Solid State and Electromechanical Relays
Australia & New Zealand Core Assortment Catalogue 2014
For Automation and Control
www.weidmuller.com.au
Product overview
Electromechanical Relays and solid-state relays
TERMSERIES - Relay modules 1CO
Page A.1
TERMSERIES - Relay modules 2CO
Page A.3
RIDERSERIES - Relay modules
Page B.1
•6.4mm wide
•Silver or gold contacts
•Screw or tension clamp connection
•Fixed or universal coil voltage
•12.8mm wide
•Silver or gold contacts
•Screw or tension clamp connection
•Fixed or universal coil voltage
•Complete kit
•Screw terminal or PUSH IN
•Logical base
•Optional test button
RIDERSERIES FG - Relay modules 2CO contacts
Page B.9
DRM - Signal Relay 2CO / 4CO
Page C.1
DRL - Power Relay 2CO / 4CO contacts
Page C.7
•Force guided 2CO contacts
•Complete kit
•Screw or tension clamp connection
•LED indication
•10A / 250V AC
•Standard pin-outs
•Many options
•Silver or gold contacts
•10A / 250V AC / pole
•AC or DC coil voltages
•Robust design
•Standard pin arrangement
DRR - Power Relay 2CO / 3CO
Page C.13
DRH - Power Relay 1NO, 1NC, 1NO/1NC, 2NO
Page C.19
DRW - Power Relay 2CO / 3CO contacts
Page C.23
•Suits octal base
•8 or 11pins
•3 pin combinations
•High isolation voltage
•10A / 220V DC, 16A / 500V AC
•ARC shield
•4kV isolation
•AC or DC coils
•16A / 400V AC: 30V DC
•LED & test lever
•Pluggable base
•High voltage DC/AC coils available
Product overview
PWR - High Power Relay 1NO / 2NO contacts
Page C.27
MC5R - NEO
Page D.1
SAFESERIES - SIL3 relay
Page E.1
•30A / 250V AC
•Fixed or pluggable models
•Rail or screw mount
•Wide coil voltages
•6mm wide terminal housing
•6A / 250V AC: 30V DC
•Electrical noise immune
•Fully featured
•<14V off/>16V on
•TÜV “Safety-Approved”
•SIL3 acc. to EN61508
•Externally accessible fuse
•De-energise/Energise to safe applications
BT-SERIES - Electronic timer
Page F.1
TERMSERIES - Solid-state relays
Page G.1
TERMOPTO - Solid-state relays
Page H.1
•Time range 0.1s to 120hrs
•5 models
•Control: 24-230V AC / 24-48V DC
•5A / 250V AC switching
•Pluggable SSR
•Wide range of models
•0.1A… 5A switching
•Wide control voltages
•Digital signal isolation
•Signal switching to 4A / 3..33V DC
•Cross connect function
•DC or AC control voltages
MICROOPTO - Solid-state relays
Page I.1
PSSR 1-phase and 3-phase models
Page J.1
MC50 - Specialty solid state isolators
Page K.1
•Switch inductive loads to 10A / 24V DC
•DC switching to 300V / 1A
•100kHz switching models
•6.1mm wide housing
•Panel mount
•Integrated heatsink
•Analogue control
•1 phase current monitor
•10A solenoid driver
•200VDC switching
•Dual control voltage models
•6mm wide housing
Introduction
Electromechanical Relays and solid-state relays
Welcome to our latest Weidműller catalogue for
Electromechanical and Solid State Relays. This core
assortment catalogue highlights our range of relays to help
deliver a robust and quality switching solution, required
whether engineering for domestic or international delivery.
As leaders in Industrial Connectivity, let us help you deliver
your project with all the right connections… Lets connect.
In our manufacturing and distribution facility in
Huntingwood Western Sydney, we continually strive
to assist our customers meeting their connectivity
requirements. Our divisions of Customer Specific Assembly,
or Customer Specific Solutions, can assist in delivery of your
projects with design of custom components, or assembled
kits to streamline stocking, ordering and labour requirements.
This catalogue includes the latest Solid state relays to help
improve your systems reliability. Solid state relays produce
less transients than electromechanical relays with a longer
lifespan when used within their design parameters. The
initial cost is dearer, but the payback is in reduced downtime,
faster switching capabilities and increased productivity. Isn’t
efficiency what we all want? More time to do other things.
Custom electronics is well known at Weidműller. We have
designed relays or electronic components in our housings to
suit our customer’s needs for many years. These have grown
from relay modules in 6mm terminals, to PLC/DCS interface
modules and signal isolation. What are your needs? We‘re
here to help you meet your industry needs.
Our new Functional safety relays meeting TUV approval for
SIL3 are included. Functional safety is an important part of
any plant. In a process plant where injury can be caused to
many from any incident, safety design and implementation
is paramount. Whether designing to EN/IEC61511 or EN/
IEC61508, determining the risk reduction level called Safety
Integrity Level (SIL) which defines the need or achieved level
of risk reduction. The SAFESERIES relays will provide our
customers with the highest possible safety solution, to the
latest standards with the features required.
Contents
Contents
Solid State and Electromechanical Relays
ELECTROMECHANICAL RELAYS
SOLID STATE RELAYS
ACCESSORIES
TERMSERIES – slimline interface relays
A
RIDERSERIES – space saving power relays
B
D SERIES – industrial multipole relays
C
CUSTOM ELECTROMECHANICAL RELAYS
D
SAFESERIES – SIL3 relays
E
BT-SERIES – electronic timer
F
TERMSERIES – slimline interface optocouplers
G
TERMOPTO – solid state interface relays
H
MICROOPTO – solid state actuator drivers
I
PSSR – high power solid state relays
J
SPECIALTY SOLID STATE RELAYS
K
MARKERS - print identification service
L
A
B
C
D
E
F
G
H
I
J
K
L
TECHNICAL APPENDIX/GLOSSARY
W
W
PLC – Universal solutions for PLC input/output cards – Overview
Universal solutions for PLC input/output cards
Aimed at reducing costs, and to save space and time in the
construction of electrical cabinets, the universal cabling
system for PLCs is provided as an effective alternative
to end-to-end cabling design. Weidmüller offers a wide
range of pre-assembled cables and interfaces to major
PLC manufacturers:
•The interfaces are used as an interconnection element
between the control and the process, and are supplied
with tension clamp or screw connection. Those interfaces,
with a compact design, provide different functions such
as LEDs, fuses, disconnectors or relays.
•The pre-assembled cables are supplied with the
manufacturer’s own connector at one end and are
available in different lengths.
Universal system
The system is designed to be compatible with
all main commercial PLCs: ABB, Emerson,
Fanuc, Honeywell, Mitsubishi, Omron, Rockwell,
Schneider, Siemens, ...
Guaranteed connection
The original factory connector is on one end
of the PLC and standard connectors are on the
other end: ribbon cable with fixing housing
for digital signals and SUB-D connector for
analogue signals. Available in different lengths.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2013 Australia & New Zealand
PLC – Universal solutions for PLC input/output cards – Overview
PLC ROCKWELL MICRO LOGIX 1400
PLC
A
Input/Output cards
DI
DO
DI/DO
Simple system configuration
Selection tables are available in this catalogue
to assist you in choosing the right products
for your application. In addition, there is also
an automatic software selection guide on the
website.
AI
AO
AI/AO
Note
Manufacturer code
1762-IA8
1762-IQ16
1762-IQ32T
1762-IQ8
1762-OA8
1762-OB16
1762-OB32T
1762-OB8
1762-OV32T A)
1762-OW16
1762-OW8
1762-OX6I
1762-IQ8OW6
1762-IQ8OW6 B)
1762-IF4
1762-IR4
1762-IR4 C)
1762-OF4
1762-IF2OF2
Number/Type of channels
16 DI
16 DI
16 DI, positive logic
16 DI, negative logic
8 DI
8 DO
16 DO
32 DO
8 DO
32 DO
16 DO
8 DO
6 DO
8 DI, positive logic
6 DO
8 DI, negative logic
6 DO
4 AI
4 AI, 2-wire applications
4 AI, 3 and 4-wire applications
4 AO
2 AI
2 AO
Cables
Interfaces
Standard
Direct inputs/outputs
Order No.
7789108xxx
7789100xxx
7789005xxx
7789670xxx
7789100xxx
7789108xxx
7789100xxx
7789006xxx
7789100xxx
7789006xxx
7789104xxx
7789108xxx
7789106xxx
7789100xxx
7789108xxx
7789100xxx
7789108xxx
7789250xxx
7789250xxx
7789252xxx
7789250xxx
Quantity
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
7789250xxx
1
- see page A.38 (H) or A.60 (A) Type
Quantity
R1208
1
H2016
1
H2016
2
H2016
2
H2008
1
R1208
1
H2016
1
H2016
2
H2008
1
H2016
2
R2416
1
R1208
1
R3632
1
H2008
1
R1208
1
H2016
1
R1208
1
A1504
1
A1504
1
A2508
1
A1504
1
A1504
Insulated inputs
- see page A.66 Type
Quantity
I2016
I2016
Insulated outputs
- see page A.70 Type
Quantity
1
2
O2016
O2032
O2008
O2016
1
2
1
2
1
A) Attention! Use only interfaces without LEDs for the direct option. Only use these interfaces, 1129100000, 1129110000, 1129120000 or 1129130000 for the insulated option
B) Attention! Use only interfaces without LEDs for the direct input option
C) Attention! Only use Interfaces without insulators and test points
Selection guide
• Please, always take into account the characteristics of the PLC card (voltage, current…) when selecting interfaces. In some cases, the card can work at
higher voltages than those indicated in the interface.
• The last 3 digits of the cable code indicate its length in decimetres. For example, if the code ends in 100, the cable would be 10 m long.
PLC SIEMENS – S7-300/ET- 200M
• Cables 7789100xxx, 7789104xxx, 7789106xxx, 7789108xxx, 7789250xxx, 7789252xxx and 7789254xxx have wire-end ferrules at one end.
These cables do not have a PLC connector. Colour code according to DIN 47100.
* In the case that an input/output card does not appear in this table, you can check our on-line PLC selection guide at www.weidmueller.com where you will
always find the most up-to-date information.
PLC
Input/Output cards
Manufacturer code
6ES7321-1BH00-0AA0
6ES7321-1BH01-0AA0
6ES7321-1BH02-0AA0
6ES7321-1BH50-0AA0
6ES7321-1BH80-0AA0
6ES7321-1BH81-0AA0
6ES7321-1BH82-0AA0
6ES7321-1BL00-0AA0
6ES7321-1BL80-0AA0
6ES7321-1BP00-0AA0
DI
A.24
DO
6ES7321-1CH20-0AA0
6ES7321-1CH80-0AA0
6ES7321-1EH00-0AA0
6ES7321-1EH01-0AA0
6ES7321-1EL00-0AA0
6ES7321-1FF00-0AA0
6ES7321-1FF01-0AA0
6ES7321-1FF81-0AA0
6ES7321-1FH00-0AA0
6ES7321-7BH00-0AB0 A)
6ES7321-7BH01-0AB0 A)
6ES7321-7BH80-0AB0 A)
6ES7321-7RD00-0AB0 B)
6ES7322-1BF00-0AA0
6ES7322-1BF01-0AA0
6ES7322-1BH00-0AA0
6ES7322-1BH01-0AA0
6ES7322-1BH10-0AA0
6ES7322-1BH81-0AA0
6ES7322-1BL00-0A00
6ES7322-1BP00-0AA0
6ES7322-1BP50-0AA0 C)
6ES7322-1CF00-0AA0
6ES7322-1CF80-0AA0
6ES7322-1EH00-0AA0
6ES7322-1EH01-0AA0
6ES7322-1EL00-0AA0
6ES7322-1FF00-0AA0
6ES7322-1FF01-0AA0
6ES7322-1FF81-0AA0
6ES7322-1FH00-0AA0
6ES7322-1FL00-0AA0
6ES7322-1HF80-0AA0
6ES7322-5RD00-0AB0 D)
6ES7322-5SD00-0AB0 D)
6ES7322-8BF00-0AB0
6ES7322-8BF00-0AB0
6ES7322-8BH01-0AB0
6ES7322-8BH01-0AB0
6ES7323-1BH00-0A00
6ES7323-1BH01-00A0
DI/DO
6ES7323-1BH80-0AA0
6ES7323-1BH80-0A00
6ES7323-1BL00-0AA0
Number/Type of channels
16 DI
16 DI
16 DI
16 DI
16 DI
16 DI
16 DI
32 DI
32 DI
64 DI, positive logic
64 DI, negative logic A)
16 DI
16 DI
16 DI
16 DI
16 DI
8 DI
8 DI
8 DI
16 DI
16 DI
16 DI
16 DI
16 DI
8 DO
8 DO
16 DO
16 DO
16 DO
16 DO
32 DO
64 DO
64 DO
8 DO
8 DO
16 DO
16 DO
32 DO
8 DO
8 DO
8 DO
16 DO
32 DO
8 DO
4 DO
4 DO
8 DO, without redundancy
8 DO, with redundancy
16 DO, without redundancy
16 DO, with redundancy
8 DI
8DO
8 DI
8 DO
8 DI
8 DO
8 DI
8 DO
16 DI
16 DO
Cables
Interfaces
Standard
Order No.
7789234xxx
7789234xxx
7789234xxx
7789234xxx
7789234xxx
7789234xxx
7789234xxx
7789236xxx
7789236xxx
7789771xxx
7789768xxx
7789211xxx
7789211xxx
7789212xxx
7789212xxx
7789215xxx
7789219xxx
7789219xxx
7789219xxx
7789212xxx
7789210xxx
7789210xxx
7789210xxx
7789801xxx
7789239xxx
7789239xxx
7789234xxx
7789234xxx
7789234xxx
7789234xxx
7789236xxx
7789246xxx
7789246xxx
7789191xxx
7789191xxx
7789211xxx
7789211xxx
7789211xxx
7789219xxx
7789219xxx
7789219xxx
7789211xxx
7789211xxx
7789190xxx
7789192xxx
7789192xxx
7789239xxx
7789830xxx
7789729xxx
7789730xxx
Quantity
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
2
1
1
1
1
2
1
1
1
1
1
1
1
7789237xxx
1
7789237xxx
1
7789237xxx
1
7789237xxx
1
7789236xxx
1
Direct inputs/outputs
Insulated inputs
- see page A.38 (H) or A.60 (A) Type
Quantity
H2016
1
H2016
1
H2016
1
H2016
1
H2016
1
H2016
1
H2016
1
H2016
2
H2016
2
H2016
4
H2016
4
R2416
1
R2416
1
R2416
1
R2416
1
R3632
1
R1208
1
R1208
1
R1208
1
R2416
1
R2416
1
R2416
1
R2416
1
H20
1
H2008
1
H2008
1
H2016
1
H2016
1
H2016
1
H2016
1
H2016
2
H2016
4
H2016
4
R1208
1
R1208
1
R2416
1
R2416
1
R2416
2
R1208
1
R1208
1
R1208
1
R2416
1
R2416
2
R2416
1
H2016
1
H2016
1
H2008
1
H2008
1
H2016
1
H2016
1
H2008
1
H2008
1
H2008
1
H2008
1
H2008
1
H2008
1
H2008
1
H2008
1
H2016
1
H2016
1
- see page A.66 Type
Quantity
I2016
1
I2016
1
I2016
1
I2016
1
I2016
1
I2016
1
I2016
1
I2016
2
I2016
2
I2016
4
Insulated outputs
- see page A.70 Type
Quantity
Universal solutions for PLC input/
output cards
Universal solutions for PLC input/
output cards
Selection guide
A
1327330000 – 2012/2013
O2008
O2008
O2016
O2016
O2016
O2016
O2016
O2016
O2016
1
1
1
1
1
1
2
4
4
O2008
O2008
O2016
O2016
1
1
1
1
O2008
I2016
Wide range of passive interfaces
The range includes passive input/output
interfaces for digital and analogue signals.
The interfaces are available in screw or tension
clamp connection and the sensors/actuators can
be connected with 1, 2 or 3 wires, whichever
is needed. You can also choose from a large
variety of functions:
•LED indication
•Fuse
•Circuit Breaker
•Test leads
1
O2008
1
O2008
1
O2008
1
O2016
1
1
A.33
1327330000 – 2012/2013
PLC-Interface Units, Front Adapter
and Prefabricated Cables
For a complete catalogue please see
below for details.
Order number, 1327330000.
www.weidmuller.com.au
Wide range of relay insulated interfaces
Available in versions with 8-12 and 16 relays,
the RSM family offers the possibility of
insulating digital signals both in input and
output cards. Options include our compact
format (6 mm relays) or standard (RCL relay),
with additional features including:
•Switch in coil and contact
•Fuse in contact
•1 or 2 CO contacts
Weidmüller – Partner in Industrial Connectivity.
4.5
PLC-Interface Units, Front Adapter
and Prefabricated Cables
Catalogue 2012/2013
Catalogue 2012/2013
PLC-Interface Units, Front Adapter and Prefabricated Cables
As experienced experts we support our customers and partners around the world
with products, solutions and services in the industrial environment of power,
signal and data. We are at home in their industries and markets and know the
technological challenges of tomorrow. We are therefore continuously developing
innovative, sustainable and useful solutions for their individual needs. Together we
set standards in Industrial Connectivity.
Weidmüller Interface GmbH & Co. KG
Klingenbergstraße 16
32758 Detmold, Germany
T +49 5231 14-0
F +49 5231 14-292083
info@weidmueller.com
www.weidmueller.com
Order number: 1327330000/06/2012/SMDM
PLC-System Cabling
TERMSERIES
TERMSERIES – The All-rounder – Overview
A
TERMSERIES – The All-rounder
Relays and solid-state relays for all purposes
Relay modules are universal isolating elements for use in electrical
automation. There are always different requirements for them
because of this versatility. With the development of our TERMSERIES
relay modules and solid-state relays, we have used these practical
requirements as our highest benchmark.
Depending on the application, you can choose the product with the
fixed-voltage inputs or with the multi-voltage input, which is currently
a unique feature in this thin 6 mm terminal block format. Our practical
design is reflected in the high-quality design without any sharp
edges, a large number of variants with screw and tension-clamp
connections, and a clear status display even in difficult viewing
conditions. The product shape allows it to be installed in many
different positions. Unlimited cross-connectivity, even across partition
plates, assures versatile usage for your application regardless of how
unusual your needs are.
Always the best overview
A distinct status display is available through a LED that
completely illuminates the ejector. This ensures the safe
removal of the switching element.
Well-designed handling of cross-connections
An exceptionally simple shortening of the crossconnections to the necessary length allows
indentations between the poles. An additional
bar supports the handling and mounting without
having to grasp the contacts.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2013 Australia & New Zealand
Unique multi-voltage input
Whether retro-fitting machines or in plant
construction: with the multi-voltage input
from 24 V to 230 V UC, the input signals
are always optimally matched to your
automation application.
TERMSERIES
Clear marking
The unique legibility of all labelling is assured
in different mounting positions and this,
together with different voltage variant colour
identification, reduces the danger of a false
connection.
A
Any desired combinations
The variants with single or dual CO-contacts
have the same shape and can be
cross-connected with each other.
Custom-fit cross-connection
These cross-connectors are especially
impressive because of their ease of
use, good visibility and universal interconnectivity – also across partition plates.
Even the screw and tension-clamp variants
can be cross-connected to each other.
Partition plates for safety and clarity
The partition plate is a unique accessory
because of its many different uses. It is
used to group signals together visibly, to
electrically isolate assemblies, or to add
labelling for a better overview.
