24125
24127
24129
24131
24133
24135
24137
24139
24141
24143
24145
24147
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
24029
24031
24033
24035
24037
24039
24041
24043
24045
24047
24049
24051
24149
24151
24153
24155
24157
24159
24161
24163
24165
24167
24169
24171
code 1SDA0 . . . . . R1
3 poles
4 poles
33964
33972
33974
33976
33978
Iu (40 °C) =
34012
34020
34022
34024
34026
125 A
16 kA
Im = 10 Ith
500A
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
code 1SDA0 . . . . . R1
3 poles
4 poles
00102
00104
00106
00108
00110
00112
00114
00116
00118
00120
00122
00124
00127
00129
00131
00133
00135
00137
00139
00141
00143
00145
00147
00149
25 kA
Im = 10 Ith
500A
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
Im = 10 Ith
500A
630A
800A
1000A
1250A
code 1SDA0 . . . . . R1
3 poles
4 poles
00252
00254
00256
00258
00260
00262
00264
00266
00268
00270
00272
00274
code 1SDA0 . . . . . R1
3 poles
4 poles
33950
33952
33954
33956
33958
Icu (415 V) =
Im = 10 Ith
1250A
1250A
1400A
1500A
00277
00279
00281
00283
00285
00287
00289
00291
00293
00295
00297
00299
33998
34000
34002
34004
34006
25 kA
code 1SDA0 . . . . . R1
4 poles
45101
45103
45105
45107
7
ABB SACE
7/5
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
S2B 160
Iu (40 °C) =
PSIS9604
Thermomagnetic
release
EF = Extended front
terminals
S2B 160 F EF
R 12.5
S2B 160 F EF
R 16
S2B 160 F EF
R 20
S2B 160 F EF
R 25
S2B 160 F EF
R 32
S2B 160 F EF
R 40
S2B 160 F EF
R 50
S2B 160 F EF
R 63
S2B 160 F EF
R 80
S2B 160 F EF
R 100
S2B 160 F EF
R 125
S2B 160 F EF
R 160
FC Cu = Front terminals
for copper cables
S2B 160 F FC Cu
R 12.5
S2B 160 F FC Cu
R 16
S2B 160 F FC Cu
R 20
S2B 160 F FC Cu
R 25
S2B 160 F FC Cu
R 32
S2B 160 F FC Cu
R 40
S2B 160 F FC Cu
R 50
S2B 160 F FC Cu
R 63
S2B 160 F FC Cu
R 80
S2B 160 F FC Cu
R 100
S2B 160 F FC Cu
R 125
S2B 160 F FC Cu
R 160
FC CuAl = Front terminals
for copper/aluminium cables
S2B 160 F FC CuAl* R 12.5
S2B 160 F FC CuAl* R 16
S2B 160 F FC CuAl* R 20
S2B 160 F FC CuAl* R 25
S2B 160 F FC CuAl* R 32
S2B 160 F FC CuAl* R 40
S2B 160 F FC CuAl* R 50
S2B 160 F FC CuAl* R 63
S2B 160 F FC CuAl* R 80
S2B 160 F FC CuAl* R 100
S2B 160 F FC CuAl* R 125
S2B 160 F FC CuAl* R 160
S2B 160 F FC CuAl** R 12.5
S2B 160 F FC CuAl** R 16
S2B 160 F FC CuAl** R 20
S2B 160 F FC CuAl** R 25
S2B 160 F FC CuAl** R 32
S2B 160 F FC CuAl** R 40
S2B 160 F FC CuAl** R 50
S2B 160 F FC CuAl** R 63
S2B 160 F FC CuAl** R 80
S2B 160 F FC CuAl** R 100
S2B 160 F FC CuAl** R 125
S2B 160 F FC CuAl** R 160
R = Threaded rear terminals
S2B 160 F R
R 12.5
S2B 160 F R
R 16
S2B 160 F R
R 20
S2B 160 F R
R 25
S2B 160 F R
R 32
S2B 160 F R
R 40
S2B 160 F R
R 50
S2B 160 F R
R 63
S2B 160 F R
R 80
S2B 160 F R
R 100
S2B 160 F R
R 125
S2B 160 F R
R 160
7
160 A
Im = 5 Ith
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
16 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
34056
34058
34060
34062
34064
34066
34068
34070
34072
34074
34076
34078
34440
34442
34444
34446
34448
34450
34452
34454
34456
34458
34460
34462
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
34032
34034
34036
34038
34040
34042
34044
34046
34048
34050
34052
34054
34416
34418
34420
34422
34424
34426
34428
34430
34432
34434
34436
34438
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
23693
23695
23697
23699
23701
23703
23705
23707
23709
23711
23713
23715
24293
24295
24297
24299
24301
24303
24305
24307
24309
24311
24313
24315
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
00302
00304
00306
00308
00310
00312
00314
00316
00318
00320
00322
00324
00352
00354
00356
00358
00360
00362
00364
00366
00368
00370
00372
00374
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
34200
34202
34204
34206
34208
34210
34212
34214
34216
34218
34220
34222
34584
34586
34588
34590
34592
34594
34596
34598
34600
34602
34604
34606
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
34176
34178
34180
34182
34184
34186
34188
34190
34192
34194
34196
34198
34560
34562
34564
34566
34568
34570
34572
34574
34576
34578
34580
34582
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
34296
34298
34300
34302
34304
34306
34308
34310
34312
34314
34316
34318
34680
34682
34684
34686
34688
34690
34692
34694
34696
34698
34700
34702
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
34272
34274
34276
34278
34280
34282
34284
34286
34288
34290
34292
34294
34656
34658
34660
34662
34664
34666
34668
34670
34672
34674
34676
34678
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
23813
23815
23817
23819
23821
23823
23825
23827
23829
23831
23833
23835
23933
23935
23937
23939
23941
23943
23945
23947
23949
23951
23953
23955
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
00327
00329
00331
00333
00335
00337
00339
00341
00343
00345
00347
00349
00377
00379
00381
00383
00385
00387
00389
00391
00393
00395
00397
00399
* Cable section = 1 x 2.5...50 mm2
** Cable section = 1 x 35...95 mm2
7/6
ABB SACE
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
S2N 160
Iu (40 °C) =
PSIS9604
Thermomagnetic
release
EF = Extended front
terminals
S2N 160 F EF
R 12.5
S2N 160 F EF
R 16
S2N 160 F EF
R 20
S2N 160 F EF
R 25
S2N 160 F EF
R 32
S2N 160 F EF
R 40
S2N 160 F EF
R 50
S2N 160 F EF
R 63
S2N 160 F EF
R 80
S2N 160 F EF
R 100
S2N 160 F EF
R 125
S2N 160 F EF
R 160
FC Cu = Front terminals
for copper cables
S2N 160 F FC Cu
R 12.5
S2N 160 F FC Cu
R 16
S2N 160 F FC Cu
R 20
S2N 160 F FC Cu
R 25
S2N 160 F FC Cu
R 32
S2N 160 F FC Cu
R 40
S2N 160 F FC Cu
R 50
S2N 160 F FC Cu
R 63
S2N 160 F FC Cu
R 80
S2N 160 F FC Cu
R 100
S2N 160 F FC Cu
R 125
S2N 160 F FC Cu
R 160
FC CuAl = Front terminals
for copper/aluminium cables
S2N 160 F FC CuAl* R 12.5
S2N 160 F FC CuAl* R 16
S2N 160 F FC CuAl* R 20
S2N 160 F FC CuAl* R 25
S2N 160 F FC CuAl* R 32
S2N 160 F FC CuAl* R 40
S2N 160 F FC CuAl* R 50
S2N 160 F FC CuAl* R 63
S2N 160 F FC CuAl* R 80
S2N 160 F FC CuAl* R 100
S2N 160 F FC CuAl* R 125
S2N 160 F FC CuAl* R 160
S2N 160 F FC CuAl** R 12.5
S2N 160 F FC CuAl** R 16
S2N 160 F FC CuAl** R 20
S2N 160 F FC CuAl** R 25
S2N 160 F FC CuAl** R 32
S2N 160 F FC CuAl** R 40
S2N 160 F FC CuAl** R 50
S2N 160 F FC CuAl** R 63
S2N 160 F FC CuAl** R 80
S2N 160 F FC CuAl** R 100
S2N 160 F FC CuAl** R 125
S2N 160 F FC CuAl** R 160
R = Threaded rear terminals
S2N 160 F R
R 12.5
S2N 160 F R
R 16
S2N 160 F R
R 20
S2N 160 F R
R 25
S2N 160 F R
R 32
S2N 160 F R
R 40
S2N 160 F R
R 50
S2N 160 F R
R 63
S2N 160 F R
R 80
S2N 160 F R
R 100
S2N 160 F R
R 125
S2N 160 F R
R 160
160 A
Im = 5 Ith
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
35 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
34826
34828
34830
34832
34834
34836
34838
34840
34842
34844
34846
34848
35210
35212
35214
35216
35218
35220
35222
35224
35226
35228
35230
35232
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
34802
34804
34806
34808
34810
34812
34814
34816
34818
34820
34822
34824
35186
35188
35190
35192
35194
35196
35198
35200
35202
35204
35206
35208
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
23717
23719
23721
23723
23725
23727
23729
23731
23733
23735
23737
23739
24317
24319
24321
24323
24325
24327
24329
24331
24333
24335
24337
24339
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
00452
00454
00456
00458
00460
00462
00464
00466
00468
00470
00472
00474
00502
00504
00506
00508
00510
00512
00514
00516
00518
00520
00522
00524
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
34970
34972
34974
34976
34978
34980
34982
34984
34986
34988
34990
34992
35354
35356
35358
35360
35362
35364
35366
35368
35370
35372
35374
35376
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
34946
34948
34950
34952
34954
34956
34958
34960
34962
34964
34966
34968
35330
35332
35334
35336
35338
35340
35342
35344
35346
35348
35350
35352
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
35066
35068
35070
35072
35074
35076
35078
35080
35082
35084
35086
35088
35450
35452
35454
35456
35458
35460
35462
35464
35466
35468
35470
35472
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
35042
35044
35046
35048
35050
35052
35054
35056
35058
35060
35062
35064
35426
35428
35430
35432
35434
35436
35438
35440
35442
35444
35446
35448
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
23837
23839
23841
23843
23845
23847
23849
23851
23853
23855
23857
23859
23957
23959
23961
23963
23965
23967
23969
23971
23973
23975
23977
23979
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
00477
00479
00481
00483
00485
00487
00489
00491
00493
00495
00497
00499
00527
00529
00531
00533
00535
00537
00539
00541
00543
00545
00547
00549
7
* Cable section = 1 x 2.5...50 mm2
** Cable section = 1 x 35...95 mm2
ABB SACE
7/7
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
PSIS9604
Thermomagnetic
release
EF = Extended front
terminals
S2N 160 F EF
In 16A
S2N 160 F EF
In 40A
S2N 160 F EF
In 50A
S2N 160 F EF
In 63A
S2N 160 F EF
In 80A
S2N 160 F EF
In 100A
S2N 160 F EF
In 125A
S2N 160 F EF
In 160A
FC Cu = Front terminals
for copper cables
S2N 160 F FC Cu
In 16A
S2N 160 F FC Cu
In 40A
S2N 160 F FC Cu
In 50A
S2N 160 F FC Cu
In 63A
S2N 160 F FC Cu
In 80A
S2N 160 F FC Cu
In 100A
S2N 160 F FC Cu
In 125A
S2N 160 F FC Cu
In 160A
FC CuAl = Front terminals
for copper/aluminium cables
S2N 160 F FC CuAl* In 16A
S2N 160 F FC CuAl* In 40A
S2N 160 F FC CuAl* In 50A
S2N 160 F FC CuAl* In 63A
S2N 160 F FC CuAl* In 80A
S2N 160 F FC CuAl* In 100A
S2N 160 F FC CuAl* In 125A
S2N 160 F FC CuAl* In 160A
S2N 160 F FC CuAl** In 16A
S2N 160 F FC CuAl** In 40A
S2N 160 F FC CuAl** In 50A
S2N 160 F FC CuAl** In 63A
S2N 160 F FC CuAl** In 80A
S2N 160 F FC CuAl** In 100A
S2N 160 F FC CuAl** In 125A
S2N 160 F FC CuAl** In 160A
R = Threaded rear terminals
S2N 160 F R
In 16A
S2N 160 F R
In 40A
S2N 160 F R
In 50A
S2N 160 F R
In 63A
S2N 160 F R
In 80A
S2N 160 F R
In 100A
S2N 160 F R
In 125A
S2N 160 F R
In 160A
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
160A
200A
250A
320A
400A
34876
34884
34886
34888
34890
35260
35268
35270
35272
35274
160A
200A
250A
320A
400A
34924
34932
34934
34936
34938
35308
35316
35318
35320
35322
160A
200A
250A
320A
400A
35020
35028
35030
35032
35034
35404
35412
35414
35416
35418
160A
200A
250A
320A
400A
35116
35124
35126
35128
35130
35500
35508
35510
35512
35514
160A
200A
250A
320A
400A
35164
35172
35174
35176
35178
35548
35556
35558
35560
35562
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
630A
800A
1000A
1250A
1600A
34862
34864
34866
34868
34870
34872
35246
35248
35250
35252
35254
35256
500A
630A
800A
1000A
1250A
1600A
34910
34912
34914
34916
34918
34920
35294
35296
35298
35300
35302
35304
500A
630A
800A
1000A
1250A
1600A
35006
35008
35010
35012
35014
35016
35390
35392
35394
35396
35398
35400
500A
630A
800A
1000A
1250A
1600A
35102
35104
35106
35108
35110
35112
35486
35488
35490
35492
35494
35496
500A
630A
800A
1000A
1250A
1600A
35150
35152
35154
35156
35158
35160
35534
35536
35538
35540
35542
35544
* Cable section = 1 x 2.5...50 mm2
** Cable section = 1 x 35...95 mm2
7
7/8
ABB SACE
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
S2S 160
Iu (40 °C) =
PSIS9604
Thermomagnetic
release
EF = Extended front
terminals
S2S 160 F EF
R 12.5
S2S 160 F EF
R 16
S2S 160 F EF
R 20
S2S 160 F EF
R 25
S2S 160 F EF
R 32
S2S 160 F EF
R 40
S2S 160 F EF
R 50
S2S 160 F EF
R 63
S2S 160 F EF
R 80
S2S 160 F EF
R 100
S2S 160 F EF
R 125
S2S 160 F EF
R 160
FC Cu = Front terminals
for copper cables
S2S 160 F FC Cu
R 12.5
S2S 160 F FC Cu
R 16
S2S 160 F FC Cu
R 20
S2S 160 F FC Cu
R 25
S2S 160 F FC Cu
R 32
S2S 160 F FC Cu
R 40
S2S 160 F FC Cu
R 50
S2S 160 F FC Cu
R 63
S2S 160 F FC Cu
R 80
S2S 160 F FC Cu
R 100
S2S 160 F FC Cu
R 125
S2S 160 F FC Cu
R 160
FC CuAl = Front terminals
for copper/aluminium cables
S2S 160 F FC CuAl* R 12.5
S2S 160 F FC CuAl* R 16
S2S 160 F FC CuAl* R 20
S2S 160 F FC CuAl* R 25
S2S 160 F FC CuAl* R 32
S2S 160 F FC CuAl* R 40
S2S 160 F FC CuAl* R 50
S2S 160 F FC CuAl* R 63
S2S 160 F FC CuAl* R 80
S2S 160 F FC CuAl* R 100
S2S 160 F FC CuAl* R 125
S2S 160 F FC CuAl* R 160
S2S 160 F FC CuAl** R 12.5
S2S 160 F FC CuAl** R 16
S2S 160 F FC CuAl** R 20
S2S 160 F FC CuAl** R 25
S2S 160 F FC CuAl** R 32
S2S 160 F FC CuAl** R 40
S2S 160 F FC CuAl** R 50
S2S 160 F FC CuAl** R 63
S2S 160 F FC CuAl** R 80
S2S 160 F FC CuAl** R 100
S2S 160 F FC CuAl** R 125
S2S 160 F FC CuAl** R 160
R = Threaded rear terminals
S2S 160 F R
R 12.5
S2S 160 F R
R 16
S2S 160 F R
R 20
S2S 160 F R
R 25
S2S 160 F R
R 32
S2S 160 F R
R 40
S2S 160 F R
R 50
S2S 160 F R
R 63
S2S 160 F R
R 80
S2S 160 F R
R 100
S2S 160 F R
R 125
S2S 160 F R
R 160
160 A
Icu (415 V) =
50 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
35570
35572
35574
35576
35578
35580
35582
35584
35586
35588
35590
35592
35762
35764
35766
35768
35770
35772
35774
35776
35778
35780
35782
35784
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
00602
00604
00606
00608
00610
00612
00614
00616
00618
00620
00622
00624
00652
00654
00656
00658
00660
00662
00664
00666
00668
00670
00672
00674
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
36197
36199
36201
36203
36205
36207
36209
36211
36213
36215
36217
36219
35834
35836
35838
35840
35842
35844
35846
35848
35850
35852
35854
35856
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
36221
36223
36225
36227
36229
36231
36233
36235
36237
36239
36241
36243
35882
35884
35886
35888
35890
35892
35894
35896
35898
35900
35902
35904
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
00627
00629
00631
00633
00635
00637
00639
00641
00643
00645
00647
00649
00677
00679
00681
00683
00685
00687
00689
00691
00693
00695
00697
00699
7
* Cable section = 1 x 2.5...50 mm2
** Cable section = 1 x 35...95 mm2
ABB SACE
7/9
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
PSIS9604
Magnetic
release
EF = Extended front
terminals
S2S 160 F EF
In 50A
S2S 160 F EF
In 63A
S2S 160 F EF
In 80A
S2S 160 F EF
In 100A
S2S 160 F EF
In 125A
S2S 160 F EF
In 160A
FC Cu = Front terminals
for copper cables
S2S 160 F FC Cu
In 50A
S2S 160 F FC Cu
In 63A
S2S 160 F FC Cu
In 80A
S2S 160 F FC Cu
In 100A
S2S 160 F FC Cu
In 125A
S2S 160 F FC Cu
In 160A
FC CuAl = Front terminals
for copper/aluminium cables
S2S 160 F FC CuAl* In 50A
S2S 160 F FC CuAl* In 63A
S2S 160 F FC CuAl* In 80A
S2S 160 F FC CuAl* In 100A
S2S 160 F FC CuAl* In 125A
S2S 160 F FC CuAl* In 160A
S2S 160 F FC CuAl** In 50A
S2S 160 F FC CuAl** In 63A
S2S 160 F FC CuAl** In 80A
S2S 160 F FC CuAl** In 100A
S2S 160 F FC CuAl** In 125A
S2S 160 F FC CuAl** In 160A
R = Threaded rear terminals
S2S 160 F R
In 50A
S2S 160 F R
In 63A
S2S 160 F R
In 80A
S2S 160 F R
In 100A
S2S 160 F R
In 125A
S2S 160 F R
In 160A
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
630A
800A
1000A
1250A
1600A
35631
35633
35635
35636
35638
35640
35798
35800
35802
35804
35806
35808
500A
630A
800A
1000A
1250A
1600A
35678
35680
35682
35684
35686
35688
35822
35824
35826
35828
35830
35832
500A
630A
800A
1000A
1250A
1600A
35702
35704
35706
35708
35710
35712
35870
35872
35874
35876
35878
35880
500A
630A
800A
1000A
1250A
1600A
35726
35728
35730
35732
35734
35736
35918
35920
35922
35924
35926
35928
500A
630A
800A
1000A
1250A
1600A
35750
35752
35754
35756
35758
35760
35942
35944
35946
35948
35950
35952
* Cable section = 1 x 2.5...50 mm2
** Cable section = 1 x 35...95 mm2
7
7/10
ABB SACE
Order codes
SACE Isomax S2 circuit-breaker
Moving part
S2B 160
Iu (40 °C) = 160 A
PSIS9604
P = PLUG-IN
Thermomagnetic
release
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
S2B 160 P MP
Im = 5 Ith
R 12.5
R 16
R 20
R 25
R 32
R 40
R 50
R 63
R 80
R 100
R 125
R 160
S2N 160
Iu (40 °C) =
Thermomagnetic
release
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
R 12.5
R 16
R 20
R 25
R 32
R 40
R 50
R 63
R 80
R 100
R 125
R 160
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
800A
Im = 5 Ith
In
In
In
In
In
In
In
In
16A
40A
50A
63A
80A
100A
125A
150A
code 1SDA0 . . . . . R1
3 poles
4 poles
24053
24055
24057
24059
24061
24063
24065
24067
24069
24071
24073
24075
160 A
Im = 5 Ith
Magnetic
release
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
S2N 160 P MP
160A
160A
200A
200A
200A
200A
250A
320A
400A
500A
630A
8000A
160A
200A
250A
320A
400A
Icu (415 V) =
24173
24175
24177
24179
24181
24183
24185
24187
24189
24191
24193
24195
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
24077
24079
24081
24083
24085
24087
24089
24091
24093
24095
24097
24099
24197
24199
24201
24203
24205
24207
24209
24211
24213
24215
24217
24219
code 1SDA0 . . . . . R1
3 poles
4 poles
36076
36084
36086
36088
36090
36124
36132
36134
36136
36138
16 kA
Im = 10 Ith
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
00402
00404
00406
00408
00410
00412
00414
00416
00418
00420
00422
00424
00427
00429
00431
00433
00435
00437
00439
00441
00443
00445
00447
00449
35 kA
Im = 10 Ith
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
630A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
00552
00554
00556
00558
00560
00562
00564
00566
00568
00570
00572
00574
00577
00579
00581
00583
00585
00587
00589
00591
00593
00595
00597
00599
code 1SDA0 . . . . . R1
3 poles
4 poles
36062
36064
36066
36068
36070
36072
36110
36112
36114
36116
36118
36120
7
ABB SACE
7/11
Order codes
SACE Isomax S2 circuit-breaker
Moving part
S2S 160
Iu (40 °C) = 160 A
PSIS9604
P = PLUG-IN
Thermomagnetic
release
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
Im = 5 Ith
R 12.5
R 16
R 20
R 25
R 32
R 40
R 50
R 63
R 80
R 100
R 125
R 160
Icu (415 V) =
50 kA
Im = 10 Ith
500A
500A
500A
500A
500A
500A
500A
630A
800A
1000A
1250A
1600A
Magnetic
release
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
S2S 160 P MP
code 1SDA0 . . . . . R1
3 poles
4 poles
00702
00704
00706
00708
00710
00712
00714
00716
00718
00720
00722
00724
00727
00729
00731
00733
00735
00737
00739
00741
00743
00745
00747
00749
code 1SDA0 . . . . . R1
3 poles
4 poles
In
In
In
In
In
In
50A
63A
80A
100A
125A
150A
500A
630A
800A
1000A
1250A
1600A
36158
36160
36162
36164
36166
36168
36182
36184
36186
36188
36190
36192
7
7/12
ABB SACE
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
S3N 160
Iu (40 °C) =
PSIS9607
Thermomagnetic
release
F = Front terminals
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3N 160 F F (N50%)
Thermomagnetic
release
160 A
Im = 3 Ith
R 100
R 125
R 160
R 160
300A
375A
I480A
I480A
Im = 5 Ith
F = Front terminals
S3N 160 F F
R 32
250A
S3N 160 F F
R 50
250A
S3N 160 F F
R 80
400A
S3N 160 F F
R 100
500A
S3N 160 F F
R 125
625A
S3N 160 F F
R 160
800A
EF = Extended front
terminals
S3N 160 F EF
R 32
250A
S3N 160 F EF
R 50
250A
S3N 160 F EF
R 80
400A
S3N 160 F EF
R 100
500A
S3N 160 F EF
R 125
625A
S3N 160 F EF
R 160
800A
FC Cu = Front terminals
for copper cables
S3N 160 F FC Cu
R 32
250A
S3N 160 F FC Cu
R 50
250A
S3N 160 F FC Cu
R 80
400A
S3N 160 F FC Cu
R 100
500A
S3N 160 F FC Cu
R 125
625A
S3N 160 F FC Cu
R 160
800A
FC CuAl = Front terminals
for copper/aluminium cables
S3N 160 F FC CuAl
R 32
250A
S3N 160 F FC CuAl
R 50
250A
S3N 160 F FC CuAl
R 80
400A
S3N 160 F FC CuAl
R 100
500A
S3N 160 F FC CuAl
R 125
625A
S3N 160 F FC CuAl
R 160
800A
R = Threaded rear terminals
S3N 160 F R
R 32
250A
S3N 160 F R
R 50
250A
S3N 160 F R
R 80
400A
S3N 160 F R
R 100
500A
S3N 160 F R
R 125
625A
S3N 160 F R
R 160
800A
RC = Rear terminals
for cables
S3N 160 F RC
R 32
250A
S3N 160 F RC
R 50
250A
S3N 160 F RC
R 80
400A
S3N 160 F RC
R 100
500A
S3N 160 F RC
R 125
625A
S3N 160 F RC
R 160
800A
R Res. Cur = Threaded rear terminals +
kit of threaded rear terminals
for residual-current release
installed below the circuit-breaker
S3N 160 F R Res. Cur R 32
250A
S3N 160 F R Res. Cur R 50
250A
S3N 160 F R Res. Cur R 80
400A
S3N 160 F R Res. Cur R 100
500A
S3N 160 F R Res. Cur R 125
625A
S3N 160 F R Res. Cur R 160
800A
ABB SACE
Icu (415 V) =
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
48539
48540
48541
48549
48550
48551
48559
code 1SDA0 . . . . . R1
3 poles
4 poles
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
13359
13361
13363
13365
13367
13369
13383
13385
13387
13389
13391
13393
500A
500A
800A
1000A
1250A
1600A
13346
13348
13350
13352
13354
13356
13371
13373
13375
13377
13379
13381
00764
00766
00768
00770
00772
00774
01389
01391
01393
01395
01397
01399
500A
500A
800A
1000A
1250A
1600A
00752
00754
00756
00758
00760
00762
01377
01379
01381
01383
01385
01387
00914
00916
00918
00920
00922
00924
01539
01541
01543
01545
01547
01549
500A
500A
800A
1000A
1250A
1600A
00902
00904
00906
00908
00910
00912
01527
01529
01531
01533
01535
01537
01064
01066
01068
01070
01072
01074
01689
01691
01693
01695
01697
01699
500A
500A
800A
1000A
1250A
1600A
01052
01054
01056
01058
01060
01062
01677
01679
01681
01683
01685
01687
01364
01366
01368
01370
01372
01374
14243
14245
14247
14249
14251
14253
500A
500A
800A
1000A
1250A
1600A
01352
01354
01356
01358
01360
01362
14231
14233
14235
14237
14239
14241
01214
01216
01218
01220
01222
01224
01839
01841
01843
01845
01847
01849
500A
500A
800A
1000A
1250A
1600A
01202
01204
01206
01208
01210
01212
01827
01829
01831
01833
01835
01837
25459
25461
25463
25465
25467
25469
500A
500A
800A
1000A
1250A
1600A
25447
25449
25451
25454
25455
25457
7
7/13
Order codes
SACE Isomax S2 circuit-breaker
F = FIXED
PSIS9607
Magnetic
release
F = Front terminals
S3N 160 F F
In 50A
S3N 160 F F
In 80A
S3N 160 F F
In 100A
S3N 160 F F
In 125A
S3N 160 F F
In 160A
EF = Extended front
terminals
S3N 160 F EF
In 50A
S3N 160 F EF
In 80A
S3N 160 F EF
In 100A
S3N 160 F EF
In 125A
S3N 160 F EF
In 160A
FC Cu = Front terminals
for copper cables
S3N 160 F FC Cu
In 50A
S3N 160 F FC Cu
In 80A
S3N 160 F FC Cu
In 100A
S3N 160 F FC Cu
In 125A
S3N 160 F FC Cu
In 160A
FC CuAl = Front terminals
for copper/aluminium cables
S3N 160 F FC CuAl
In 50A
S3N 160 F FC CuAl
In 80A
S3N 160 F FC CuAl
In 100A
S3N 160 F FC CuAl
In 125A
S3N 160 F FC CuAl
In 160A
R = Threaded rear terminals
S3N 160 F R
In 50A
S3N 160 F R
In 80A
S3N 160 F R
In 100A
S3N 160 F R
In 125A
S3N 160 F R
In 160A
RC = Rear terminals
for cables
S3N 160 F RC
In 50A
S3N 160 F RC
In 80A
S3N 160 F RC
In 100A
S3N 160 F RC
In 125A
S3N 160 F RC
In 160A
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
25817
25819
25889
25891
625A
25823
25895
250A
400A
27930
27932
29706
29708
625A
27936
29712
250A
400A
28074
28076
29850
29852
625A
28080
29856
250A
400A
28218
28220
29994
29996
625A
28224
30000
250A
400A
28506
28508
30282
30284
625A
28512
30288
250A
400A
28362
28364
30138
30140
625A
28368
30144
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
800A
1000A
1250A
1600A
25804
25807
25809
25811
25813
25877
25879
25881
25883
25885
500A
800A
1000A
1250A
1600A
27918
27920
27922
27924
27926
29694
29696
29698
29700
29702
500A
800A
1000A
1250A
1600A
28062
28064
28066
28068
28070
29838
29840
29842
29844
29846
500A
800A
1000A
1250A
1600A
28206
28208
28210
28212
28214
29982
29984
29986
29988
29990
500A
800A
1000A
1250A
1600A
28494
28496
28498
28500
28502
30270
30272
30274
30276
30278
500A
800A
1000A
1250A
1600A
28350
28352
28354
28356
28358
30126
30128
30130
30132
30134
7
7/14
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
S3H 160
Iu (40 °C) =
PSIS9607
Thermomagnetic
release
F = Front terminals
S3H 160 F F
S3H 160 F F
S3H 160 F F
S3H 160 F F (N50%)
Thermomagnetic
release
160 A
Im = 3 Ith
R 100
R 125
R 160
R 160
300A
375A
480A
480A
Im = 5 Ith
F = Front terminals
S3H 160 F F
R 32
250A
S3H 160 F F
R 50
250A
S3H 160 F F
R 80
400A
S3H 160 F F
R 100
500A
S3H 160 F F
R 125
625A
S3H 160 F F
R 160
800A
EF = Extended front
terminals
S3H 160 F EF
R 32
250A
S3H 160 F EF
R 50
250A
S3H 160 F EF
R 80
400A
S3H 160 F EF
R 100
500A
S3H 160 F EF
R 125
625A
S3H 160 F EF
R 160
800A
FC Cu = Front terminals
for copper cables
S3H 160 F FC Cu
R 32
250A
S3H 160 F FC Cu
R 50
250A
S3H 160 F FC Cu
R 80
400A
S3H 160 F FC Cu
R 100
500A
S3H 160 F FC Cu
R 125
625A
S3H 160 F FC Cu
R 160
800A
FC CuAl = Front terminals
for copper/aluminium cables
S3H 160 F FC CuAl
R 32
250A
S3H 160 F FC CuAl
R 50
250A
S3H 160 F FC CuAl
R 80
400A
S3H 160 F FC CuAl
R 100
500A
S3H 160 F FC CuAl
R 125
625A
S3H 160 F FC CuAl
R 160
800A
R = Threaded rear terminals
S3H 160 F R
R 32
250A
S3H 160 F R
R 50
250A
S3H 160 F R
R 80
400A
S3H 160 F R
R 100
500A
S3H 160 F R
R 125
625A
S3H 160 F R
R 160
800A
RC = Rear terminals
for cables
S3H 160 F RC
R 32
250A
S3H 160 F RC
R 50
250A
S3H 160 F RC
R 80
400A
S3H 160 F RC
R 100
500A
S3H 160 F RC
R 125
625A
S3H 160 F RC
R 160
800A
R Res. Cur = Threaded rear terminals +
kit of threaded rear terminals
for residual-current release
installed below the circuit-breaker
S3H 160 F R Res. Cur R 32
250A
S3H 160 F R Res. Cur R 50
250A
S3H 160 F R Res. Cur R 80
400A
S3H 160 F R Res. Cur R 100
500A
S3H 160 F R Res. Cur R 125
625A
S3H 160 F R Res. Cur R 160
800A
ABB SACE
Icu (415 V) =
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
48542
48543
48544
48552
48553
48554
48560
code 1SDA0 . . . . . R1
3 poles
4 poles
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
13407
13409
13411
13413
13415
13417
13431
13433
13435
13437
13439
13441
500A
500A
800A
1000A
1250A
1600A
13395
13397
13399
13401
13403
13405
13419
13421
13423
13425
13427
13429
02089
02091
02093
02095
02097
02099
02689
02691
02693
02695
02697
02699
500A
500A
800A
1000A
1250A
1600A
02077
02079
02081
02083
02085
02087
02677
02679
02681
02683
02685
02687
02239
02241
02243
02245
02247
02249
14268
14270
14272
14274
14276
14278
500A
500A
800A
1000A
1250A
1600A
02227
02229
02231
02233
02235
02237
14256
14258
14260
14262
14264
14266
02364
02366
02368
02370
02372
02374
14343
14345
14347
14349
14351
14353
500A
500A
800A
1000A
1250A
1600A
02352
02354
02356
02358
02360
02362
14331
14333
14335
14337
14339
14341
02664
02666
02668
02670
02672
02674
03139
03141
03143
03145
03147
03149
500A
500A
800A
1000A
1250A
1600A
02652
02654
02656
02658
02660
02662
03127
03129
03131
03133
03135
03137
02514
02516
02518
02520
02522
02524
02989
02991
02993
02995
02997
02999
500A
500A
800A
1000A
1250A
1600A
02502
02504
02506
02508
02510
02512
02977
02979
02981
02983
02985
02987
25483
25485
25487
25489
25491
25493
500A
500A
800A
1000A
1250A
1600A
25471
25473
25475
25477
25479
25481
7
7/15
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
PSIS9607
Magnetic
release
F = Front terminals
S3H 160 F F
In 50A
S3H 160 F F
In 80A
S3H 160 F F
In 100A
S3H 160 F F
In 125A
S3H 160 F F
In 160A
EF = Extended front
terminals
S3H 160 F EF
In 50A
S3H 160 F EF
In 80A
S3H 160 F EF
In 100A
S3H 160 F EF
In 125A
S3H 160 F EF
In 160A
FC Cu = Front terminals
for copper cables
S3H 160 F FC Cu
In 50A
S3H 160 F FC Cu
In 80A
S3H 160 F FC Cu
In 100A
S3H 160 F FC Cu
In 125A
S3H 160 F FC Cu
In 160A
FC CuAl = Front terminals
for copper/aluminium cables
S3H 160 F FC CuAl
In 50A
S3H 160 F FC CuAl
In 80A
S3H 160 F FC CuAl
In 100A
S3H 160 F FC CuAl
In 125A
S3H 160 F FC CuAl
In 160A
R = Threaded rear terminals
S3H 160 F R
In 50A
S3H 160 F R
In 80A
S3H 160 F R
In 100A
S3H 160 F R
In 125A
S3H 160 F R
In 160A
RC = Rear terminals
for cables
S3H 160 F RC
In 50A
S3H 160 F RC
In 80A
S3H 160 F RC
In 100A
S3H 160 F RC
In 125A
S3H 160 F RC
In 160A
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
25841
25843
25913
25915
625A
25847
25919
250A
400A
28530
28532
30306
30308
625A
28536
30312
250A
400A
28674
28676
30450
30452
625A
28680
30456
250A
400A
28818
28820
30594
30596
625A
28824
30600
250A
400A
29106
29108
30882
30884
625A
29112
30888
250A
400A
28962
28964
30738
30740
625A
28968
30744
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
800A
1000A
1250A
1600A
25829
25831
25833
25835
25837
25901
25903
25905
25907
25909
500A
800A
1000A
1250A
1600A
28518
28520
28522
28524
28526
30294
30296
30298
30300
30302
500A
800A
1000A
1250A
1600A
28662
28664
28666
28668
28670
30438
30440
30442
30444
30446
500A
800A
1000A
1250A
1600A
28806
28808
28810
28812
28814
30582
30584
30586
30588
30590
500A
800A
1000A
1250A
1600A
29094
29096
29098
29100
29102
30870
30872
30874
30876
30878
500A
800A
1000A
1250A
1600A
28950
28952
28954
28956
28958
30726
30728
30730
30732
30734
7
7/16
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
S3L 160
PSIS9607
Thermomagnetic
release
Iu (40 °C) =
160 A
Im = 5 Ith
F = Front terminals
S3L 160 F F
R 32
250A
S3L 160 F F
R 50
250A
S3L 160 F F
R 80
400A
S3L 160 F F
R 100
500A
S3L 160 F F
R 125
625A
S3L 160 F F
R 160
800A
EF = Extended front
terminals
S3L 160 F EF
R 32
250A
S3L 160 F EF
R 50
250A
S3L 160 F EF
R 80
400A
S3L 160 F EF
R 100
500A
S3L 160 F EF
R 125
625A
S3L 160 F EF
R 160
800A
FC Cu = Front terminals
for copper cables
S3L 160 F FC Cu
R 32
250A
S3L 160 F FC Cu
R 50
250A
S3L 160 F FC Cu
R 80
400A
S3L 160 F FC Cu
R 100
500A
S3L 160 F FC Cu
R 125
625A
S3L 160 F FC Cu
R 160
800A
FC CuAl = Front terminals
for copper/aluminium cables
S3L 160 F FC CuAl
R 32
250A
S3L 160 F FC CuAl
R 50
250A
S3L 160 F FC CuAl
R 80
400A
S3L 160 F FC CuAl
R 100
500A
S3L 160 F FC CuAl
R 125
625A
S3L 160 F FC CuAl
R 160
800A
R = Threaded rear terminals
S3L 160 F R
R 32
250A
S3L 160 F R
R 50
250A
S3L 160 F R
R 80
400A
S3L 160 F R
R 100
500A
S3L 160 F R
R 125
625A
S3L 160 F R
R 160
800A
RC = Rear terminals
for cables
S3L 160 F RC
R 32
250A
S3L 160 F RC
R 50
250A
S3L 160 F RC
R 80
400A
S3L 160 F RC
R 100
500A
S3L 160 F RC
R 125
625A
S3L 160 F RC
R 160
800A
R Res. Cur = Threaded rear terminals +
kit of threaded rear terminals
for residual-current release
installed below the circuit-breaker
S3L 160 F R Res. Cur R 32
250A
S3L 160 F R Res. Cur R 50
250A
S3L 160 F R Res. Cur R 80
400A
S3L 160 F R Res. Cur R 100
500A
S3L 160 F R Res. Cur R 125
625A
S3L 160 F R Res. Cur R 160
800A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
85 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
13455
13457
13459
13461
13463
13465
13479
13481
13483
13485
13487
13489
500A
500A
800A
1000A
1250A
1600A
13443
13445
13447
13449
13451
13453
13467
13469
13471
13473
13475
13477
03264
03266
14486
03269
03271
03273
03864
03866
14511
03869
03871
03873
500A
500A
800A
1000A
1250A
1600A
03252
03254
03256
03258
03260
03262
03852
03854
03856
03858
03860
03862
03408
03410
14492
03413
03415
03417
04008
04010
14517
04013
04015
04017
500A
500A
800A
1000A
1250A
1600A
03396
03398
03400
03402
03404
03406
03996
03998
04000
04002
04004
04006
03552
03554
14498
03557
03559
03561
04152
04154
14523
04157
04159
04161
500A
500A
800A
1000A
1250A
1600A
03540
03542
03544
03546
03548
03550
04140
04142
04144
04146
04148
04150
03840
03842
14510
03845
03847
03849
04440
04442
14535
04445
04447
04449
500A
500A
800A
1000A
1250A
1600A
03828
03830
03832
03834
03836
03838
04428
04430
04432
04434
04436
04438
03696
03698
14504
03701
03703
03705
04296
04298
14529
04301
04303
04305
500A
500A
800A
1000A
1250A
1600A
03684
03686
03688
03690
03692
03694
04284
04286
04288
04290
04292
04294
25507
25509
25511
25513
25515
25517
500A
500A
800A
1000A
1250A
1600A
25495
25497
25499
25501
25503
25505
7
ABB SACE
7/17
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
PSIS9607
Magnetic
release
F = Front terminals
S3L 160 F F
In 50A
S3L 160 F F
In 80A
S3L 160 F F
In 100A
S3L 160 F F
In 125A
S3L 160 F F
In 160A
EF = Extended front
terminals
S3L 160 F EF
In 50A
S3L 160 F EF
In 80A
S3L 160 F EF
In 100A
S3L 160 F EF
In 125A
S3L 160 F EF
In 160A
FC Cu = Front terminals
for copper cables
S3L 160 F FC Cu
In 50A
S3L 160 F FC Cu
In 80A
S3L 160 F FC Cu
In 100A
S3L 160 F FC Cu
In 125A
S3L 160 F FC Cu
In 160A
FC CuAl = Front terminals
for copper/aluminium cables
S3L 160 F FC CuAl
In 50A
S3L 160 F FC CuAl
In 80A
S3L 160 F FC CuAl
In 100A
S3L 160 F FC CuAl
In 125A
S3L 160 F FC CuAl
In 160A
R = Threaded rear terminals
S3L 160 F R
In 50A
S3L 160 F R
In 80A
S3L 160 F R
In 100A
S3L 160 F R
In 125A
S3L 160 F R
In 160A
RC = Rear terminals
for cables
S3L 160 F RC
In 50A
S3L 160 F RC
In 80A
S3L 160 F RC
In 100A
S3L 160 F RC
In 125A
S3L 160 F RC
In 160A
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
25865
25867
25937
25939
625A
25871
25943
250A
400A
29130
29132
30906
30908
625A
29136
30912
250A
400A
29274
29276
31050
31052
625A
29280
31056
250A
400A
29418
29420
31170
31172
625A
29424
31176
250A
400A
44388
44390
31458
31460
625A
44394
31464
250A
400A
29562
29564
31314
31316
625A
29568
31320
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
800A
1000A
1250A
1600A
25853
25855
25857
25859
25861
25925
25927
25929
25931
25933
500A
800A
1000A
1250A
1600A
29118
29120
29122
29124
29126
30894
30896
30898
30900
30902
500A
800A
1000A
1250A
1600A
29262
29264
29266
29268
29270
31038
31040
31042
31044
31046
500A
800A
1000A
1250A
1600A
29406
29408
29410
29412
29414
31158
31160
31162
31164
31166
500A
800A
1000A
1250A
1600A
44376
44378
44380
44382
44384
31446
31448
31450
31452
31454
500A
800A
1000A
1250A
1600A
29550
29552
29554
29556
29558
31302
31304
31306
31308
31310
7
7/18
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker
P = PLUG-IN
Moving part
S3N 160
Iu (40 °C) = 160 A
PSIS9607
Thermomagnetic
release
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
Im = 5 Ith
R 32
R 50
R 80
R 100
R 125
R 160
Magnetic
release
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
S3N 160 P MP
Im = 5 Ith
In
In
In
In
In
S3H 160
50A
80A
100A
125A
160A
Magnetic
release
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
S3L 160
50A
80A
100A
125A
160A
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
Magnetic
release
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
S3L 160 P MP
31488
31536
160 A
250A
250A
400A
500A
625A
800A
50A
80A
100A
125A
160A
code 1SDA0 . . . . . R1
3 poles
4 poles
03164
03166
03168
03170
03172
03174
03214
03216
03218
03220
03222
03224
code 1SDA0 . . . . . R1
3 poles
4 poles
31578
31580
31626
31628
625A
31584
31632
160 A
250A
250A
400A
500A
625A
800A
Im = 5 Ith
In
In
In
In
In
Icu (415 V) =
250A
400A
Im = 5 Ith
R 32
R 50
R 80
R 100
R 125
R 160
code 1SDA0 . . . . . R1
3 poles
4 poles
625A
Iu (40 °C) =
Thermomagnetic
release
02039
02041
02043
02045
02047
02049
31530
31532
Im = 5 Ith
In
In
In
In
In
01989
01991
01993
01995
01997
01999
31482
31484
Im = 5 Ith
R 32
R 50
R 80
R 100
R 125
R 160
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
Iu (40 °C) =
Thermomagnetic
release
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
S3H 160 P MP
250A
250A
400A
500A
625A
800A
Icu (415 V) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
04464
04466
14536
04469
04471
04473
04512
04514
14538
04517
04519
04521
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
31674
31676
31722
31724
625A
31680
31728
35 kA
Im = 10 Ith
500A
500A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
01977
01979
01981
01983
01985
01987
02027
02029
02031
02033
02035
02037
code 1SDA0 . . . . . R1
3 poles
4 poles
31470
31472
31474
31476
31478
31518
31520
31522
31524
31526
65 kA
Im = 10 Ith
500A
500A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
03152
03154
03156
03158
03160
03162
03202
03204
03206
03208
03210
03212
code 1SDA0 . . . . . R1
3 poles
4 poles
31566
31568
31570
31572
31574
31614
31616
31618
31620
31622
85 kA
Im = 10 Ith
500A
500A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
04452
04454
04456
04458
04460
04462
04500
04502
04504
04506
04508
04510
code 1SDA0 . . . . . R1
3 poles
4 poles
31662
31664
31666
31668
31670
31710
31712
31714
31716
31718
7
ABB SACE
7/19
Order codes
SACE Isomax S3 circuit-breaker
W = WITHDRAWABLE Moving part
S3N 160
Iu (40 °C) = 160 A
PSIS9607
Thermomagnetic
release
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
Im = 5 Ith
R 32
R 50
R 80
R 100
R 125
R 160
Magnetic
release
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
S3N 160 W MP
Im = 5 Ith
In
In
In
In
In
S3H 160
50A
80A
100A
125A
160A
Magnetic
release
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
S3L 160
50A
80A
100A
125A
160A
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
Magnetic
release
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
S3L 160 W MP
31512
31560
160 A