TERMSERIES 1 CO
Termseries 1 CO contact
TERMSERIES
•Space-saving 6.4 mm width
•Silver/Nickel (AgNi) contact with or without gold plating
•Gold plated contacts for low voltage signals
•Symmetrical design
•5 cross connection level
•Screw and tension connection
•Multi voltage input: 24…230 V UC (AC/DC) in one unit
A
Technical data
Output
Type of contact / Number of contacts
Contact material
Max. switching voltage / current
Min. switching voltage / current
Min. mechanical lifetime
Min. electrical lifetime
Max. switch-on / switch-off delay
General data
Status indicator / Free-wheel (Input)
Reverse polarity protection (Input)
Ambient temperature (operational)
Storage temperature
Humidity
Reference temperature technical data
Insulation coordination (EN 50 178)
Rated voltage
Rated impulse voltage
Overvoltage category
Pollution degree
Clearage and creepage distance input / output
Total circuit to rail
AC-Input + RC-Filter
~
=
AC/DC-Input
=
~
DC-Input
=
=
NC
12
A2
14 11 12
A1
A2
TRS
11
COM
A1
NO
14
Dimensions
Clamping range
Height x length x width
Note
1 CO contact
Silver/Nickel (AgNi)
250 V / 6A (1)
5 V / 100 mA (2)
5x106 (1)
NO: 5x104; NC: 3x104 (1)
8 / 4 ms
LED green / yes
yes
-40 °C to 60 °C
-40 °C to 85 °C
5 %...95 %, Tu=40 °C, no condensation
20 °C
300 V
6 kV (1.2 / 50 µs)
III
2
>= 5.5 mm
4 k Veff / 1 min
mm²
mm
0.14…1.5 mm²
90 x 88 x 6.4
1) At resistive load 2) 10 V / 10 mA; 24 V / 1 mA
3) Au- plate operate up to 0.25 W
Electronic Characteristics
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24 V…230 V UC (AC/DC) +-10 %
23 mA @ 24 V DC / 4 mA @ 230 V AC (+/- 10 %)
530 mW @ 24 V DC / 930 mW @ 230 V AC
11 V / 20 mA
5 V / 6 mA
Rated control voltage
Input current
Input power
Making threshold
Dropout threshold
Ordering data
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Screw connection
Order No.
Tension clamp connection
Order No.
*Gold (Au)
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Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
TRS 24-230VUC (AC/DC) 1CO
1122850000
TRZ 24-230VUC (AC/DC) 1CO
1122970000
TRS 24-230VUC (AC/DC) 1CO Au*
1123090000
TRZ 24-230VUC (AC/DC) 1CO Au*
1123210000
Acessories
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Replacement
Relay Silver/Nickel (AgNi)
Relay AgNi Gold Plated (5uAu)
Base TRS Screw
Base TRZ Tension clamp
24 V - 230 V UC (AC/DC)
4060120000
4061590000
1123330000
1123450000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMSERIES 1 CO
Termseries 1 CO contact
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Ordering data
Control side
Rated control voltage
Input current AC/DC
Input power
Making threshold
Dropout threshold
TERMSERIES
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5 V DC
12 V DC
24 V DC
24 V UC (AC/DC)
48 V UC (AC/DC)
5 V DC +-20 %
- / 39 mA
200 mW
3.8 V DC @ 21 mA
1.6 V DC @ 8 mA
12 V DC +-20 %
- / 18 mA
210 mW
8 V DC @ 9 mA
2 V DC @ 3 mA
24 V DC +- 20 %
- / 11 mA
240 mW
15 V DC @ 7 mA
5 V DC @ 2 mA
24 V UC (AC/DC) +-10 %
11 mA / 6.4 mA
264 mVA / 154 mW
15.8 V @ 4 mA
7 V @ 1 mA
48 V UC (AC/DC) +-10 %
5 mA / 4 mA
240 mVA / 192 mW
29 V @ 4 mA
10 V @ 1 mA
TRS 24VUC* 1CO
1122780000
TRS 24VUC* 1CO Au*
1123010000
TRZ 24VUC* 1CO
1122890000
TRZ 24VUC* 1CO Au*
1123130000
*AC/DC (UC) / *Gold (Au)
TRS 48VUC* 1CO
1122790000
TRS 48VUC* 1CO Au*
1123020000
TRZ 48VUC* 1CO
112290000
TRZ 48VUC* 1CO Au*
1123140000
*AC/DC (UC) / *Gold (Au)
A
Ordering data
Screw connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
Tension clamp connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
TRS 5VDC 1CO
1122740000
TRS 5VDC 1CO Au*
1122980000
TRZ 5VDC 1CO
1122860000
TRZ 5VDC 1CO Au*
1123100000
*Gold (Au)
TRS 12VDC 1CO
1122750000
TRS 12VDC 1CO Au*
1122990000
TRZ 12VDC 1CO
1122870000
TRZ 12VDC 1CO Au*
1123110000
*Gold (Au)
TRS 24VDC 1CO
1122770000
TRS 24VDC 1CO Au*
1123000000
TRZ 24VDC 1CO
1122880000
TRZ 24VDC 1CO Au*
1123120000
*Gold (Au)
Acessories
Replacement
Relay Silver/Nickel (AgNi)
Relay AgNi Gold Plated (5uAu)
Base TRS Screw
Base TRZ Tension clamp
Ordering data
Control side
Rated control voltage
Input current AC/DC
Input power
Making threshold
Dropout threshold
5 V DC
1123220000
4061580000
1123220000
1123340000
12 V DC
4061610000
1220670000
1123230000
1123350000
24 V DC
4060120000
4061590000
1123240000
1123370000
24 V UC (AC/DC)
4060120000
4061590000
1123250000
1123380000
48 V UC (AC/DC)
4060120000
4061590000
1123270000
1123390000
60 V UC (AC/DC)
120 V UC (AC/DC)
230 V UC (AC/DC)
120 V AC RC
230 V AC RC
60 V UC (AC/DC) +-10 %
6 mA / 3.3 mA
360 mVA / 198 mW
35 V AC / 40 V DC
13 V AC / 13 V DC
120 V UC (AC/DC) +-10 %
4 mA / 3.5 mA
480 mVA / 420 mW
79 V @ 1.5 mA
65 V @ 0.5 mA
230 V UC (AC/DC) +-10 %
3.5 mA / 2.9 mA
805 mVA / 670 mW
159 V @ 2.2 mA
99 V @ 1.2 mA
120 V AC +- 10 %
7 mA / 840 mVA
79 V @ 4 mA
65 V @ 2.5 mA
230 V AC +-10 %
10 mA / 2.3 VA
130 V / 9 mA
94 V / 4 mA
TRS 60VUC* 1CO
1122800000
TRS 60VUC* 1CO Au*
1123030000
TRZ 60VUC* 1CO
1122910000
TRZ 60VUC* 1CO Au*
1123150000
*AC/DC (UC) / *Gold (Au)
TRS 120VUC* 1CO
1122810000
TRZ 120VUC* 1CO Au*
1123170000
TRZ 120VUC* 1CO
1122920000
TRS 120VUC* 1CO Au*
1123040000
*AC/DC (UC) / *Gold (Au)
TRS 230VUC* 1CO
1122820000
TRS 230VUC* 1CO Au*
1123050000
TRZ 230VUC* 1CO
1122930000
TRZ 230VUC* 1CO Au*
1123180000
*AC/DC (UC) / *Gold (Au)
Ordering data
Screw connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
Tension clamp connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
TRS 120VACRC 1CO
1122830000
TRS 120VACRC 1CO Au*
1123070000
TRZ 120VACRC 1CO
1122940000
TRZ 120VACRC 1CO Au*
1123190000
*Gold (Au)
TRS 230VACRC 1CO
1122840000
TRS 230VACRC 1CO Au*
1123080000
TRZ 230VACRC 1CO
1122950000
TRZ 230VACRC 1CO Au*
1123200000
*Gold (Au)
Acessories
Replacement
Relay Silver/Nickel (AgNi)
Relay AgNi Gold Plated (5uAu)
Base TRS Screw
Base TRZ Tension clamp
60 V UC (AC/DC)
4061630000
4061600000
1123280000
1123400000
120 V UC (AC/DC)
4061630000
4061600000
1123290000
1123410000
230 V UC (AC/DC)
4061630000
4061600000
1123300000
1123420000
120 V AC RC
4061630000
4061600000
1123310000
1123430000
230 V AC RC
4061630000
4061600000
1123320000
1123440000
A.2
TERMSERIES 2 CO
Termseries 2 CO contact
TERMSERIES
•Space-saving 12.8 mm width
•Silver/Nickel (AgNi) contact with or without gold plating
•Gold plated contacts for low voltage signals
•Symmetrical design
•5 cross connection level
•Screw and tension connection
•Multi voltage input: 24…230 V UC (AC/DC) in one unit
A
Technical data
AC-Input + RC-Filter
~
=
AC/DC-Input
=
~
DC-Input
=
=
12
22
A2
NC
14 11 12 A1
24 21 22
A2
TRS
11
21
A1
COM
14
24
NO
Output
Type of contact / Number of contacts
Contact material
Max. switching voltage / current
Min. switching voltage / current
Min. mechanical lifetime
Min. electrical lifetime
Max. switch-on / switch-off delay
General data
Status indicator / Free-wheel (Input)
Reverse polarity protection (Input)
Ambient temperature (operational)
Storage temperature
Humidity
Reference temperature technical data
Insulation coordination (EN 50 178)
Rated voltage
Rated impulse voltage
Overvoltage category
Pollution degree
Clearage and creepage distance input / output
Total circuit to rail
Dimensions
Clamping range
Height x length x width
Note
Electronic Characteristics
load
250 V AC Resistive load
Switching Operations
2 contacts in series
2 CO contact Au (Gold)
AgNi 5uAu (3)
250 V / 8A; 15A @ 4s (1)
1 V / 1 mA
30x106 (1)
NO: 5x104; NC: 3x104 (1)
8 / 4 ms
LED green / yes
yes
-40 °C to 60 °C
-40 °C to 85 °C
5 %...95 %, Tu=40 °C, no condensation
20 °C
300 V
6 kV (1.2 / 50 µs)
III
2
>= 5.5 mm
4 k Veff / 1 min
mm²
mm
0.14…1.5 mm²
90 x 88 x 12.8
1) At resistive load 2) 10 V / 10 mA; 24 V / 1 mA
3) Au- plate operate up to 0.25 W
24 V - 230 V UC (AC/DC)
Control side
Rated control voltage
Input current
Input power
Making threshold
Dropout threshold
Electrical endurance
aking capacity
2 CO contact
AgNi
250 V / 8A; 15A @ 4s (1)
10 V / 100 mA (2)
30x106 (1)
NO: 5x104; NC: 3x104 (1)
8 / 4 ms
2x8A
24 V…230 V UC (AC/DC) +-10 %
22 mA @ 24 V DC / 6 mA @ 230 V AC (+/- 10 %)
530 mW @ 24 V DC / 930 mW @ 230 V AC
11 V / 20 mA
5 V / 6 mA
DC coil
AC coil
Switching current [A]
Switching current [A]
Ordering data
Screw connection
Order
No.
Electrical
endurance
DC load breaking capacity
2 contacts in series
1 contact
Switching current [A]
A.33
250 V AC Resistive load
Switching Operations
Switching voltage [V DC]
2 poles Resistive load
Tension clamp connection
Order No.
*AC/DC (UC) / *Gold (Au)
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
TRS 24-230VUC (AC/DC) 2CO
1123580000
TRZ 24-230VUC (AC/DC) 2CO
1123700000
TRS 24-230VUC* 2CO Au*
1123820000
TRZ 24-230VUC* 2CO Au*
1123940000
2x8A
DC coil
Acessories
AC coil
Replacement
Relay Silver/Nickel (AgNi)
Relay AgNi Switching
Gold Plated
(5uAu)
current
[A]
Base TRS Screw
Base TRZ Tension clamp
24 V - 230 V UC (AC/DC)
4058570000
4058580000
1124070000
1124190000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMSERIES 2 CO
Termseries 2 CO contact
(PSW\ (PSW\VRFNHWV
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9'&
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9'&
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98&
9$&
98&
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98&
Ordering data
Control side
Rated control voltage
Input current AC/DC
Input power
Making threshold
Dropout threshold
TERMSERIES
5HODLV
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5 V DC
12 V DC
24 V DC
24 V UC (AC/DC)
48 V UC (AC/DC)
5 V DC +-20 %
- / 39 mA
200 mW
3.8 V DC @ 21 mA
1.6 V DC @ 8 mA
12 V DC +-20 %
- / 34 mA
408 mW
8 V DC @ 21 mA
3 V DC @ 5 mA
24 V DC +- 20 %
- / 16 mA
384 mW
16.6 V DC @ 10 mA
3.5 V DC @ 3 mA
24 V UC (AC/DC) +-10 %
16 mA / 14 mA
384 mVA / 336 mW
16 V @ 10 mA
8 V @ 3 mA
48 V UC (AC/DC)+-10 %
9 mA / 7 mA
432 mVA / 336 mW
29 V @ 5 mA
12 V @ 2 mA
TRS 24VDC 2CO
1123490000
TRS 24VDC 2CO Au*
1123730000
TRZ 24VDC 2CO
1123610000
TRZ 24VDC 2CO Au*
1123850000
*Gold (Au)
TRS 24VUC* 2CO
1123500000
TRS 24VUC* 2CO Au*
1123740000
TRZ 24VUC* 2CO
1123620000
TRZ 24VUC* 2CO Au*
1123870000
*AC/DC (UC) / *Gold (Au)
TRS 48VUC* 2CO
1123510000
TRS 48VUC* 2CO Au*
1123750000
TRZ 48VUC* 2CO
1123630000
TRZ 48VUC* 2CO Au*
1123880000
*AC/DC (UC) / *Gold (Au)
A
Ordering data
Screw connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
Tension clamp connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
TRS 5VDC 2CO
1123470000
TRS 5VDC 2CO Au*
1123710000
TRZ 5VDC 2CO
1123590000
TRZ 5VDC 2CO Au*
1123830000
*Gold (Au)
TRS 12VDC 2CO
1123480000
TRS 12VDC 2CO Au*
1123720000
TRZ 12VDC 2CO
1123600000
TRZ 12VDC 2CO Au*
1123840000
*Gold (Au)
Acessories
Replacement
Relay Silver/Nickel (AgNi)
Relay AgNi Gold Plated (5uAu)
Base TRS Screw
Base TRZ Tension clamp
Ordering data
Control side
Rated control voltage
Input current AC/DC
Input power
Making threshold
Dropout threshold
5 V DC
8693790000
1174490000
1123950000
1124080000
12 V DC
4058560000
4074580000
1123970000
1124090000
24 V DC
4058570000
4058580000
1123980000
1124100000
24 V UC (AC/DC)
4058570000
4058580000
1123990000
1124110000
48 V UC (AC/DC)
4058750000
1201230000
1124000000
1124120000
60 V UC (AC/DC)
120 V UC (AC/DC)
230 V UC (AC/DC)
120 V AC RC
230 V AC RC
60 V UC (AC/DC) +-10 %
6 mA / 3.3 mA
360 mVA / 198 mW
35 V AC / 40 V DC
13 V AC / 13 V DC
120 V UC (AC/DC) +-10 %
4 mA / 3.5 mA
480 mVA / 420 mW
79 V @ 1.5 mA
65 V @ 0.5 mA
230 V UC (AC/DC) +-10 %
3.5 mA / 2.9 mA
805 mVA / 670 mW
159 V @ 2.2 mA
99 V @ 1.2 mA
120 V AC +- 10 %
7 mA / 840 mVA
79 V @ 4 mA
65 V @ 2.5 mA
230 V AC +-10 %
10 mA / 2.3 VA
130 V / 9 mA
94 V / 4 mA
TRS 60VUC* 2CO
1123520000
TRS 60VUC* 2CO Au*
1123770000
TRZ 60VUC* 2CO
TRS 120VUC* 2CO
1123530000
TRS 120VUC* 2CO Au*
1123780000
TRZ 120VUC* 2CO
1123650000
TRZ 120VUC* 2CO Au*
1123900000
TRS 230VUC* 2CO
1123540000
TRS 230VUC* 2CO Au*
1123790000
TRZ 230VUC* 2CO
1123670000
TRZ 230VUC* 2CO Au*
1123910000
TRS 120VACRC 2CO
1123550000
TRS 120VACRC 2CO Au*
1123800000
TRZ 120VACRC 2CO
1123680000
TRZ 120VACRC 2CO Au*
1123920000
TRS 230VACRC 2CO
1123570000
TRS 230VACRC 2CO Au*
1123810000
TRZ 230VACRC 2CO
1123690000
TRZ 230VACRC 2CO Au*
1123930000
Ordering data
Screw connection
Silver/Nickel (AgNi)
AgNi 5uAu (Gold Plated)
Tension clamp connection
Silver/Nickel AgNi
AgNi 5uAu (Gold Plated)
1123640000
TRZ 60VUC* 2CO Au*
1123890000
*AC/DC (UC) / *Gold (Au)
*AC/DC (UC) / *Gold (Au)
*AC/DC (UC) / *Gold (Au)
*Gold (Au)
*Gold (Au)
Acessories
Replacement
Relay Silver/Nickel (AgNi)
Relay AgNi Gold Plated (5uAu)
Base TRS Screw
Base TRZ Tension clamp
60 V UC (AC/DC)
405876000
1201260000
1124010000
1124130000
120 V UC (AC/DC)
4058590000
8828370000
1124020000
1124140000
230 V UC (AC/DC)
4058590000
8828370000
1124030000
1124150000
120 V AC RC
4058590000
8828370000
1124040000
1124170000
230 V AC RC
4058590000
8828370000
1124050000
1124180000
A.4
TERMSERIES ACCESSORIES
TERMSERIES
Pluggable cross connection
A
Supply terminal
Type
ZQV 1.5N/R6.4/2 GE
ZQV 1.5N/R6.4/10 GE
ZQV 1.5N/R6.4/19 GE
ZQV 1.5N/R12.8/10 GE
ZQV 1.5N/R6.4/10 SW
ZQV 1.5N/R6.4/19 SW
ZQV 1.5N/R6.4/10 RT
ZQV 1.5N/R6.4/19 RT
ZQV 1.5N/R6.4/10 BL
ZQV 1.5N/R6.4/19 BL
No. of poles / Pitch
2 / 6.4 mm
10 / 6.4 mm
19 / 6.4 mm
10 / 12.8 mm
10 / 6.4 mm
19 / 6.4 mm
10 / 6.4 mm
19 / 6.4 mm
10 / 6.4 mm
19 / 6.4 mm
Type
TXS SUPPLY
TXZ SUPPLY
Colour
yellow
yellow
yellow
yellow
black
black
red
red
blue
blue
Qty.
10
10
10
10
10
10
10
10
10
10
Order No.
1193670000
1193680000
1193690000
1193700000
1391630000
1391600000
1391640000
1391610000
1390350000
1391620000
Connection technology
Screw connection
Tension clamp connection
Qty.
10
10
Order No.
1240780000
1240790000
Isolation plate
TW TXS/TXZ R3.2
Note
Isolation plate 3.2 mm pitch
Isolation plate - small
Isolation plate - large
Qty.
10
600
Order No.
1240800000
1818400000
1112930000
Markers
WS 10/6 MC Middle (Note: *2 Isolation plate complete with marker)
WAD 5 MC SDR (Note: *2 Isolation plate complete with marker)
Screwdriver
SDK PH0
SD 0.6 x 3.5 x 100
SD TO 0.6 x 3.0 (Pictured)
Note
10 * 6 mm
*2 plates required
Note
only screw connection
600
1818400000
1112930000
1
1
1
9008470000
9008330000
1323880000
100
1061210000
* Note: use the supply terminal to add power across specific connection points on the
Termseries relays. A wire connection and cross connection are provided at each point
to simplify design.
14
A1 +
A2 -
11
12
Other accessories
only tension clamp connection (angled)
End bracket
WEW35/2 SW
Dimensions
Tension clamp connection
Screw connection
90 mm
A.55
6.4 mm
12.8 mm
12.8 mm
88 mm
88 mm
6.4 mm
90 mm
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Simple
The stay-down test button
simplifies commissioning and
service work.
Customised
Suppressor circuitry and LED can be integrated
into a relay module or as a pluggable module at
the base.
Industrial Relays
Power with precision
The RIDERSERIES modular-designed relay series formally complies with international standards and consists of a
variety of pluggable version available in one and two change over contacts and your choice of connection method.
Our relay kits are particularly convenient to use. They include the relay module with status display, optional test
lever, and base with ejection lever. The kits are delivered fully assembled and with completely tested functionality.