250A
250A
400A
500A
625A
800A
50A
80A
100A
125A
160A
code 1SDA0 . . . . . R1
3 poles
4 poles
03189
03191
03193
03195
03197
03199
03239
03241
03243
03245
03247
03249
code 1SDA0 . . . . . R1
3 poles
4 poles
31602
31604
31650
31652
625A
31608
31656
160 A
250A
250A
400A
500A
625A
800A
Im = 5 Ith
In
In
In
In
In
Icu (415 V) =
250A
400A
Im = 5 Ith
R 32
R 50
R 80
R 100
R 125
R 160
code 1SDA0 . . . . . R1
3 poles
4 poles
625A
Iu (40 °C) =
Thermomagnetic
release
02064
02066
02068
02070
02072
02074
31554
31556
Im = 5 Ith
In
In
In
In
In
02014
02016
02018
02020
02022
02024
31506
31508
Im = 5 Ith
R 32
R 50
R 80
R 100
R 125
R 160
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
Iu (40 °C) =
Thermomagnetic
release
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
S3H 160 W MP
250A
250A
400A
500A
625A
800A
Icu (415 V) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
04488
04490
14537
04493
04495
04497
04536
04538
14539
04541
04543
04545
code 1SDA0 . . . . . R1
3 poles
4 poles
250A
400A
31698
31700
31746
31748
625A
31704
31752
35 kA
Im = 10 Ith
500A
500A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
02002
02004
02006
02008
02010
02012
02052
02054
02056
02058
02060
02062
code 1SDA0 . . . . . R1
3 poles
4 poles
31494
31496
31498
31500
31502
31542
31544
31546
31548
31550
65 kA
Im = 10 Ith
500A
500A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
03177
03179
03181
03183
03185
03187
03227
03229
03231
03233
03235
03237
code 1SDA0 . . . . . R1
3 poles
4 poles
31590
31592
31594
31596
31598
31638
31640
31642
31644
31646
85 kA
Im = 10 Ith
500A
500A
800A
1000A
1250A
1600A
Im = 10 Ith
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
4 poles
04476
04478
04480
04482
04484
04486
04524
04526
04528
04530
04532
04534
code 1SDA0 . . . . . R1
3 poles
4 poles
31686
31688
31690
31692
31694
31734
31736
31738
31740
31742
7
7/20
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
S3N 250
Iu (40 °C) =
PSIS9607
Thermomagnetic
release
F = Front terminals
S3N 250 F F
S3N 250 F F
S3N 250 F F (N50%)
S3N 250 F F (N50%)
250 A
Im = 3 Ith
R 200
R 250
R 200
R 250
Thermomagnetic
release
600A
750A
600A
750A
Im = 5 Ith
F = Front terminals
S3N 250 F F
R 200
1000A
S3N 250 F F
R 250
1250A
EF = Extended front
terminals
S3N 250 F EF
R 200
1000A
S3N 250 F EF
R 250
1250A
FC Cu = Front terminals
for copper cables
S3N 250 F FC Cu
R 200
1000A
S3N 250 F FC Cu
R 250
1250A
FC CuAl = Front terminals
for copper/aluminium cables
S3N 250 F FC CuAl
R 200
1000A
S3N 250 F FC CuAl
R 250
1250A
R = Threaded rear terminals
S3N 250 F R
R 200
1000A
S3N 250 F R
R 250
1250A
RC = Rear terminals
for cables
S3N 250 F RC
R 200
1000A
S3N 250 F RC
R 250
1250A
R Res. Cur = Threaded rear terminals +
kit of threaded rear terminals
for residual-current release
installed below the circuit-breaker
S3N 250 F R Res. Cur R 200
1000A
S3N 250 F R Res. Cur R 250
1250A
Magnetic
release
F = Front terminals
S3N 250 F F
In 200A
S3N 250 F F
In 250A
EF = Extended front
terminals
S3N 250 F EF
In 200A
S3N 250 F EF
In 250A
FC Cu = Front terminals
for copper cables
S3N 250 F FC Cu
In 200A
S3N 250 F FC Cu
In 250A
FC CuAl = Front terminals
for copper/aluminium cables
S3N 250 F FC CuAl
In 200A
S3N 250 F FC CuAl
In 250A
R = Threaded rear terminals
S3N 250 F R
In 200A
S3N 250 F R
In 250A
RC = Rear terminals
for cables
S3N 250 F RC
In 200A
S3N 250 F RC
In 250A
Icu (415 V) =
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
48545
48546
48555
48556
48561
48562
code 1SDA0 . . . . . R1
3 poles
4 poles
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
13495
13497
13503
13505
2000A
2500A
13491
13493
13499
13501
04552
04554
04777
04779
2000A
2500A
04548
04550
04773
04775
04606
04608
14419
14421
2000A
2500A
04602
04604
14415
14417
04660
04662
14455
14457
2000A
2500A
04656
04658
14451
14453
04768
04770
04912
04914
2000A
2500A
04764
04766
04908
04910
04714
04716
04858
04860
2000A
2500A
04710
04712
04854
04856
25523
25525
2000A
2500A
Im = 10 Ith
25519
25521
code 1SDA0 . . . . . R1
3 poles
4 poles
2000A
2500A
27388
27390
27476
27478
2000A
2500A
31756
31758
32337
32339
2000A
2500A
31804
31806
32385
32387
2000A
2500A
31844
31846
32433
32435
2000A
2500A
31940
31942
32529
32531
2000A
2500A
31892
31894
32481
32483
7
ABB SACE
7/21
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
S3H 250
Iu (40 °C) =
PSIS9607
Thermomagnetic
release
F = Front terminals
S3H 250 F F
S3H 250 F F
S3H 250 F F (N50%)
S3H 250 F F (N50%)
250 A
Im = 3 Ith
R 200
R 250
R 200
R 250
Thermomagnetic
release
600A
750A
600A
750A
Im = 5 Ith
F = Front terminals
S3H 250 F F
R 200
1000A
S3H 250 F F
R 250
1250A
EF = Extended front
terminals
S3H 250 F EF
R 200
1000A
S3H 250 F EF
R 250
1250A
FC Cu = Front terminals
for copper cables
S3H 250 F FC Cu
R 200
1000A
S3H 250 F FC Cu
R 250
1250A
FC CuAl = Front terminals
for copper/aluminium cables
S3H 250 F FC CuAl
R 200
1000A
S3H 250 F FC CuAl
R 250
1250A
R = Threaded rear terminals
S3H 250 F R
R 200
1000A
S3H 250 F R
R 250
1250A
RC = Rear terminals
for cables
S3H 250 F RC
R 200
1000A
S3H 250 F RC
R 250
1250A
R Res. Cur = Threaded rear terminals +
kit of threaded rear terminals
for residual-current release
installed below the circuit-breaker
S3H 250 F R Res. Cur R 200
1000A
S3H 250 F R Res. Cur R 250
1250A
Magnetic
release
F = Front terminals
S3H 250 F F
In 200A
S3H 250 F F
In 250A
EF = Extended front
terminals
S3H 250 F EF
In 200A
S3H 250 F EF
In 250A
FC Cu = Front terminals
for copper cables
S3H 250 F FC Cu
In 200A
S3H 250 F FC Cu
In 250A
FC CuAl = Front terminals
for copper/aluminium cables
S3H 250 F FC CuAl
In 200A
S3H 250 F FC CuAl
In 250A
R = Threaded rear terminals
S3H 250 F R
In 200A
S3H 250 F R
In 250A
RC = Rear terminals
for cables
S3H 250 F RC
In 200A
S3H 250 F RC
In 250A
Icu (415 V) =
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
48547
48548
48557
48558
48563
48564
code 1SDA0 . . . . . R1
3 poles
4 poles
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
13511
13513
13519
13521
2000A
2500A
13507
13509
13515
13517
04957
04959
05182
05184
2000A
2500A
04953
04955
05178
05180
05011
05013
05236
05238
2000A
2500A
05007
05009
05232
05234
05065
05067
05290
05292
2000A
2500A
05061
05063
05286
05288
05173
05175
05398
05400
2000A
2500A
05169
05171
05394
05396
05119
05121
05344
05346
2000A
2500A
05115
05117
05340
05342
25531
25533
2000A
2500A
Im = 10 Ith
25527
25529
code 1SDA0 . . . . . R1
3 poles
4 poles
2000A
2500A
27564
27566
27652
27654
2000A
2500A
31948
31950
32537
32539
2000A
2500A
31996
31998
32585
32587
2000A
2500A
32044
32046
32633
32635
2000A
2500A
32097
32099
32729
32732
2000A
2500A
32089
32091
32681
32683
7
7/22
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker
F = FIXED
S3L 250
Iu (40 °C) =
PSIS9607
Thermomagnetic
release
250 A
Im = 5 Ith
F = Front terminals
S3L 250 F F
R 200
1000A
S3L 250 F F
R 250
1250A
EF = Extended front
terminals
S3L 250 F EF
R 200
1000A
S3L 250 F EF
R 250
1250A
FC Cu = Front terminals
for copper cables
S3L 250 F FC Cu
R 200
1000A
S3L 250 F FC Cu
R 250
1250A
FC CuAl = Front terminals
for copper/aluminium cables
S3L 250 F FC CuAl
R 200
1000A
S3L 250 F FC CuAl
R 250
1250A
R = Threaded rear terminals
S3L 250 F R
R 200
1000A
S3L 250 F R
R 250
1250A
RC = Rear terminals
for cables
S3L 250 F RC
R 200
1000A
S3L 250 F RC
R 250
1250A
R Res. Cur = Threaded rear terminals +
kit of threaded rear terminals
for residual-current release
installed below the circuit-breaker
S3L 250 F R Res. Cur R 200
1000A
S3L 250 F R Res. Cur R 250
1250A
Magnetic
release
F = Front terminals
S3L 250 F F
In 200A
S3L 250 F F
In 250A
EF = Extended front
terminals
S3L 250 F EF
In 200A
S3L 250 F EF
In 250A
FC Cu = Front terminals
for copper cables
S3L 250 F FC Cu
In 200A
S3L 250 F FC Cu
In 250A
FC CuAl = Front terminals
for copper/aluminium cables
S3L 250 F FC CuAl
In 200A
S3L 250 F FC CuAl
In 250A
R = Threaded rear terminals
S3L 250 F R
In 200A
S3L 250 F R
In 250A
RC = Rear terminals
for cables
S3L 250 F RC
In 200A
S3L 250 F RC
In 250A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
85 kA
Im = 10 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
13527
13529
13535
13537
2000A
2500A
13523
13525
13531
13533
05443
05445
05668
05670
2000A
2500A
05439
05441
05664
05666
05497
05499
05722
05724
2000A
2500A
05493
05495
05718
05720
05551
05553
05776
05778
2000A
2500A
05547
05549
05772
05774
05659
05661
05884
05886
2000A
2500A
05655
05657
05880
05882
05605
05607
05830
05832
2000A
2500A
05601
05603
05826
05828
25539
25541
2000A
2500A
Im = 10 Ith
25535
25537
code 1SDA0 . . . . . R1
3 poles
4 poles
2000A
2500A
27748
27750
27828
27830
2000A
2500A
32137
32139
32737
32739
2000A
2500A
32185
32187
32785
32787
2000A
2500A
32233
32235
32833
32835
2000A
2500A
32329
32331
32921
32923
2000A
2500A
32281
32283
32761
32763
7
ABB SACE
7/23
Order codes
SACE Isomax S3 circuit-breaker
P = PLUG-IN
Moving part
S3N 250
Iu (40 °C) = 250 A
PSIS9607
Thermomagnetic
release
S3N 250 P MP
S3N 250 P MP
R 200
R 250
Icu (415 V) =
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
1000A
1250A
04921
04923
04939
04941
Magnetic
release
S3N 250 P MP
S3N 250 P MP
S3H 250
In 200A
In 250A
S3L 250
Iu (40 °C) =
R 200
R 250
250 A
Icu (415 V) =
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
1000A
1250A
05407
05409
05425
05427
In 200A
In 250A
R 200
R 250
Magnetic
release
S3L 250 P MP
S3L 250 P MP
Im = 10 Ith
2000A
2500A
2000A
2500A
Iu (40 °C) =
250 A
Icu (415 V) =
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
1000A
1250A
05893
05895
05911
05913
04917
04919
04935
04937
code 1SDA0 . . . . . R1
3 poles
4 poles
32929
32931
32945
32947
code 1SDA0 . . . . . R1
3 poles
4 poles
05403
05405
05421
05423
code 1SDA0 . . . . . R1
3 poles
4 poles
32961
32963
32977
32979
85 kA
Im = 10 Ith
2000A
2500A
Im = 10 Ith
In 200A
In 250A
code 1SDA0 . . . . . R1
3 poles
4 poles
65 kA
Im = 10 Ith
Thermomagnetic
release
S3L 250 P MP
S3L 250 P MP
2000A
2500A
2000A
2500A
Magnetic
release
S3H 250 P MP
S3H 250 P MP
Im = 10 Ith
Im = 10 Ith
Thermomagnetic
release
S3H 250 P MP
S3H 250 P MP
35 kA
2000A
2500A
code 1SDA0 . . . . . R1
3 poles
4 poles
05889
05891
05907
05909
code 1SDA0 . . . . . R1
3 poles
4 poles
32993
32995
33009
33011
7
7/24
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker
W = WITHDRAWABLE Moving part
S3N 250
Iu (40 °C) = 250 A
PSIS9607
Thermomagnetic
release
S3N 250 W MP
S3N 250 W MP
R 200
R 250
Icu (415 V) =
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
1000A
1250A
04930
04932
04948
04950
Magnetic
release
S3N 250 W MP
S3N 250 W MP
S3H 250
In 200A
In 250A
S3L 250
Iu (40 °C) =
R 200
R 250
250 A
Icu (415 V) =
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
1000A
1250A
05416
05418
05434
05436
In 200A
In 250A
R 200
R 250
Magnetic
release
S3L 250 W MP
S3L 250 W MP
Im = 10 Ith
2000A
2500A
2000A
2500A
Iu (40 °C) =
250 A
Icu (415 V) =
Im = 5 Ith
code 1SDA0 . . . . . R1
3 poles
4 poles
1000A
1250A
05902
05904
05920
05922
04926
04928
04944
04946
code 1SDA0 . . . . . R1
3 poles
4 poles
32937
32939
32953
32955
code 1SDA0 . . . . . R1
3 poles
4 poles
05412
05414
05430
05432
code 1SDA0 . . . . . R1
3 poles
4 poles
32969
32971
32985
32987
85 kA
Im = 10 Ith
2000A
2500A
Im = 10 Ith
In 200A
In 250A
code 1SDA0 . . . . . R1
3 poles
4 poles
65 kA
Im = 10 Ith
Thermomagnetic
release
S3L 250 W MP
S3L 250 W MP
2000A
2500A
2000A
2500A
Magnetic
release
S3H 250 W MP
S3H 250 W MP
Im = 10 Ith
Im = 10 Ith
Thermomagnetic
release
S3H 250 W MP
S3H 250 W MP
35 kA
2000A
2500A
code 1SDA0 . . . . . R1
3 poles
4 poles
05898
05900
05916
05918
code 1SDA0 . . . . . R1
3 poles
4 poles
33001
33003
33017
33019
7
ABB SACE
7/25
Order codes
SACE Isomax S4 circuit-breaker
F = FIXED
S4N 160
Iu (40 °C) =
PR211
P
PSIS9610
Microprocessor-based
release
F = Front terminals
S4N 160 F F
In 100 A
S4N 160 F F
In 160 A
EF = Extended front
terminals
S4N 160 F EF
In 100 A
S4N 160 F EF
In 160 A
FC Cu = Front terminals
for copper cables
S4N 160 F FC Cu
In 100 A
S4N 160 F FC Cu
In 160 A
FC CuAl = Front terminals
for copper/aluminium cables
S4N 160 F FC CuAl
In 100 A
S4N 160 F FC CuAl
In 160 A
R = Threaded rear terminals
S4N 160 F R
In 100 A
S4N 160 F R
In 160 A
RC = Rear terminals
for cables
S4N 160 F RC
In 100 A
S4N 160 F RC
In 160 A
S4H 160
S4H 160 F F
In 160 A
EF = Extended front
terminals
S4H 160 F EF
In 100 A
S4H 160 F EF
In 160 A
FC Cu = Front terminals
for copper cables
S4H 160 F FC Cu
In 100 A
S4H 160 F FC Cu
In 160 A
FC CuAl = Front terminals
for copper/aluminium cables
S4H 160 F FC CuAl
In 100 A
S4H 160 F FC CuAl
7
7/26
In 160 A
code 1SDA0 . . . . . R1
3 poles
4 poles
35 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
15548
15550
15549
15551
15836
15838
15837
15839
LSI
LSIG
LSI
LSIG
15553
15558
15554
15559
15841
15846
15842
15847
I
LI
I
LI
15632
15633
05924
05925
15920
15921
06080
06081
LSI
LSIG
LSI
LSIG
15635
15637
05926
05929
15923
15925
06082
06085
I
LI
I
LI
15680
15681
05960
05961
15968
15969
06116
06117
LSI
LSIG
LSI
LSIG
15683
15685
05962
05965
15971
15973
06118
06121
I
LI
I
LI
15728
15729
05996
05997
16016
16017
06152
06153
LSI
LSIG
LSI
LSIG
15731
15733
05998
06001
16019
16021
06154
06157
I
LI
I
LI
15830
15831
06074
06075
16112
16113
06224
06225
LSI
LSIG
LSI
LSIG
15833
15835
06076
06079
16115
16117
06226
06229
I
LI
I
LI
15782
15783
06038
06039
16064
16065
06188
06189
LSI
LSIG
LSI
LSIG
15785
15787
06040
06043
16067
16069
06190
06193
160 A
PR211
P
Microprocessor-based
release
In 100 A
Icu (415 V) =
I
LI
I
LI
Iu (40 °C) =
F = Front terminals
S4H 160 F F
160 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
65 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
16142
16144
16143
16145
16424
16426
16425
16427
LSI
LSIG
LSI
LSIG
16146
16152
16147
16153
16428
16434
16429
16435
I
LI
I
LI
16226
16227
06254
06255
16508
16509
06404
06405
LSI
LSIG
LSI
LSIG
16228
16231
06256
06259
16510
16513
06406
06409
I
LI
I
LI
16274
16275
06290
06291
16556
16557
06440
06441
LSI
LSIG
LSI
LSIG
16276
16279
06292
06295
16558
16561
06442
06445
I
LI
I
LI
16322
16323
06326
06327
16604
16605
06476
06477
LSI
LSIG
LSI
LSIG
16324
16327
06328
06331
16606
16609
06478
06481
ABB SACE
Order codes
SACE Isomax S4 circuit-breaker
F = FIXED
PR211
P
Microprocessor-based
release
PSIS9610
R = Threaded rear terminals
S4H 160 F R
In 100 A
S4H 160 F R
In 160 A
RC = Rear terminals
for cables
S4H 160 F RC
In 100 A
S4H 160 F RC
In 160 A
S4L 160
S4L 160 F F
In 160 A
EF = Extended front
terminals
S4L 160 F EF
In 100 A
S4L 160 F EF
In 160 A
FC Cu = Front terminals
for copper cables
S4L 160 F FC Cu
In 100 A
S4L 160 F FC Cu
In 160 A
FC CuAl = Front terminals
for copper/aluminium cables
S4L 160 F FC CuAl
In 100 A
S4L 160 F FC CuAl
In 160 A
R = Threaded rear terminals
S4L 160 F R
In 100 A
S4L 160 F R
In 160 A
RC = Rear terminals
for cables
S4L 160 F RC
In 100 A
S4L 160 F RC
In 160 A
code 1SDA0 . . . . . R1
3 poles
4 poles
16418
16419
06398
06399
16700
16701
06548
06549
LSI
LSIG
LSI
LSIG
16420
16423
06400
06403
16702
16705
06550
06553
I
LI
I
LI
16370
16371
06362
06363
16652
16653
06512
06513
LSI
LSIG
LSI
LSIG
16372
16375
06364
06367
16654
16657
06514
06517
160 A
PR211
P
Microprocessor-based
release
In 100 A
PR212
P
I
LI
I
LI
Iu (40 °C) =
F = Front terminals
S4L 160 F F
code 1SDA0 . . . . . R1
3 poles
4 poles
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
100 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
16730
16732
16731
16733
17012
17014
17013
17015
LSI
LSIG
LSI
LSIG
16734
16740
16735
16741
17016
17022
17017
17023
I
LI
I
LI
16814
16815
06578
06579
17096
17097
06728
06729
LSI
LSIG
LSI
LSIG
16816
16819
06580
06583
17098
17101
06730
06733
I
LI
I
LI
16862
16863
06614
06615
17144
17145
06764
06765
LSI
LSIG
LSI
LSIG
16864
16867
06616
06619
17146
17149
06766
06769
I
LI
I
LI
16910
16911
06650
06651
17192
17193
06800
06801
LSI
LSIG
LSI
LSIG
16912
16915
06652
06655
17194
17197
06802
06805
I
LI
I
LI
17006
17007
06722
06723
17288
17289
06872
06873
LSI
LSIG
LSI
LSIG
17008
17011
06724
06727
17290
17293
06874
06877
I
LI
I
LI
16958
16959
06686
06687
17240
17241
06836
06837
LSI
LSIG
LSI
LSIG
16960
16963
06688
06691
17242
17245
06838
06841
7
ABB SACE
7/27
Order codes
SACE Isomax S4 circuit-breaker
P = PLUG-IN
Moving part
S4N 160
Iu (40 °C) = 160 A
PR211
P
Microprocessor-based
release
In 100 A
S4N 160 P MP
In 160 A
PSIS9610
S4N 160 P MP
S4H 160
I
LI
I
LI
S4H 160 P MP
In 100 A
S4H 160 P MP
In 160 A
S4L 160
I
LI
I
LI
In 100 A
S4L 160 P MP
In 160 A
160 A
PR211
P
Microprocessor-based
release
I
LI
I
LI
17294
17295
06878
06879
PR211
P
In 100 A
S4N 160 W MP
In 160 A
PSIS9610
S4N 160 W MP
S4H 160
I
LI
I
LI
S4H 160 W MP
In 100 A
S4H 160 W MP
In 160 A
S4L 160
I
LI
I
LI
7
7/28
In 100 A
S4L 160 W MP
In 160 A
160 A
PR211
P
Microprocessor-based
release
I
LI
I
LI
Icu (415 V) =
17306
17307
06890
06891
Icu (415 V) =
16136
16137
06248
06249
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
16712
16713
06560
06561
Iu (40 °C) =
S4L 160 W MP
160 A
PR211
P
Microprocessor-based
release
16718
16719
06566
06567
code 1SDA0 . . . . . R1
3 poles
4 poles
16124
16125
06236
06237
Iu (40 °C) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
W = WITHDRAWABLE Moving part
S4N 160
Iu (40 °C) = 160 A
Microprocessor-based
release
16130
16131
06242
06243
code 1SDA0 . . . . . R1
3 poles
4 poles
16706
16707
06554
06555
Iu (40 °C) =
S4L 160 P MP
160 A
PR211
P
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
4 poles
16118
16119
06230
06231
Iu (40 °C) =
Icu (415 V) =
16724
16725
06572
06573
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
17300
17301
06884
06885
17312
17313
06896
06897
35 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
16121
16123
06232
06235
16133
16135
06244
06247
65 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
16708
16711
06556
06559
16720
16723
06568
06571
100 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
17296
17299
06880
06883
17308
17311
06892
06895