This saves time during assembly and reduces the number of products required. Suitable for 250V/16A in 1 CO, and
250V/8A in 2 CO will sure to be a favourite.
www.weidmuller.com.au
RIDERSERIES RCI KIT 1 CO
RCI KIT with screw connection 1 CO contact
RIDERSERIES
• Kit includes relay, base & hold down clip
• 4.000 VA switching capacity
• Stable plug-in connections
• LED (AC red / DC green) integrated in relay module
• Protective suppressor circuit for DC coil
• Optional test button with latching function and inspection window
• Identification of coils (AC red / DC blue)
B
Technical data
Output
Switching voltage AC, max.
Continuous current
Contact material
DC-Version
+
12/22 14/24
A1
250 V
16 A
AgNi 90/10
AC coil 5x105 switching operations, DC coil 10x105
switching operations
7 ms / 3 ms
Mechanical service life
Sparkover time / Drop-out time
Rated data
Status indicator / Free-wheel diode
Ambient temperature (operational)
Flammability class UL 94
Humidity
Approvals
Insulation coordination (EN 50 178)
Rated voltage
Clearance and creepage distances for control/load side
Overvoltage category
Pollution degree
Protective separation acc. to VDE 0106 part 101
Dimensions
Clamping range
Length x width x height
-
A2
11/21
AC-Version
12/22 14/24
A1
A2
Green LED = DC coil; red LED = AC coil / Yes
-40 °C...+70 °C
V-0
40°C / 93% rel. humidity, no condensation
GL*; CE; cURus
mm²
mm
11/21
Note
Ordering data
Input
Rated control voltage
Rated current AC
Rated current DC
Power rating
AC Response/dropout Volt
DC Response/dropout Volt
Coil resistance
Ordering data
Relay module with socket
w. test button
w.o. test button
Ordering data
Type
Order No.
250 V
> 8 mm
III
3
Yes
Screw connection
2.5 / 0.5 / 2.5
70 / 15.5 / 77
24 V DC 1CO
24 V AC 1CO
115 V AC 1CO
230 V AC 1CO
24 V DC
24 V AC
31.6 mA
115 V AC
6.6 mA
230 V AC
3.2 mA
0.75 VA
18 V / 3.6 V
0.75 VA
86.3 V / 17.3 V
0.75 VA
172.5 V / 34.5 V
16.8 V / 2.4 V
1440 Ω ±10%
350 Ω ±10%
8100 Ω ±15%
32500 Ω ±15%
RCIKIT 24VDC 1CO LD/PB
8881580000
RCIKIT 24VDC 1CO LED
8871000000
RCIKIT 24VAC 1CO LD/PB
8881590000
RCIKIT 24VAC 1CO LED
8871010000
RCIKIT 115VAC 1CO LD/PB
8897060000
RCIKIT 115VAC 1CO LD
8897090000
RCIKIT 230VAC 1CO LD/PB
8881600000
RCIKIT 230VAC 1CO LED
8871020000
16.7 mA
400 mW
Type
Order No.
Type
Order No.
* Valid only for RCI kits with test button
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
RCI374AC4
8870250000
RCI314AC4
8870100000
RCI374R24
8870280000
RCI314R24
8870130000
RCI374S15
8870290000
RCI314S15
8870140000
RCI374T30
8870300000
RCI314T30
8870150000
Note
B.11
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
RIDERSERIES RCI KIT 1 CO
RCI-KITP with PUSH IN connection 1 CO contact
RIDERSERIES
• 4000 VA switching capacity
• Stable plug-in connections
• LED (AC red / DC green) integrated in relay
• Protective suppressor circuit for DC coil
• Optional test button with latching function and inspection window
• Identification of coils (AC red / DC blue)
B
Technical data
Output
Rated switching voltage / Continuous current
Max. switching voltage, AC
Making current
Min. switching power
Max. switching power
Contact material
Mechanical service life
Max. switching frequency at rated load
Rated data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength input – output
Dielectric strength, contact / contact
Dielectric strength to mounting rail
Creepage and clearance distance input – output
Surge voltage category
Pollution severity
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Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
AC response/dropout Volt
DC response/dropout Volt
Status indicator
Protective circuit
Output
Switch-on delay
Switch-off delay
Ordering data
Relay with socket
w. test button
w.o. test button
Ordering data
Spare relay
Type
Order No.
Type
Order No.
Type
Order No.
240 V AC / 16 A(1
400 V
30 A / 4 s
100 mA / 5 V, 10 V / 10 mA, 24 V / 1 mA
4000 VA
AgNi 90/10
AC coil 5 x 106 Switch. cycles, DC coil 10 x 106 Switch. cycles
0.1 Hz
-40 °C...+70 °C
-40 °C...+70 °C
40 °C / 93 % rel. humidity, no condensation
CE; GL; GOSTME25
250 V
5 kV (1.2/50 µs)
5 kVeff
≥ 8 mm
III
2
mm²
mm
PUSH IN spring connection
1.5 / 0.75 / 1.5
70 / 15.5 / 98
1) For full continuous current (16 A), relay connections 11 - 21,
12 - 22 and 14 - 24 must be bridged.
24 V DC 1CO
24 V AC 1CO
115 V AC 1CO
230 V AC 1CO
24 V DC
/ 16.7 mA
420 mW
24 V AC
31.6 mA
0.75 VA
18 V / 3.6 V
115 V AC
7 mA
0.8 VA
86.3 V / 17.3 V
230 V AC
3.5 mA
0.8 VA
172.5 V / 34.5 V
16.8 V / 2.4 V
Green LED
Integrated free-wheel diode
red LED
red LED
red LED
≤ 8 ms
≤ 6 ms
≤ 8 ms
≤ 6 ms
≤ 8 ms
≤ 6 ms
≤ 8 ms
≤ 6 ms
RCIKITP 24VDC 1CO LD/PB
8897190000
RCIKITP 24VDC 1CO LD
8897110000
RCIKITP 24VAC 1CO LD/PB
8897200000
RCIKITP 24VAC 1CO LD
8897120000
RCIKITP115VAC 1CO LD/PB
8897210000
RCIKITP 115VAC 1CO LD
8897130000
RCIKITP230VAC 1CO LD/PB
8897220000
RCIKITP 230VAC 1CO LD
8897140000
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
RCI374AC4
8870250000
RCI314AC4
8870100000
RCI374R24
8870280000
RCI314R24
8870130000
RCI374S15
8870290000
RCI314S15
8870140000
RCI374T30
8870300000
RCI314T30
8870150000
Note
B.2
RIDERSERIES RCI KIT 2 CO
RCI KIT with screw connection 2 CO contacts
RIDERSERIES
• Kit includes relay, base & hold down clip
• 4.000 VA switching capacity
• Stable plug-in connections
• LED (AC red / DC green) integrated in relay module
• Protective suppressor circuit for DC coil
• Optional test button with latching function and inspection window
• Identification of coils (AC red / DC blue)
B
Technical data
Output
Switching voltage AC, max.
Continuous current
Contact material
DC-Version
+
12 14
A1
22 24
250 V
8 A / 1 contact
AgNi 90/10
AC coil 5x105 switching operations, DC coil 10x105
switching operations
7 ms / 2 ms
Mechanical service life
Sparkover time / Drop-out time
Rated data
Status indicator / Free-wheel diode
Ambient temperature (operational)
Flammability class UL 94
Humidity
Approvals
Insulation coordination (EN 50 178)
Rated voltage
Clearance and creepage distances for control/load side
Overvoltage category
Pollution degree
Protective separation acc. to VDE 0106 part 101
Dimensions
Clamping range
Length x width x height
-
A2
21
11
AC-Version
12 14
A1
A2
11
22 24
Green LED = DC coil; red LED = AC coil / Yes
-40 °C...+70 °C
V-0
40°C / 93% rel. humidity, no condensation
GL*; CE; cURus
250 V
> 8 mm
III
3
Yes
Screw connection
2.5 / 0.5 / 2.5
70 / 15.5 / 77
mm²
mm
21
Note
Ordering data
Input
Rated control voltage
Rated current AC
Rated current DC
Power rating
AC Response/dropout Volt
DC Response/dropout Volt
Coil resistance
Ordering data
Relay module with socket
w. test button
w.o. test button
Ordering data
Type
Order No.
24 V DC 2CO
24 V AC 2CO
115 V AC 2CO
230 V AC 2CO
24 V DC
24 V AC
31.6 mA
115 V AC
6.6 mA
230 V AC
3.2 mA
0.75 VA
18 V / 3.6 V
0.75 VA
86.3 V / 17.3 V
0.75 VA
172.5 V / 34.5 V
16.8 V / 2.4 V
1440 Ω ±10%
350 Ω ±10%
8100 Ω ±15%
32500 Ω ±15%
RCIKIT 24VDC 2CO LD/PB
8881610000
RCIKIT 24VDC 2CO LED
8871030000
RCIKIT 24VAC 2CO LD/PB
8881620000
RCIKIT 24VAC 2CO LED
8871040000
RCIKIT 115VAC 2CO LD/PB
8897080000
RCIKIT 115VAC 2CO LD
8897100000
RCIKIT 230VAC 2CO LD/PB
8881630000
RCIKIT 230VAC 2CO LED
8871050000
16.7 mA
400 mW
Type
Order No.
Type
Order No.
* Valid only for RCI kits with test button
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
RCI484AC4
8870320000
RCI424AC4
8870180000
RCI484R24
8870350000
RCI424R24
8870210000
RCI484S15
8870360000
RCI424S15
8870220000
RCI484T30
8870370000
RCI424T30
8870230000
Note
B.33
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
RIDERSERIES RCI KIT 2 CO
RCI-KITP with PUSH IN connection 2 CO contacts
RIDERSERIES
• 2000 VA switching capacity
• Stable plug-in connections
• LED (AC red / DC green) integrated in relay
• Protective suppressor circuit for DC coil
• Optional test button with latching function and inspection
window
• Identification of coils (AC red / DC blue)
B
Technical data
Output
Rated switching voltage / Continuous current
Max. switching voltage, AC
Making current
Min. switching power
Max. switching power
Contact material
Mechanical service life
Max. switching frequency at rated load
Rated data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength input – output
Dielectric strength, contact / contact
Dielectric strength to mounting rail
Creepage and clearance distance input – output
Surge voltage category
Pollution severity
'&9HUVLRQ
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$
$&9HUVLRQ
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Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
AC response/dropout Volt
DC response/dropout Volt
Status indicator
Protective circuit
Output
Switch-on delay
Switch-off delay
Ordering data
Relay with socket
w. test button
w.o. test button
Ordering data
Spare relay
Type
Order No.
Type
Order No.
Type
Order No.
240 V AC / 8 A
400 V
15 A / 4 s
100 mA / 5 V, 10 V / 10 mA, 24 V / 1 mA
2000 VA
AgNi 90/10
AC coil 5 x 106 Switch. cycles, DC coil 10 x 106 Switch. cycles
0.1 Hz
-40 °C...+70 °C
-40 °C...+70 °C
40 °C / 93 % rel. humidity, no condensation
CE; GL; GOSTME25
250 V
5 kV (1.2/50 µs)
5 kVeff
2.5 kVeff
≥ 8 mm
III
2
mm²
mm
PUSH IN spring connection
1.5 / 0.75 / 1.5
70 / 15.5 / 98
24 V DC 2CO
24 V AC 2CO
115 V AC 2CO
230 V AC 2CO
24 V DC
/ 16.7 mA
420 mW
24 V AC
31.6 mA
0.75 VA
18 V / 3.6 V
115 V AC
7 mA
0.8 VA
86.3 V / 17.3 V
230 V AC
3.5 mA
0.8 VA
172.5 V / 34.5 V
16.8 V / 2.4 V
Green LED
Integrated free-wheel diode
red LED
red LED
red LED
≤ 10 ms
≤ 6 ms
≤ 10 ms
≤ 6 ms
≤ 10 ms
≤ 6 ms
≤ 10 ms
≤ 6 ms
RCIKITP 24VDC 2CO LD/PB
8897230000
RCIKITP 24VDC 2CO LD
8897150000
RCIKITP 24VAC 2CO LD/PB
8897240000
RCIKITP 24VAC 2CO LD
8897160000
RCIKITP115VAC 2CO LD/PB
8897250000
RCIKITP 115VAC 2CO LD
8897170000
RCIKITP230VAC 2CO LD/PB
8897260000
RCIKITP 230VAC 2CO LD
8897180000
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
w. test button
w.o. test button
RCI484AC4
8870320000
RCI424AC4
8870180000
RCI484R24
8870350000
RCI424R24
8870210000
RCI484S15
8870360000
RCI424S15
8870220000
RCI484T30
8870370000
RCI424T30
8870230000
Note
B.4
RIDERSERIES RCI - relay module 1 CO
RCI relay module 1 CO AC/DC coil
RIDERSERIES
• 4.000 VA switching capacity
• Stable plug-in connections
• Optional test button with latching function and inspection window
• Optional status indicator (AC red/ DC green)
• Optional protective suppressor circuit
• Identification of coils (AC red / DC blue)
B
Technical data
Output
Rated switching voltage / Continuous current
Max. switching voltage, AC
Making current
Min. switching power
Max. switching power
Contact material
Mechanical service life
Max. switching frequency at rated load
Dimensions
Depth x width x height
Circuit diagram
View on solder pins
dimensions in mm
29
0.5
3.85
26.7
13.7
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
DC response/dropout Volt
Standard
Type
Order No.
w. test button
Type
Order No.
With LED + freewheel diode
Type
Order No.
With test button + LED
Type
+ Free-wheel diode
Order No.
Note
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
AC response/dropout Volt
Standard
Type
Order No.
w. test button
Type
Order No.
With LED + freewheel diode
Type
Order No.
With test button + LED
Type
+ Free-wheel diode
Order No.
Note
B.55
240 V AC / 16 A
400 V
30 A / 4 s
100 mA / 5 V, 10 V / 10 mA, 24 V / 1 mA
4000 VA
AgNi 90/10
AC coil 5 x 106 Switch. cycles, DC coil 10 x 106 Switch. cycles
0.1 Hz
Plug-in connection
mm 25.5 / 13 / x
1.2
Note
x = 25.5 without test button / 26.7 with test button
12 V DC 1CO
24 V DC 1CO
48 V DC 1CO
110 V DC 1CO
12 V DC
/ 33.3 mA
400 mW
8.4 V / 1.2 V
RCI314012
8869800000
RCI374012
8869950000
RCI314AB2
8870090000
RCI374AB2
8870240000
24 V DC
/ 16.7 mA
400 mW
16.8 V / 2.4 V
RCI314024
8869810000
RCI374024
8869960000
RCI314AC4
8870100000
RCI374AC4
8870250000
48 V DC
/ 8.7 mA
400 mW
33.6 V / 4.8 V
RCI314048
8869820000
RCI374048
8869970000
RCI314AE8
8870110000
RCI374AE8
8870260000
110 V DC
/ 4.1 mA
400 mW
77 V / 11 V
RCI314110
8869830000
RCI374110
8869980000
RCI314BB0
8870120000
RCI374BB0
8870270000
24 V AC 1CO
115 V AC 1CO
230 V AC 1CO
24 V AC
31.6 mA
0.75 VA
18 V / 3.6 V
RCI314524
8869840000
RCI374524
8869990000
RCI314R24
8870130000
RCI374R24
8870280000
115 V AC
6.6 mA
0.75 VA
86.3 V / 17.3 V
RCI314615
8869850000
RCI374615
8870000000
RCI314S15
8870140000
RCI374S15
8870290000
230 V AC
3.2 mA
0.75 VA
172.5 V / 34.5 V
RCI314730
8869860000
RCI374730
8870010000
RCI314T30
8870150000
RCI374T30
8870300000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
RIDERSERIES RCI - relay module 2 CO
RCI relay module 2 CO AC/DC coil
RIDERSERIES
• 2.000 VA switching capacity
• Stable plug-in connections
• Optional test button with latching function and inspection window
• Optional status indicator (AC red / DC green)
• Optional protective suppressor circuit
• Identification of coils (AC red / DC blue)
B
Technical data
Output
Rated switching voltage / Continuous current
Max. switching voltage, AC
Making current
Min. switching power
Max. switching power
Contact material
Mechanical service life
Max. switching frequency at rated load
Dimensions
Depth x width x height
Circuit diagram
View on solder pins
dimensions in mm
2 C/O changeover contacts
29
0.5
3.85
26.7
13.7
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
DC response/dropout Volt
Standard
Type
Order No.
w. test button
Type
Order No.
With LED + freewheel diode
Type
Order No.
With test button + LED
Type
+ Free-wheel diode
Order No.
Note
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
AC response/dropout Volt
Standard
Type
Order No.
w. test button
Type
Order No.
With LED + freewheel diode
Type
Order No.
With test button + LED
Type
+ Free-wheel diode
Order No.
Note
1.2
Note
240 V AC / 8 A
400 V
15 A / 4 s
100 mA / 5 V, 10 V / 10 mA, 24 V / 1 mA
2000 VA
AgNi 90/10
AC coil 5 x 106 Switch. cycles, DC coil 10 x 106 Switch. cycles
0.1 Hz
Plug-in connection
mm 25.5 / 13 / x
x = 25.5 without test button / 26.7 with test button
12 V DC 2CO
24 V DC 2CO
48 V DC 2CO
110 V DC 2CO
12 V DC
/ 33.3 mA
400 mW
8.4 V / 1.2 V
RCI424012
8869870000
RCI484012
8870020000
RCI424AB2
8870170000
RCI484AB2
8870310000
24 V DC
/ 16.7 mA
400 mW
16.8 V / 2.4 V
RCI424024
8869890000
RCI484024
8870030000
RCI424AC4
8870180000
RCI484AC4
8870320000
48 V DC
/ 8.7 mA
400 mW
33.6 V / 4.8 V
RCI424048
8869900000
RCI484048
8870040000
RCI424AE8
8870190000
RCI484AE8
8870330000
110 V DC
/ 4.1 mA
400 mW
77 V / 11 V
RCI424110
8869910000
RCI484110
8870050000
RCI424BB0
8870200000
RCI484BB0
8870340000
24 V AC 2CO
115 V AC 2CO
230 V AC 2CO
24 V AC
31.6 mA
0.75 VA
18 V / 3.6 V
RCI424524
8869920000
RCI484524
8870060000
RCI424R24
8870210000
RCI484R24
8870350000
115 V AC
6.6 mA
0.75 VA
86.3 V / 17.3 V
RCI424615
8869930000
RCI484615
8870070000
RCI424S15
8870220000
RCI484S15
8870360000
230 V AC
3.2 mA
0.75 VA
172.5 V / 34.5 V
RCI424730
8869940000
RCI484730
8870080000
RCI424T30
8870230000
RCI484T30
8870370000
B.6
RIDERSERIES RCI KIT ACCESSORIES
RIDERSERIES
Accessories for
RCI KIT relay modules
Plug-in module
with PUSH IN connection
Plug-in module
with screw connection
Plug-in module
with screw connection
Standard height
Low height
Rated current:
•1 pole 16A*
•2 pole 8A
•Screw or Push in
* When 1 C/O relay used for >8A,
the following terminals must be
shorted. 11 with 21, 12 with 22, 14
with 24.
Accessories
Description
Plastic retaining clip
Metal retaining clip
Markers
Label - both terminals
MultiCard 6x15 mm - individual
SCM-I Mark
Type
SRC-I 2CO P
Qty.
Order No.
8869500000
Type
SRC-I 2CO
Qty.
Order No.
8869490000
Type
SRC-I 2CO N
Qty.
Order No.
8869480000
Type
SRC-I CLIP HP
SRC-I CLIP HM RCI
Type
SRC-I MARK
ESG 6/15 K MC
NEUTR. WS
Qty.
10
20
Qty.
10
200
Order No.
8869510000
1132090000
Order No.
8869530000
1880100000
Type
SRC-I CLIP HP
SRC-I CLIP HM RCI
Type
SRC-I MARK
ESG 6/15 K MC
NEUTR. WS
Qty.
10
20
Qty.
10
200
Order No.
8869510000
1132090000
Order No.