35 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
16127
16129
06238
06241
16139
16141
06250
06253
65 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
16714
16717
06562
06565
16726
16729
06574
06577
100 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
17302
17305
06886
06889
17314
17317
06898
06901
ABB SACE
Order codes
SACE Isomax S4 circuit-breaker
F = FIXED
S4N 250
Iu (40 °C) =
PR211
P
Microprocessor-based
release
F = Front terminals
S4N 250 F F
In 250 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
35 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
17318
17319
17384
17385
LSI
LSIG
17320
17323
17386
17389
I
LI
06902
06903
07052
07053
LSI
LSIG
06904
06907
07054
07057
I
LI
06938
06939
07088
07089
LSI
LSIG
06940
06943
07090
07093
I
LI
06974
06975
07124
07125
LSI
LSIG
06976
06979
07126
07129
I
LI
07046
07047
07196
07197
LSI
LSIG
07048
07051
07198
07201
RC = Rear terminals for cables
S4N 250 F RC
In 250 A I
LI
07010
07011
07160
07161
LSI
LSIG
07012
07015
07162
07165
EF = Extended front terminals
S4N 250 F EF
In 250 A
PSIS9610
250 A
FC Cu = Front terminals
for copper cables
S4N 250 F FC Cu
In 250 A
FC CuAl = Front terminals
for copper/aluminium cables
S4N 250 F FC CuAl
In 250 A
R = Threaded rear terminals
S4N 250 F R
In 250 A
S4H 250
Iu (40 °C) =
PR211
P
Microprocessor-based
release
F = Front terminals
S4H 250 F F
In 250 A
250 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
65 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
17450
17451
17516
17517
LSI
LSIG
17452
17455
17518
17521
I
LI
07226
07227
07376
07377
LSI
LSIG
07228
07231
07378
07381
I
LI
07262
07263
07412
07413
LSI
LSIG
07264
07267
07414
07417
I
LI
07298
07299
07448
07449
LSI
LSIG
07300
07303
07450
07453
I
LI
07370
07371
07520
07521
LSI
LSIG
07372
07375
07522
07525
RC = Rear terminals for cables
S4H 250 F RC
In 250 A I
LI
07334
07335
07484
07485
LSI
LSIG
07336
07339
07486
07489
EF = Extended front terminals
S4H 250 F EF
In 250 A
FC Cu = Front terminals
for copper cables
S4H 250 F FC Cu
In 250 A
FC CuAl = Front terminals
for copper/aluminium cables
S4H 250 F FC CuAl
In 250 A
R = Threaded rear terminals
S4H 250 F R
In 250 A
7
ABB SACE
7/29
Order codes
SACE Isomax S4 circuit-breaker
F = FIXED
S4L 250
Iu (40 °C) =
Microprocessor-based
release
F = Front terminals
S4L 250 F F
In 250 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
100 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
17582
17583
17648
17649
LSI
LSIG
17584
17587
17650
17653
I
LI
07550
07551
07700
07701
LSI
LSIG
07552
07555
07702
07705
I
LI
07586
07587
07736
07737
LSI
LSIG
07588
07591
07738
07741
I
LI
07622
07623
07772
07773
LSI
LSIG
07624
07627
07774
07777
I
LI
07694
07695
07844
07845
LSI
LSIG
07696
07699
07846
07849
RC = Rear terminals for cables
S4L 250 F RC
In 250 A I
LI
07658
07659
07808
07809
LSI
LSIG
07660
07663
07810
07813
EF = Extended front terminals
S4L 250 F EF
In 250 A
PSIS9610
250 A
PR211
P
FC Cu = Front terminals
for copper cables
S4L 250 F FC Cu
In 250 A
FC CuAl = Front terminals
for copper/aluminium cables
S4L 250 F FC CuAl
In 250 A
R = Threaded rear terminals
S4L 250 F R
In 250 A
7
7/30
ABB SACE
Order codes
SACE Isomax S4 circuit-breaker
P = PLUG-IN
Moving part
S4N 250
Iu (40 °C) = 250 A
PR211
P
Microprocessor-based
release
PSIS9610
S4N 250 P MP
S4H 250
In 250 A
I
LI
S4H 250 P MP
S4L 250
In 250 A
I
LI
In 250 A
250 A
PR211
P
I
LI
07850
07851
PR211
P
PSIS9610
S4N 250 W MP
S4H 250
In 250 A
I
LI
S4H 250 W MP
S4L 250
In 250 A
I
LI
In 250 A
250 A
PR211
P
I
LI
Icu (415 V) =
07862
07863
Icu (415 V) =
07220
07221
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
07532
07533
Iu (40 °C) =
Microprocessor-based
release
S4L 250 W MP
250 A
PR211
P
Microprocessor-based
release
07538
07539
code 1SDA0 . . . . . R1
3 poles
4 poles
07208
07209
Iu (40 °C) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
W = WITHDRAWABLE Moving part
S4N 250
Iu (40 °C) = 250 A
Microprocessor-based
release
07214
07215
code 1SDA0 . . . . . R1
3 poles
4 poles
07526
07527
Iu (40 °C) =
Microprocessor-based
release
S4L 250 P MP
250 A
PR211
P
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
4 poles
07202
07203
Iu (40 °C) =
Icu (415 V) =
07544
07545
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
07856
07857
07868
07869
35 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
07204
07207
07216
07219
65 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
07528
07531
07540
07543
100 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
07852
07855
07864
07867
35 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
07210
07213
07222
07225
65 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
07534
07537
07546
07549
100 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
07858
07861
07870
07873
7
ABB SACE
7/31
Order codes
SACE Isomax S5 circuit-breaker
F = FIXED
S5N 400
Iu (40 °C) =
PSIS9613
Thermomagnetic
release
Im = 5...10
Ith
F = Front terminals
S5N 400 F F
R 320
S5N 400 F F
R 400
EF = Extended front
terminals
S5N 400 F EF
R 320
S5N 400 F EF
R 400
FC Cu = Front terminals
for copper cables
S5N 400 F FC Cu
R 320
S5N 400 F FC Cu
R 400
FC CuAl = Front terminals
for copper/aluminium cables
S5N 400 F FC CuAl* R 320
S5N 400 F FC CuAl* R 400
S5N 400 F FC CuAl** R 320
S5N 400 F FC CuAl** R 400
R = Threaded rear terminals
S5N 400 F R
R 320
S5N 400 F R
R 400
RC = Rear terminals
for cables
S5N 400 F RC
R 320
S5N 400 F RC
R 400
F = Front terminals
S5N 400 F F
In 320 A
S5N 400 F F
In 400 A
EF = Extended front
terminals
S5N 400 F EF
In 320 A
S5N 400 F EF
In 400 A
FC Cu = Front terminals
for copper cables
S5N 400 F FC Cu
In 320 A
In 400 A
FC CuAl = Front terminals
for copper/aluminium cables
S5N 400 F FC CuAl* In 320 A
S5N 400 F FC CuAl*
In 400 A
S5N 400 F FC CuAl** In 320 A
S5N 400 F FC CuAl** In 400 A
R = Threaded rear terminals
S5N 400 F R
In 320 A
7
S5N 400 F R
In 400 A
RC = Rear terminals
for cables
S5N 400 F RC
In 320 A
S5N 400 F RC
In 400 A
Icu (415 V) =
38438
38439
38440
38441
3200A
4000A
38442
38443
38444
38445
3200A
4000A
38446
38447
38448
38449
3200A
4000A
3200A
4000A
38450
38451
38466
38467
38452
38453
38480
38481
3200A
4000A
38486
38487
38488
38489
3200A
4000A
38482
38483
38484
38485
PR211
P
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
Microprocessor-based
release
S5N 400 F FC Cu
400 A
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
17714
17716
17715
17717
17846
17848
17847
17849
LSI
LSIG
LSI
LSIG
17718
17724
17719
17725
17850
17856
17851
17857
I
LI
I
LI
07874
07876
07875
07877
08174
08176
08175
08177
LSI
LSIG
LSI
LSIG
07878
07884
07879
07885
08178
08184
08179
08185
I
LI
I
LI
07946
07948
07947
07949
08246
08248
08247
08249
LSI
LSIG
LSI
LSIG
07950
07956
07951
07957
08250
08256
08251
08257
I
LI
I
LI
I
LI
I
LI
08018
08020
08019
08021
38454
38456
38455
38457
08318
08320
08319
08321
38468
38470
38469
38471
LSI
LSIG
LSI
LSIG
LSI
LSIG
LSI
LSIG
08022
08028
08023
08029
38458
38464
38459
38465
08322
08328
08323
08329
38472
38478
38473
38479
I
LI
I
LI
08162
08164
08163
08165
08450
08452
08451
08453
LSI
LSIG
LSI
LSIG
08166
08172
08167
08173
08454
08460
08455
08461
I
LI
I
LI
08090
08092
08091
08093
08390
08392
08391
08393
LSI
LSIG
LSI
LSIG
08094
08100
08095
08101
08394
08400
08395
08401
* Cable section = 1 x 240 mm2
** Cable section = 2 x 120 mm2
7/32
ABB SACE
Order codes
SACE Isomax S5 circuit-breaker
F = FIXED
S5H 400
Iu (40 °C) =
Im = 5...10
Ith
PSIS9613
Thermomagnetic
release
F = Front terminals
S5H 400 F F
R 320
S5H 400 F F
R 400
EF = Extended front terminals
S5H 400 F EF
R 320
S5H 400 F EF
R 400
FC Cu = Front terminals
for copper cables
S5H 400 F FC Cu
R 320
S5H 400 F FC Cu
R 400
FC CuAl = Front terminals
for copper/aluminium cables
S5H 400 F FC CuAl*
R 320
S5H 400 F FC CuAl*
R 400
S5H 400 F FC CuAl** R 320
S5H 400 F FC CuAl** R 400
R = Threaded rear terminals
S5H 400 F R
R 320
S5H 400 F R
R 400
RC = Rear terminals for cables
S5H 400 F RC
R 320
S5H 400 F RC
R 400
Microprocessor-based
release
F = Front terminals
S5H 400 F F
In 320 A
S5H 400 F F
In 400 A
EF = Extended front terminals
S5H 400 F EF
In 320 A
S5H 400 F EF
In 400 A
FC Cu = Front terminals
for copper cables
S5H 400 F FC Cu
In 320 A
S5H 400 F FC Cu
In 400 A
FC CuAl = Front terminals
for copper/aluminium cables
S5H 400 F FC CuAl*
In 320 A
S5H 400 F FC CuAl*
In 400 A
S5H 400 F FC CuAl**
In 320 A
S5H 400 F FC CuAl**
In 400 A
R = Threaded rear terminals
S5H 400 F R
In 320 A
S5H 400 F R
In 400 A
RC = Rear terminals for cables
S5H 400 F RC
In 320 A
S5H 400 F RC
400 A
In 400 A
Icu (415 V) =
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
38522
38523
38524
38525
3200A
4000A
38526
38527
38528
38529
3200A
4000A
38530
38531
38532
38533
3200A
4000A
3200A
4000A
38534
38535
38550
38551
38536
38537
38564
38565
3200A
4000A
38570
38571
38572
38573
3200A
4000A
38566
38567
38568
38569
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
17990
17992
17991
17993
18122
18124
18123
18125
LSI
LSIG
LSI
LSIG
17994
18000
17995
18001
18126
18132
18127
18133
I
LI
I
LI
08510
08512
08511
08513
08810
08812
08811
08813
LSI
LSIG
LSI
LSIG
08514
08520
08515
08521
08814
08820
08815
08821
I
LI
I
LI
08582
08584
08583
08585
08882
08884
08883
08885
LSI
LSIG
LSI
LSIG
08586
08592
08587
08593
08886
08892
08887
08893
I
LI
I
LI
I
LI
I
LI
08654
08656
08655
08657
38538
38540
38539
38541
08954
08956
08955
08957
38552
38554
38553
38555
LSI
LSIG
LSI
LSIG
LSI
LSIG
LSI
LSIG
08658
08664
08659
08665
38542
38548
38543
38549
08958
08964
08959
08965
38556
38563
38557
38562
I
LI
I
LI
08798
08800
08799
08801
09098
09100
09099
09101
LSI
LSIG
LSI
LSIG
08802
08808
08803
08809
09102
09108
09103
09109
I
LI
I
LI
08726
08728
08727
08729
09026
09028
09027
09029
LSI
LSIG
LSI
LSIG
08730
08736
08731
08737
09030
09036
09031
09037
7
* Cable section = 1 x 240 mm2
** Cable section = 2 x 120 mm2
ABB SACE
7/33
Order codes
SACE Isomax S5 circuit-breaker
F = FIXED
S5L 400
Iu (40 °C) =
PSIS9613
Thermomagnetic
release
Im = 5...10
Ith
F = Front terminals
S5L 400 F F
R 320
S5L 400 F F
R 400
EF = Extended front terminals
S5L 400 F EF
R 320
S5L 400 F EF
R 400
FC Cu = Front terminals
for copper cables
S5L 400 F FC Cu
R 320
S5L 400 F FC Cu
R 400
FC CuAl = Front terminals
for copper/aluminium cables
S5L 400 F FC CuAl*
R 320
S5L 400 F FC CuAl*
R 400
S5L 400 F FC CuAl** R 320
S5L 400 F FC CuAl** R 400
R = Threaded rear terminals
S5L 400 F R
R 320
S5L 400 F R
R 400
RC = Rear terminals for cables
S5L 400 F RC
R 320
S5L 400 F RC
R 400
Microprocessor-based
release
F = Front terminals
S5L 400 F F
In 320 A
S5L 400 F F
In 400 A
EF = Extended front terminals
S5L 400 F EF
In 320 A
S5L 400 F EF
In 400 A
FC Cu = Front terminals
for copper cables
S5L 400 F FC Cu
In 320 A
S5L 400 F FC Cu
In 400 A
FC CuAl = Front terminals
for copper/aluminium cables
S5L 400 F FC CuAl*
In 320 A
S5L 400 F FC CuAl*
In 400 A
S5L 400 F FC CuAl**
In 320 A
S5L 400 F FC CuAl**
In 400 A
R = Threaded rear terminals
S5L 400 F R
In 320 A
S5L 400 F R
In 400 A
RC = Rear terminals for cables
S5L 400 F RC
In 320 A
S5L 400 F RC
7
400 A
In 400 A
Icu (415 V) =
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
38606
38607
38608
38609
3200A
4000A
38610
38611
38612
38613
3200A
4000A
38614
38615
38616
38617
3200A
4000A
3200A
4000A
38618
38619
38634
38635
38620
38621
38648
38649
3200A
4000A
38654
38655
38656
38657
3200A
4000A
38650
38651
38652
38653
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
18254
18256
18255
18257
18386
18388
18387
18389
LSI
LSIG
LSI
LSIG
18258
18264
18259
18265
18390
18396
18391
18397
I
LI
I
LI
09158
09160
09159
09161
09458
09460
09459
09461
LSI
LSIG
LSI
LSIG
09162
09168
09163
09169
09462
09468
09463
09469
I
LI
I
LI
09230
09232
09231
09233
09530
09532
09531
09533
LSI
LSIG
LSI
LSIG
09234
09240
09235
09241
09534
09540
09535
09541
I
LI
I
LI
I
LI
I
LI
09302
09304
09303
09305
38622
38624
38623
38625
09602
09604
09603
09605
38636
38638
38637
38639
LSI
LSIG
LSI
LSIG
LSI
LSIG
LSI
LSIG
09306
09312
09307
09313
38626
38628
38627
38629
09606
09612
09607
09613
38640
38646
38641
38647
I
LI
I
LI
09446
09448
09447
09449
09746
09748
09747
09749
LSI
LSIG
LSI
LSIG
09450
09456
09451
09457
09750
09756
09751
09757
I
LI
I
LI
09374
09376
09375
09377
09674
09676
09675
09677
LSI
LSIG
LSI
LSIG
09378
09384
09379
09385
09678
09684
09679
09685
* Cable section = 1 x 240 mm2
** Cable section = 2 x 120 mm2
7/34
ABB SACE
Order codes
SACE Isomax S5 circuit-breaker
P = PLUG-IN
Moving part
S5N 400
Iu (40 °C) = 400 A
Im = 5...10
Ith
Thermomagnetic
release
PSIS9613
S5N 400 P MP
S5N 400 P MP
R 320
R 400
Microprocessor-based
release
S5N 400 P MP
In 320 A
S5N 400 P MP
In 400 A
S5H 400
S5H 400 P MP
S5H 400 P MP
R 320
R 400
S5H 400 P MP
In 320 A
S5H 400 P MP
In 400 A
code 1SDA0 . . . . . R1
3 poles
4 poles
08462
08464
08463
08465
400 A
In 320 A
S5L 400 P MP
In 400 A
Icu (415 V) =
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
08466
08472
08467
08473
08490
08496
08491
08497
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
09110
09112
09111
09113
400 A
43904
43905
09134
09136
09135
09137
Icu (415 V) =
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
09114
09120
09115
09121
09138
09144
09139
09145
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
43900
43901
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR211
P
I
LI
I
LI
Microprocessor-based
release
S5L 400 P MP
08486
08488
08487
08489
43898
43899
Im = 5...10
Ith
R 320
R 400
43902
43903
3200A
4000A
Iu (40 °C) =
Thermomagnetic
release
S5L 400 P MP
S5L 400 P MP
PR211
P
Im = 5...10
Ith
Microprocessor-based
release
S5L 400
43896
43897
I
LI
I
LI
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
Iu (40 °C) =
Thermomagnetic
release
Icu (415 V) =
09758
09760
09759
09761
43906
43907
09782
09784
09783
09785
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
09762
09768
09763
09769
09786
09792
09787
09793
7
ABB SACE
7/35
Order codes
SACE Isomax S5 circuit-breaker
W = WITHDRAWABLE Moving part
S5N 400 Iu (40 °C) = 400 A
Im = 5...10
Ith
Thermomagnetic
release
PSIS9613
S5N 400 W MP
S5N 400 W MP
R 320
R 400
In 320 A
38414
38415
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
S5N 400 W MP
In 400 A
S5H 400
Iu (40 °C) =
R 320
R 400
S5H 400 W MP
In 320 A
S5H 400 W MP
In 400 A
Iu (40 °C) =
S5L 400 W MP
S5L 400 W MP
R 320
R 400
In 320 A
S5L 400 W MP
In 400 A
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
08478
08484
08479
08485
08502
08508
08503
08509
code 1SDA0 . . . . . R1
3 poles
4 poles
38490
38491
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
09122
09124
09123
09125
38492
38493
09146
09148
09147
09149
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
09126
09132
09127
09133
09150
09156
09151
09157
400 A Icu (415 V) = 100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
38574
38575
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
Microprocessor-based
release
S5L 400 W MP
08498
08500
08499
08501
3200A
4000A
Im = 5...10
Ith
Thermomagnetic
release
38416
38417
400 A Icu (415 V) = 65 kA
Microprocessor-based
release
S5L 400
08474
08476
08475
08477
Im = 5...10
Ith
Thermomagnetic
release
S5H 400 W MP
S5H 400 W MP
I
LI
I
LI
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
Microprocessor-based
release
S5N 400 W MP
Icu (415 V) =
I
LI
I
LI
09770
09772
09771
09773
38576
38577
09794
09796
09795
09797
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
09774
09780
09775
09781
09798
09804
09799
09805
7
7/36
ABB SACE
Order codes
SACE Isomax S5 circuit-breaker
W = WITHDRAWABLE Moving part (1)
S5N 400
Iu (40 °C) = 400 A
Im = 5...10
Ith
Thermomagnetic
release
PSIS9613
S5N 400 W MP
S5N 400 W MP
R 320
R 400
In 320 A
38426
38427
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
S5N 400 W MP
In 400 A
S5H 400
R 320
R 400
S5H 400 W MP
In 320 A
S5H 400 W MP
In 400 A
In 320 A
S5L 400 W MP
In 400 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38422
38424
38423
38425
38432
38434
38433
38435
65 kA
38494
38496
38495
38497
400 A
38520
38521
38508
38510
38509
38511
Icu (415 V) =
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38498
38504
38499
38505
38512
38518
38513
38519
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
38590
38591
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR211
P
Microprocessor-based
release
S5L 400 W MP
38428
38430
51608
38431
38506
38507
Im = 5...10
Ith
R 320
R 400
38436
38437
3200A
4000A
Iu (40 °C) =
Thermomagnetic
release
S5L 400 W MP
S5L 400 W MP
400 A
Im = 5...10
Ith
Microprocessor-based
release
S5L 400
38418
38420
38419
38421
Iu (40 °C) =
Thermomagnetic
release
S5H 400 W MP
S5H 400 W MP
I
LI
I
LI
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
3200A
4000A
Microprocessor-based
release
S5N 400 W MP
Icu (415 V) =
38578
38580
38579
38581
38604
38605
38592
38594
38593
38595
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38582
38588
38583
38589
38596
38602
38597
38603
(1) The S5 400 mobile parts indicated on this page can be used in conjunction with S5 630 W FP fixed parts.
Two different fixed parts are available for circuit-breakers S5 400 and S5 630.
Fixed circuit-breaker S5 400:
– converted into the mobile part of a withdrawable circuit-breaker using kit 1SDA0 13718 R1 (three-pole), 1SDA0 13719 R1
(four-pole) can be used in conjunction with the fixed part for S5 400 (see codes on pages 7/81).
– converted into the mobile part of a withdrawable circuit-breaker using kit 1SDA0 38778 R1 (three-pole), 1SDA0 38779 R1
(four-pole) can be used in conjunction with the fixed part for S5 630. This page shows the codes for the mobile parts of
withdrawable circuit-breakers which have already been converted and can be used in conjunction with the fixed parts for
S5 630.
Circuit-breaker S5 630 can be converted into the mobile part of a withdrawable circuit-breaker using kit 1SDA0 38778 R1
(three-pole), 1SDA0 38779 R1 (four-pole) and used in conjunction exclusively with the fixed parts for S5 630 (see codes on
page 7/81).