8869530000
1880100000
Type
SRC-I CLIP HP
SRC-I CLIP HM RCI
Type
SRC-I MARK
ESG 6/15 K MC
NEUTR. WS
Qty.
10
20
Qty.
10
200
Order No.
8869510000
1132090000
Order No.
8869530000
1880100000
Dimensions
Dimensions
Dimensions
SRC-I 2 CO
SRC-I 2 CO N
Order No.
8869460000
15.5
Type
SCM-I MARK
15.5
48 (Clip = 70)
SRC-I 2 CO P
42 (Clip = 70)
Description
Plug-in module,
15.5
Ordering data
61 (Clip = 70)
B
98
77
77
Dimensions in mm
LED and protective modules for the SRC-I plug-in bases
Ordering data
Description
Free Wheel diode 1N4007
Resistor 100 kΩ 1 Watt
RC-element 6 ... 60 V AC; 470 Ω / 220 nF
RC-element 110 ... 230 V AC; 4.7 Ω / 10 nF
Varistor protection 24 V; S07K30
Varistor protection 110 V; S07K130
Varistor protection 230 V; S07K275
LED
LED 6 ... 24 V DC with free wheel diode
LED 24 ... 60 V DC with free wheel diode
LED 110 ... 230 V DC with free wheel diode
LED 6 ... 24 V DC / V AC
LED 24 ... 60 V DC / V AC
LED 110 ... 230 V DC / V AC
B.77
Type
Qty.
RIM-I 1 6/230V
10
RIM-I 1 R 110/230V 10
RIM-I 3 6/60VAC
10
RIM-I 3 110/230VAC 10
RIM-I 4 24VUC
10
RIM-I 4 110VUC
10
RIM-I 4 230VUC
10
RIM-I 2 6/24VDC
RIM-I 2 24/60VDC
RIM-I 2 110/230VDC
RIM-I 3 6/24VUC
RIM-I 3 24/60VUC
RIM-I 3 110/230VUC
10
10
10
10
10
10
Order No.
8869580000
8870830000
8869770000
8869790000
8869710000
8869730000
8869750000
red
8869590000
8869670000
8869690000
8869630000
8869610000
8869650000
Order No.
green
8869600000
8869680000
8869700000
8869640000
8869620000
8869660000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Resistant to vibration
A metal clip ensures that the relay module
remains secure even under vibration /
mechanical shock conditions.
A variety of connection options
The base is available either with the proven
screw clamp connection or the time saving
tension clamp connection.
Signal monitoring in safety-critical circuits
Industrial Relay Modules
Weidmüller has expanded the RIDERSERIES to include a relay variant with force-guided contacts. Relays with
force-guided contacts have a 99 % diagnostics coverage and an excellent reputation for use in safety systems.
The contacts interlock mechanically with each other in order to ensure a synchronous switching status of both
contacts. This guarantees that the alert contact will maintain the same switching status in the event of an error
(for example, if the working contact melts from an overload). The controller (or safety controller) detects the alert
contact and then compares the set point and actual values. If a difference occurs, measures can then be taken to
protect equipment and human life.
www.weidmuller.com.au
RIDERSERIES FG
RCI KIT with forcibly guided contacts 2 CO DC coil
RIDERSERIES
Modular system comprising of:
• Relay socket for rail mounting
• LED indicator unit
• Retaining clip
• Pluggable relay modules
• Markers
B
Technical data
Output
Rated switching voltage / Continuous current
Max. switching voltage, AC
Making current
Min. switching power
Max. switching power
Contact material
Mechanical service life
Max. switching frequency at rated load
Rated data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength input – output
Dielectric strength, contact / contact
Dielectric strength to mounting rail
Creepage and clearance distance input – output
Surge voltage category
Pollution severity
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Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
250 V AC / 6 A
250 V
15 A / 20 ms
100 mA / 5 V, 10 V / 10 mA, 24 V / 1 mA
1500 VA
AgCuNi
> 50 x 106 switching cycles
20 Hz
-40 °C...+70 °C
-40 °C...+85 °C
40 °C / 95 % rel. humidity, no condensation
CE
250 V
5 kVeff / 1min
4 kVeff / 1 min
≥ 10 mm
III
3
mm²
mm
Screw connection
2.5 / 0.5 / 2.5
62 / 15.5 / 77
Tension clamp connection
1.5 / 0.5 / 1.5
63.2 / 16 / 97
24 V DC 2CO LED
Ordering data
Input
Rated control voltage
Rated current AC / DC
Power rating
AC response/dropout Volt
DC response/dropout Volt
Status indicator
Protective circuit
Output
Switch-on delay
Switch-off delay
24 V DC
/ 35.8 mA
0.82 W
18 V / 2.4 V
Green LED
Integrated free-wheel diode
≤ 12 ms
≤ 6 ms
Ordering data
Screw connection
Tension clamp connection
Type
Order No.
Type
Order No.
RCIKIT 24VDC 2CO LD/FG
1218410000
RCIKITZ 24VDC 2CO LD/FG
1218390000
Type
Order No.
RCI42424FG
1218380000
Ordering data
Spare relay
Note
B.99
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Integrated Test Lever
Simplifies fault finding
and commissioning
LED & Mechanical Indication
For easily identified status indication
270um Silver Alloy Contacts
For increased switching range,
durability and reliability
Hardened Extra Thick Pins
Prevents bending of pins during
insertion and extraction
Switching power with precision
DRM Electromechanical Relays
The DRM range provides a compact relay to meet your AC switching requirements. Available in 2 or 4 change
over contacts suitable for switching 10A AC. With a large range of coil voltages and options including test lever,
suppressor diodes and gold plated contacts, you’re bound to find the DRM series a popular choice.
• 10A AC / 2CO contacts
• 5A AC / 4CO contacts
• Large range of bases
www.weidmuller.com.au
• Silver or Gold contacts
• Many options
DRM - signal relay
DRM 270 Relay
2 change over contacts AC/DC coil
D SERIES
• Small size with high sensitivity
• Reasonable structure with wide usage
• Various types available
• Approvals with UL/CSA
Technical data
Output
Load (resistive)
Switching power (resistive)
Contact resistance (initial)
Min. load voltage / current
Contact material
Electrical endurance / Mechanical endurance
Response / dropout delay at rated voltage
Initial voltage between homopolar contacts /
heteropolar contacts / contact and coil
Input
Response voltage @ 25°C
Dropout voltage @ 25°C
Max. voltage @ 25°C
Insulation resistance
Coil power consumption
General
Ambient temperature
Storage temperature
Humidity
Atmospheric pressure
Shock resistance
Vibration resistance
Mounting
Weight
Min. in package
Circuit diagram
PIN top view
Dimensions are in mm
C
DRM270LD
Reverse polarity
10 A / 250 Vac
2500 VA, 300W
≤ 50 m Ω
12 V / 10 mA or 5 V / 1 mA (gold plated contact)
Silver alloy or silver alloy with gold plating
> 25×104 (1800 Ops/h) / > 2×107 (18000 Ops/h)
≤ 20 ms / ≤ 20 ms
1000VAC/1min / 1000VAC/1min / 1800VAC/1min
(leakage current: 1mA)
DC: ≥ 75% of raged voltage, AC: ≥ 80% of raged voltage
DC: ≥ 10% of raged voltage, AC: ≥ 30% of raged voltage
110% of raged voltage
≥ 1000 MΩ
DC: ≤ 0.9 W, AC: 1.2 VA
DC: -40 °C...+60°C, AC: -40 °C...+55°C
-40 °C...+70°C
35%~85% RH
86-106KPa
10G (half wave of sine pulse: 11ms)
10~55Hz dual amplitude: 1.0mm 10~55Hz
Push-in connection or PCB welding
35 g
20 pcs
Note
Applications
DRM270 electrical life
Max. DC load break capacity
C.11
250VAC COSø=0.4 inductive load
10
DC24V(L/R=7ms) inductive load
0
1
2
3 4 5 6 7 8
Operating current (A)
9
10
Temperature derating curve
300
12
200
DRM270
100
50
40
30
20
10
Load current (A)
250VAC resistive load
100
0
Switching voltage (VDC)
Operating cycles (x104)
1000
10
8
DRM270
6
4
2
0.1 0.2
0.5 1 2
5 10 20
Switching current (A)
0
10 50 55 60 65 70 75 80 85 90
Ambient temperature (˚C)
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRM - signal relay
Type code
DRM 270 Relay
2 change over contacts AC/DC coil
DRM
Type DRM
Type of construction
270
2 change over contact
Coil voltage
Ordering data
Input
Rated voltage
Rated current (50Hz / 60Hz)
Coil resistance
Response / dropout voltage
Max. voltage
Power consumption
D SERIES
006 6Vdc / 012 12Vdc
024 24Vdc /048 48Vdc
110 110Vdc / 220 220Vdc
524 24Vac / 548 48Vac
615 115Vac / 730 230Vac
LED
L (Red for AC coil; green for DC coil)
Test lever
T (Red for AC coil; green for DC coil)
Suppressor diode
D
24 V AC 2CO
48 V AC 2CO
115 V AC 2CO
230 V AC 2CO
24 V AC
62.4mA/52.2mA
160Ω ±10%
19.2V / 7.2V
26.4V
1.0~1.2VA(60Hz)
48 V AC
33.3mA/27.8mA
600Ω ±10%
38.4V / 14.4V
52.8V
1.0~1.2VA(60Hz)
115 V AC
12.6mA/10.8mA
3.75Ω ±10%
92V / 34.5V
126.5V
1.0~1.2VA(60Hz)
230 V AC
6.1mA/5.2mA
16.000Ω ±10%
184V / 69V
253V
1.0~1.2VA(60Hz)
DRM270524
7760056055
DRM270524L
7760056064
DRM270524LT
7760056073
DRM270548
7760056056
DRM270548L
7760056065
DRM270548LT
7760056074
DRM270615
7760056057
DRM270615L
7760056066
DRM270615LT
7760056075
DRM270730
7760056058
DRM270730L
7760056067
DRM270730LT
7760056076
DRM270730L Au
7760056184
DRM270730LT Au
7760056186
12 V DC 2CO
24 V DC 2CO
48 V DC 2CO
110 V DC 2CO
220 V DC 2CO
12 V DC
75mA
160Ω ±10%
9V / 1.2V
13.2V
0.9W
24 V DC
36.9mA
650Ω ±10%
18V / 2.4V
26.4V
0.9W
48 V DC
18.5mA
2,600Ω ±10%
36V / 4.8V
52.8V
0.9W
110V DC
10mA
11,000Ω ±10%
82.5V / 11V
121.0V
0.9W
220V DC
5.2mA
44,000Ω ±10%
165V / 22V
242V
0.9W
DRM270012
7760056050
DRM270012L
7760056059
DRM270012LT
7760056068
DRM270024
7760056051
DRM270024L
7760056060
DRM270024LT
7760056069
DRM270024LD
7760056077
DRM270024L Au
7760056183
DRM270024LT Au
7760056185
DRM270048
7760056052
DRM270048L
7760056061
DRM270048LT
7760056070
DRM270110
7760056053
DRM270110L
7760056062
DRM270110LT
7760056071
DRM270220
7760056054
DRM270220L
7760056063
DRM270220LT
7760056072
C
Ordering data
Standard
With LED
With LED and test lever
With LED, gold plated
contact
With LED and test lever,
gold plated contact
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Note
Ordering data
Input
Rated voltage
Rated current
Coil resistance
Response / dropout voltage
Max. voltage
Power consumption
Ordering data
Standard
With LED
With LED and test lever
With LED, suppressor
diode
With LED, gold plated
contact
With LED and test lever,
gold plated contact
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Note
C.2
DRM - signal relay
DRM 570 Relay
4 change over contacts AC/DC coil
D SERIES
• Small size with high sensitivity
• Reasonable structure with wide usage
• Various types available
• Approvals with UL/CSA
Technical data
Output
Load (resistive)
Switching power (resistive)
Contact resistance (initial)
Min. load voltage / current
Contact material
Electrical endurance / Mechanical endurance
Response / dropout delay at rated voltage
Dielectric strength: Between Coil-contacts /
open contacts / adjacent contacts
Input
Response voltage @ 25°C
Dropout voltage @ 25°C
Max. voltage @ 25°C
Insulation resistance
Coil power consumption
General
Ambient temperature
Storage temperature
Humidity
Atmospheric pressure
Shock resistance
Vibration resistance
Mounting
Weight
Min. in package
Circuit diagram
PIN top view
Dimensions are in mm
C
DRM570LD
Reverse polarity
5 A / 250 Vac
2500 VA, 300W
≤ 50 mΩ
12 V / 10 mA or 5 V / 1 mA (gold plated contact)
Silver alloy or silver alloy with gold plating
> 25×104 (1800 Ops/h) / > 2×107 (18000 Ops/h)
≤ 20 ms / ≤ 20 ms
2000VAC/1min / 1000VAC/1min / 2000VAC/1min
(leakage current: 1mA)
DC: ≥ 75% of raged voltage, AC: ≥ 80% of raged voltage
DC: ≥ 10% of raged voltage, AC: ≥ 30% of raged voltage
110% of raged voltage
≥ 1000 MΩ
DC: ≤ 0.9 W, AC: 1.2 VA
DC: -40 °C...+60°C, AC: -40 °C...+55°C
-40°C...+70°C
35%~85% RH
86-106KPa
10G (half wave of sine pulse: 11ms)
10~55Hz dual amplitude: 1.0mm 10~55Hz
Push-in connection or PCB welding
35 g
20 pcs
Note
Applications
250VAC resistive load
250VAC COSø=0.4 inductive load
10
DC24V(L/R=7ms) inductive load
0
1
2
3 4 5 6 7 8
Operating current (A)
9
10
12
200
100
DRM570
50
40
30
20
10
Load current (A)
Switching voltage (VDC)
Operating cycles (x104)
C.33
300
100
0
Temperature derating curve
Max. DC load break capacity
DRM570 electrical life
1000
10
8
6
4
DRM570
2
0.1 0.2
0.5 1 2
5 10 20
Switching current (A)
0
10 50 55 60 65 70 75 80 85 90
Ambient temperature (˚C)
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRM - signal relay
Type code
DRM 570 Relay
4 change over contacts AC/DC coil
DRM
Type DRM
Type of construction
570
4 change over contact
Coil voltage
Ordering data
Input
Rated voltage
Rated current (50Hz / 60Hz)
Coil resistance
Response / dropout voltage
Max. voltage
Power consumption
D SERIES
006 6Vdc / 012 12Vdc
024 24Vdc /048 48Vdc
110 110Vdc / 220 220Vdc
524 24Vac / 548 48Vac
615 115Vav / 730 230Vac
LED
L (Red for AC coil; green for DC coil)
Test lever
T (Red for AC coil; green for DC coil)
Suppressor diode
D
24 V AC 4CO
48 V AC 4CO
115 V AC 4CO
230 V AC 4CO
24 V AC
62.4mA/52.2mA
160Ω ±10%
19.2V / 7.2V
26.4V
1.0~1.2VA(60Hz)
48 V AC
33.3mA/27.8mA
615Ω ±10%
38.4V / 14.4V
52.8V
1.0~1.2VA(60Hz)
115 V AC
12.6mA/10.8mA
4,340Ω ±10%
92V / 34.5V
126.5V
1.0~1.2VA(60Hz)
230 V AC
6.1mA/5.2mA
15.000Ω ±10%
184V / 69V
253V
1.0~1.2VA(60Hz)
DRM570524
7760056083
DRM570524L
7760056092
DRM570524LT
7760056101
DRM570548
7760056084
DRM570548L
7760056093
DRM570548LT
7760056102
DRM570615
7760056085
DRM570615L
7760056094
DRM570615LT
7760056103
DRM570730
7760056086
DRM570730L
7760056095
DRM570730LT
7760056104
DRM570730L Au
7760056188
DRM570730LT Au
7760056190
12 V DC 4CO
24 V DC 4CO
48 V DC 4CO
110 V DC 4CO
220 V DC 4CO
12 V DC
75mA
160Ω ±10%
9V / 1.2V
13.2V
0.9W
24 V DC
36.9mA
630Ω ±10%
18V / 2.4V
26.4V
0.9W
48 V DC
18.5mA
2,600Ω ±10%
36V / 4.8V
52.8V
0.9W
110V DC
10mA
11,000Ω ±10%
82.5V / 11V
121.0V
0.9W
220V DC
5.2mA
42,000Ω ±10%
165V / 22V
242V
0.9W
DRM570012
7760056078
DRM570012L
7760056087
DRM570012LT
7760056096
DRM570024
7760056079
DRM570024L
7760056088
DRM570024LT
7760056097
DRM570024LD
7760056105
DRM570024L Au
7760056187
DRM570024LT Au
7760056189
DRM570048
7760056080
DRM570048L
7760056089
DRM570048LT
7760056098
DRM570110
7760056081
DRM570110L
7760056090
DRM570110LT
7760056099
DRM570220
7760056082
DRM570220L
7760056091
DRM570220LT
7760056100
C
Ordering data
Standard
With LED
With LED and test lever
With LED, gold plated
contact
With LED and test lever,
gold plated contact
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Note
Ordering data
Input
Rated voltage
Rated current
Coil resistance
Response / dropout voltage
Max. voltage
Power consumption
Ordering data
Standard
With LED
With LED and test lever
With LED, suppressor
diode
With LED, gold plated
contact
With LED and test lever,
gold plated contact
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Type
Order No.
Note
C.4
DRM - relay bases
Plug-in module with PUSH IN connection
DRM relay bases
Plug-in module with screw connection
D SERIES
• Logical bases in 2 CO or 4 CO
• Accepts functional modules
• Rated current: 2 CO: 12 A, 4 CO: 6 A
• Rated voltage: 240 V AC
• Ambient temperature: -45 °C …+70 °C
• Stripping length: PUSH IN 12 mm
• Stripping length: screw connection 8 mm
Description
Plug-in module,
snaps onto TS35 DIN mounting rail, 2-pole
Description
Plastic retaining clip
Metal retaining clip
Markers
Marker
Marker, Multicard
Type
SCM-I CLIP P
SCM-I CLIP M
Type
SCM-I MARK
ESG 9/11 K MC neutral
Qty.
10
10
Qty.
10
200
Order No.
8869440000
8869450000
Order No.
8869460000
1857440000
Order No.
8876220000
8869430000
Dimensions
Type
SCM-I 2CO
SCM-I 4CO
Order No.
8869400000
8869420000
Dimensions
SCM-I 2CO/4CO P
H x L x W: 48 x 98 x 28
SCM-I 2CO/4CO
H x L x W: 61.5 x 77 x 28
28
Accessories
Type
SCM-I 2CO P
SCM-I 4CO P
28
Ordering data
C
77
98
*For functional modules please see page C.32
Dimensions in mm
DRM relay bases
Economic base
Hybrid base
• DRM, economic base 2 CO: 10 A, 4 CO: 5 A
• DRM hybrid base 2 CO: 12 A, 4 CO: 10 A
• Rated current: 2 CO: 12 A, 4 CO: 6 A
• Rated voltage: 300 V AC
• Ambient temperature: -40 °C …+70 °C
Description
Plug-in module
Type
*FS 2CO F ECO
*FS 4CO F ECO
Note: FS base already have marks
*Note: Functional module is not suitable for this type of base
Type
*FS 2CO
FS 2CO RL (accepts functional modules)
FS 4CO (accepts functional modules)
Order No.
7760056106
7760056129
7760056107
*Note: Functional module is not suitable for this type of base
Dimensions
Dimensions
FS 2CO
66.5
25
22
22
FS 2CO F ECO
59
FS 4CO/2CO RL
59
31
*For functional modules please see page C.32
66.5
25
FS 4CO F ECO
22
Description
Type
Qty. Order No.
Plastic retaining clip SCM-I CLIP P
10 8869440000
Metal retaining clip SCM-I CLIP M
10 8869450000
Markers
Type
Qty. Order No.
Marker
SCM-I MARK
10 8869460000
Marker, Multicard ESG 9/11 K MC neutral 200 1857440000
Mark for SRC ECO relay base
7760056180
Metal clip (recommended for vibration applications)
DRM clip M (for DRM relay)
7760056108
Metal clip set (for DRM relay, with FS ECO base)
7760056128
15
Accessories
Order No.
1190740000
1190750000
29
Ordering data
71
Dimensions in mm
C.55
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
10A Contact Rating
10A Contact rating in both
2 pole and 4 pole relays.
LED & Mechanical Indication
For easy identified status indication.
Industrial Pinning
Robust industrial pins, in commonly found layouts.
Plug-in power
DRL Electromechanical Relays
Weidmullers addition of the DRL plug-in relay range, ensures users will be able to find a relay suitable for any
application within the Weidmuller range. With the comfort of proven quality, reliability & installation convenience.
• Plug in 2 Pole CO or 4 Pole CO
• Led Indication & Mechanical Flag
• Strong Industrial Pinning (In commonly found arrangements)
www.weidmuller.com.au
• 16A Contact Rating with ARC Shield
• Large Range of coil voltages
• Plug–in Expansion Modules Available
DRL - power relay
21. 5ma x
DRL Power Relay
2 change over contacts, AC/DC coil
4. 8
0. 5
28ma x
D SERIES
• 250V AC / 10A switching
• Arc shield
• High dielectric strength: 2,000 V
• Approvals with UL/CSA
36max
7
Technical data
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
C
2CO
1
2
3
5
7
4
6
250 V AC
10A @ 2CO
AgCdO
12 V / 100 mA
< 50 mΩ
> 10 × 104 cycles (1,800 cycles / hour)
< 20 ms / < 20 ms
AC: ≤ 80% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
1.2 VA / 0.9 W
Dropout voltage @ 25°C
8
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
Coil-contact
Between N.O. contacts
Between adjacent contacts
Clearance / creepage distance
Insulation IEC60664
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Min. in package
Dimensions
Length x Width x Height
- 25 … 55°C
- 25 … 55°C
35 … 85 %
2,000V AC / 1 min
1,000V AC / 1 min
2,00V AC / 1 min
1.5 mm / 4 mm
250 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
35 g
20 pcs
28 x 21.5 x 43 mm
Note
DC coil operation range
1CO Inductive load
250VAC COSØ0.4
AC coil operation range
1CO Inductive load
24VDC(L/R=7ms)
5x105
1CO Resistive load
3x105
1CO/3CO/4CO Resistive load
DC current [A]
Ambient temperature[˚C]
Switching cycles [times]
1x106
1x105
2CO/3CO/4CO Inductive load
24VDC (L/R=7ms)
2CO/3CO/4CO Inductive load
250VAC COSØ0.4
0.1
0.3
1
3
7
Switching current [A]
Electrical life
10
16
DC voltage [V]
Max. DC load contact on-off curve
Ambient temperature[˚C]
C.77
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRL - power relay
Type code DRL
DRL Power Relay
2 change over contacts, AC/DC coil
Coil voltage
012
048
220
615
D SERIES
Type code
Type DRL
Type of construction
270 2 change over contacts
12Vdc / 024 24Vdc
48Vdc / 110 110Vdc
220Vdc / 524 24Vac
115Vac / 730 230Vac
LED indicator
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current
Coil resistance
12 V DC
24 V DC
48 V DC
110 V DC
220 V DC
12 V DC
9 V / 1.2 V
0.9 W
75 mA
160Ω ±10%
24 V DC
18 V / 2.4 V
0.9 W
36.9 mA
650Ω ±10%
48 V DC
36 V / 4.8 V
0.9 W
18.5 mA
2,600Ω ±10%
110 V DC
82.5 V / 11 V
0.9 W
10 mA
11,000Ω ±10%
220 V DC
165 V / 22 V
0.9 W
5.2 mA
42,000Ω ±10%
DRL270012L
1133510000
DRL270024L
1133520000
DRL270048L
1133530000
DRL270110L
1133540000
DRL270220L
1133550000
24 V AC
115 V AC
230 V AC
24 V AC
19.2 V / 7.2 V
1.2 VA
54 mA
160Ω ±10%
115 V AC
92 V / 34.5 V
1.2 VA
12.9 mA
3,750Ω ±10%
230 V AC
184 V / 69 V
1.2 VA
6.8 mA
13,000Ω ±10%
DRL270524L
1133870000
DRL270615L
1133880000
DRL270730L
1133890000
C
Ordering data
2 change over contact 2CO
Type
Order No.
Note
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current
Coil resistance
Ordering data
2 change over contact 2CO
Type
Order No.
Note
C.8
DRL - power relay
41. 5max
DRL Power Relay
4 change over contacts, AC/DC coil
7
0. 5
4.8
36max
28max
D SERIES
• 250V /10A switching
• Arc shield
• High dielectric strength: 2,000 V
• Approvals with UL/CSA
Technical data
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
C
4CO
1
2
3
4
5
9
6
10
7
11
8
12
13
250 V AC
10A
AgCdO
12 V / 100 mA
< 50 mΩ
> 10 × 104 cycles (1,800 cycles / hour)
< 20 ms / < 20 ms
AC: ≤ 80% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
4CO:2.5 VA / 1.5 W
Dropout voltage @ 25°C
14
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
Coil-contact
Between N.O. contacts
Between adjacent contacts
Clearance / creepage distance
Insulation IEC60664
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Min. in package
Dimensions
Length x Width x Height
- 25 … 55°C
- 25 … 55°C
35 … 85 %
2,000V AC / 1 min
1,000V AC / 1 min
2,00V AC / 1 min
1.5 mm / 4 mm
250 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
3CO: 50g; 4CO: 65g
10 pcs
28 x 21.5 x 43 mm
Note
DC coil operation range
1CO Inductive load
250VAC COSØ0.4
AC coil operation range
1CO Inductive load
24VDC(L/R=7ms)
5x105
1CO Resistive load
3x105
1CO/3CO/4CO Resistive load
DC current [A]
Ambient temperature[˚C]
Switching cycles [times]
1x106
5
1x10
2CO/3CO/4CO Inductive load
24VDC (L/R=7ms)
2CO/3CO/4CO Inductive load
250VAC COSØ0.4
0.1
0.3
1
3
7
Switching current [A]
Electrical life
10
16
DC voltage [V]
Max. DC load contact on-off curve
Ambient temperature[˚C]
C.99
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRL - power relay
Type code
DRL Power Relay
4 change over contacts, AC/DC coil
DRL
Coil voltage
012
048
220
615
D SERIES
Type code
Type DRL
Type of construction
570 4 change over contacts
12Vdc / 024 24Vdc
48Vdc / 110 110Vdc
220Vdc / 524 24Vac
115Vac / 730 230Vac
LED indicator
Ordering data
Input
Rated voltage
Response / dropout voltage
12 V DC
24 V DC
48 V DC
110 V DC
220 V DC
12 V DC
9 V / 1.2 V
24 V DC
18 V / 2.4 V
3CO
4CO
1.4 W
1.5 W
60 mA
66.7 mA
400Ω ±10% 360Ω ±10%
48 V DC
36 V / 4.8 V
3CO
4CO
1.4 W
1.5 W
30 mA
31.2 mA
1,600Ω ±10% 1,540Ω ±10%
110 V DC
82.5 V / 11 V
3CO
4CO
1.4 W
1.5 W
13.1 mA
16.2 mA
8,400Ω ±10% 6,800Ω ±10%
220 V DC
165 V / 22 V
3CO
4CO
1.4 W
1.5 W
6.7 mA
7.6 mA
33,000Ω ±10% 29,000Ω ±10%
DRL570012L
1133620000
DRL570024L
1133630000
DRL570048L
1133640000
DRL570110L
1133650000
DRL570220L
1133660000
24 V AC
115 V AC
230 V AC
24 V AC
19.2 V / 7.2 V
3CO
4CO
2 VA
2.5 VA
80 mA
93.5 mA
102Ω ±10%
80Ω ±10%
115 V AC
92 V / 34.5 V
3CO
4CO
2 VA
2.5 VA
16 mA
25.5 mA
2,300Ω ±10% 1,680Ω ±10%
230 V AC
184 V / 69 V
3CO
4CO
2 VA
2.5 VA
10 mA
13.1mA
8,600Ω ±10% 6,700Ω ±10%
DRL570524L
1133940000
DRL570615L
1133950000
DRL570730L
1133960000
3CO
1.4 W
120 mA
100Ω ±10%
Power consumption
Rated coil current
Coil resistance
4CO
1.5 W
125 mA
96Ω ±10%
C
Ordering data
4 change over contact 4CO
Type
Order No.
Note
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current
Coil resistance
Ordering data
4 change over contact 4CO
Type
Order No.
Note
C.10
DRL - relay bases
SLD F 2CO
SLD F 4CO
300 V
10 A
2,000 V
2,500 V
-40 … 85°C
2
III
1.0 Nm
0.5 … 2.5 mm2
IP20
CE
300 V
10 A
2,000 V
2,500 V
-40 … 85°C
2
III
1.0 Nm
0.5 … 2.5 mm2
IP20
CE
D SERIES
DRL relay base SLD
C
Technical data
Rated voltage
Rated current
Coil/contact electrical strength
Electrical strength between contacts
Operation temperature
Pollution class
Over voltage class
Wiring torque
Wire cross section
Protection level (IEC 61810)
Approvals
Ordering data
Description
DIN-rail mounted base
Accessories
Type
Metal clip
SLD clip 4CO
Order No.
7760056108
7760056235
Order No.
7760056225
Dimensions
Type
SLD F 4CO
Order No.
7760056227
Dimensions
SLD F 2CO
SLD F 4CO
30
30
Description
Metal clips SLD F 2CO
Metal clips SLD F 4CO
Type
SLD F 2CO
83.3
24.1
44.1
83.3
Dimensions in mm
Functional modules
Technical data
Suppressor diode 6...230 V DC
RC-combined protection110...230 V AC
RC-combined protection110...230 V AC with LED *
Green LED 6...24 V DC with suppressor diode
Green LED 24...60 V DC with suppressor diode
Green LED 110...230 V DC with suppressor diode
Green LED 6...24 V DC / V AC
Green LED 24...60 V DC / V AC
Green LED 110...230 V DC / V AC
C.11
11
2CO
Type
RIM 1 6/230 V DC
RIM 3 110/230 V AC
RIM 3 110/230 V AC LED
RIM 2 6/24 V DC
RIM 2 24/60 V DC
RIM 2 110/230 V DC
RIM 3 6/24 V UC
RIM 3 24/60 V UC
RIM 3 110/230 V UC
Order No.
7760056169
7760056014
7760056045
7760056015
7760056016
7760056017
7940018457
7760056018
7940018455
4CO
Description
RC protection
Protective diode
Type
RIM 5 6/230 V AC
RIM 5 6/230 V DC
Order No.
1174670000
1174650000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRR
Octal Base Relays
Weidmullers octal base pluggable relay range is international approved and used throughout industry for their
switching capacity, robustness, and visual appeal. Available in 2 pole-8pin, and 3 pole-11 pin models, the DRR
series will provide great service life for any switching application. 3 pole models are available with 2 wiring
variants to suit differing installations.
• Plug in 2 pole (DPDT) or 3 pole (DPDT)
• LED indication
• Common industrial pinning
www.weidmuller.com.au
•10A/250V rating
• AC or DC coil voltages
• 3 CO with 2 pin out variants
DRR - octal power relay
• 2500 VA switchover capacity
• 8-pin octical plug in DIN rail installation
• International approval CE
66
9.5(max)
52.5(max)
34.5(max)
34.5(max)
D SERIES
DRR Power Relay
2 change over contacts, AC/DC coil
Technical data
C
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
AC
4
5
3
6
2
7
1
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
5
3
6
2
7
1
AC: ≤ 80% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
2.7 VA / 1.5 W
Dropout voltage @ 25°C
8
DC
4
250 V AC
10A
AgCdO
12 V / 100 mA
< 50 mΩ
> 10 × 104 cycles (1,800 cycles / hour)
< 30 ms / < 20 ms
Clearance / creepage distance
Insulation IEC60664
Coil-contact
Between N.O. contacts
Between adjacent contacts
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Min. in package
Dimensions
Length x Width x Height
8
- 25 … 55°C
- 25 … 55°C
5 … 85 %
2,000V AC / 1 min
1,200V AC / 1 min
1,800V AC / 1 min
1.5 mm / 4 mm
250 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
75g
10 pcs
34.5 x 34.5 x 66 mm
Note
DC coil operation range
AC coil operation range
5 x10 5
3 x10 5
Resistive load
DC current [A]
Ambient temperature[˚C]
Switching cycles [times]
1 x10 6
1 x10 5
Inductive load
Inductive load
Switching current [A]
Electrical life
DC voltage [V]
Max. DC load contact on-off curve
Ambient temperature[˚C]
C.13
13
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRR - octal power relay
DRR Power Relay
2 change over contacts, AC/DC coil
Type code
DRR
Coil voltage
012
048
220
615
D SERIES
Type code
Type DRR
Type of construction
270 2 change over contacts
12Vdc / 024 24Vdc
48Vdc / 110 110Vdc
220Vdc / 524 24Vac
115Vac / 730 230Vac
LED indicator
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current
Coil resistance
12 V DC 2CO
24 V DC 2CO
48 V DC 2CO
110 V DC 2CO
220 V DC 2CO
12 V DC
9 V / 1.8 V
1.5 W
125 mA
96Ω ±10%
24 V DC
18 V / 3.6 V
1.5 W
55.8 mA
430Ω ±10%
48 V DC
36 V / 7.2 V
1.5 W
29.3 mA
1,640Ω ±10%
110 V DC
82.5 V / 16.5 V
1.5 W
14.9 mA
7,360Ω ±10%
220 V DC
165 V / 33 V
1.5 W
7.5 mA
29,500Ω ±10%
DRR270012L
1133360000
DRR270024L
1133370000
DRR270048L
1133380000
DRR270110L
1133390000
DRR270220L
1133400000
12 V DC 2CO
1132810000
1134160000
24 V DC 2CO
1132810000
1134160000
48 V DC 2CO
1132810000
1134160000
110 V DC 2CO
1132810000
1134160000
220 V DC 2CO
1132810000
1134160000
24 V AC 2CO
115 V AC 2CO
230 V AC 2CO
24 V AC
19.2 V / 7.2 V
2.7 VA
130 mA/116 mA
62.5Ω ±10%
115 V AC
92 V / 34.5 V
2.7 VA
29.8 mA/25.4 mA
1,250Ω ±10%
230 V AC
184 V / 69 V
2.7 VA
14.9 mA/12.7 mA
6,500Ω ±10%
DRR270524L
1133760000
DRR270615L
1133780000
DRR270730L
1133800000
24 V AC 2CO
1132810000
1134160000
115 V AC 2CO
1132810000
1134160000
230 V AC 2CO
1132810000
1134160000
C
Ordering data
Type
Order No.
Acessories
Description
Base 8 pin
Metal holding clip
Type
SRD ECO 2CO
For DRR base
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current
Coil resistance
Ordering data
Type
Order No.
Acessories
Description
Base 8 pin
Metal holding clip
Type
SRD ECO 2CO
For DRR base
C.14
DRR - octal power relay
9.5(max)
52.5(max)
• 2500 VA switchover capacity
• 11-pin octical plug in DIN rail installation
• International approval CE
66
34.5(max)
34.5(max)
D SERIES
DRR Power Relay
3 change over contacts, AC/DC coil
Technical data
C
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
AC
DRR310
6
5
3CO AC
DRR310A
7
5
6
7
4
8
4
8
3
9
3
9
2
1
11
10
2
1 11
10
5
6
7
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
5
4
8
4
3
9
3
2
1 11
10
Clearance / creepage distance
Insulation IEC60664
6
7
8
9
2
1 11
10
AC: ≤ 80% of rated voltage
DC: ≤ 80% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
2.7 VA / 1.5 W
Dropout voltage @ 25°C
3CO DC
DC
250 V AC
10A
AgCdO
12 V / 100 mA
< 50 mΩ
> 10 × 104 cycles (1,800 cycles / hour)
< 30 ms / < 20 ms
Coil-contact
Between N.O. contacts
Between adjacent contacts
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Min. in package
Dimensions
Length x Width x Height
- 25 … 55°C
- 25 … 55°C
5 … 85 %
2,500V AC / 1 min
2,500V AC / 1 min
1,800V AC / 1 min
1.5 mm / 4 mm
250 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
75g
10 pcs
34.5 x 34.5 x 66 mm
Note
DC coil operation range
AC coil operation range
5 x10 5
3 x10 5
Resistive load
DC current [A]
Ambient temperature[˚C]
Switching cycles [times]
1 x10 6
1 x10 5
Inductive load
Inductive load
Switching current [A]
Electrical life
DC voltage [V]
Max. DC load contact on-off curve
Ambient temperature[˚C]
C.15
15
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRR - octal power relay
Type code
DRR Power Relay
3 change over contacts, AC/DC coil
DRR
Type DRR
Type of construction
Coil voltage
012
048
220
615
D SERIES
370 3 change over contacts
12Vdc / 024 24Vdc
48Vdc / 110 110Vdc
220Vdc / 524 24Vac
115Vac / 730 230Vac
LED indicator
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current
Coil resistance
12 V DC 3CO
24 V DC 3CO
48 V DC 3CO
110 V DC 3CO
220 V DC 3CO
12 V DC
9 V / 1.8 V
1.5 W
125 mA
96Ω ±10%
24 V DC
18 V / 3.6 V
1.5 W
55.8 mA
430Ω ±10%
48 V DC
36 V / 7.2 V
1.5 W
29.3 mA
1,640Ω ±10%
110 V DC
82.5 V / 16.5 V
1.5 W
14.9 mA
7,360Ω ±10%
220 V DC
165 V / 33 V
1.5 W
7.5 mA
29,500Ω ±10%
DRR370012L
1133410000
DRR370012L-A
7760056250
DRR370024L
1133420000
DRR370024L-A
7760056251
DRR370048L
1133430000
DRR370048L-A
7760056252
DRR370110L
1133440000
DRR370110L-A
7760056253
DRR370220L
1133560000
DRR370220L-A
7760056254
12 V DC 3CO
1132820000
1134160000
1174670000
1174650000
24 V DC 3CO
1132820000
1134160000
1174670000
1174650000
48 V DC 3CO
1132820000
1134160000
1174670000
1174650000
110 V DC 3CO
1132820000
1134160000
1174670000
1174650000
220 V DC 3CO
1132820000
1134160000
1174670000
1174650000
24 V AC 3CO
115 V AC 3CO
230 V AC 3CO
24 V AC
19.2 V / 7.2 V
2.7 VA
130 mA/116 mA
62.5Ω ±10%
115 V AC
92 V / 34.5 V
2.7 VA
29.8 mA/25.4 mA
1,250Ω ±10%
230 V AC
184 V / 69 V
2.7 VA
14.9 mA/12.7 mA
6,500Ω ±10%
DRR370524L
1133810000
DRR370524L-A
7760056255
DRR370615L
1133820000
DRR370615L-A
7760056256
DRR370730L
1133830000
DRR370730L-A
7760056257
24 V AC 3CO
1132820000
1134160000
1174670000
1174650000
115 V AC 3CO
1132820000
1134160000
1174670000
1174650000
230 V AC 3CO
1132820000
1134160000
1174670000
1174650000
C
Ordering data
Type
Order No.
Type
Order No.
Acessories
Description
Base 11 pin
Metal holding clip
RC protection
Protective diode
Type
SRD ECO 3CO
For DRR base
RIM 5 6/230 V AC
RIM 5 6/230 V DC
Ordering data
Input
Rated voltage
Response / dropout voltage
Power consumption
Rated coil current (50 Hz/60Hz)
Coil resistance
Ordering data
Type
Order No.
Type
Order No.
Acessories
Description
Base 11 pin
Metal holding clip
RC protection
Protective diode
Type
SRD ECO 3CO
For DRR base
RIM 5 6/230 V AC
RIM 5 6/230 V DC
C.16
DRR - relay bases
SRD ECO 2CO
SRD ECO 3CO
D SERIES
DRR relay base SRD
C
Technical data
300 V
12 A
4,000 V
2,500 V
-40 … 85°C
2
III
1.0 Nm
0.5 … 2.5 mm2
IP20
CE
Rated voltage
Rated current
Coil/contact electrical strength
Electrical strength between contacts
Operation temperature
Pollution class
Over voltage class
Wiring torque
Wire cross section
Protection level (IEC 61810)
Approvals
Ordering data
Description
DIN-rail mounted sockets
300 V
12 A
4,000 V
2,500 V
-40 … 85°C
2
III
1.0 Nm
0.5 … 2.5 mm2
IP20
CE
Type
*SRD ECO 2CO
Order No.