ABB SACE
7/37
7
Order codes
SACE Isomax S5 circuit-breaker
F = FIXED
S5N 630
Iu (40 °C) =
PSIS9613
Thermomagnetic
release
F = Front terminals
S5N 630 F F
R 500
ES = Spreaded extended
front terminals
S5N 630 F ES
R 500
FC Cu = Front terminals
for copper cables
S5N 630 F FC Cu
R 500
R = Threaded rear terminals
S5N 630 F R
R 500
Microprocessor-based
release
F = Front terminals
S5N 630 F F
In 630 A
ES = Spreaded extended
front terminals
S5N 630 F ES
In 630 A
FC Cu = Front terminals
for copper cables
S5N 630 F FC Cu
In 630 A
R = Threaded rear terminals
S5N 630 F R
In 630 A
S5H 630
38683
5000A
38684
38685
5000A
38686
38687
5000A
38690
38691
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
R = Threaded rear terminals
S5H 630 F R
In 630 A
code 1SDA0 . . . . . R1
3 poles
4 poles
38674
38675
38679
38680
LSI
LSIG
38676
38677
38681
38682
I
LI
14575
14576
14725
14726
LSI
LSIG
14577
14580
14727
14730
I
LI
14611
14612
14761
14762
LSI
LSIG
14613
14616
14763
14766
I
LI
14719
14720
14869
14870
LSI
LSIG
14721
14724
14871
14874
Microprocessor-based
release
FC Cu = Front terminals
for copper cables
S5H 630 F FC Cu
In 630 A
PR212
P
I
LI
F = Front terminals
S5H 630 F F
R 500
ES = Spreaded extended
front terminals
S5H 630 F ES
R 500
FC Cu = Front terminals
for copper cables
S5H 630 F FC Cu
R 500
R = Threaded rear terminals
S5H 630 F R
R 500
ES = Spreaded extended
front terminals
S5H 630 F ES
In 630 A
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
38678
630 A
Im = 5...10
Ith
In 630 A
Icu (415 V) =
5000A
Iu (40 °C) =
Thermomagnetic
release
F = Front terminals
S5H 630 F F
630 A
Im = 5...10
Ith
Icu (415 V) =
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
5000A
38708
38713
5000A
38714
38715
5000A
38716
38717
5000A
38720
38721
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
38704
38705
38709
38710
LSI
LSIG
38706
38707
38711
38712
I
LI
14899
14900
15049
15050
LSI
LSIG
14901
14904
15051
15054
I
LI
14935
14936
15085
15086
LSI
LSIG
14937
14940
15087
15090
I
LI
15043
15044
15193
15194
LSI
LSIG
15045
15048
15195
15198
7
7/38
ABB SACE
Order codes
SACE Isomax S5 circuit-breaker
F = FIXED
S5L 630
Iu (40 °C) =
PSIS9613
Thermomagnetic
release
F = Front terminals
S5L 630 F F
R 500
ES = Spreaded extended
front terminals
S5L 630 F ES
R 500
FC Cu = Front terminals
for copper cables
S5L 630 F FC Cu
R 500
R = Threaded rear terminals
S5L 630 F R
R 500
Microprocessor-based
release
F = Front terminals
S5L 630 F F
630 A
Im = 5...10
Ith
In 630 A
ES = Spreaded extended
front terminals
S5L 630 F ES
In 630 A
FC Cu = Front terminals
for copper cables
S5L 630 F FC Cu
In 630 A
R = Threaded rear terminals
S5L 630 F R
In 630 A
Icu (415 V) =
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
5000A
38740
38745
5000A
38746
38747
5000A
38748
38749
5000A
38752
38753
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
38736
38737
38741
38742
LSI
LSIG
38738
38739
38743
38744
I
LI
15223
15224
15373
15374
LSI
LSIG
47991
15228
43801
15378
I
LI
15259
15260
15409
15410
LSI
LSIG
43748
15264
43815
15414
I
LI
15367
15368
15517
15518
LSI
LSIG
43775
15372
43843
15522
7
ABB SACE
7/39
Order codes
SACE Isomax S5 circuit-breaker
W = WITHDRAWABLE Moving part
S5N 630 Iu (40 °C) = 630 A Icu (415 V) = 35 kA
Im = 5...10
Ith
Thermomagnetic
release
PSIS9613
S5N 630 W MP
R 500
5000A
38666
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
Microprocessor-based
release
S5N 630 W MP
S5H 630
In 630 A
S5H 630 W MP
I
LI
S5L 630
R 500
In 630 A
In 630 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38662
38665
38669
38672
65 kA
38693
38694
630 A
38703
38699
38700
Icu (415 V) =
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38695
38696
38701
38702
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
5000A
38729
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR211
P
Microprocessor-based
release
S5L 630 W MP
38667
38668
38697
Im = 5...10
Ith
R 500
38673
5000A
Iu (40 °C) =
Thermomagnetic
release
S5L 630 W MP
630 A
Im = 5...10
Ith
Microprocessor-based
release
S5H 630 W MP
38660
38661
Iu (40 °C) =
Thermomagnetic
release
code 1SDA0 . . . . . R1
3 poles
4 poles
38723
38724
38754
38730
38731
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38725
38728
38732
38734
7
7/40
ABB SACE
Order codes
SACE Isomax S6 circuit-breaker
F = FIXED
S6N 630
Iu (40 °C) =
PSIS9616
Thermomagnetic
release
F = Front terminals
S6N 630 F F
R 630
EF = Extended front terminals
S6N 630 F EF
R 630
FC CuAl = Front terminals
for copper/aluminium cables
S6N 630 F FC CuAl*
R 630
R = Threaded rear terminals
S6N 630 F R
R 630
RC = Rear terminals for cables
S6N 630 F RC
R 630
Microprocessor-based
release
F = Front terminals
S6N 630 F F
In 630 A
EF = Extended front terminals
S6N 630 F EF
In 630 A
FC CuAl = Front terminals
for copper/aluminium cables
S6N 630 F FC CuAl*
In 630 A
R = Threaded rear terminals
S6N 630 F R
In 630 A
RC = Rear terminals for cables
S6N 630 F RC
In 630 A
S6S 630
38788
6300A
38789
38790
6300A
38791
38792
6300A
38795
38796
6300A
38793
38794
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
R = Threaded rear terminals
S6S 630 F R
In 630 A
RC = Rear terminals for cables
S6S 630 F RC
In 630 A
code 1SDA0 . . . . . R1
3 poles
4 poles
18518
18519
18572
18573
LSI
LSIG
18520
18523
18574
18577
I
LI
09806
09807
09902
09903
LSI
LSIG
09808
09811
09904
09907
I
LI
09836
09837
09932
09933
LSI
LSIG
09838
09841
09934
09937
I
LI
09896
09897
09992
09993
LSI
LSIG
09898
09901
09994
09997
I
LI
09866
09867
09962
09963
LSI
LSIG
09868
09871
09964
09967
Microprocessor-based
release
FC CuAl = Front terminals
for copper/aluminium cables
S6S 630 F FC CuAl*
In 630 A
PR212
P
I
LI
F = Front terminals
S6S 630 F F
R 630
EF = Extended front terminals
S6S 630 F EF
R 630
FC CuAl = Front terminals
for copper/aluminium cables
S6S 630 F FC CuAl*
R 630
R = Threaded rear terminals
S6S 630 F R
R 630
RC = Rear terminals for cables
S6S 630 F RC
R 630
EF = Extended front terminals
S6S 630 F EF
In 630 A
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
38787
630 A
Im = 5...10
Ith
In 630 A
Icu (415 V) =
6300A
Iu (40 °C) =
Thermomagnetic
release
F = Front terminals
S6S 630 F F
630 A
Im = 5...10
Ith
Icu (415 V) =
50 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
6300A
38799
38800
6300A
38801
38802
6300A
38817
38818
6300A
38957
38959
6300A
38819
38820
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
18626
18627
18680
18681
LSI
LSIG
18628
18631
18682
18685
I
LI
10010
10011
10106
10107
LSI
LSIG
10012
10015
10108
10111
I
LI
10040
10041
10136
10137
LSI
LSIG
10042
10045
10138
10141
I
LI
10100
10101
10196
10197
LSI
LSIG
10102
10105
10198
10201
I
LI
10070
10071
10166
10167
LSI
LSIG
10072
10075
10168
10171
7
* Cable section = 1 x 240 mm2
ABB SACE
7/41
Order codes
SACE Isomax S6 circuit-breaker
F = FIXED
S6H 630
Iu (40 °C) =
PSIS9616
Thermomagnetic
release
F = Front terminals
S6H 630 F F
R 630
EF = Extended front terminals
S6H 630 F EF
R 630
FC CuAl = Front terminals
for copper/aluminium cables
S6H 630 F FC CuAl*
R 630
R = Threaded rear terminals
S6H 630 F R
R 630
RC = Rear terminals for cables
S6H 630 F RC
R 630
Microprocessor-based
release
F = Front terminals
S6H 630 F F
In 630 A
EF = Extended front terminals
S6H 630 F EF
In 630 A
FC CuAl = Front terminals
for copper/aluminium cables
S6H 630 F FC CuAl*
In 630 A
R = Threaded rear terminals
S6H 630 F R
In 630 A
RC = Rear terminals for cables
S6H 630 F RC
In 630 A
S6L 630
6300A
38825
38826
6300A
38827
38835
6300A
38958
38960
6300A
38843
38844
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
FC CuAl = Front terminals
for copper/aluminium cables
S6L 630 F FC CuAl*
In 630 A
R = Threaded rear terminals
S6L 630 F R
In 630 A
RC = Rear terminals for cables
S6L 630 F RC
In 630 A
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
18734
18735
18788
18789
LSI
LSIG
18736
18739
18790
18793
I
LI
10214
10215
10310
10311
LSI
LSIG
10216
10219
10312
10315
I
LI
10244
10245
10340
10341
LSI
LSIG
10246
10249
10342
10345
I
LI
10304
10305
10400
10401
LSI
LSIG
10306
10309
10402
10405
I
LI
10274
10275
10370
10371
LSI
LSIG
10276
10279
10372
10375
Microprocessor-based
release
7
38824
I
LI
F = Front terminals
S6L 630 F F
R 630
EF = Extended front terminals
S6L 630 F EF
R 630
FC CuAl = Front terminals
for copper/aluminium cables
S6L 630 F FC CuAl*
R 630
R = Threaded rear terminals
S6L 630 F R
R 630
RC = Rear terminals for cables
S6L 630 F RC
R 630
EF = Extended front terminals
S6L 630 F EF
In 630 A
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
38823
630 A
Im = 5...10
Ith
In 630 A
Icu (415 V) =
6300A
Iu (40 °C) =
Thermomagnetic
release
F = Front terminals
S6L 630 F F
630 A
Im = 5...10
Ith
Icu (415 V) =
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
6300A
38847
38848
6300A
38849
38850
6300A
38851
38859
6300A
38961
38962
6300A
38867
38868
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
18842
18843
18896
18897
LSI
LSIG
18844
18847
18898
18901
I
LI
10418
10419
10514
10515
LSI
LSIG
10420
10423
10516
10519
I
LI
10448
10449
10544
10545
LSI
LSIG
10450
10453
10546
10549
I
LI
10508
10509
10604
10605
LSI
LSIG
10510
10513
10606
10609
I
LI
10478
10479
10574
10575
LSI
LSIG
10480
10483
10576
10579
* Cable section = 2 x 240 mm2
7/42
ABB SACE
Order codes
SACE Isomax S6 circuit-breaker
W = WITHDRAWABLE Moving part
S6N 630
Iu (40 °C) = 630 A
Im = 5...10
Ith
Thermomagnetic
release
PSIS9616
S6N 630 W MP
R 630
S6S 630
In 630 A
38785
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
S6H 630
R 630
In 630 A
S6L 630
In 630 A
I
LI
S6L 630 W MP
630 A
R 630
In 630 A
10208
10209
Icu (415 V) =
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
10006
10009
50 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
10204
10207
10210
10213
65 kA
10406
10407
630 A
38822
10412
10413
Icu (415 V) =
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
10408
10411
10414
10417
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
6300A
38845
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
10000
10003
code 1SDA0 . . . . . R1
3 poles
4 poles
38821
Im = 5...10
Ith
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38798
6300A
Microprocessor-based
release
S6L 630 W MP
10202
10203
I
LI
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
code 1SDA0 . . . . . R1
3 poles
4 poles
Iu (40 °C) =
Thermomagnetic
release
Icu (415 V) =
PR211
P
Microprocessor-based
release
S6H 630 W MP
10004
10005
38797
Im = 5...10
Ith
R 630
38786
6300A
Iu (40 °C) =
Thermomagnetic
release
S6H 630 W MP
630 A
Im = 5...10
Ith
Microprocessor-based
release
S6S 630 W MP
09998
09999
Iu (40 °C) =
Thermomagnetic
release
S6S 630 W MP
I
LI
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
6300A
Microprocessor-based
release
S6N 630 W MP
Icu (415 V) =
10610
10611
38846
10616
10617
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
10612
10615
10618
10621
7
ABB SACE
7/43
Order codes
SACE Isomax S6 circuit-breaker
F = FIXED
S6N 800
Iu (40 °C) =
PSIS9616
Thermomagnetic
release
F = Front terminals
S6N 800 F F
R 800
EF = Extended front terminals
S6N 800 F EF
R 800
FC CuAl = Front terminals
for copper/aluminium cables
S6N 800 F FC CuAl*
R 800
R = Threaded rear terminals
S6N 800 F R
R 800
RC = Rear terminals for cables
S6N 630 F RC
R 800
Microprocessor-based
release
F = Front terminals
S6N 800 F F
In 800 A
EF = Extended front terminals
S6N 800 F EF
In 800 A
FC CuAl = Front terminals
for copper/aluminium cables
S6N 800 F FC CuAl*
In 800 A
R = Threaded rear terminals
S6N 800 F R
In 800 A
RC = Rear terminals for cables
S6N 800 F RC
In 800 A
S6S 800
8000A
38873
38874
8000A
38875
38876
8000A
38879
38880
8000A
38877
38878
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
FC CuAl = Front terminals
for copper/aluminium cables
S6S 800 F FC CuAl*
In 800 A
R = Threaded rear terminals
S6S 800 F R
In 800 A
RC = Rear terminals for cables
S6S 800 F RC
In 800 A
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
18950
18951
19004
19005
LSI
LSIG
18952
18955
19006
19009
I
LI
10622
10623
10718
10719
LSI
LSIG
10624
10627
10720
10723
I
LI
10652
10653
10748
10749
LSI
LSIG
10654
10657
10750
10753
I
LI
10712
10713
10808
10809
LSI
LSIG
10714
10717
10810
10813
I
LI
10682
10683
10778
10779
LSI
LSIG
10684
10687
10780
10783
Microprocessor-based
release
7
38872
I
LI
F = Front terminals
S6S 800 F F
R 800
EF = Extended front terminals
S6S 800 F EF
R 800
FC CuAl = Front terminals
for copper/aluminium cables
S6S 800 F FC CuAl*
R 800
R = Threaded rear terminals
S6S 800 F R
R 800
RC = Rear terminals for cables
S6S 800 F RC
R 800
EF = Extended front terminals
S6S 800 F EF
In 800 A
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
38871
800 A
Im = 5...10
Ith
In 800 A
Icu (415 V) =
8000A
Iu (40 °C) =
Thermomagnetic
release
F = Front terminals
S6S 800 F F
800 A
Im = 5...10
Ith
Icu (415 V) =
50 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
8000A
38883
38884
8000A
38885
38886
8000A
38887
38895
8000A
38963
38964
8000A
38903
38904
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
19058
19059
19112
19113
LSI
LSIG
19060
19063
19114
19117
I
LI
10826
10827
10922
10923
LSI
LSIG
10828
10831
10924
10927
I
LI
10856
10857
10952
10953
LSI
LSIG
10858
10861
10954
10957
I
LI
10916
10917
11006
11007
LSI
LSIG
10918
10921
11008
11011
I
LI
10886
10887
10976
10977
LSI
LSIG
10888
10891
10978
10981
* Cable section = 3 x 185 mm2
7/44
ABB SACE
Order codes
SACE Isomax S6 circuit-breaker
F = FIXED
S6H 800
Iu (40 °C) =
PSIS9616
Thermomagnetic
release
F = Front terminals
S6H 800 F F
R 800
EF = Extended front terminals
S6H 800 F EF
R 800
FC CuAl = Front terminals
for copper/aluminium cables
S6H 800 F FC CuAl*
R 800
R = Threaded rear terminals
S6H 800 F R
R 800
RC = Rear terminals for cables
S6H 800 F RC
R 800
Microprocessor-based
release
F = Front terminals
S6H 800 F F
In 800 A
EF = Extended front terminals
S6H 800 F EF
In 800 A
FC CuAl = Front terminals
for copper/aluminium cables
S6H 800 F FC CuAl*
In 800 A
R = Threaded rear terminals
S6H 800 F R
In 800 A
RC = Rear terminals for cables
S6H 800 F RC
In 800 A
S6L 800
38908
8000A
38909
38910
8000A
38911
38919
8000A
38965
38966
8000A
38927
38928
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
R = Threaded rear terminals
S6L 800 F R
In 800 A
RC = Rear terminals for cables
S6L 800 F RC
In 800 A
code 1SDA0 . . . . . R1
3 poles
4 poles
19166
19167
19220
19221
LSI
LSIG
19168
19171
19222
19225
I
LI
11024
11025
11120
11121
LSI
LSIG
11026
11029
11122
11125
I
LI
11054
11055
11150
11151
LSIG
LSIG
11056
11059
11152
11155
I
LI
11114
11115
11210
11211
LSIG
LSIG
11116
11119
11212
11215
I
LI
11084
11085
11180
11181
LSI
LSIG
11086
11089
11182
11185
Microprocessor-based
release
FC CuAl = Front terminals
for copper/aluminium cables
S6L 800 F FC CuAl*
In 800 A
PR212
P
I
LI
F = Front terminals
S6L 800 F F
R 800
EF = Extended front terminals
S6L 800 F EF
R 800
FC CuAl = Front terminals
for copper/aluminium cables
S6L 800 F FC CuAl*
R 800
R = Threaded rear terminals
S6L 800 F R
R 800
RC = Rear terminals for cables
S6L 800 F RC
R 800
EF = Extended front terminals
S6L 800 F EF
In 800 A
65 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
38907
800 A
Im = 5...10
Ith
In 800 A
Icu (415 V) =
8000A
Iu (40 °C) =
Thermomagnetic
release
F = Front terminals
S6L 800 F F
800 A
Im = 5...10
Ith
Icu (415 V) =
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
8000A
38931
38932
8000A
38933
38934
8000A
38935
38943
8000A
38973
38974
8000A
38951
38952
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
19274
19275
19328
19329
LSI
LSIG
19276
19279
19330
19333
I
LI
11228
11229
11324
11325
LSI
LSIG
11230
11233
11326
11329
I
LI
11258
11259
11354
11355
LSI
LSIG
11260
11263
11356
11359
I
LI
11318
11319
11414
11415
LSI
LSIG
11320
11323
11416
11419
I
LI
11288
11289
11384
11385
LSI
LSIG
11290
11293
11386
11389
7
* Cable section = 3 x 185 mm2
ABB SACE
7/45
Order codes
SACE Isomax S6 circuit-breaker
W = WITHDRAWABLE Moving part
S6N 800
Iu (40 °C) = 800 A
Im = 5...10
Ith
Thermomagnetic
release
PSIS9616
S6N 800 W MP
R 800
S6S 800
In 800 A
38869
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
S6H 800
R 800
In 800 A
S6L 800
In 800 A
I
LI
S6L 800 W MP
800 A
R 800
In 800 A
11018
11019
Icu (415 V) =
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
10822
10825
50 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
11014
11017
11020
11023
65 kA
11216
11217
800 A
38906
11222
11223
Icu (415 V) =
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
11218
11221
11224
11227
100 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
8000A
38929
PR211
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
10816
10819
code 1SDA0 . . . . . R1
3 poles
4 poles
38905
Im = 5...10
Ith
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
38882
8000A
Microprocessor-based
release
S6L 800 W MP
11012
11013
I
LI
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
code 1SDA0 . . . . . R1
3 poles
4 poles
Iu (40 °C) =
Thermomagnetic
release
Icu (415 V) =
PR211
P
Microprocessor-based
release
S6H 800 W MP
10820
10821
38881
Im = 5...10
Ith
R 800
38870
8000A
Iu (40 °C) =
Thermomagnetic
release
S6H 800 W MP
800 A
Im = 5...10
Ith
Microprocessor-based
release
S6S 800 W MP
10814
10815
Iu (40 °C) =
Thermomagnetic
release
S6S 800 W MP
I
LI
35 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
8000A
Microprocessor-based
release
S6N 800 W MP
Icu (415 V) =
11420
11421
38930
11682
11683
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
11422
11425
11684
11687
7
7/46
ABB SACE
Order codes
SACE Isomax S7 circuit-breaker
F = FIXED
S7S 1250
Iu (40 °C) =
1250 A
PR211
P
Microprocessor-based
release
PSIS9620
F = Front terminals
S7S 1250 F F
In 1000 A I
LI
S7S 1250 F F
In 1250 A I
LI
EF = Extended front terminals
S7S 1250 F EF
In 1000 A I
LI
S7S 1250 F EF
In 1250 A I
LI
FC CuAl = Front terminals
for copper/aluminium cables
S7S 1250 F FC CuAl In 1000 A I
LI
S7S 1250 F FC CuAl In 1250 A I
LI
VR = Vertical flat-bar
rear terminals
S7S 1250 F VR
In 1000 A I
LI
S7S 1250 F VR
In 1250 A I
LI
HR = Horizontal flat-bar
rear terminals
S7S 1250 F HR
In 1000 A I
LI
S7S 1250 F HR
In 1250 A I
LI
S7H 1250
Iu (40 °C) =
Microprocessor-based
release
F = Front terminals
S7H 1250 F F
In 1000 A I
LI
S7H 1250 F F
In 1250 A I
LI
EF = Extended front terminals
S7H 1250 F EF
In 1000 A I
LI
S7H 1250 F EF
In 1250 A I
LI
FC CuAl = Front terminals
for copper/aluminium cables
S7H 1250 F FC CuAl In 1000 A I
LI
S7H 1250 F FC CuAl In 1250 A I
LI
VR = Vertical flat-bar
rear terminals
S7H 1250 F VR
In 1000 A I
LI
S7H 1250 F VR
In 1250 A I
LI
HR = Horizontal flat-bar
rear terminals
S7H 1250 F HR
In 1000 A I
LI
S7H 1250 F HR
In 1250 A I
LI
ABB SACE
PR211
P
Icu (415 V) =
50 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
code 1SDA0 . . . . . R1
3 poles
4 poles
19382
19384
19383
19385
19490
19492
19491
19493
LSI
LSIG
LSI
LSIG
19386
19392
19387
19393
19494
19500
19495
19501
11432
11434
11433
11435
11624
11626
11625
11627
LSI
LSIG
LSI
LSIG
11436
11442
11437
11443
11628
11634
11629
11635
11492
11494
11493
11495
11428
11430
11429
11431
LSI
LSIG
LSI
LSIG
11496
11502
11497
11503
11688
11694
11689
11695
11612
11614
11613
11615
11804
11806
11805
11807
LSI
LSIG
LSI
LSIG
11616
11622
11617
11623
11808
11814
11809
11815
11552
11554
11553
11555
11744
11746
11745
11747
LSI
LSIG
LSI
LSIG
11556
11562
11557
11563
11748
11754
11749
11755
1250 A
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
65 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
19598
19600
19599
19601
19706
19708
19707
19709
LSI
LSIG
LSI
LSIG
19602
19608
19603
19609
19710
19716
19711
19717
11840
11842
11841
11843
12032
12034
12033
12035
LSI
LSIG
LSI
LSIG
11844
11850
11845
11851
12036
12042
12037
12043
11900
11902
11901
11903
12092
12094
12093
12095
LSI
LSIG
LSI
LSIG
11904
11910
11905
11911
12096
12102
12097
12103
12020
12022
12021
12023
12212
12214
12213
12215
LSI
LSIG
LSI
LSIG
12024
12030
12025
12031
12216
12222
12217
12223
11960
11962
11961
11963
12152
12154
12153
12155
LSI
LSIG
LSI
LSIG
11964
11970
11965
11971
12156
12162
12157
12163
7
7/47
Order codes
SACE Isomax S7 circuit-breaker
F = FIXED
S7L 1250
Iu (40 °C) =
1250 A
PR211
P
Microprocessor-based
release
PSIS9620
F = Front terminals
S7L 1250 F F
In 1000 A I
LI
S7L 1250 F F
In 1250 A I
LI
EF = Extended front terminals
S7L 1250 F EF
In 1000 A I
LI
S7L 1250 F EF
In 1250 A I
LI
FC CuAl = Front terminals
for copper/aluminium cables
S7L 1250 F FC CuAl
In 1000 A I
LI
S7L 1250 F FC CuAl
In 1250 A I
LI
VR = Vertical flat-bar
rear terminals
S7L 1250 F VR
In 1000 A I
LI
S7L 1250 F VR
In 1250 A I
LI
HR = Horizontal flat-bar
rear terminals
S7L 1250 F HR
In 1000 A I
LI
S7L 1250 F HR
In 1250 A I
LI
PR211
P
S7S 1250 W MP
S7S 1250 W MP
In 1000 A I
LI
In 1250 A I
LI
S7H 1250
19922
19924
19923
19925
LSI
LSIG
LSI
LSIG
19818
19824
19819
19825
19926
19932
19927
19933
12248
12250
12249
12251
12440
12442
12441
12443
LSI
LSIG
LSI
LSIG
12252
12258
12253
12259
12444
12450
12445
12451
12308
12310
12309
12311
12500
12502
12501
12503
LSI
LSIG
LSI
LSIG
12312
12318
12313
12319
12504
12510
12505
12511
12428
12430
12429
12431
12620
12622
12621
12623
LSI
LSIG
LSI
LSIG
12432
12438
12433
12439
12624
12630
12625
12631
12368
12370
12369
12371
12560
12562
12561
12563
LSI
LSIG
LSI
LSIG
12372
12378
12373
12379
12564
12570
12565
12571
PSIS9620
S7H 1250 W MP
S7H 1250 W MP
In 1000 A I
LI
In 1250 A I
LI
S7L 1250
Microprocessor-based
release
S7L 1250 W MP
S7L 1250 W MP
7
7/48
In 1000 A I
LI
In 1250 A I
LI
1250 A
PR211
P
11828
11830
11829
11831
LSI
LSIG
LSI
LSIG
Icu (415 V) =
12236
12238
12237
12239
12632
12634
12633
12635
12644
12646
12645
12647
code 1SDA0 . . . . . R1
3 poles
4 poles
11820
11826
11821
11827
11832
11838
11833
11839
65 kA
PR212
P
LSI
LSIG
LSI
LSIG
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
50 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
12224
12226
12225
12227
Iu (40 °C) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
1250 A
PR211
P
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
4 poles
19814
19816
19815
19817
11816
11818
11817
11819
Iu (40 °C) =
100 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
W = WITHDRAWABLE Moving part
S7S 1250
Iu (40 °C) = 1250 A
Microprocessor-based
release
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
12228
12234
12229
12235
12240
12246
12241
12247
100 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
12636
12642
12637
12643
12648
12654
12649
12655
ABB SACE
Order codes
SACE Isomax S7 circuit-breaker
F = FIXED
S7S 1600
Iu (40 °C) =
1600 A
PR211
P
Microprocessor-based
release
PSIS9620
F = Front terminals
S7S 1600 F F
In 1600 A I
LI
EF = Extended front terminals
S7S 1600 F EF
In 1600 A I
LI
VR = Vertical flat-bar
rear terminals
S7S 1600 F VR
In 1600 A I
LI
HR = Horizontal flat-bar
rear terminals
S7S 1600 F HR
In 1600 A I
LI
S7H 1600
Iu (40 °C) =
F = Front terminals
S7H 1600 F F
In 1600 A I
LI
EF = Extended front terminals
S7H 1600 F EF
In 1600 A I
LI
VR = Vertical flat-bar
rear terminals
S7H 1600 F VR
In 1600 A I
LI
HR = Horizontal flat-bar
rear terminals
S7H 1600 F HR
In 1600 A I
LI
S7L 1600
Iu (40 °C) =
Microprocessor-based
release
F = Front terminals
S7L 1600 F F
In 1600 A I
LI
EF = Extended front terminals
S7L 1600 F EF
In 1600 A I
LI
VR = Vertical flat-bar
rear terminals
S7L 1600 F VR
In 1600 A I
LI
HR = Horizontal flat-bar
rear terminals
S7L 1600 F HR
In 1600 A I
LI
code 1SDA0 . . . . . R1
3 poles
4 poles
20030
20031
20072
20073
LSI
LSIG
20032
20035
20074
20077
12656
12657
12710
12711
LSI
LSIG
12658
12661
12712
12715
12704
12705
12758
12759
LSI
LSIG
12706
12709
12760
12763
12680
12681
12734
12735
LSI
LSIG
12682
12685
12736
12739
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
65 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
20114
20115
20156
20157
LSI
LSIG
20116
20119
20158
20161
12776
12777
12830
12831
LSI
LSIG
12778
12781
12832
12835
12824
12825
12878
12879
LSI
LSIG
12826
12829
12880
12883
12800
12801
12854
12855
LSI
LSIG
12802
12805
12856
12859
1600 A
PR211
P
50 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
1600 A
PR211
P
Microprocessor-based
release
Icu (415 V) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
100 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
20198
20199
20240
20241
LSI
LSIG
20200
20203
20242
20245
12896
12897
12962
12963
LSI
LSIG
12898
12901
12964
12967
12956
12957
13010
13011
LSI
LSIG
12958
12961
13012
13015
12932
12933
12986
12987
LSI
LSIG
12934
12937
12988
12991
7
ABB SACE
7/49
Order codes
SACE Isomax S7 circuit-breaker
W = WITHDRAWABLE Moving part
S7S 1600
Iu (40 °C) = 1600 A
PR211
P
Microprocessor-based
release
S7S 1600 W MP
In 1600 A I
LI
S7H 1600
PR211
P
Microprocessor-based
release
PSIS9620
S7H 1600 W MP
In 1600 A I
LI
S7L 1600
In 1600 A I
LI
1600 A
PR211
P
12890
12891
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
13016
13017
LSI
LSIG
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
12884
12885
Iu (40 °C) =
Microprocessor-based
release
S7L 1600 W MP
1600 A
12770
12771
13022
13023
50 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
12764
12765
Iu (40 °C) =
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
12766
12769
12772
12775
65 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
12886
12889
12892
12895
100 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
13018
13021
13024
13027
7
7/50
ABB SACE
Order codes
SACE Isomax S8 circuit-breaker
F = FIXED
S8H 2000
Iu (40 °C) =
2000 A
Icu (415 V) =
PR212
P
Microprocessor-based
release
F = Front terminals
S8H 2000 F F
In 1600 A
S8H 2000 F F
In 2000 A
VR = Vertical flat-bar rear terminals
S8H 2000 F VR
In 1600 A
GSIS9018
S8H 2000 F VR
In 2000 A
S8V 2000
Iu (40 °C) =
2000 A
44861
44863
44862
44864
44877
44879
44878
44880
LSI
LSIG
LSI
LSIG
44869
44871
44870
44872
44885
44887
44886
44888
Icu (415 V) =
In 1600 A
S8V 2000 F F
In 2000 A
VR = Vertical flat-bar rear terminals
S8V 2000 F VR
In 1600 A
In 2000 A
S8H 2500
Iu (40 °C) =
2500 A
44918
44920
44919
44921
44934
44936
44935
44937
LSI
LSIG
LSI
LSIG
44926
44928
44927
44929
44942
44944
44943
44945
Icu (415 V) =
VR = Vertical flat-bar rear terminals
S8H 2500 F VR
In 2500 A
S8V 2500
Iu (40 °C) =
2500 A
44891
44892
44899
44900
LSI
LSIG
44895
44896
44903
44904
Icu (415 V) =
VR = Vertical flat-bar rear terminals
S8V 2500 F VR
In 2500 A
S8H 3200
Iu (40 °C) =
3200 A
44948
44949
44956
44957
LSI
LSIG
44952
44953
44960
44961
Icu (415 V) =
Iu (40 °C) =
Microprocessor-based
release
VR = Vertical flat-bar rear terminals
S8V 3200 F VR
In 3200 A
ABB SACE
85 kA
PR212
P
VR = Vertical flat-bar rear terminals
S8H 3200 F VR
In 3200 A
LSI
LSIG
3200 A
code 1SDA0 . . . . . R1
3 poles
4 poles
LSI
LSIG
Microprocessor-based
release
S8V 3200
120 kA
PR212
P
In 2500 A
code 1SDA0 . . . . . R1
3 poles
4 poles
LSI
LSIG
Microprocessor-based
release
F = Front terminals
S8V 2500 F F
85 kA
PR212
P
In 2500 A
code 1SDA0 . . . . . R1
3 poles
4 poles
LSI
LSIG
LSI
LSIG
Microprocessor-based
release
F = Front terminals
S8H 2500 F F
120 kA
PR212
P
F = Front terminals
S8V 2000 F F
code 1SDA0 . . . . . R1
3 poles
4 poles
LSI
LSIG
LSI
LSIG
Microprocessor-based
release
S8V 2000 F VR
85 kA
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
44908
44909
44912
44913
7
120 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
44964
44965
44968
44969
7/51
Order codes
SACE Isomax S2X 100 current-limiting circuit-breaker
F = FIXED
S2X 100
Iu (40 °C) =
100 A
Icu (415 V) =
Im
GSIS9150
Thermomagnetic
release
P = PLUG-IN
FC Cu = Front terminals
for copper cables
S2X 100 F FC Cu
R1
S2X 100 F FC Cu
R 1.6
S2X 100 F FC Cu
R 2.5
S2X 100 F FC Cu
R4
S2X 100 F FC Cu
R 6.3
S2X 100 F FC Cu
R 10
S2X 100 F FC Cu
R 12.5
S2X 100 F FC Cu
R 16
S2X 100 F FC Cu
R 20
S2X 100 F FC Cu
R 25
S2X 100 F FC Cu
R 32
S2X 100 F FC Cu
R 40
S2X 100 F FC Cu
R 50
S2X 100 F FC Cu
R 63
S2X 100 F FC Cu
R 80
S2X 100 F FC Cu
R 100
R = Threaded rear
terminals
S2X 100 F R
R1
S2X 100 F R
R 1.6
S2X 100 F R
R 2.5
S2X 100 F R
R4
S2X 100 F R
R 6.3
S2X 100 F R
R 10
S2X 100 F R
R 12.5
S2X 100 F R
R 16
S2X 100 F R
R 20
S2X 100 F R
R 25
S2X 100 F R
R 32
S2X 100 F R
R 40
S2X 100 F R
R 50
S2X 100 F R
R 63
S2X 100 F R
R 80
S2X 100 F R
R 100
Moving part
S2X 100
Iu (40 °C) = 100 A
GSIS9150
Thermomagnetic
release
7
7/52
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
S2X 100 P MP
70 kA
Icu (415 V) =
10A
16A
25A
40A
63A
100A
125A
160A
200A
250A
320A
400A
500A
630A
800A
1000A
50307
50308
50309
50310
50311
50312
50313
50314
50315
50316
50317
50318
50319
50320
50321
50322
10A
16A
25A
40A
63A
100A
125A
160A
200A
250A
320A
400A
500A
630A
800A
1000A
50339
50340
50341
50342
50343
50344
50345
50346
50347
50348
50349
50350
50351
50352
50353
50354
70 kA
Im
R1
R 1.6
R 2.5
R4
R 6.3
R 10
R 12.5
R 16
R 20
R 25
R 32
R 40
R 50
R 63
R 80
R 100
code 1SDA0 . . . . . R1
3 poles
10A
16A
25A
40A
63A
100A
125A
160A
200A
250A
320A
400A
500A
630A
800A
1000A
code 1SDA0 . . . . . R1
3 poles
50371
50372
50373
50374
50375
50376
50377
50378
50379
50380
50381
50382
50383
50384
50385
50386
ABB SACE
Order codes
SACE Isomax S3X current-limiting circuit-breaker
F = FIXED
S3X 125
Iu (40 °C) =
GSIS9151
Thermomagnetic
release
F = Front terminals
S3X 125 F F
R 32
S3X 125 F F
R 50
S3X 125 F F
R 80
S3X 125 F F
R 100
S3X 125 F F
R 125
EF = Extended front
terminals
S3X 125 F EF
R 32
S3X 125 F EF
R 50
S3X 125 F EF
R 80
S3X 125 F EF
R 100
S3X 125 F EF
R 125
FC Cu = Front terminals
for copper cables
S3X 125 F FC Cu
R 32
S3X 125 F FC Cu
R 50
S3X 125 F FC Cu
R 80
S3X 125 F FC Cu
R 100
S3X 125 F FC Cu
R 125
FC CuAl = Front terminals
for copper/aluminium cables
S3X 125 F FC CuAl
R 32
S3X 125 F FC CuAl
R 50
S3X 125 F FC CuAl
R 80
S3X 125 F FC CuAl
R 100
S3X 125 F FC CuAl
R 125
R = Threaded rear
terminals
S3X 125 F R
R 32
S3X 125 F R
R 50
S3X 125 F R
R 80
S3X 125 F R
R 100
S3X 125 F R
R 125
RC = Rear terminals
for cables
S3X 125 F RC
R 32
S3X 125 F RC
R 50
S3X 125 F RC
R 80
S3X 125 F RC
R 100
S3X 125 F RC
R 125
125 A
Icu (415 V) =
200 kA
Im
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
500A
800A
1000A
1250A
45197
45199
45201
45203
45205
45207
45209
45211
45213
45215
500A
500A
800A
1000A
1250A
45217
45219
45221
45223
45225
45267
45269
45271
45273
45275
500A
500A
800A
1000A
1250A
45227
45229
45231
45233
45235
45277
45279
45281
45283
45285
500A
500A
800A
1000A
1250A
45237
45239
45241
45243
45245
45287
45289
45291
45293
45295
500A
500A
800A
1000A
1250A
45257
45259
45261
45263
45265
45307
45309
45311
45313
45315
500A
500A
800A
1000A
1250A
45247
45249
45251
45253
45255
45297
45299
45301
45303
45305
7
ABB SACE
7/53
Order codes
SACE Isomax S3X current-limiting circuit-breaker
F = FIXED
S3X 200
Iu (40 °C) =
200 A
Icu (415 V) =
Im
GSIS9151
Thermomagnetic
release
P = PLUG-IN
F = Front terminals
S3X 200 F F
S3X 200 F F
S3X 200 F F
EF = Extended front
terminals
S3X 200 F EF
S3X 200 F EF
S3X 200 F EF
FC Cu = Front terminals
for copper cables
S3X 200 F FC Cu
S3X 200 F FC Cu
S3X 200 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S3X 200 F FC CuAl
S3X 200 F FC CuAl
S3X 200 F FC CuAl
R = Threaded rear
terminals
S3X 200 F R
S3X 200 F R
S3X 200 F R
RC = Rear terminals
for cables
S3X 200 F RC
S3X 200 F RC
S3X 200 F RC
1250A
1600A
2000A
46039
46041
46043
46045
46047
46049
R 125
R 160
R 200
1250A
1600A
2000A
46051
46053
46055
46081
46083
46085
R 125
R 160
R 200
1250A
1600A
2000A
46057
46059
46061
46087
46089
46091
R 125
R 160
R 200
1250A
1600A
2000A
46063
46065
46067
46093
46095
46097
R 125
R 160
R 200
1250A
1600A
2000A
46075
46077
46079
46105
46107
46109
R 125
R 160
R 200
1250A
1600A
2000A
46069
46071
46073
46099
46101
46103
Icu (415 V) =
GSIS9151
R 32
R 50
R 80
R 100
R 125
Iu (40 °C) =
200 A
R 125
R 160
R 200
code 1SDA0 . . . . . R1
3 poles
4 poles
500A
500A
800A
1000A
1250A
Icu (415 V) =
45317
45319
45321
45323
45325
45327
45329
45331
45333
45335
200 kA
Im
Thermomagnetic
release
S3X 200 P MP
S3X 200 P MP
S3X 200 P MP
200 kA
Im
Thermomagnetic
release
S3X 200
code 1SDA0 . . . . . R1
3 poles
4 poles
R 125
R 160
R 200
Moving part
S3X 125
Iu (40 °C) = 125 A
S3X 125 P MP
S3X 125 P MP
S3X 125 P MP
S3X 125 P MP
S3X 125 P MP
200 kA
1250A
1600A
2000A
code 1SDA0 . . . . . R1
3 poles
4 poles
46111
46113
46115
46117
46119
46121
7
7/54
ABB SACE
Order codes
SACE Isomax S3X current-limiting circuit-breaker
W = WITHDRAWABLE Moving part
S3X 125
Iu (40 °C) = 125 A
Icu (415 V) =
Im
GSIS9151
Thermomagnetic
release
S3X 125 W MP
S3X 125 W MP
S3X 125 W MP
S3X 125 W MP
S3X 125 W MP
S3X 200
R 32
R 50
R8 0
R 100
R 125
Iu (40 °C) =
200 A
500A
500A
800A
1000A
1250A
Icu (415 V) =
R 125
R 160
R 200
code 1SDA0 . . . . . R1
3 poles
4 poles
45337
45339
45341
45343
45345
45347
45349
45351
45353
45355
200 kA
Im
Thermomagnetic
release
S3X 200 W MP
S3X 200 W MP
S3X 200 W MP
200 kA
1250A
1600A
2000A
code 1SDA0 . . . . . R1
3 poles
4 poles
46123
46125
46127
46129
46131
46133
7
ABB SACE
7/55
Order codes
SACE Isomax S4X current-limiting circuit-breaker
F = FIXED
S4X 250
Iu (40 °C) =
GSIS9152
Microprocessor-based
release
F = Front terminals
S4X 250 F F
In=100
S4X 250 F F
In=160
S4X 250 F F
In=250
EF = Extended front
terminals
S4X 250 F EF
In=100
S4X 250 F EF
In=160
S4X 250 F EF
In=250
FC Cu = Front terminals
for copper cables
S4X 250 F FC Cu
In=100
S4X 250 F FC Cu
In=160
S4X 250 F FC Cu
In=250
FC CuAl = Front terminals
for copper/aluminium cables
S4X 250 F FC CuAl
In=100
S4X 250 F FC CuAl
In=160
S4X 250 F FC CuAl
In=250
R = Threaded rear
terminals
S4X 250 F R
In=100
S4X 250 F R
In=160
S4X 250 F R
In=250
RC = Rear terminals
for cables
S4X 250 F RC
In=100
S4X 250 F RC
In=160
S4X 250 F RC
In=250
250 A
PR211
P
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
200 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
I
LI
46582
46584
46583
46585
46524
46525
46592
46594
46593
46595
46528
46529
LSI
LSIG
LSI
LSIG
LSI
LSIG
46586
46588
46587
46589
46526
46527
46596
46598
46597
46599
46530
46531
I
LI
I
LI
I
LI
46657
46660
46658
46661
46659
46662
46707
46710
46708
46711
46709
46712
LSI
LSIG
LSI
LSIG
LSI
LSIG
46663
46668
46664
46669
46665
46670
46713
46716
46714
46717
46715
46718
I
LI
I
LI
I
LI
46671
46674
46672
46675
46673
46676
46719
46722
46720
46723
46721
46724
LSI
LSIG
LSI
LSIG
LSI
LSIG
46677
46680
46678
46681
46679
46682
46725
46728
46726
46729
46727
46730
I
LI
I
LI
I
LI
46830
46833
46831
46834
46832
46835
46842
46845
46843
46846
46844
46847
LSI
LSIG
LSI
LSIG
LSI
LSIG
46836
46839
46837
46840
46838
46841
46848
46851
46849
46852
46850
46853
I
LI
I
LI
I
LI
46695
46698
46696
46699
46697
46700
46743
46746
46744
46747
46745
46748
LSI
LSIG
LSI
LSIG
LSI
LSIG
46701
46704
46702
46705
46703
46706
46749
46752
46750
46753
46751
46754
I
LI
I
LI
I
LI
46683
46686
46684
46687
46685
46688
46731
46734
46732
46735
46733
46736
LSI
LSIG
LSI
LSIG
LSI
LSIG
46689
46692
46690
46693
46691
46694
46737
46740
46738
46741
46739
46742
7
7/56
ABB SACE
Order codes
SACE Isomax S4X current-limiting circuit-breaker
P = PLUG-IN
Moving part
S4X 250
Iu (40 °C) = 250 A
PR211
P
Microprocessor-based
release
In=100
S4X 250 P MP
In=160
S4X 250 P MP
In=250
I
LI
I
LI
I
LI
200 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
46755
46758
46756
46759
46757
46760
46767
46770
46768
46771
46769
46772
PR212
P
LSI
LSIG
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
46761
46764
46762
46765
46763
46766
46773
46776
46774
46777
46775
46778
GSIS9152
S4X 250 P MP
Icu (415 V) =
W = WITHDRAWABLE Moving part
S4X 250
Iu (40 °C) = 250 A
PR211
P
Microprocessor-based
release
In=100
S4X 250 W MP
In=160
S4X 250 W MP
In=250
I
LI
I
LI
I
LI
code 1SDA0 . . . . . R1
3 poles
4 poles
46779
46782
46780
46783
46781
46784
46791
46794
46792
46795
46793
46796
200 kA
PR212
P
LSI
LSIG
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
46785
46788
46786
46789
46787
46790
46797
46800
46798
46801
46799
46802
GSIS9152
S4X 250 W MP
Icu (415 V) =
7
ABB SACE
7/57
Order codes
SACE Isomax S6X current-limiting circuit-breaker
F = FIXED
S6X 400
Iu (40 °C) =
GSIS9153
Microprocessor-based
release
F = Front terminals
S6X 400 F F
In=320
S6X 400 F F
In=400
EF = Extended front
terminals
S6X 400 F EF
In=320
S6X 400 F EF
In=400
FC CuAl = Front terminals
for copper/aluminium cables
S6X 400 F FC CuAl
In=320
S6X 400 F FC CuAl
In=400
R = Threaded rear
terminals
S6X 400 F R
In=320
S6X 400 F R
In=400
RC = Rear terminals
for cables
S6X 400 F RC
In=320
S6X 400 F RC
In=400
S6X 630
400 A
PR211
P
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
200 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
I
LI
I
LI
47595
47596
46534
46535
47601
47602
46538
46539
LSI
LSIG
LSI
LSIG
47597
47598
46536
46537
47603
47604
46540
46541
I
LI
I
LI
47661
47663
47660
47662
47693
47695
47692
47694
LSI
LSIG
LSI
LSIG
47665
47667
47664
47666
47697
47699
47696
47698
I
LI
I
LI
47669
47671
47668
47670
47701
47703
47700
47702
LSI
LSIG
LSI
LSIG
47673
47675
47672
47674
47704
47707
47705
47706
I
LI
I
LI
47685
47687
47684
47686
47717
47719
47716
47718
LSI
LSIG
LSI
LSIG
47689
47691
47688
47690
47721
47723
47720
47722
I
LI
I
LI
47677
47679
47676
47678
47709
47711
47708
47710
LSI
LSIG
LSI
LSIG
47681
47683
47680
47682
47713
47715
47712
47714
Iu (40 °C) =
630 A
PR211
P
Microprocessor-based
release
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
200 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S6X 630 F F
In=630
I
LI
46560
46561
46564
46565
LSI
LSIG
46562
46563
46566
46567
EF = Extended front
terminals
S6X 630 F EF
In=630
I
LI
47724
47725
47744
47745
LSI
LSIG
47726
47727
47746
47747
I
LI
47729
47730
47749
47750
LSI
LSIG
47731
47732
47751
47752
FC CuAl = Front terminals
for copper/aluminium cables
S6X 630 F FC CuAl
In=630
R = Threaded rear
terminals
S6X 630 F R
In=630
I
LI
47739
47740
47759
47760
LSI
LSIG
47741
47742
47761
47762
RC = Rear terminals
for cables
S6X 630 F RC
In=630
I
LI
47734
47735
47754
47755
LSI
LSIG
47736
47737
47756
47757
7
7/58
ABB SACE
Order codes
SACE Isomax S6X current-limiting circuit-breaker
W = WITHDRAWABLE Moving part
S6X 400
Iu (40 °C) = 400 A
PR211
P
Microprocessor-based
release
S6X 400 W MP
In=320
S6X 400 W MP
In=400
GSIS9153
S6X 630
I
LI
I
LI
S6X 630 W MP
In=630
630 A
PR211
P
Microprocessor-based
release
I
LI
code 1SDA0 . . . . . R1
3 poles
4 poles
47633
47635
47632
47634
Iu (40 °C) =
Icu (415 V) =
47643
47645
47642
47644
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
4 poles
47650
47651
47655
47656
200 kA
PR212
P
LSI
LSIG
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
47637
47641
47636
47640
47647
47649
47646
47648
200 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
4 poles
47652
47653
47657
47658
7
ABB SACE
7/59
Order codes
SACE Isomax S2X 80 circuit-breaker for motor protection
F = FIXED
S2X 80
Iu (40 °C) =
80 A
Icu (415 V) =
70 kA
Im
GSIS9154
Magnetic only
release
P = PLUG-IN
FC Cu = Front terminals for copper cables
S2X 80 F FC Cu
R1
S2X 80 F FC Cu
R 1.6
S2X 80 F FC Cu
R2
S2X 80 F FC Cu
R 2.5
S2X 80 F FC Cu
R 3.2
S2X 80 F FC Cu
R4
S2X 80 F FC Cu
R5
S2X 80 F FC Cu
R 6.5
S2X 80 F FC Cu
R 8.5
S2X 80 F FC Cu
R 11
S2X 80 F FC Cu
R 12.5
S2X 80 F FC Cu
R 16
S2X 80 F FC Cu
R 20
S2X 80 F FC Cu
R 25
S2X 80 F FC Cu
R 32
S2X 80 F FC Cu
R 42
S2X 80 F FC Cu
R 52
S2X 80 F FC Cu
R 63
S2X 80 F FC Cu
R 80
R = Threaded rear terminals
S2X 80 F R
R1
S2X 80 F R
R 1.6
S2X 80 F R
R2
S2X 80 F R
R 2.5
S2X 80 F R
R 3.2
S2X 80 F R
R4
S2X 80 F R
R5
S2X 80 F R
R 6.5
S2X 80 F R
R 8.5
S2X 80 F R
R 11
S2X 80 F R
R 12.5
S2X 80 F R
R 16
S2X 80 F R
R 20
S2X 80 F R
R 25
S2X 80 F R
R 32
S2X 80 F R
R 42
S2X 80 F R
R 52
S2X 80 F R
R 63
S2X 80 F R
R 80
Moving part
S2X 80
Iu (40 °C) = 80 A
GSIS9154
Magnetic only
release
7
7/60
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
S2X 80 P MP
Icu (415 V) =
13A
21A
26A
32A
42A
52A
65A
84A
110A
145A
163A
210A
260A
325A
415A
545A
680A
820A
1040A
50231
50232
50233
50234
50235
50236
50237
50238
50239
50240
50241
50242
50243
50244
50245
50246
50247
50248
50249
13A
21A
26A
32A
42A
52A
65A
84A
110A
145A
163A
210A
260A
325A
415A
545A
680A
820A
1040A
50250
50251
50252
50253
50254
50255
50256
50257
50258
50259
50260
50261
50262
50263
50264
50265
50266
50267
50268
70 kA
Im
R1
R 1.6
R2
R 2.5
R 3.2
R4
R5
R 6.5
R 8.5
R 11
R 12.5
R 16
R 20
R 25
R 32
R 42
R 52
R 63
R 80
code 1SDA0 . . . . . R1
3 poles
13A
21A
26A
32A
41A
52A
65A
84A
110A
145A
163A
210A
260A
325A
415A
545A
680A
820A
1040A
code 1SDA0 . . . . . R1
3 poles
50269
50270
50271
50272
50273
50274
50275
50276
50277
50278
50279
50280
50281
50282
50283
50284
50285
50286
50287
ABB SACE
Order codes
SACE Isomax S3 circuit-breaker for motor protection
F = FIXED
S3N 160
Iu (40 °C) =
160 A
Icu (415 V) =
Im
PSIS9607
Magnetic only
release
F = Front terminals
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3N 160 F F
S3H 160
R3
R5
R 10
R 25
R 50
R 100
R 125
R 160
Iu (40 °C) =
160 A
Icu (415 V) =
R 50
R 100
R 125
R 160
Iu (40 °C) =
160 A
Magnetic only
release
S3N 250
R 50
R 100
R 125
R 160
Iu (40 °C) =
250 A
Magnetic only
release
S3H 250
R 160
R 200
Iu (40 °C) =
250 A
Magnetic only
release
S3L 250
R 160
R 200
Iu (40 °C) =
250 A
Magnetic only
release
F = Front terminals
S3L 250 F F
S3L 250 F F
48657
48658
85 kA
Im
R 160
R 200
code 1SDA0 . . . . . R1
3 poles
640 ... 1920A
800 ... 2400A
Icu (415 V) =
48651
48654
65 kA
Im
F = Front terminals
S3H 250 F F
S3H 250 F F
code 1SDA0 . . . . . R1
3 poles
640 ... 1920A
800 ... 2400A
Icu (415 V) =
50544
50545
50546
50547
35 kA
Im
F = Front terminals
S3N 250 F F
S3N 250 F F
code 1SDA0 . . . . . R1
3 poles
200 ... 600A
400 ... 1200A
500 ... 1500A
640 ... 1600A
Icu (415 V) =
45185
45186
45187
45188
85 kA
Im
F = Front terminals
S3L 160 F F
S3L 160 F F
S3L 160 F F
S3L 160 F F
code 1SDA0 . . . . . R1
3 poles
200 ... 600A
400 ... 1200A
500 ... 1500A
640 ... 1600A
Icu (415 V) =
47782
47783
47784
47785
47786
47787
47788
47789
65 kA
Im
F = Front terminals
S3H 160 F F
S3H 160 F F
S3H 160 F F
S3H 160 F F
code 1SDA0 . . . . . R1
3 poles
12 ... 36A
20 ... 60A
40 ... 120A
100 ... 300A
200 ... 600A
400 ... 1200A
500 ... 1500A
640 ... 1600A
Magnetic only
release
S3L 160
35 kA
code 1SDA0 . . . . . R1
3 poles
640 ... 1920A
800 ... 2400A
50548
50549
7
Note
Plug-in and withdrawable version are taken from the corresponding fixed version by means of the conversion
kits indicated on page 80.