1132810000
Type
SRD ECO 3CO
Order No.
1132820000
*Note 2CO does not support functional modules
Functional modules (3CO only)
Dimensions
SRD ECO 2CO
SRD ECO 3CO
73
73
12A 300V
1132810000
0924
35.5
4
35.5
4
7
5
22
3
14
4
12
2
A1
24
1
11
32
6
21
34
31
8
11
38.2
IEC:
NEMA:
IEC:
NEMA:
9
A2
10
10
2
2
3
14
A2
4
12
10
5
22
2
A1
24
1
11
6
8
21
7
7
A2
Order No.
1174670000
1174650000
12A 300V
1132820000
0928
7
Type
RIM 5 6/230 V AC
RIM 5 6/230 V DC
Dimensions
A2
Description
RC protection
Protective diode
Order No.
1132810000
1132820000
1134160000
27 . 2
Type
Metal clip
SLD clip 4CO
For DRR base
38 . 2
Description
Base 8 pin
Base 11 pin
Metal holding clip
27.2
Accessories
Dimensions in mm
C.17
17
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
The universal performer
DRH/DRW Electromechanical Relays
The Weidmuller DRH/DRW relays provide high current AC and DC switching capabilities in a compact and
functional housing. DC switching characteristics vary with contact selection and come with LED indication and test
lever to aid commissioning and fault finding.
• AC and DC switching
• LED indication and test lever
• ARC shield
www.weidmuller.com.au
• 220 V DC/10 A in SPST (NO or NC)
• DC or AC coil voltages
• International approvals
DRH DC - power relay
Max 36mm
Max 48mm
Max 36mm
• Suitable to switch heavy DC loads
• Arc shield
• With LED and test lever
• International approval CE
Max 8.5mm
D SERIES
DRH DC Relay
1 N.O. contact or 1 N.C. contact AC / DC coil
4.7mm
Technical data
1NO
6
B
8.5
A
16
4
36
C
Circuit diagram
PIN top view
Dimensions are in mm
22.2
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Max. switching frequency at rated load
Input
Response voltage @ 25°C
AC: 500 V; DC: 220 V
16 A@ 500 VAC; 10 A@ 220 VDC
AgSnO2
12 VDC / 100 mA
< 50 mΩ
> 10 × 104 cycles
< 20 ms / < 20 ms
1 Hz
AC: ≤ 80% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
2.5 VA / 1.5 W
Dropout voltage @ 25°C
36
AC
(4)14
(4)14
(6)34
(6)34
(A)A1
(A)A1
(B)A2
(B)A2
1NC
3
Clearance / creepage distance
Insulation IEC60664
A
B
8.5
36
21.5
1
22.2
36
DC
(A)A1
AC
(1)12
(1)12
(3)32
(3)32
(B)A2
(A)A1
(B)A2
Normal voltage
Ambient temperature[˚C]
Coil voltage [U/Un]
AC coil operation range
Coil-contact
Between N.O. contacts
Between adjacent contacts
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Dimensions
Length x Width x Height
- 40°C … 60°C
- 40°C … 60°C
35 … 85 %
4,000V AC / 1 min
2,500V AC / 1 min
4,000V AC / 1 min
1.5 mm / 4 mm
400 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
48g
36 x 36 x 48 mm
Note
Max. DC load contact on-off curve
Electrical life
Switching cycles [times]
Coil voltage [U/Un]
DC coil operation range
Max. voltage
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
Switching voltage (VDC)
DC
Max. voltage
Normal voltage
Switching current[A]
Switching current[A]
Ambient temperature[˚C]
C.19
19
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRH DC - power relay
Type code
DRH DC Relay
1 N.O. contact or 1 N.C. contact AC / DC coil
DRH
D SERIES
Type DRH
Type of construction
173 1NO
174 1NC
Coil voltage
012 12Vdc / 024 24Vdc
048 48Vdc / 110 110Vdc
220 220Vdc / 524 24Vac
548 48Vac / 615 115Vac
730 230Vac
With LED and test lever
LT
12 V DC
24 V DC
48 V DC
110 V DC
220 V DC
12 V DC
9 V / 1.8 V
1.5 W
120 mA
100Ω ±10%
24 V DC
18 V / 2.4 V
1.5 W
60 mA
400Ω ±10%
48 V DC
36 V / 4.8 V
1.5 W
30 mA
1,600Ω ±10%
110 V DC
82.5 V / 11 V
1.5 W
13.03 mA
8,400Ω ±10%
220 V DC
165 V / 22 V
1.5 W
6.7 mA
33,000Ω ±10%
Type
Order No.
Type
Order No.
DRH173012LT
1219840000
DRH174012LT
1219940000
DRH173024LT
1219850000
DRH174024LT
1219950000
DRH173048LT
1219860000
DRH174048LT
1219960000
DRH173110LT
1219870000
DRH174110LT
1219970000
DRH173220LT
1219880000
DRH174220LT
1219980000
Type
Order No.
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
12 V DC
1220250000
1220260000
24 V DC
1220250000
1220260000
48 V DC
1220250000
1220260000
110 V DC
1220250000
1220260000
220 V DC
1220250000
1220260000
24 V AC
48 V AC
115 V AC
230 V AC
24 V AC
19.2 V / 7.2 V
2.5 VA
101.7 mA
100Ω ±10%
48 V AC
38.4 V / 14.4 V
2.5 VA
51.04 mA
350Ω ±10%
115 V AC
92 V / 34.5 V
2.5 VA
21.2 mA
2,200Ω ±10%
230 V AC
184 V / 69 V
2.5 VA
10.61 mA
8,000Ω ±10%
Type
Order No.
Type
Order No.
DRH173524LT
1219890000
DRH174012LT
1219990000
DRH173548LT
1219910000
DRH174024LT
1220010000
DRH173615LT
1219920000
DRH174048LT
1220020000
DRH173730LT
1219930000
DRH174110LT
1220030000
Type
Order No.
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
24 V AC
1220250000
1220260000
48 V AC
1220250000
1220260000
115 V AC
1220250000
1220260000
230 V AC
1220250000
1220260000
Ordering data
Input
Rated voltage
DC response / dropout voltage
Power consumption
DC rated current
Coil resistance
C
Ordering data
1 N.O. contact
1 N.C. contact
With test lever locking clip
Acessories
Description
Relay base
Metal clip
Type
SPW ECO 3CO
For DRH and DRW
Ordering data
Input
Rated voltage
AC response / dropout voltage
Power consumption
AC rated current
Coil resistance
Ordering data
1 N.O. contact
1 N.C. contact
With test lever locking clip
Acessories
Description
Relay base
Metal clip
Type
SPW ECO 3CO
For DRH and DRW
C.20
DRH DC - power relay
Max 36mm
Max 48mm
Max 36mm
• Suitable to switch heavy DC loads
• Arc shield
• With LED and test lever
• International approval CE
Max 8.5mm
D SERIES
DRH DC Relay
2 N.O. contact or 1 N.C. / 1 N.O. contact AC / DC coil
4.7mm
Technical data
6
7
9
A
B
16
4
8.5 7.7
2NO
22.2
36
AC
(4)14
(9)31
(A)A1
(7)11
(4)14
(6)34
(9)31
(6)34
(B)A2
(A)A1
(B)A2
9
A
B
8.5 7.7
36
4
16
3
7
22.2
AC
(4)14
(9)31
(3)32
(A)A1
(B)A2
(7)11
(4)14
(9)31
(3)32
(A)A1
(B)A2
Ambient temperature[˚C]
Coil voltage [U/Un]
AC coil operation range
Switching cycles [times]
Coil voltage [U/Un]
Normal voltage
Coil-contact
Between N.O. contacts
Between adjacent contacts
Rated voltage
Pollution degree
Overvoltage category
- 40°C … 60°C
- 40°C … 60°C
35 … 85 %
4,000V AC / 1 min
2,500V AC / 1 min
4,000V AC / 1 min
1.5 mm / 4 mm
400 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
48g
36 x 36 x 48 mm
Max. DC load contact on-off curve
Electrical life
DC coil operation range
Max. voltage
Clearance / creepage distance
Insulation IEC60664
AC: 250 V; DC: 220 V
16 A@ 250 VAC; 3 A@ 220 VDC
16 A@ 250 VAC; 5 A@ 220 VDC
AgSnO2
12 VDC / 100 mA
< 50 mΩ
> 10 × 104 cycles
< 20 ms / < 20 ms
1 Hz
AC: ≤ 80% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
2.5 VA / 1.5 W
Vibration resistance
Shock resistance
Approval
Weight
Dimensions
Length x Width x Height
Note
36
DC
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
5.5
1NO/1NC
(7)11
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Max. switching frequency at rated load
Input
Response voltage @ 25°C
Dropout voltage @ 25°C
DC
(7)11
2NO
1NO/1NC
Switching voltage (VDC)
36
C
Output
Max. switching voltage
Continuous current
Circuit diagram
PIN top view
Dimensions are in mm
Max. voltage
Normal voltage
Switching current[A]
Switching current[A]
Ambient temperature[˚C]
C.21
21
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRH DC - power relay
Type code
DRH DC Relay
2 N.O. contact or 1 N.C. / 1 N.O. contact AC / DC coil
DRH
D SERIES
Type DRH
Type of construction
275 1NO/1NC
276 2NO
Coil voltage
012 12Vdc / 024 24Vdc
048 48Vdc / 110 110Vdc
220 220Vdc / 524 24Vac
548 48Vac / 615 115Vac
730 230Vac
With LED and test lever
LT
Ordering data
Input
Rated voltage
DC response / dropout voltage
Power consumption
DC rated current
Coil resistance
12 V DC
24 V DC
48 V DC
110 V DC
220 V DC
12 V DC
9 V / 1.2 V
1.5 W
120 mA
100Ω ±10%
24 V DC
18 V / 2.4 V
1.5 W
60 mA
400Ω ±10%
48 V DC
36 V / 4.8 V
1.5 W
30 mA
1,600Ω ±10%
110 V DC
82.5 V / 11 V
1.5 W
13.03 mA
8,400Ω ±10%
220 V DC
165 V / 22 V
1.5 W
6.7 mA
33,000Ω ±10%
C
Ordering data
1 N.O. contact
1 N.C. contact
2 N.O. contact
Type
Order No.
Type
Order No.
DRH275012LT
1220040000
DRH276012LT
1220140000
DRH275024LT
1220050000
DRH276024LT
1220150000
DRH275048LT
1220060000
DRH276048LT
1220170000
DRH275110LT
1220070000
DRH276110LT
1220180000
DRH275220LT
1220080000
DRH276220LT
1220190000
With test lever locking clip
Type
Order No.
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
12 V DC
1220250000
1220260000
24 V DC
1220250000
1220260000
48 V DC
1220250000
1220260000
110 V DC
1220250000
1220260000
220 V DC
1220250000
1220260000
24 V AC
48 V AC
115 V AC
230 V AC
24 V AC
19.2 V / 7.2 V
2.5 VA
101.7 mA
100Ω ±10%
48 V AC
38.4 V / 14.4 V
2.5 VA
51.04 mA
350Ω ±10%
115 V AC
92 V / 34.5 V
2.5 VA
21.2 mA
2,200Ω ±10%
230 V AC
184 V / 69 V
2.5 VA
10.61 mA
8,000Ω ±10%
Acessories
Description
Relay base
Metal clip
Type
SPW ECO 3CO
For DRH and DRW
Ordering data
Input
Rated voltage
AC response / dropout voltage
Power consumption
AC rated current
Coil resistance
Ordering data
1 N.O. contact
1 N.C. contact
2 N.O. contact
Type
Order No.
Type
Order No.
DRH173524LT
1219890000
DRH174012LT
1219990000
DRH173548LT
1219910000
DRH174024LT
1220010000
DRH173615LT
1219920000
DRH174048LT
1220020000
DRH173730LT
1219930000
DRH174110LT
1220030000
With test lever locking clip
Type
Order No.
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
24 V AC
1220250000
1220260000
48 V AC
1220250000
1220260000
115 V AC
1220250000
1220260000
230 V AC
1220250000
1220260000
Acessories
Description
Relay base
Metal clip
Type
SPW ECO 3CO
For DRH and DRW
C.22
DRW AC - power relay
Max 36mm
Max 36mm
Max 48mm
• Suitable to switch high voltage AC loads
• With LED and test lever
• Approvals with UL
Max 8.5mm
D SERIES
DRW Power Relay
2CO / 3CO contacts AC / DC coil
4.7mm
Technical data
3
4
6
9
A
8.5 7.7
7
16
1
5.5
2CO
36
C
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Max. switching frequency at rated load
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
B
400 V AC
16 A@ 400 VAC; 16 A@ 30 VDC
AgCdO
12 VDC / 100 mA
< 50 mΩ
> 10 × 104 cycles
< 20 ms / < 10 ms
1 Hz
AC: ≤ 80% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 30% of rated voltage
DC: ≥ 10% of rated voltage
110% of raged voltage
2.5 VA / 1.5 W
22.2
Dropout voltage @ 25°C
36
(1)12
(4)14
(3)32
(6)34
(9)31
(3)32
(6)34
(B)A2
(A)A1
(B)A2
(9)31
(A)A1
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
AC
(7)11
(1)12
(4)14
3CO
3
5
6
7
8
9
A
B
16
2
4
5.5
1
8.5 7.7
36
11.1
22.2
36
DC
(7)11
(8)21
(9)31
(10)A1
AC
(1)12
(4)14
(2)22
(5)24
(3)32
(6)34
(11)A2
(7)11
(8)21
(9)31
(10)A1
(1)12
(4)14
(2)22
(5)24
(3)32
(6)34
(11)A2
Max. voltage
Normal voltage
Ambient temperature[˚C]
Coil voltage [U/Un]
AC coil operation range
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Dimensions
Length x Width x Height
36 x 36 x 48 mm
Note
Max. DC load contact on-off curve
Electrical life
Switching cycles [times]
Coil voltage [U/Un]
DC coil operation range
Clearance / creepage distance
Insulation IEC60664
Coil-contact
Between N.O. contacts
Between adjacent contacts
2CO: - 40 ... 60°C; 3CO: - 40 ... 50°C;
- 40°C … 60°C
35 … 85 %
4,000V AC / 1 min
2,500V AC / 1 min
4,000V AC / 1 min
3.5 mm / 6 mm
400 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV; UL
51g
Switching voltage (VDC)
DC
(7)11
Max. voltage
Normal voltage
Switching current[A]
Switching current[A]
Ambient temperature[˚C]
C.23
23
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DRW AC - power relay
Type code
DRW Power Relay
2CO / 3CO contacts AC / DC coil
DRW
D SERIES
Type DRW
Type of construction
270 2CO
370 3CO
Coil voltage
012 12Vdc / 024 24Vdc
048 48Vdc / 110 110Vdc
220 220Vdc / 524 24Vac
548 48Vac / 615 115Vac
730 230Vac / 900 400Vac
With LED or test lever
LT
12 V DC
24 V DC
48 V DC
110 V DC
220 V DC
12 V DC
9 V / 1.2 V
1.5 W
120 mA
100Ω ±10%
24 V DC
8 V / 2.4 V
1.5 W
60 mA
400Ω ±10%
48 V DC
36 V / 4.8 V
1.5 W
30 mA
1,600Ω ±10%
110 V DC
82.5 V / 11 V
1.5 W
13.03 mA
8,400Ω ±10%
220 V DC
115 V / 22 V
1.5 W
6.7 mA
33,000Ω ±10%
Type
Order No.
Type
Order No.
DRW270012LT
1219730000
DRW370012LT
1219780000
DRW270024LT
1219740000
DRW370024LT
1219790000
DRW270048LT
1219750000
DRW370048LT
1219810000
DRW270110LT
1219760000
DRW370110LT
1219820000
DRW270220LT
1219770000
DRW370220LT
1219830000
Type
Order No.
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
12 V DC
1220250000
1220260000
24 V DC
1220250000
1220260000
48 V DC
1220250000
1220260000
110 V DC
1220250000
1220260000
220 V DC
1220250000
1220260000
24 V AC
48 V AC
115 V AC
230 V AC
400 V AC
24 V AC
19.2 V / 7.2 V
2.5 VA
101.7 mA
100Ω ±10%
48 V AC
38.4 V / 14.4 V
2.5 VA
51.04 mA
350Ω ±10%
115 V AC
92 V / 34.5 V
2.5 VA
21.2 mA
2,200Ω ±10%
230 V AC
184 V / 69 V
2.5 VA
10.61 mA
8,000Ω ±10%
400 V AC
320 V / 120 V
2.5 VA
6.1 mA
30,000Ω ±10%
Type
Order No.
Type
Order No.
DRW270524LT
1219350000
DRW370524LT
1219410000
DRW270548LT
1219360000
DRW370548LT
1219420000
DRW270615LT
1219370000
DRW370615LT
1219430000
DRW2701730LT
1219380000
DRW370730LT
1219440000
DRW270900LT
1219390000
DRW370900LT
1219450000
Type
Order No.
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
Test lever block for DRH/DRW
7760056249
24 V AC
1220250000
1220260000
48 V AC
1220250000
1220260000
115 V AC
1220250000
1220260000
230 V AC
1220250000
1220260000
400 V AC
1220250000
1220260000
Ordering data
Input
Rated voltage
DC response / dropout voltage
Power consumption
DC rated current
Coil resistance
C
Ordering data
2CO contact
3CO contact
With test lever locking clip
Acessories
Description
Relay base
Metal clip
Type
SPW ECO 3CO
For DRH and DRW
Ordering data
Input
Rated voltage
AC response / dropout voltage
Power consumption
AC rated current
Coil resistance
Ordering data
2CO contact
3CO contact
With test lever locking clip
Acessories
Description
Relay base
Metal clip
Type
SPW ECO 3CO
For DRH and DRW
C.24
DRH/DRW - relay base
SPW ECO 3CO
D SERIES
DRH/DRW relay base
C
Technical data
400 V AC
16 A
4,000 V
4,000 V
-40 … 60°C
2
II
1.2 Nm
0.5 … 4 mm2
IP20
64g
CE, UL
Rated voltage
Rated current
Coil/contact electrical strength
Electrical strength between contacts
Operation temperature
Pollution class
Over voltage class
Wiring torque
Wire cross section
Protection level (IEC 61810)
Weight
Approvals
Ordering data
Description
Relay base, for DRH and DRW relays
Description
Metal clip
Functional modules
Description
RCC protection
Protective diode
Type
For DRH/DRW
Order No.
1220260000
Type
RIM 5 6/230 V AC
RIM 5 6/230 V DC
Order No.
1174670000
1174650000
Order No.