ABB SACE
7/61
Order codes
SACE Isomax S4 circuit-breaker for motor protection
F = FIXED
S4N 160
Iu (40 °C) =
160 A
Icu (415 V) =
PR212
MP
Microprocessor-based
release
PSIS9610
F = Front terminals
S4N 160 F F
S4N 160 F F
S4H 160
In = 100A
In = 160A
Iu (40 °C) =
160 A
LRIU
LRIU
Icu (415 V) =
S4L 160
In = 100A
In = 160A
Iu (40 °C) =
160 A
LRIU
LRIU
Icu (415 V) =
F = Front terminals
S4L 160 F F
S4L 160 F F
S4N 250
In = 100A
In = 160A
Iu (40 °C) =
250 A
LRIU
LRIU
Icu (415 V) =
F = Front terminals
S4N 250 F F
S4H 250
In = 200A
Iu (40 °C) =
250 A
LRIU
Icu (415 V) =
F = Front terminals
S4H 250 F F
S4L 250
In = 200A
Iu (40 °C) =
250 A
In = 200A
code 1SDA0 . . . . . R1
3 poles
50550
50551
code 1SDA0 . . . . . R1
3 poles
50141
code 1SDA0 . . . . . R1
3 poles
48662
100 kA
PR212
MP
Microprocessor-based
release
F = Front terminals
S4L 250 F F
LRIU
Icu (415 V) =
45049
45050
65 kA
PR212
MP
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
35 kA
PR212
MP
Microprocessor-based
release
50139
50140
100 kA
PR212
MP
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
65 kA
PR212
MP
Microprocessor-based
release
F = Front terminals
S4H 160 F F
S4H 160 F F
35 kA
LRIU
code 1SDA0 . . . . . R1
3 poles
50552
7
Note
Plug-in and withdrawable version are taken from the corresponding fixed version by means of the conversion
kits indicated on page 80.
7/62
ABB SACE
Order codes
SACE Isomax S5-S6-S7 circuit-breakers for motor protection
F = FIXED
S5N 400
Iu (40 °C) =
400 A
Icu (415 V) =
35 kA
PR212
MP
Microprocessor-based
release
F = Front terminals
S5N 400 F F
In = 320A
PSIS9613
S5H 400
Iu (40 °C) =
400 A
LRIU
Icu (415 V) =
PR212
MP
S5L 400
In = 320A
Iu (40 °C) =
400 A
LRIU
Icu (415 V) =
PR212
MP
In = 320A
S6N 800
Iu (40 °C) =
800 A
LRIU
Icu (415 V) =
PR212
MP
In = 630A
PSIS9616
S6H 800
Iu (40 °C) =
800 A
LRIU
Icu (415 V) =
PR212
MP
S6L 800
In = 630A
Iu (40 °C) =
800 A
LRIU
Icu (415 V) =
PR212
MP
S7S 1250
In = 630A
Iu (40 °C) =
1250 A
LRIU
Icu (415 V) =
S7H 1250
In = 1000A
Iu (40 °C) =
1250 A
In = 1000A
50143
code 1SDA0 . . . . . R1
3 poles
45052
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
50554
code 1SDA0 . . . . . R1
3 poles
50144
65 kA
LRIU
code 1SDA0 . . . . . R1
3 poles
7
45053
PSIS9620
F = Front terminals
S7H 1250 F F
LRIU
PR212
MP
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
50 kA
PR212
MP
Microprocessor-based
release
F = Front terminals
S7S 1250 F F
50553
100 kA
Microprocessor-based
release
F = Front terminals
S6L 800 F F
code 1SDA0 . . . . . R1
3 poles
65 kA
Microprocessor-based
release
F = Front terminals
S6H 800 F F
45051
35 kA
Microprocessor-based
release
F = Front terminals
S6N 800 F F
code 1SDA0 . . . . . R1
3 poles
100 kA
Microprocessor-based
release
F = Front terminals
S5L 400 F F
50142
65 kA
Microprocessor-based
release
F = Front terminals
S5H 400 F F
code 1SDA0 . . . . . R1
3 poles
Note
Withdrawable version are taken from the corresponding fixed version by means of the conversion kits
indicated on page 80.
ABB SACE
7/63
Order codes
SACE Isomax S3X-S4X-S6X current-limiting
circuit-breakers for motor protection
F = FIXED
S3X 125
Iu (40 °C) =
125 A
Icu (415 V) =
Magnetic only
release
Im
GSIS9151
F = Front terminals
S3X 125 F F
S3X 125 F F
S3X 125 F F
S3X 125 F F
S3X 200
R 25
R 50
R 100
R 125
Iu (40 °C) =
200 A
Icu (415 V) =
R 125
R 160
R 200
Iu (40 °C) =
250 A
Microprocessor-based
release
F = Front terminals
S4X 250 F F
S4X 250 F F
S4X 250 F F
S6X 400
In = 100A
In = 160A
In = 200A
400 A
LRIU
LRIU
LRIU
Icu (415 V) =
Microprocessor-based
release
GSIS9152
F = Front terminals
S6X 400 F F
S6X 630
Iu (40 °C) =
630 A
Microprocessor-based
release
code 1SDA0 . . . . . R1
3 poles
47780
200 kA
PR212
MP
In = 400A
In = 630A
46590
46591
48661
LRIU
LRIU
code 1SDA0 . . . . . R1
3 poles
47781
48663
GSIS9153
F = Front terminals
S6X 630 F F
S6X 630 F F
LRIU
Icu (415 V) =
code 1SDA0 . . . . . R1
3 poles
200 kA
PR212
MP
In = 320A
46135
48659
48660
200 kA
PR212
MP
Iu (40 °C) =
code 1SDA0 . . . . . R1
3 poles
500 ... 1500A
640 ... 1920A
800 ... 2400A
Icu (415 V) =
45387
45388
45389
45390
200 kA
Im
F = Front terminals
S3X 200 F F
S3X 200 F F
S3X 200 F F
code 1SDA0 . . . . . R1
3 poles
100 ... 300A
200 ... 600A
400 ... 1200A
500 ... 1500A
Magnetic only
release
S4X 250
200 kA
7
Note
Plug-in and withdrawable version are taken from the corresponding fixed version by means of the conversion
kits indicated on page 80.
7/64
ABB SACE
Order codes
SACE Isomax S circuit-breakers for applications
up to 1000V
F = FIXED
S3L 160
Iu (40 °C) =
160 A
Icu (1000 V) =
6 kA
Thermomagnetic
release
AC ~
PSIS9607
F = Front terminals
S3L 160 F F
S3L 160 F F
S3L 160 F F
S3L 160 F F
S3L 160 F F
S3L 160 F F
S3L 160
R 32
R 50
R 80
R 100
R 125
R 160
Iu (40 °C) =
Im
Im
Im
Im
Im
Im
160 A
Icu (1000 V) =
DC –
F = Front terminals
S3L 160 F F (N100%)
S3L 160 F F (N100%)
S3L 160 F F (N100%)
S3L 160 F F (N100%)
S3L 160 F F (N100%)
S3L 160 F F (N100%)
R 32
R 50
R 80
R 100
R 125
R 160
Iu (40 °C) =
Im
Im
Im
Im
Im
Im
250 A
Icu (1000 V) =
S3X 125
Iu (40 °C) =
125 A
Icu (1000 V)=
R 32
R 50
R 80
R 100
R 125
Iu (40 °C) =
Microprocessor-based
release
PSIS9610
F = Front terminals
S4L 160 F F
S4L 250
In 100 A
LI
F = Front terminals
S4L 250 F F
S4X 250
In 250 A
F = Front terminals
S4X 250 F F
LI
ABB SACE
PR211
P
LI
Icu (1000 V) =
code 1SDA0 . . . . . R1
3 poles
250 A
Icu (1000 V) =
50449
50450
code 1SDA0 . . . . . R1
3 poles
50451
50452
50453
50454
50455
8 kA
PR212
P
code 1SDA0 . . . . . R1
3 poles
50458
50459
8 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
50463
500A
500A
800A
1000A
1250A
LSI
LSIG
50460
Iu (40 °C) =
In 250 A
code 1SDA0 . . . . . R1
3 poles
250 A
PR211
P
Microprocessor-based
release
Icu (1000 V) =
50547
Iu (40 °C) =
Microprocessor-based
release
Im
Im
Im
Im
Im
160 A
PR211
P
code 1SDA0 . . . . . R1
4 poles
30 kA
AC ~
F = Front terminals
S3X 125 F F
S3X 160 F F
S3X 160 F F
S3X 160 F F
S3X 160 F F
50443
50444
50445
50446
50447
50448
Im 2000A
Im 2500A
Thermomagnetic
release
S4L 160
500A
500A
800A
1000A
1250A
1600A
DC –
R 200
R 250
code 1SDA0 . . . . . R1
4 poles
40 kA
Thermomagnetic
release
F = Front terminals
S3L 250 F F (N100%)
S3L 250 F F (N100%)
50436
50437
50438
50439
50441
50442
40 kA
Thermomagnetic
release
S3L 250
500A
500A
800A
1000A
1250A
1600A
code 1SDA0 . . . . . R1
3 poles
code 1SDA0 . . . . . R1
3 poles
50461
50462
7
30 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
50464
50465
7/65
Order codes
SACE Isomax S circuit-breakers for applications
up to 1000V
F = FIXED
S5L 400
Iu (40 °C) =
400 A
Icu (1000 V) =
40 kA
DC –
Thermomagnetic
release
F = Front terminals
S5L 400 F F (N100%)
R 400
PSIS9613
S6L 630
Iu (40 °C) =
Im 4000A
630 A
Icu (1000 V) =
DC –
R 630
S6L 800
Iu (40 °C) =
800 A
Icu (1000 V) =
R 800
PSIS9616
Iu (40 °C) =
S5L 400 F F
In 400 A
S6L 630
LI
S6L 630 F F
In 630 A
S6L 800
LI
PR211
P
Microprocessor-based
release
GSIS9153
F = Front terminals
S6L 800 F F
In 800 A
S6X 630
LI
F = Front terminals
S4X 630 F F
In 630 A
S3D/S6D/S7D
7
PSIS9155
Switch-disconnector
7/66
F = Front terminals
S3D 320 F F
S6D 800 F F
S7D 1600 F F
code 1SDA0 . . . . . R1
3 poles
630 A
PR211
P
LI
Icu (1000 V) =
code 1SDA0 . . . . . R1
3 poles
50472
Iu (40 °C) =
PR212
P
50583
50584
code 1SDA0 . . . . . R1
3 poles
50470
50471
12 kA
PR212
P
LSI
LSIG
Icu (1000 V) =
code 1SDA0 . . . . . R1
3 poles
12 kA
LSI
LSIG
50534
Iu (40 °C) =
Microprocessor-based
release
Icu (1000 V) =
code 1SDA0 . . . . . R1
3 poles
800 A
PR212
P
LSI
LSIG
50469
Iu (40 °C) =
50468
8 kA
code 1SDA0 . . . . . R1
3 poles
630 A
PR211
P
Microprocessor-based
release
Icu (1000 V) =
50582
Iu (40 °C) =
code 1SDA0 . . . . . R1
4 poles
Im 8000A
400 A
PR211
P
Microprocessor-based
release
50467
50 kA
DC –
S5L 400
code 1SDA0 . . . . . R1
4 poles
Im 6300A
Thermomagnetic
release
F = Front terminals
S6L 800 F F (N100%)
50466
40 kA
Thermomagnetic
release
F = Front terminals
S6L 630 F F (N100%)
code 1SDA0 . . . . . R1
4 poles
code 1SDA0 . . . . . R1
3 poles
50535
50536
30 kA
PR212
P
LSI
LSIG
code 1SDA0 . . . . . R1
3 poles
50473
50474
320/800/1600 A
code 1SDA0 . . . . . R1
3 poles
50446
50475
50479
ABB SACE
Order codes
SACE Isomax S2D switch-disconnectors
F = FIXED
S2D 125
Iu (40 °C) =
125 A
Icw (1s) =
2.2 kA
PSIS9604
Switch-disconnector
Iu (40 °C) =
160 A
Icw (1s) =
2.2 kA
Switch-disconnector
Moving part
S2D 125
Iu (40 °C) = 125 A
PSIS9604
45057
45063
45058
45059
45064
45065
45056
45062
45060
45066
Icm (415 V) =
3.1 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
FC Cu = Front terminals
for copper cables
S2D 160 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S2D 160 F FC CuAl*
S2D 160 F FC CuAl**
EF = Extended front terminals
S2D 160 F EF
R = Threaded rear terminals
S2D 160 F R
P = PLUG-IN
3.1 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
FC Cu = Front terminals
for copper cables
S2D 125 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S2D 125 F FC CuAl*
S2D 125 F FC CuAl**
EF = Extended front terminals
S2D 125 F EF
R = Threaded rear terminals
S2D 125 F R
S2D 160
Icm (415 V) =
Icw (1s) =
2.2 kA
20632
45071
45068
20633
45072
45074
20630
45070
20634
45073
Icm (415 V) =
3.1 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S2D 125 P MP
45061
45067
Icm (415 V) =
3.1 kA
S2D 160
Iu (40 °C) =
160 A
Icw (1s) =
2.2 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S2D 160 P MP
45069
45075
* Cable section = 1 x 2.5...50 mm2
** Cable section = 1 x 35...95 mm2
7
ABB SACE
7/67
Order codes
SACE Isomax S3D switch-disconnectors
F = FIXED
S3D 100
Iu (40 °C) =
100 A
Icw (1s) =
6.5 kA
PSIS9607
Switch-disconnector
Iu (40 °C) =
160 A
Icw (1s) =
6.5 kA
Switch-disconnector
S3D 100
PSIS9607
PSIS9607
7/68
20907
20329
20354
20335
20360
20341
20366
20353
20378
20347
20372
Icm (415 V) =
10 kA
Iu (40 °C) =
100 A
Icw (1s) =
6.5 kA
20908
20909
20383
20408
20389
20414
20395
20420
20407
20432
20401
20426
Icm (415 V) =
10 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 100 P MP
20379
20381
Icm (415 V) =
10 kA
S3D 160
Iu (40 °C) =
160 A
Icw (1s) =
6.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 160 P MP
20433
20435
Icm (415 V) =
10 kA
W = WITHDRAWABLE S3D 100
7
20906
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S3D 160 F F
EF = Extended front terminals
S3D 160 F EF
FC Cu = Front terminals
for copper cables
S3D 160 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S3D 160 F FC CuAl
R = Threaded rear terminals
S3D 160 F R
RC = Rear terminals for cables
S3D 160 F RC
P = PLUG-IN
10 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S3D 100 F F
EF = Extended front terminals
S3D 100 F EF
FC Cu = Front terminals
for copper cables
S3D 100 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S3D 100 F FC CuAl
R = Threaded rear terminals
S3D 100 F R
RC = Rear terminals for cables
S3D 100 F RC
S3D 160
Icm (415 V) =
Iu (40 °C) =
100 A
Icw (1s) =
6.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 100 W MP
20380
20382
Icm (415 V) =
10 kA
S3D 160
Iu (40 °C) =
160 A
Icw (1s) =
6.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 160 W MP
20434
20436
ABB SACE
Order codes
SACE Isomax S3D switch-disconnectors
F = FIXED
S3D 250
Iu (40 °C) =
250 A
Icw (1s) =
6.5 kA
Switch-disconnector
Iu (40 °C) =
320 A
Icw (1s) =
6.5 kA
PSIS9607
Switch-disconnector
S3D 250
PSIS9607
PSIS9607
20911
20437
20462
20443
20468
20449
20474
20461
20486
20455
20480
Icm (415 V) =
10 kA
Iu (40 °C) =
250 A
Icw (1s) =
6.5 kA
20912
20913
20491
20516
20497
20522
20503
20528
20515
20540
20509
20534
Icm (415 V) =
10 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 250 P MP
20487
20489
Icm (415 V) =
10 kA
S3D 320
Iu (40 °C) =
320 A
Icw (1s) =
6.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 320 P MP
20541
20543
Icm (415 V) =
10 kA
W = WITHDRAWABLE S3D 250
ABB SACE
20910
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S3D 320 F F
EF = Extended front terminals
S3D 320 F EF
FC Cu = Front terminals
for copper cables
S3D 320 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S3D 320 F FC CuAl
R = Threaded rear terminals
S3D 320 F R
RC = Rear terminals for cables
S3D 320 F RC
P = PLUG-IN
10 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S3D 250 F F
EF = Extended front terminals
S3D 250 F EF
FC Cu = Front terminals
for copper cables
S3D 250 F FC Cu
FC CuAl = Front terminals
for copper/aluminium cables
S3D 250 F FC CuAl
R = Threaded rear terminals
S3D 250 F R
RC = Rear terminals for cables
S3D 250 F RC
S3D 320
Icm (415 V) =
Iu (40 °C) =
250 A
Icw (1s) =
6.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 250 W MP
20488
20490
Icm (415 V) =
10 kA
S3D 320
Iu (40 °C) =
320 A
Icw (1s) =
6.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S3D 320 W MP
20542
20544
7/69
7
Order codes
SACE Isomax S6D switch-disconnectors
F = FIXED
S6D 400
Iu (40 °C) =
400 A
Icw (1s) =
15 kA
GSIS9156
Switch-disconnector
Iu (40 °C) =
630 A
Icw (1s) =
15 kA
Switch-disconnector
Iu (40 °C) =
800 A
Icw (1s) =
15 kA
Switch-disconnector
GSIS9156
20588
20566
20601
20573
20608
23326
23327
Icm (415 V) =
30 kA
20674
20699
20680
20705
20686
20711
20698
20723
20692
20717
Icm (415 V) =
30 kA
Iu (40 °C) =
400 A
Icw (1s) =
15 kA
20724
20749
20730
20755
20736
20761
20748
20773
20742
20767
Icm (415 V) =
30 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
S6D 400 W MP
20617
Iu (40 °C) =
630 A
Icw (1s) =
15 kA
Icm (415 V) =
20619
30 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S6D 630 W MP
20918
S6D 800
7/70
20552
Switch-disconnector
S6D 630
7
20581
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S6D 800 F F
EF = Extended front terminals
S6D 800 F EF
FC CuAl = Front terminals
for copper/aluminium cables
S6D 800 F FC CuAl
R = Threaded rear terminals
S6D 800 F R
RC = Rear terminals for cables
S6D 800 F RC
W = WITHDRAWABLE S6D 400
20545
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S6D 630 F F
EF = Extended front terminals
S6D 630 F EF
FC CuAl = Front terminals
for copper/aluminium cables
S6D 630 F FC CuAl
R = Threaded rear terminals
S6D 630 F R
RC = Rear terminals for cables
S6D 630 F RC
S6D 800
30 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S6D 400 F F
EF = Extended front terminals
S6D 400 F EF
FC CuAl = Front terminals
for copper/aluminium cables
S6D 400 F FC CuAl
R = Threaded rear terminals
S6D 400 F R
RC = Rear terminals for cables
S6D 400 F RC
S6D 630
Icm (415 V) =
Iu (40 °C) =
800 A
Icw (1s) =
15 kA
Icm (415 V) =
20919
30 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S6D 800 W MP
20920
20921
ABB SACE
Order codes
SACE Isomax S7D switch-disconnectors
F = FIXED
S7D 1000
Iu (40 °C) =
1000 A
Icw (1s) =
25 kA
Switch-disconnector
PSIS9625
Iu (40 °C) =
1250 A
Icw (1s) =
25 kA
Switch-disconnector
Iu (40 °C) =
1600 A
Icw (1s) =
25 kA
Switch-disconnector
20805
20786
20811
20798
20823
20792
20817
Icm (415 V) =
52.5 kA
20824
20849
20830
20855
20836
20861
20848
20873
20842
20867
Icm (415 V) =
52.5 kA
Iu (40 °C) =
1000 A
20874
20890
20879
20895
20889
20884
Icw (1s) =
25 kA
Icm (415 V) =
20900
52.5 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
S7D 1000 W MP
20922
Iu (40 °C) =
1250 A
Icw (1s) =
25 kA
Icm (415 V) =
20923
52.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S7D 630 W MP
20924
S7D 1600
PSIS9625
20780
Switch-disconnector
S7D 1250
ABB SACE
20799
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S7D 1600 F F
EF = Extended front terminals
S7D 1600 F EF
VR = Vertical flat-bar rear terminals
S7D 1600 F VR
HR = Horizontal flat-bar rear terminals
S7D 1600 F HR
W = WITHDRAWABLE S7D 1000
20774
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S7D 1250 F F
EF = Extended front terminals
S7D 1250 F EF
FC CuAl = Front terminals
for copper/aluminium cables
S7D 1250 F FC CuAl
VR = Vertical flat-bar rear terminals
S7D 1250 F VR
HR = Horizontal flat-bar rear terminals
S7D 1250 F HR
S7D 1600
52.5 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S7D 1000 F F
EF = Extended front terminals
S7D 1000 F EF
FC CuAl = Front terminals
for copper/aluminium cables
S7D 1000 F FC CuAl
VR = Vertical flat-bar rear terminals
S7D 1000 F VR
HR = Horizontal flat-bar rear terminals
S7D 1000 F HR
S7D 1250
Icm (415 V) =
Iu (40 °C) =
1600 A
Icw (1s) =
25 kA
Icm (415 V) =
20925
52.5 kA
Switch-disconnector
code 1SDA0 . . . . . R1
3 poles
4 poles
S7D 1600 W MP
20926
20927
7/71
7
Order codes
SACE Isomax S8D switch-disconnectors
F = FIXED
S8D 2000
Iu (40 °C) =
2000 A
Icw (1s) =
40 kA
Switch-disconnector
Iu (40 °C) =
2500 A
Icw (1s) =
40 kA
GSIS9149
Switch-disconnector
45158
45159
45160
45161
Icm (415 V) =
85 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S8D 2500 F F
VR = Vertical flat-bar rear terminals
S8D 2500 F VR
S8D 3200
85 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
F = Front terminals
S8D 2000 F F
VR = Vertical flat-bar rear terminals
S8D 2000 F VR
S8D 2500
Icm (415 V) =
Iu (40 °C) =
Switch-disconnector
VR = Vertical flat-bar rear terminals
S8D 3200 F VR
3200 A
Icw (1s) =
40 kA
45162
45163
45164
45165
Icm (415 V) =
85 kA
code 1SDA0 . . . . . R1
3 poles
4 poles
45167
45166
7
7/72
ABB SACE
Order codes
SACE Isomax S accessories
Duty releases
GSIS9001
Shunt opening releases
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5
24...30 V AC
48 V AC - 60 V DC
110...130 V AC
220...250 V AC
380...400 V AC
12 V DC
24 V DC
48 V DC
110 V DC
220 V DC
250 V DC
12 V DC
24 V AC / DC
48 V AC / DC
60 V AC / DC
60 V AC / 60 ... 72 V DC
110...120 V AC - 110...125 V DC
220...240 V AC - 220...250 V DC
380...400 V AC
480 V AC
24 V DC
30 V DC - 24 V AC
48 V AC / DC
60 V DC
100...127 V DC / AC
127...150 V AC
160 V DC / 150...180 V AC
200...250 V DC / 200...255 V AC
380...500 V AC
13311
13306
13312
13313
13314
50581
13304
13305
13307
13309
13310
23403
13781
13782
23405
13783
13785
13786
37512
S6-S7
S8
23404
14136
14137
23406
14138
14140
14141
37514
50685
46602
46600
46603
47564
46605
47565
46607
46608
Shunt closing releases
Type
code 1SDA0 . . . . . R1
GSIS9003
S8
ABB SACE
24 V AC 50 Hz
30 V AC 50 Hz
48 V AC 50 Hz
60 V AC 50 Hz
127 ...130 V AC 50 Hz
220 V AC 50 Hz
500 V AC 50 Hz
24 V AC 60 Hz
120 V AC 60 Hz
208 ...220 V AC 60 Hz
240 V AC 60 Hz
380 V AC 60 Hz
100 V AC 50 Hz - 110 ...115 V AC 60 Hz
110 ...115 V AC 50 Hz - 125 ...127 V AC 60 Hz
230 ...240 V AC 50 Hz - 277 V AC 60 Hz
380 ...400 V AC 50 Hz - 440 V AC 60 Hz
415 ...440 V AC 50 Hz - 480 V AC 60 Hz
24 V DC
30 V DC
48 V DC
60 V DC
110...125 V DC
220...250 V DC
310 V DC
46636
46643
46637
46638
46646
46633
46644
46649
46647
46641
46648
46645
46639
46634
46640
46635
46642
46650
46655
46651
46656
46652
46653
46654
7
7/73
Order codes
SACE Isomax S accessories
GSIS9002
Undervoltage releases
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5
24 V AC 50 Hz
30 V AC 50 Hz
48 V AC 50 Hz
60 V AC 50 Hz
110 V AC 50 Hz
127 ...130 V AC 50 Hz
220 V AC 50 Hz
500 V AC 50 Hz
100 V AC 50 Hz - 110 ...115 V AC 60 Hz
110 ...115 V AC 50 Hz - 125 ...127 V AC 60 Hz
230 ...240 V AC 50 Hz - 277 V AC 60 Hz
380 V AC 50 Hz - 380 ...440 V AC 60 Hz
380 ...400 V AC 50 Hz - 440 V AC 60 Hz
415 ...440 V AC 50 Hz - 480 V AC 60 Hz
24 V AC
48 V AC
60 V AC
110 V AC 60 Hz
110 ...127 V AC
120 V AC 60 Hz
208 ...220 V AC 60 Hz
220 ...250 V AC
240 V AC 60 Hz
380 V AC 60 Hz
380 ...440 V AC
480 V AC
24 V DC
30 V DC
48 V DC
60 V DC
110 V DC
110...125 V DC
220 V DC
220...250 V DC
23401
S6-S7
S8
46613
46620
46614
46615
23402
13319
46623
46609
46621
46616
46611
46617
13320
13321
46612
46619
13842
13843
23346
14188
14189
23347
13844
14190
45046
46624
46618
13846
14192
46625
46622
13315
13316
45045
13317
13847
37513
13833
14193
37515
14179
13835
13836
14181
14182
46626
46631
46627
46632
13838
14184
46628
13839
14185
46629
S6-S7
S8
13318
Undervoltage releases + time-lag device
GSIS9042
Type
code 1SDA0 . . . . . R1
S3-S4-S5
110 - 220 V AC
24 V AC/DC
30 V AC/DC
48 V AC/DC
60 V AC/DC
110/125 V AC/DC
220/250 V AC/DC
13840
14186
50737
50738
50739
50740
50741
50742
Connectors for duty releases
GSIS9013
Type
7
7/74
for fixed circuit-breakers - L=1m
for fixed circuit-breakers - L=2m
for fixed circuit-breakers - L=1m
for fixed circuit-breakers - L=2m
for plug-in or withdrawable circuit-breakers - L=1m
for withdrawable circuit-breakers - L=1m
for withdrawable circuit-breakers - L=2m
flying 9-pole socket-plug - L=0,6m
extension for testing auxiliary circuits
with the circuit-breaker racked out
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5-S6 S7
13865
37523
14209
44752
13866
14210
48949
13333
25552
25552
ABB SACE
Order codes
SACE Isomax S accessories
Electrical signalling
GSIS9004
Auxiliary contacts
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5
S6-S7
2 open/closed change-over contacts
1 open/closed change-over contacts
and 1 release tripped signal
1 NO, 1 NC and 1 release not tripped signal
1 NO, 1 NC and 1 release tripped signal
3 open/closed change-over contacts
13328
13856
23366
13327
13575
23332
25773
48956
S8
47563
Auxiliary contacts for digital signals
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5
2 open/closed change-over contacts
1 open/closed change-over contacts
and 1 release tripped signal
1 NO, 1 NC and 1 release not tripped signal
S6-S7
25544
25774
25545
25775
25776
S8
Early making contacts and connectors
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5-S6 S7
early making contact and connector
for undervoltage release
25551
S8
48106
Connectors for auxiliary contacts
GSIS9015
Type
for fixed circuit-breakers - L=1m
for fixed circuit-breakers - L=2m
for fixed circuit-breakers - L=1m
for fixed circuit-breakers - L=2m
for plug-in or withdrawable circuit-breakers - L=1m
for withdrawable circuit-breakers - L=1m
for withdrawable circuit-breakers - L=2m
flying 9-pole socket-plug - L=0,6m
extension for testing auxiliary circuits with the
circuit-breaker racked out
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5-S6 S7
S8
13863
37522
14207
44751
13864
14208
48947
13329
25553
25553
Signally contacts
Type
code 1SDA0 . . . . . R1
S8
contact for signalling closing springs charged
47562
7
ABB SACE
7/75
Order codes
SACE Isomax S accessories
Motor operating mechanisms
Solenoid operator
Type
GSIS9022
GSIS9023
at the side of the circuit-breaker
48 V DC
60 V DC - 110 V AC
110 V DC - 220...230 V AC
220 V DC
on the front of the circuit-breaker
48 V DC
60 V DC - 110 V AC
110 V DC - 220...230 V AC
220 V DC
code 1SDA0 . . . . . R1
S1-S2
48025
48026
48027
48028
48015
48016
48017
48018
Direct action motor operating mechanism
Type
code 1SDA0 . . . . . R1
S3-S4-S5
GSIS9021
24 V DC
48...60 V DC
100...127 V AC - 100...125 V DC
220...240 V AC - 220...250 V DC
380 V AC
440 V AC
13873
13874
13875
13876
13877
14545
Stored energy motor operating mechanism
Type
code 1SDA0 . . . . . R1
S6
GSIS9020
24 V DC
48 V DC
60 V DC
110 V AC / DC
120...127 V AC / DC
220...250 V AC / DC
380 V AC
14029
14030
23348
23349
14031
14032
14033
S7
14214
14215
23350
23351
14216
14217
14218
Geared motor for automatic charging of closing springs
Type
code 1SDA0 . . . . . R1
GSIS9007
S8
24/30 V DC
48/60 V DC
100...130 V DC
220...250 V DC
47558
47559
47560
47561
Connectors for motor operating mechanism and auxiliary
contacts
GSIS9014
Type
7
7/76
for fixed circuit-breakers - L=1m
for fixed circuit-breakers - L=2m
for fixed circuit-breakers - L=1m
for fixed circuit-breakers - L=2m
for plug-in or withdrawable circuit-breakers - L=1m
for withdrawable circuit-breakers - L=1m
for withdrawable circuit-breakers - L=2m
flying 9-pole socket-plug - L=0,6m
extension for testing auxiliary circuits with the
circuit-breaker racked out
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5-S6 S7
13857
37524
14203
44850
13858
14204
48950
13329
25554
25554
ABB SACE
Order codes
SACE Isomax S accessories
Operating mechanism and locks
Direct-mounted rotary handle operating mechanism
GSIS9025
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5
for fixed/plug-in circuit breakers
for withdrawable circuit breakers
emergency for fixed or plug-in circuit-breakers
13867
13868
13870
S6
S7
14026
14027
46568
14211
14212
46570
Rotary handle operating mechanism with transmission rod
GSIS9024
Type
compartment door, fixed depth for fixed
or plug-in circuit-breakers (L= 119,5 mm)
compartment door, adjustable depth
(Lmax=300 mm) for fixed or plug-in
compartment door, adjustable depth
(Lmax=300 mm) for withdrawable
compartment door, adjustable depth
(Lmax=500 mm) for fixed
compartment door, adjustable depth
(Lmax=500 mm) for withdrawable
compartment door, emergency, fixed depth
for fixed or plug-in circuit-breakers (Lmax= 119.5 mm)
compartment door, emergency, adjustable depth
for fixed or plug-in circuit-breakers (Lmax= 300 mm)
compartment door, emergency, adjustable depth
for fixed circuit-breakers (Lmax= 500 mm)
remote transmission rod with adj. depth (Lmax= 180 mm)
remote transmission rod with adj. depth (Lmax= 500 mm)
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5
S6
S7
14028
14213
50715
50716
46569
46572
S8
13326
13869
50714
45054
13871
25436
45055
25427
GSIS9026
Front flange
Type
code 1SDA0 . . . . . R1
S3...S5
S6
S7
front flange for operating lever mechanism for fixed or plug-in
front flange for operating lever mechanism for withdrawable
flange for compartment door
13889
13890
14227
14228
14035
14036
45023
GSIS9008
Key lock for open position
Type
code 1SDA0 . . . . . R1
S3...S5
S6-S7
for motor operating mechanism - a different key for each cb.
for motor operating mechanism - the same key for sets of cbs
for motor operating mechanism against manual operation the same key for each circuit-breaker
for front flange / rotary handle a different key for each circuit-breaker
for front flange / rotary handle the same key for sets of circuit-breakers
for front flange
key lock type RONIS
13883
13884
S8
13885
13886
36245
13881
13881
13882
13882
43514
43514
Type
Size
code 1SDA0 . . . . . R1
compartment door lock for front flange
for locks /crank handle operating mechanism
padlock device for operating lever
padlock device on the front of the circuit-breaker
tamper-proof lock for thermal release
tamper-proof lock for thermal release
S3-S4-S5-S6-S7
S1-S2
S8
S2
S3
45024
GSIS9035
GSIS9010
Locks
ABB SACE
13880
13332
45025
36196
25548
7
7/77
Order codes
SACE Isomax S accessories
PSIS9640
Mechanical interlock across two circuit-breakers
Type
code 1SDA0 . . . . . R1
horizontal
S3
S3X
S4
S4X
S5400/630
S6
S7
S3-S4-S5-S6-S7 (circuit-breaker/fixed part for interlocking)
23330
50524
13690
50525
43453
14024
14205
50093
vertical
23331
13691
43454
14025
14206
50093
Connection terminals
PSIS9643
PSIS9642
PSIS9641
PSIS9663
Type
7
EF=Extended front terminals
S2
S3-S4
S5 400
S6 630
S6 800
S7
ES=Spreaded extended front terminals
S3-S4
S5
S6 (1/2 upper kit)
S6 (1/2 lower kit)
S6
S7 (1/2 upper kit)
S7 (1/2 lowerkit)
S7
FC Cu=Front terminals for copper cables
S3-S4
S5 400
S5 630
FC CuAl=Front terminals for copper/aluminium cables
S2 (2,5-50 mm2) (*)
S2 (35-95 mm2) (*)
S3D 100
S3 160 - S4 160 (1x95 mm2)
S3 250 - S4 250 (1x150 mm2)
S5 400 (2x120 mm2)
S5 400 (1x240 mm2)
S6 630 (2x240 mm2)
S6 800 (3x185 mm2)
S7 1250 (4x240 mm2)
R=Threaded rear terminals
S1
S2
S3-S4
S5 400
S5 630
S6
R Res.Cur.=Threaded rear terminals
for reasidual current-release mounted below
S3
HR/VR=Horizontal or vertical flat-bar rear terminals
S7
S8
RC = Rear terminals for copper/aluminium cables
S3-S4 (1x120 mm2)
S5 400 (1x240 mm2)
S6 630 (2x150 mm2)
S6 800 (3x240 mm2)
code 1SDA0 . . . . . R1
3 pieces 4 pieces 6 pieces
8 pieces
23353
23367
23379
23383
23399
23359
23373
23389
23393
23396
25797
13596
13706
13920
13954
14079
25798
13597
13707
13921
13955
14080
46517
47551
50692
50704
–
50694
50705
–
46518
47552
–
–
50693
–
–
50695
46515
47549
–
–
50688
–
–
50690
46516
47550
–
–
50689
–
–
50691
23354
23368
38769
23360
23374
38770
13598
13708
38767
13599
13709
38768
50526
50527
23355
23356
23357
25766
23370
23380
23384
23387
50528
50530
23361
23362
23363
25765
23376
23390
23394
23397
36194
25801
13600
13602
20293
23295
13710
13922
13956
14081
36195
25802
13601
13603
20294
23296
13711
13923
13957
14082
23365
23378
38777
23392
13268
13294
13606
13714
38968
13960
13269
13295
13607
13715
38775
13961
23352
23372
38776
23382
25543
23400
23398
14083
46578
14084
46579
23358
23371
23381
23385
23364
23377
23391
23395
13604
13712
13924
13958
13605
13713
13925
13959
(*) Order also the relevant EF extended front terminals
7/78
ABB SACE
Order codes
SACE Isomax S accessories
Insulating terminal covers
PSIS9638
PSIS9644
Type
code 1SDA0 . . . . . R1
3 poles
4 poles
high for fixed
S1
13290
S2
13340
S3-S4
13695
S5
13897
S6
14040
low for fixed and for moving part of plug-in or withdrawable circuit-breakers
S1
13292
S2
13342
S3-S4
13693
S5
13895
S6
14038
S7
23324
13291
13341
13696
13898
14041
13293
13343
13694
13896
14039
23325
Screws for sealing terminal covers
Type
code 1SDA0 . . . . . R1
S1-S2
S3-S4-S5-S6-S7
13344
13699
GSIS9031
GSIS9005
GSIS9045
GSIS9043
GSIS9041
Accessories for electronic releases
ABB SACE
Type
Model
code
1SDA0 . . . . . R1
Signalling unit SACE PR010/K
Signalling unit SACE PR212/K
Dialogue unit SACE PR212/D-M Modbus + actuator unit SACE PR212/T
for SACE PR212/P (LSI - LSIG)
Dialogue unit SACE PR212/D-M Modbus + actuator unit SACE PR212/T
for SACE PR212/MP (LRIU)
Dialogue unit SACE PR212/D-L Lon + actuator unit SACE PR212/T
for SACE PR212/P (LSI - LSIG)
Dialogue unit SACE PR212/D-L Lon + actuator unit SACE PR212/T
for SACE PR212/MP (LRIU)
Dialogue unit SACE PR212/D + Actuator unit SACE PR212/T
Test unit SACE TT1
Test and configuration unit SACE PR010/T
SACE PR212/CI contactor operating unit (with PR212/MP)
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
Current transformer for neutral conductor outside circuit-breaker
X3 connector for relay tripped signal and neutral protection
for fixed circuit-breaker with PR211/P, PR212/P - LSI
X3, X4 connectors for relay tripped signal and neutral protection
for fixed circuit-breaker with PR212/P - LSIG
X3 connector for relay tripped signal and neutral protection
for plug-in or withdrawable circuit-breaker with PR211/P, PR212/P - LSI
X3, X4 connectors for relay tripped signal and neutral protection
for plug-in or withdrawable circuit-breaker with PR212/P - LSIG
electrical/mechanical signalling and lock for PR212/P tripped
S4-S5-S6-S7
S8
48965
45021
S4-S5-S6-S7
50718
S4-S5-S6-S7
50719
S4-S5-S6-S7
50720
S4-S5-S6-S7
S8
S4-S5-S6-S7
S4-S5-S6-S7
S4-S5-S6-S7
S4 100
S4 160
S4 250
S5 320
S5 400
S5 630
S6 630
S6 800
S7 1000
S7 1250
S7 1600
S8 1600
S8 2000
S8 2500
S8 3200
50721
45020
37121
48964
50708
37114
37115
37117
37118
37119
37120
25777
25778
25779
25780
25781
45015
45016
45017
45018
S4-S5-S6-S7
13702
S4-S5-S6-S7
13704
S4-S5-S6-S7
13703
S4-S5-S6-S7
S8
13705
46581
7
7/79
Order codes
SACE Isomax S accessories
Conversion kits
GSIS9036
from fixed circuit-breaker to moving part of plug-in circuit-breaker
Type
code 1SDA0 . . . . . R1
3 poles
4 poles
S1
S2
S3-S4
S3X
S4X
S5 400
13270
13296
13608
46519
46511
13716
13271
13297
13609
46520
46512
13717
GSIS9037
from fixed circuit-breaker to moving part of withdrawable circuitbreaker
Type
code 1SDA0 . . . . . R1
3 poles
4 poles
S3-S4
S3X
S4X
S5 400
S5 630
S6 630 / 800
S6X
S7
13610
46521
46514
13718
38778
13962
47619
23299
13611
46522
46513
13719
38779
13963
47620
14087
from plug-in circuit-breaker to withdrawable circuit-breaker
Type
code
1SDA0 . . . . . R1
S3-S4
13692
S5
13892
GSIS9047
Guide for preparing the fixed part of a plug-in circuit-breaker for use
as the fixed part of a withdrawable circuit-breaker
Guide for preparing the fixed part of a plug-in circuit-breaker for use
as the fixed part of a withdrawable circuit-breaker
Size
7
7/80
ABB SACE
Order codes
SACE Isomax S accessories
Fixed parts
Plug-in circuit-breaker
GSIS9123
Type
EF = Extended front terminals
S3 P FP EF
S4 P FP EF
S5 400 P FP EF
FC = Front terminals for copper cables
S1 P FP FC
S2 P FP FC
S3 P FP FC
S4 P FP FC
S5 400 P FP FC
R = Threaded rear terminals
S1 P FP R
S2 P FP R
S3 P FP R
S4 P FP R
S5 400 P FP R
code 1SDA0 . . . . . R1
3 poles
4 poles
13539
13612
13720
13548
13621
13729
13272
13298
13543
13616
13724
13274
13300
13550
13625
13733
13273
13299
13547
13620
13728
13275
13540
13554
13629
13737
Withdrawable circuit-breaker
GSIS9124
Type
EF = Extended front terminals
S3 W FP EF
S4 W FP EF
S5 400 W FP EF
S6 W FP EF
S7 W FP EF
ES = Spreaded extended front terminals
S5 630 W FP ES
FC = Front terminals for copper cables
S3 W FP FC
S4 W FP FC
S5 400 W FP FC
R = Threaded rear terminals
S3 W FP R
S4 W FP R
S5 400 W FP R
S5 630 W FP R
VR = Vertical flat-bar rear terminals
S5 630 W FP VR
S6 W FP VR
S7 W FP VR
HR = Horizontal flat-bar rear terminals
S6 W FP HR
S7 W FP HR
code 1SDA0 . . . . . R1
3 poles
4 poles
13555
13630
13738
13964
48951
13564
13639
13747
13973
14097
38761
38762
13559
13634
13742
13568
13643
13751
13563
13638
13746
38763
13572
13647
13755
38970
38971
13972
14096
38972
13981
14105
13968
14092
13977
14101
7
ABB SACE
7/81
Order codes
SACE Isomax S accessories
Accessories for fixed part of plug-in or withdrawable circuit-breakers
PSIS9646
PSIS9655
PSIS9654
PSIS9653
Terminals for the fixed parts of plug-in or withdrawable
circuit-breakers
Type
EF = Extended front terminals
S3-S4
S5 400
S5 630
S6 (with terminals mounted below for S6X)
S7
FC Cu/Al = Front terminals for copper / aluminium cables
S3-S4
S5 400
R = Threaded rear terminals
S3-S4
S5 400
S5 630
HR = Horizontal flat-bar rear terminals
S6
S7
VR = Vertical flat-bar rear terminals
S5 630
S6
S7
code 1SDA0 . . . . . R1
3 poles
4 poles
13650
13759
38780
13984
14108
13651
13760
38781
13985
14109
13652
13761
13653
13762
13654
13763
38969
13655
13764
38782
13986
14110
13987
14111
38763
13988
14112
38784
13989
14113
Insulating covers for fixed parts
Type
code 1SDA0 . . . . . R1
3 poles
4 poles
S3-S4
S5 400
13697
13899
13698
13900
Type
Model
code
1SDA0 . . . . . R1
contacts for signalling circuit-breaker racked out
contacts for signalling circuit-breaker racked out for digital signals
contacts for signalling circuit-breaker racked in
contacts for signalling circuit-breaker racked in for digital signals
S3-S4-S5-S6-S7
S3-S4-S5-S6-S7
S3-S4-S5-S6-S7
S3-S4-S5-S6-S7
GSIS9006
Position contacts
13859
25546
13860
25547
GSIS9009
Lock for fixed part of withdrawable circuit-breakers
Type
Model
key lock for locking in racked in / out position - different key for each cb.
key lock for locking in racked in / out position - same key for sets of cb.
padlock device
S3-S4-S5-S6-S7
S3-S4-S5-S6-S7
S3-S4-S5-S6-S7
code
1SDA0 . . . . . R1
25434
25435
13872
7
7/82
ABB SACE
Order codes
SACE Isomax S accessories
Installation accessories
GSIS9011
Bracket for mounting on DIN rail
Type
Model
DIN EN 50022
DIN EN 50022
DIN EN 50022 (for solenoid operator)
DIN EN 50022 (for solenoid operator)
DIN EN 50023 (complete with DIN front flange H=45 mm)
DIN EN 50023 (complete with DIN front flange H=45 mm)
DIN EN 50023 (complete with DIN front flange H=45 mm)
DIN EN 50023 (complete with DIN front flange H=45 mm)
DIN EN 50023 (complete with DIN front flange H=45 mm)
DIN EN 50023 (complete with DIN front flange H=45 mm)
S1
S2
S1
S2
S3 - 3 poles
S3 - 4 poles
S4 - 3 poles
S4 - 4 poles
S5 - 3 poles
S5 - 4 poles
code
1SDA0 . . . . . R1
23328
23329
48523
48524
13576
13577
13700
13701
13901
13902
PSIS9657
IP54 protection
Type
Model
for fixed-depth rotary handle operating mechanism on door
for adjustable-depth rotary handle operating mechanism on door
S1-S2
S3-S4-S5-S6-S7
code
1SDA0 . . . . . R1
13339
13891
Residual-current releases
PSIS9665
GSIS9027
SACE RC210, RC211, SACE RC212
code 1SDA0 . . . . . R1
side by side
below
RC210/1 for S1 (In=63 A - IDn=0,3 A)
RC210/1 for S1 (In=63 A - IDn=0,5 A)
RC210/1 for S1 (In=63 A - IDn=0,3 A)
RC210/1 for S1 (In=63 A - IDn=0,5 A)
45076
45077
45079
45080
RC211/1 for S1
RC211/2 for S2
RC211/3 for S3
13282
13222
20288
13283
13323
20289
RC212/1 for S1
RC212/2 for S2
RC212/3 for S3
13284
13324
20290
13285
13325
20291
SACE RCQ
GSIS9046
ABB SACE
Type
Type
code 1SDA0 . . . . . R1
release and closed toroid - diameter 60 mm
release and closed toroid - diameter 110 mm
release and closed toroid - diameter 185 mm
release and opening toroid - diameter 110 mm
release and opening toroid - diameter 180 mm
release and opening toroid - diameter 230 mm
37388
37389
50542
37390
37391
37392
release only
37393
closed toroid only - diameter 60 mm
closed toroid only - diameter 110 mm
closed toroid only - diameter 185 mm
opening toroid only - diameter 110 mm
opening toroid only - diameter 180 mm
opening toroid only - diameter 230 mm
37394
37395
50543
37396
37397
37398
7
7/83
ABB SACE S.p.A.
L.V. Breakers Division
Via Baioni, 35
24123 Bergamo - Italy
Tel.: +39 035.395.111 - Telefax: +39 035.395.306-433
http://www.abb.com
604050/012 en
Printed in Italy
Tipografia
Due to possible developments of standards as well as of materials,
the characteristics and dimensions specified in the present catalogue
may only be considered binding after confirmation by ABB SACE.