1220250000
Dimensions
SPW ECO 3CO
1
31.3
Accessories
Type
SPW ECO 3CO
92
5.5 8.3
39
22.2
21.5
Dimensions in mm
C.25
25
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
PWR relays
The Mini Contactor
PWR relays are designed for switching high currents in small spaces. Suitable for large loads to 30A @ 277V AC,
the PWR comes with choice of pluggable base or Fixed model with DIN rail mount foot. The pluggable base comes
with screw terminals, while the Fixed relay has screw terminals on the top. Both types provide screw fixing or DIN
rail mount. Available in various AC or DC coil voltages in 1 or 2 Normally open contacts. The PWR is the perfect
partner for mechanical boards.
www.weidmuller.com.au
PWR - high power relay
50.5max
55max
10
• Max. load current: 30 A
• Various mounting methods available
• Approvals with UL
7.5
36.5max
D SERIES
PWR high power relay
1 N.O. contact AC / DC coil
34max
50.5max
34max
Technical data
C
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
1NO
36.8
1
6- Ø3.2
4
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
6
14.4
0
Clearance / creepage distance
Insulation IEC60664
1
4
AC: ≤ 75% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 15% of rated voltage
DC: ≥ 15% of rated voltage
110% of raged voltage
2.5 VA / 1.9 W
Dropout voltage @ 25°C
17.7
0
277 V AC
30 A
Ag alloy
12 VDC / 100 mA
< 50 mΩ
> 10 × 104 cycles
< 20 ms / < 10 ms
6
Coil-contact
Between N.O. contacts
Between adjacent contacts
Rated voltage
Pollution degree
Overvoltage category
Vibration resistance
Shock resistance
Approval
Weight
Dimensions
Length x Width x Height
- 25 … 55°C
- 25 … 55°C
35 … 85 %
2,000V AC / 1 min
2,000V AC / 1 min
4,000V AC / 1 min
3.5 mm / 6 mm
250 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV
Push-in connection/PCB welding: 90g;
DIN-rail mounting: 120g
34 x 50.5 x 36.5 mm
DC coil operation range
Normal voltage
Ambient temperature[˚C]
Coil voltage [U/Un]
AC coil operation range
Switching voltage (VDC)
Max. voltage
Max. DC load contact on-off curve
Electrical life
Switching cycles [times]
Coil voltage [U/Un]
Note
Max. voltage
Normal voltage
Switching current[A]
Switching current[A]
Ambient temperature[˚C]
C.27
27
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
PWR - high power relay
Type code
PWR high power relay
1 N.O. contact AC / DC coil
PWR
Ordering data
Input
Rated voltage
DC response / dropout voltage
Power consumption
DC rated current
Coil resistance
D SERIES
Type PWR
Type of construction and mounting
153 1N.O. contact, push-in connection
173 1N.O. contact, DIN-rail mounting
Coil voltage
006 6Vdc / 012 12Vdc
024 24Vdc / 048 48Vdc
110 110Vdc / 220 220Vdc
524 24Vac / 548 48Vac
615 115Vac / 730 230Vac
880 380Vac
L
with LED
T
with test lever
P
PCB welding
6 V DC 1NO
12 V DC 1NO
24 V DC 1NO
48 V DC 1NO
110 V DC 1NO
220 V DC 1NO
6 V DC
4.5 V / 0.9 V
1.9 W
317 mA
18.9Ω ±10%
12 V DC
9 V / 1.8 V
1.9 W
160 mA
75Ω ±10%
24 V DC
18 V / 3.6 V
1.9 W
79.2 mA
303Ω ±10%
48 V DC
36 V / 7.2 V
1.9 W
39.3 mA
1,220Ω ±10%
110 V DC
82.5 V / 16.5 V
1.9 W
17.3 mA
6,360Ω ±10%
220 V DC
165 V / 33 V
1.9 W
8.6 mA
25,474Ω ±10%
PWR153006LT
1219590000
PWR173006L
1219460000
PWR153012LT
1219610000
PWR173012L
1219470000
PWR153024LT
1219620000
PWR173024L
1219480000
PWR153048LT
1219630000
PWR173048L
1219490000
PWR153110LT
1219640000
PWR173110L
1219510000
PWR153220LT
1219650000
PWR173220L
1219520000
6 V DC 1NO
1220240000
12 V DC 1NO
1220240000
24 V DC 1NO
1220240000
48 V DC 1NO
1220240000
110 V DC 1NO
1220240000
220 V DC 1NO
1220240000
24 V AC 1NO
48 V AC 1NO
115 V AC 1NO
230 V AC 1NO
380 V AC 1NO
24 V AC
18 V / 3.6 V
2.5 VA
87.3 mA
275Ω ±10%
48 V AC
36 V / 7.2 V
2.5 VA
43.6 mA
1,100Ω ±10%
115 V AC
86.3 V / 17.3 V
2.5 VA
22.1 mA
5,200Ω ±10%
230 V AC
172.5 V / 34.5 V
2.5 VA
11.0 mA
21,000Ω ±10%
380 V AC
285 V / 57 V
2.5 VA
6.1 mA
62,650Ω ±10%
PWR153524LT
1219230000
PWR173524L
1219090000
PWR153548LT
1219240000
PWR173548L
1219120000
PWR153615LT
1219250000
PWR173615L
1219130000
PWR153730LT
1219260000
PWR173730L
1219140000
PWR153880LT
1219270000
PWR173880L
1219150000
6 V DC 1NO
1220240000
12 V DC 1NO
1220240000
24 V DC 1NO
1220240000
48 V DC 1NO
1220240000
110 V DC 1NO
1220240000
C
Ordering data
plug-in, need socket
Type
Order No.
Type
Order No.
Din rail installation,
no need for socket
Note:
PCB Soldering connection available.
Acessories
Description
PWR relay base
Type
PWR
Ordering data
Input
Rated voltage
AC response / dropout voltage
Power consumption
AC rated current
Coil resistance
Ordering data
Din-rail mounting
Type
without socket
Order No.
Push-in connection
Type
with socket
Order No.
Note:
PCB Soldering connection available.
Acessories
Description
PWR relay base
Type
PWR
220 V DC 1NO
1220240000
C.28
PWR - high power relay
50.5max
• Max. load current: 25 A
• Various mounting methods available
• Approvals with UL
• DIN rail or screw mount
34max
55max
D SERIES
PWR high power relay
2 N.O. contact AC / DC coil
Technical data
C
Output
Max. switching voltage
Continuous current
Contact material
Min. load voltage / current
Contact resistance (initial)
Electrical endurance
Response / dropout delay
Input
Response voltage @ 25°C
Circuit diagram
PIN top view
Dimensions are in mm
2NO
1
6- Ø3.2
2
4
6
8
14.4
36.8
0
2
4
6
AC: ≤ 75% of rated voltage
DC: ≤ 75% of rated voltage
AC: ≥ 15% of rated voltage
DC: ≥ 15% of rated voltage
110% of raged voltage
2.5 VA / 1.9 W
Dropout voltage @ 25°C
17.7
0
277 V AC
25 A
Ag alloy
12 VDC / 100 mA
< 50 mΩ
> 10 × 104 cycles
< 30 ms / < 30 ms
Max. voltage @ 25°C
Coil power consumption
General
Operation temperature
Storage temperature
Humidity
Dielectric strength
1
Clearance / creepage distance
Insulation IEC60664
8
Vibration resistance
Shock resistance
Approval
Weight
Coil-contact
Between N.O. contacts
Between adjacent contacts
Rated voltage
Pollution degree
Overvoltage category
Dimensions
Length x Width x Height
- 25 … 55°C
- 25 … 55°C
35 … 85 %
2,000V AC / 1 min
2,000V AC / 1 min
4,000V AC / 1 min
1.5 mm / 4 mm
250 V
3
III
10~55Hz dual amplitude: 1.0mm
10G (half wave of sine pulse: 11ms)
CE; TÜV
Push-in connection/PCB welding: 90g;
DIN-rail mounting: 120g
34 x 50.5 x 36.5 mm
Note
Normal voltage
Ambient temperature[˚C]
Coil voltage [U/Un]
AC coil operation range
Switching voltage (VDC)
Max. voltage
Max. DC load contact on-off curve
Electrical life
Switching cycles [times]
Coil voltage [U/Un]
DC coil operation range
Max. voltage
Normal voltage
Switching current[A]
Switching current[A]
Ambient temperature[˚C]
C.29
29
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
PWR - high power relay
Type code
PWR high power relay
2 N.O. contact AC / DC coil
PWR
Type PWR
D SERIES
Type of construction and mounting
276 2N.O. contact, DIN-rail mounting
Coil voltage
006 6Vdc / 012 12Vdc
024 24Vdc / 048 48Vdc
110 110Vdc / 220 220Vdc
524 24Vac / 548 48Vac
615 115Vac / 730 230Vac
880 380Vac
L
with LED
T
with test lever
P
PCB welding
Ordering data
Input
Rated voltage
DC response / dropout voltage
Power consumption
DC rated current
Coil resistance
6 V DC 2NO
12 V DC 2NO
24 V DC 2NO
48 V DC 2NO
110 V DC 2NO
220 V DC 2NO
6 V DC
4.5 V / 0.9 V
1.9 W
317 mA
18.9Ω ±10%
12 V DC
9 V / 1.8 V
1.9 W
160 mA
75Ω ±10%
24 V DC
18 V / 3.6 V
1.9 W
79.2 mA
303Ω ±10%
48 V DC
36 V / 7.2 V
1.9 W
39.3 mA
1,220Ω ±10%
110 V DC
82.5 V / 16.5 V
1.9 W
17.3 mA
6,360Ω ±10%
220 V DC
165 V / 33 V
1.9 W
8.6 mA
25,474Ω ±10%
PWR276006L
1219530000
PWR276012L
1219540000
PWR276024L
1219550000
PWR276048L
1219560000
PWR276110L
1219570000
PWR276220L
1219580000
24 V AC 2NO
48 V AC 2NO
115 V AC 2NO
230 V AC 2NO
380 V AC 2NO
24 V AC
18 V / 3.6 V
2.5 VA
87.3 mA
275Ω ±10%
48 V AC
36 V / 7.2 V
2.5 VA
43.6 mA
1,100Ω ±10%
115 V AC
86.3 V / 17.3 V
2.5 VA
22.1 mA
5,200Ω ±10%
230 V AC
172.5 V / 34.5 V
2.5 VA
11.0 mA
21,000Ω ±10%
380 V AC
285 V / 57 V
2.5 VA
6.1 mA
62,650Ω ±10%
PWR276524L
1219160000
PWR276548L
1219170000
PWR276615L
1219180000
PWR276730L
1219190000
PWR276880L
1219220000
C
Ordering data
Din rail installation,
no need for socket
Type
Order No.
Ordering data
Input
Rated voltage
AC response / dropout voltage
Power consumption
AC rated current
Coil resistance
Ordering data
Din rail installation,
no need for socket
Type
Order No.
C.30
PWR - relay base
PWR
D SERIES
PWR relay base
C
Technical data
Rated voltage
Rated current
Medium withstand voltage
Screw torque
External wire
Environments
Weight
Ordering data
Description
PWR relay base
400 V AC
30 A
2500 V/S
1.0 Nm
20-10/0.5-5.5AWG/mm2
-40~+85°C
56g
Type
PWR
Order No.
1220240000
Dimensions
Dimensions in mm
Shape
46
RELAY BASE PWR
1220240000
3 0A 400V
RoHS
COMPLIANT
1008
35.5
Mounting
1
8
55.5
4
40±0.05
6
0
2
51.2
C.31
31
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
LED and protective modules for the SCM-I
plug-in frame
Plug-in module with PUSH IN connection
Ordering data
Description
Free Wheel diode 1N4007
Resistor 100 kΩ 1 Watt
RC element 6 ... 60 V AC; 470 Ω / 220 nF
RC element 110 ... 230 V AC; 4.7 Ω / 10 nF
Varistor protection 24 V; S07K30
Varistor protection 110 V; S07K130
Varistor protection 230 V; S07K275
LED
LED 6 ... 24 V DC with free wheel diode
LED 24 ... 60 V DC with free wheel diode
LED 110 ... 230 V DC with free wheel diode
LED 6 ... 24 V DC / V AC
LED 24 ... 60 V DC / V AC
LED 110 ... 230 V DC / V AC
DRM Functional modules
66.5
22
Type
FS 2CO RL (accepts functional modules)
FS 4CO (accepts functional modules)
Order No.
7760056129
7760056107
*Note: Functional module is not suitable for this type of base
Dimensions
66.5
31
25
FS 4CO/2CO RL
C
Type
Qty.
RIM-I 1 6/230V
10
RIM-I 1 R 110/230V 10
RIM-I 3 6/60VAC
10
RIM-I 3 110/230VAC 10
RIM-I 4 24VUC
10
RIM-I 4 110VUC
10
RIM-I 4 230VUC
10
RIM-I 2 6/24VDC
RIM-I 2 24/60VDC
RIM-I 2 110/230VDC
RIM-I 3 6/24VUC
RIM-I 3 24/60VUC
RIM-I 3 110/230VUC
10
10
10
10
10
10
Order No.
8869580000
8870830000
8869770000
8869790000
8869710000
8869730000
8869750000
red
8869590000
8869670000
8869690000
8869630000
8869610000
8869650000
Order No.
green
8869600000
8869680000
8869700000
8869640000
8869620000
8869660000
DRM Functional modules
25
Ordering data
Plug-in module with screw connection
D SERIES ACCESSORIES
D SERIES ACCESSORIES
Functional modules
Technical data
Suppressor diode 6...230 V DC
RC-combined protection110...230 V AC
RC-combined protection110...230 V AC with LED *
Green LED 6...24 V DC with suppressor diode
Green LED 24...60 V DC with suppressor diode
Green LED 110...230 V DC with suppressor diode
Green LED 6...24 V DC / V AC
Green LED 24...60 V DC / V AC
Green LED 110...230 V DC / V AC
Type
RIM 1 6/230 V DC
RIM 3 110/230 V AC
RIM 3 110/230 V AC LED
RIM 2 6/24 V DC
RIM 2 24/60 V DC
RIM 2 110/230 V DC
RIM 3 6/24 V UC
RIM 3 24/60 V UC
RIM 3 110/230 V UC
Order No.
7760056169
7760056014
7760056045
7760056015
7760056016
7760056017
7940018457
7760056018
7940018455
71
C.32
Custom electromechanical relays
Weidmüller design and manufacture relays to meet your application needs.
Weidmüller Australia manufacture specialist electronic products to meet industry needs of our customers.
This ranges from a resistor in a terminal, to more advanced signal conditioning or isolation for digital or
analogue signals. Below are some of our popular custom Relay products.
Optical isolation products are listed in a later section. Please ask if your required unit is not listed.
MC5R NEO
Made specifically for industry to eliminate false switching. Below 14V is off, above 16V is on.
This ensures correct operation in electrically noisy environments.
MC5R Single Channel
Manufactured with high quality relays, provides input and back emf protection with status LED.
Option of silver alloy or Gold plated relay in 6mm housing suitable for top hat or G rail mounting.
MC5R SC Dual Voltage
MC5R Dual Voltage relays accept either of 2 voltage levels for operation. Great news if your
systems operate on different supply voltages.
MC5R SC Logic
Similar to the MC5R 24v relay but with 5-15V logic circuit for activation. Powered from 24V
supply, but suitable for switching from high impedance circuits with limited current.
ECO30
The ECO30 is our low cost 250V/8Aac (30V/8Adc) relay with a 24Vac/dc input. This covers
automation and building services wherever a reliable robust relay is required.
DO series
Made specifically for the electricity industry for isolating digital signals within substation
environments. Operational voltages are 110Vdc, 48Vdc, or 24Vdc.
LED Indication
Gives visual indication of relay operation
SPDT Relay
6A/240V Change-over contact for
installation adaptability
Low Hysteresis
Narrow Hysteresis band of only 3.7V.
Ensures maximum rejection of industrial
noise and interference
Slimline Housing
Ultra Slim Housing, 6mm wide
ensuring maximised space saving
in installation panels
MC5R NEO
Eliminates false switching
Previously all standard relays suffered from high hysteresis. This is where there is a large difference between turn
on voltage and drop out voltage. With the MC5R-NEO this is no longer a problem! The MC5R-NEO has high noise
immunity which rejects industrial noise and interference in an ultra slim and compact housing!
The MC5R-NEO ultra slim electromechanical relay is the first low hysteresis relay designed especially for the
electrically noisy process and control industry.
www.weidmuller.com.au
MC5R NEO - relay
MC5R-NEO
MC5R
• High noise immunity rejects industrial noise
• Rejects interference
• Ultra compact 6mm wide housing
• Change-over contact
• 6A/240V AC rated
• Combifoot housing: TS32 & TS35
• 4000Vrms isolation
• LED relay state indication
• Input diode protection
• Coil back-EMF diode protection
Installation
Technical data
Limit curve
Voltage [V]
D
Current [A]
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Circuit Diagram
12
A
0V
14
11
Input A (Nominal Voltage)
Nominal Operate current @ 20°C (typical)
Turn on voltage/current
Turn off voltage/current
Output
Type
Contact material
Standard
Gold plated
Nominal Switching Capacity
Maximum Continuous Current
Minimum Switching Capacity
Standard
w
Gold plated
Maximum Switching Power
Operate time/Release time (at nominal voltage)
Maximum Operating speed
Contact Life (Resistive load)
Mechanical life
Isolation
Initial breakdown voltage
Between open contacts
Between contacts & coil
Surge Strength
General
Terminal width
Width across rail
Height on rail
TS32
TS35 x 7.5
TS35 x 15
Operating temperature range
Conductor size
Solid
Flexible
Approvals
Certification
Change-over contact
Silver Alloy (Cadmium free)
Gold plated silver alloy (for low current switching )
250V AC 6A, 30V DC 6A (resistive) - Refer to load limit curve
6A (at maximum voltage) resistive
12 V DC, 500mA
100m V DC, 0.1mA
1500V A, 180 W
10ms/5ms
6 operations per second
60,000 @ 6A resistive 240 V AC / 30 V DC
10,000,000 operations
750 V AC
2000 V AC
4000 V
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
C Tick
Note
Ordering data
MC5R Ordering
Nom. Volt.
24Vdc
Accessories
End Plate
End Brackets
AP
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
D.11
24 V DC
7mA
16.3V / 4.14mA ±10%
14.1V / 1.38mA ±10%
Silver Alloy Contacts
Gold Contacts
Silver Alloy Contacts
7940009903
Gold Contacts
7940013020
1163830000
0383560000
0206160000
0482700000
0482800000
0482900000
0122800000
0383400000
0236400000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
MC5R - single channel change-over relay
MC5R single channel change-over
MC5R
• Ultra compact 6mm wide housing
• Change-over contact
• 6A/240V AC rated
• Combifoot housing: TS32 & TS35
• 4000Vrms isolation
• LED relay state indication
• Input diode protection
• Coil back-EMF diode protection
Installation
Technical data
Switching voltage (V)
1000
Load Limit Curve
500
300
200
100
50
30
20
10
5
3
2
1
0.1 0.2 0.3 0.5 0.7 1
2 3
Switching Current (A)
5 7 10
Definition of the load limit curve:
In 1000 operations no stationary arc must occur
with a burning arc of >10mS.
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Location
To be installed in a metal enclosure.
Circuit Diagram
Input A (Nominal Voltage)
Nominal Operate Voltage (typical)
Nominal Operate current @ 20°C (typical)
Drop-out current @ 20°C (typical)
Pick-up current (typical )
AC Frequency Range
Output
Type
Contact material
Standard
Gold plated
Nominal Switching Capacity
Maximum Continuous Current
Minimum Switching Capacity
Standard
w
Gold plated
Maximum Switching Power
Operate time/Release time (at nominal voltage)
Maximum Operating speed
Contact Life (Resistive load)
Mechanical life
Isolation
Initial breakdown voltage
Surge Strength
General
Terminal width
Width across rail
Height on rail
12
A
0V
14
11
Operating temperature range
Conductor size
Note
TS32
TS35 x 7.5
TS35 x 15
Solid
Flexible
AP
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Uninsulated
75 pole straight
75 pole angled
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
48V DC 220/240V AC 110/120V AC
160-250V AC 85-125V AC
15mA
14mA
7mA
0.7mA
2.2mA
47-63Hz
47-63Hz
D
Change-over Contact
Silver Alloy (Cadmium free)
Gold plated silver alloy (for low current switching )
250V AC 6A, 30V DC 6A (resistive) - Refer to load limit curve
6A (at maximum voltage) resistive
12V DC, 500mA
100mVdc, 0.1mA
1500VA, 180W
10ms/5ms
6 operations per second
10,000,000 @ 10mA, 24V DC
5,000 @ 6A, 250V AC
10,000,000 operations
Between open contacts
Between contacts & coil
Ordering data
MC5R Ordering
Nom. Volt.
12V DC
24V DC
48V DC
110/120V AC
220/240V AC
Accessories
End Plate
End Brackets
12V DC 24V DC
14mA
7mA
2.5mA 1.7mA
9mA 3.2mA
-
750V AC
2000V AC
4000V
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
Silver Alloy Contacts
Gold Plated Contacts
Silver Alloy Contacts
7901610000
7901620000
7901630000
7901500000
7901520000
Gold Plated Contacts
7906840000
7906850000
7906860000
7940005681
0383560000
0206160000
0482700000
0482800000
0482900000
0535200000
0526400000
0122800000
0383400000
0236400000
D.2
MC5R - single channel, dual voltage
MC5R single channel, dual voltage
MC5R
• Dual Input Voltage
• Gold plated normally open contact
• Ultra compact 6mm wide ‘Combifoot’ housing suits TS32 & TS35
• 4000Vrms isolation
• LED relay state indication
• Reverse polarity diode protection
• Coil back-EMF diode protection
Installation
Technical data
Input A(B) Nominal Voltage
Operating Current (A or B)
Relay Drop-out current @ 20°C
Relay Pick-up current @ 20°C
AC Frequency Range
Output
Type
Contact material
Nominal Switching Capacity
Maximum Continuous Current
Minimum Switching Capacity
Maximum Switching Power
Operate time/Release time (at nominal voltage)
Maximum operating speed (at rated load)
Contact Life (see also life curve)
Life Curves
120VAC Resistive
120VAC Inductive (cos =0.4)
30VDC/240VAC Resistive
240VAC Inductive (cos =0.4)
30VDC Inductive (cosf=0.4)
30VDC Inductive ( =40mS)
100-120VDC Inductive
( =7-40mS)
5000
D
Operations (x 103)
3000
2000
1000
500
300
200
100
50
30
20
0
0.2 0.3 0.5 0.7 1
2
Contact Current (A)
3
5
7
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Location
To be installed in a metal enclosure.
Mechanical life
Isolation
Initial breakdown voltage
Surge Strength
General
Terminal width
Width across rail
Height on rail
Circuit Diagram
DC
DC
B
B
11
1
14
AC
AC
A
0V
B
B
A
0V
11
14
11
14
Operating temperature range
Conductor size
A
0V
Between open contacts
Between contacts & coil
TS32
TS35 x 7.5
TS35 x 15
Solid
Flexible
Normally Open Contact
Gold plated silver alloy (for low current switching )
250V AC 4A, 30V DC 4A (resistive)
5A (at maximum voltage) resistive
100mV DC, 0.1mA
1000VA, 120W
10ms/5ms
20 cycles per second
100,000 @ 4A, 30V DC
30,000 @ 5A, 250V AC
20,000,000 operations
750V AC
2000V AC
4000V
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
A
0V
Order No.
Ordering data
Nom. Volt. A
12V DC
24V DC
12V AC/DC
24V AC/DC
Accessories
End Plate
End Brackets
AP
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Uninsulated
75 pole straight
75 pole angled
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
D.33
12(24)V DC 24(48)V DC 12(24)VAC/DC 24(48)VAC/DC
14mA
7mA
15mA
7mA
2.5mA
5.5mA
11mA
12.5mA
47-63Hz
47-63Hz
Nom. Volt. B
24V DC
48V DC
24V AC/DC
48V AC/DC
7901540000
7901550000
7901560000
7901570000
4036780000
0383560000
0206160000
0482700000
0482800000
0482900000
0535200000
0526400000
0122800000
0383400000
0236400000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
MC5R - single channel, logic
MC5R single channel, logic
Installation
Technical data
Life Curves
5000
3000
2000
Operations (x 103)
MC5R
• 5-15V logic input with 24V DC supply
• Gold plated normally open contact
• Ultra compact 6mm wide ‘Combifoot’ housing suits TS32 & TS35
• 4000Vrms isolation
• LED relay state indication
• Reverse polarity diode protection
• Coil back-EMF diode protection
1000
500
120VAC Resistive
120VAC Inductive (cos =0.4)
30VDC/240VAC Resistive
240VAC Inductive (cos =0.4)
30VDC Inductive (cosf=0.4)
30VDC Inductive ( =40mS)
100-120VDC Inductive
( =7-40mS)
300
200
100
50
30
20
0
0.2 0.3 0.5 0.7 1
2
Contact Current (A)
3
5
7
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Location
To be installed in a metal enclosure.
Circuit Diagram
Input A(Aux) Nominal Voltage
Operating Current (A or B)
Relay Drop-out current @ 20°C
Relay Pick-up current @ 20°C
Output
Type
Contact material
Nominal Switching Capacity
Maximum Continuous Current
Minimum Switching Capacity
Maximum Switching Power
Operate time/Release time (at nominal voltage)
Maximum operating speed (at rated load)
Contact Life (see also life curve)
Mechanical life
Isolation
Initial breakdown voltage
Surge Strength
General
Terminal width
Width across rail
Height on rail
Operating temperature range
Conductor size
Logic (DC aux.)
Between open contacts
Between contacts & coil
TS32
TS35 x 7.5
TS35 x 15
Solid
Flexible
5-15Vdc logic (24V DC)
<0.4mA (7mA)
5.5mA
12.5mA
D
Normally Open Contact
Gold plated silver alloy (for low current switching )
250V C 4A, 30V DC 4A (resistive)
5A (at maximum voltage) resistive
100mV DC, 0.1mA
1000V A, 120W
10ms/5ms
20 cycles per second
100,000 @ 4A, 30V DC
30,000 @ 5A, 250V AC
20,000,000 operations
750V AC
2000V AC
4000V
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
Aux
11
14
A
0V
Ordering data
MC5R Ordering
MC5R Single NO Relay
Accessories
End Plate
AP
End Brackets
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Uninsulated
75 pole straight
75 pole angled
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
Order No.
7901580000
7940005681
0383560000
0206160000
0482700000
0482800000
0482900000
0535200000
0526400000
0122800000
0383400000
0236400000
D.4
ECO30 - single channel relay
ECO30 single channel normally open relay
MC5R
ECO30
• Low Cost
• 24V AC/DC Input voltage
• 8A/240V AC rated outputs
• Compact 11.5mm wide housing
• Dual DIN rail mount
• 4000Vrms isolation
• LED Diode state indication
• Coil back-EMF diode protection
Installation
Technical data
Temperature / Spacing Derating Curve
9
Load Current (resistive), Amps
D
8
20mm spacing
7
6
5
4
3
2
No spacing
1
0
20
40
60
80
100
Ambient temperature (deg C)
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Location
To be installed in a metal enclosure.
Circuit Diagram
AC/DC
11
A
14
0V
Input
Nominal Operating Voltage
Nominal Operating Current
Relay Drop-out current
Relay Pick-up current
AC Frequency Range
Output
Type
Contact material
Nominal Switching Capacity
Maximum Continuous Current
Minimum Switching Capacity
Maximum Switching Power
Operate time/Release time (at nominal voltage)
Maximum operating speed (at rated load)
Contact Life
at rated load
lamp load
Mechanical life
Isolation
Initial breakdown voltage
Between open contacts
Between contacts & coil
Surge Strength
General
Terminal width
Width across rail
Height on rail
TS32
TS35 x 7.5
TS35 x 15
Operating temperature range
without clearance
with 20mm clearance
Conductor size
Solid
Flexible
Normally Open Contact
Silver Alloy (Cadmium free)
250V AC 8A, 30V DC 8A (resistive)
8A (at maximum voltage) resistive - refer to derating curve
5V DC, 100mA
2000V A, 240W
12ms/9ms
20Hz
100,000 operations minimum
25,000 operations minimum
20,000,000 operations
1000V AC
4000V AC
5000V
11.2mm
70mm
60mm
55mm
62.5mm
-25°C to +50°C
-25°C to +70°C
0.5 to 4.0mm2
0.5 to 2.5mm2
Note
Order No.
Ordering data
Type
ECO30
D.55
24V AC/DC
26mA
5.5mA @ 20°CC
12.5mA @ 20°C
47-63Hz
Description
24V AC/DC N/O
7940005581
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
DO SERIES - slimline relay
DO Series slimline relay
Circuit Diagram
MC5R
• Mounts on TS32 and TS35 DIN Rails
• Only 6mm wide
• LED indication
• Steering diode feature on input - no need for external diode block
• Conforms to all relevant IEC255 tests
• Wide ranging input voltage and switching voltages 24V DC, 48V
DC, 110V DC *88-140V DC)
• Inverting options
Technical data
Circuit input
Circuit 1
CIRCUIT 2
Circuit 2
Circuit 3
*Not Protected
**DO147A = DO135A with changed input diode configuration
***110Vdc output versions can also switch 48Vdc and 24Vdc
Standard
DO135A
(Circuit 1)
DO147A** DO140A
DO141A
DO142A
(Circuit 3) (Circuit 1) (Circuit 1) (Circuit 1)
110V DC 24V DC 110V DC 48V DC
2.6mA
5.1mA
2.6mA
4.6mA
83V
17.8V
82.4V
42V
1.3mA
1.3mA
1.3mA
1.3mA
82V
17.7V
82V
41.6V
1.3mA
1.3mA
1.3mA
1.2mA
0.282W
0.121W
0.276W
0.216W
Nominal input voltage
Nominal input curent
Min input voltage
Min input current
Hold off voltage
Hold off current
Nominal power
Circuit output
Max output current
250 mA DC 250 mA DC 250 mA DC 250 mA DC
Max leakage current
10 μA
10 μA
10 μA
10 μA
Nominal outout voltage
24V DC 110V DC***110V DC***110V DC***
Max off state voltage
60V DC
140V DC 140V DC 140V DC
Max on state voltage
1.6V DC
1.6V DC
1.6V DC
1.6V DC
Max operating frequency 100 Hz
100 Hz
100 Hz
100 Hz
Accessories
Description
Order Number
End Plate
AP
4036780000
EW (TS35)
0383560000
End Brackets
EW (TS32)
0206160000
WEW 35/2
1061200000
2 Pole
0482700000
Insulated Cross
CConnection
3 Pole
0482800000
4 Pole
0482900000
75 Pole Straight
0535200000
Uninsulated Cross
CConnection
75 Pole Angled
0526400000
Inverting
DO050A
DO051A
DO052A
(Circuit 2) (Circuit 2) (Circuit 2)
110V DC 110V DC 24V DC
2.6mA
2.6mA
0.6mA
40V
40.9V
14V
0.35mA
0.25mA
0.25mA
39V
39V
13V
0.3mA
0.3mA
0.1mA
0.277W
0.278W
0.061W
DO053A
(Circuit 2)
48V DC
2.9mA
23V
0.35mA
21.1V
0.15mA
0.135W
D
30 mA*
30 mA*
30 mA*
30 mA*
72.16 μA 73.72 μA 73.72 μA 72.22 μA
24V DC 110V DC***110V DC***110V DC***
60V DC
130V DC 130V DC 130V DC
0.9V DC
0.8V DC
0.8V DC
0.8V DC
500 Hz
500 Hz
500 Hz
500 Hz
Type/Description
Order Number
Insulated Combs
50 Pole (VQB)
Red Insulated Comb
1633290000
Blue Insulated Comb
1633290000
Black Insulated Comb
1635120000
Mounting Rail
TS32
0122800000
TS35 x 7.5
0383400000
TS35 x 15
0236400000
Note
Ordering data
Type
DO135A
DO147A
DO140A
DO141A
DO142A
DO050A
DO051A
DO052A
DO053A
Order No.
7940008335
7940006620
7940010804
7940008334
7940027570
7940008333
7940085085
7940046506
7940046505
D.6
SAFESERIES SIL relays – Overview
SAFESERIES SIL relays
Functional safety for process applications.
When dealing with the core elements of a system with a large
risk potential, it is especially critical to have the best system
solution in place. Our SIL relays reliably switch off your systems
in critical situations – and they have all been accredited.
Let’s connect.
Whether for a burner control system, secure emergency shut down
or, for example, for pump controllers – our safety relay guarantees safe
conditions and encompasses highly superior and significant features.
Their integration into distributed control systems (DCSs) is even better,
with an input filter which makes the SIL circuit immune to the test
impulse which is typically used by a DCS. You will also benefit from
simple maintenance: the fuses are accessible from the outside and
can easily be changed. You can see the status of the safety and the
monitoring devices clearly on the displays mounted directly to the
device.
All devices are accredited though certification by the internationally
recognised TÜV-NORD group – for secure process applications around
the globe. Let’s connect.
Safe control of back-up systems
Equipped with wide range input voltages
in the monitoring circuit from 24 V AC/DC
to 230 V AC/DC, the relay is designed for
individual use, e.g. in back-up systems or the
overfill prevention devices of tank farms.
Safe monitoring of furnace
firing systems
The feed-in of fuel must be interrupted as soon
as a boiler plant reaches any safety criterion
limits. The SAFESERIES offers you a safety
switch-off for the feed-in of fuel to furnace firing
systems up to safety integrity level (SIL) 3.
SAFESERIES SIL relays – Overview
Safety Guideline: Functional Safety in
Process Automation
For more information on Safety Guidelines
please see below for details.
Order number, 1424260000.
www.weidmuller.com.au
6DIHW\*XLGHOLQH
)XQFWLRQDO6DIHW\LQ3URFHVV$XWRPDWLRQ
/HW·VFRQQHFW
Also, check out
our Weidmüller
customer
magazine
WIN! for more
information.
No. 11
(pages 11–13)
Signals under optimal protection
The VARITECTOR SPC series of
surge protection devices with SIL
certification by TÜV Nord provides
the best protection of signals in
safety circuits for the process
industry.
Safe activation and deactivation
This universal device can be used for either the
energise-to-safe or de-energise-to-safe operation
modes, as you wish. This makes it suitable, e.g.
for pump controllers or extinguishing systems.
SAFESERIES SIL relays
SIL3 relays
SCS 24 V DC P1SIL3DS
7KH6&69'&36,/'6VDIHW\UHOD\LVXVHGLQDUHDV
WKDWUHTXLUHDIXQFWLRQDOO\VDIHVKXWGRZQ7KLVFRPSRQHQW
IXOILOVWKHUHTXLUHPHQWVRI(16,/
SAFESERIES
• With and without monitoring circuit
• Wide-range input voltage in the monitoring circuit
• Externally accessible fuse
• TÜV certified „Safety Approved“
Technical data
Temperatures
Ambient temperature (operational)
Storage temperature
General data
Noxious gas resistance to EN 60068-2-60
Input (safety circuit)
Rated control voltage
Guaranteed current consumption of 24 V DC -10 %
Power consumption
Status indicator
Input (monitor circuit)
Rated control voltage
Current consumption
Status indicator
Output (safety circuit)
Contact design
Max. switching current, internal fuse
Max. switching current, external fuse
Max. permitted switching voltage
Max. permitted switching current
Min. switching power
Max. switching power
Switch-on time
Base material of the contact
Internal fuse
External back-up fuse
Short-circuit-proof
Output (monitor circuit)
Contact design
Max. permitted switching voltage
Max. allowed switching current
Min. switching capacity
Contact base material
Switch-on time
Short circuit resistant
Insulation coordination (EN 50178)
Rated voltage
Creepage and clearance distance input – output
Creepage and clearance distance output – output
Dielectric strength input – output
Dielectric strength output – output
Dielectric strength to mounting rail
Impulse withstand voltage
Surge voltage category
Pollution severity
Further details of approvals / standards
Standards
Ordering data
with monitoring
without monitoring
with monitoring and G3 gas-corrosion resistant
Accessories - Markers
Terminals
Front - adhesive
Front - non adhesive
Note
E.11
Yes (art. No.: 1304040000 only)
7
98&98&
0
0
$7
0RQLWRU
24 V DC ± 20%
35 mA
42 mA
LED yellow
5HOD\
2XWSXW
24 V UC…230 V UC ±10 %
23 mA @ 24 V DC, 4,4 mA @ 230 V AC
LED yellow
$
$
9 9
/RJLF,QSXW
NO contact
5 A (refer to derating curve)
5 A (refer to derating curve)
250 V AC / 30 V DC
8A
12 V / 10 mA
2000 VA
typ. 7 ms
Ag Ni 0.15
5 A time-lag
PD[9'&
VZLWFKLQJYROWDJH
6&69'&36,/'6
6&69'&36,/'&0*
'HUDWLQJFXUYH
No
CO contact
24 V DC
30 A
1 V / 1 mA
AgNi 5µm Au
typ. 17 ms
No
/RDGFXUUHQWLQ$
300 V
≥ 5.5 mm
≥ 5.5 mm
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
6 kV (1.2/50 µs)
III
2
$PELHQWWHPSHUDWXUHLQƒ&
EN 50178, EN 61000, EN 61326-3-2
mm²
mm
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
-25...+50 °C
-40...+85 °C
)LHOG
1.5 / 0.13 / 2.5
114 / 22.5 / 117.2
Type
SCS 24VDC P1SIL3DS M
SCS 24VDC P1SIL3DS
SCS 24VDC P1SIL3DS MG3
Qty.
1
1
1
Order No.
1303760000
1303890000
1304040000
E
0RQLWRU,1
6DIHW\287
PD[9$&
VZLWFKLQJYROWDJH
1082540000
1248580000
1749321044
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
SAFESERIES SIL relays
SIL3 relays
SCS 24 V DC P2SIL3DSES
Technical data
Temperatures
Ambient temperature (operational)
Storage temperature
Input (safety circuit)
Rated control voltage
Guaranteed current consumption of 24 V DC -10 %
Power consumption
Status indicator
Test inputs
Rated control voltage
Status indicator
Number of test inputs
Output (safety circuit)
Contact design
Safety OUT
max. 240 V AC
switching voltage
-25 °C...+50 °C
-40 °C...+85 °C
F
24 V DC -15 / +20%
35 mA
45 mA
LED yellow
13
14
23
24
5A T
24 V DC
LED red flashing: test input is triggered
2
E
TEST
1
RELAY
OUTPUT
1 x de-energised to safe (NO contact), 1 x energised to safe (NO
contact)
5 A (refer to derating curve)
5 A (refer to derating curve)
250 V AC
8A
12 V / 10 mA
2000 VA
< 5.5 ms (DTS), < 5 ms (ETS)
Ag Ni 0.15
5 A time-lag
5 A time lag
No
Max. switching current, internal fuse
Max. switching current, external fuse
Max. permitted switching voltage
Max. permitted switching current
Min. switching power
Max. switching power
Switch-on time
Base material of the contact
Internal fuse
External back-up fuse
Short-circuit-proof
Insulation coordination (EN 50178)
Rated voltage
Creepage and clearance distance input – output
Creepage and clearance distance output – output
Dielectric strength input – output
Dielectric strength output – output
Dielectric strength to mounting rail
Impulse withstand voltage
Surge voltage category
Pollution severity
Further details of approvals / standards
Standards
SAFESERIES
The safety relay SCS 24VDC P2SIL3DSES is used in areas
that require functionally safe deactivation or activation.
The requirements according to EN 61508, SIL3 can be
fulfilled with this module.
• Energised / de-energised to safe
• All pins can be disconnected
• Test inputs for testing the relay contacts
• Externally accessible fuse
• TÜV certified „Safety Approved“
A2
X1
+24 V DC 0 V
Logic Input
X2
X3
+24 V DC 0 V
Test Input
117.2
114
300 V
≥ 5.5 mm
≥ 5.5 mm
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
6 kV (1.2/50 µs)
III
2
A1
2
22.5
EN 50178, EN 61000, EN 61326-3-2
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
Ordering data
Accessories
Markers
Note
mm²
mm
1.5 / 0.13 / 2.5
114 / 22.5 / 117.2
DTS (de-energised to safe)
ETS (energised to safe)
Type
SCS 24VDC P2SIL3DSES
Qty.
1
Order No.
1319270000
Type
Terminals
Front - adhesive
Front - non adhesive
Qty.
Order No.
1082540000
1248580000
1749321044
E.2
SAFESERIES SIL relays
SIL3 relays
SCS 24 V DC P2SIL3ES
The feed-in of fuel must be interrupted as soon as a boiler
plant reaches any safety criterion limits. The safety relay
SCS 24VDC P2SIL3ES enables you to carry out a safety
shutdown of the fuel supply, to safety level SIL 3.
SAFESERIES
• Positively-driven contacts
• 2-channel design
• Insert according to EN 50156
• TÜV certified „Safety Approved“
Technical data
Temperatures
Ambient temperature (operational)
Storage temperature
Start circuit
Operating voltage
Function
-25 °C...+55 °C
-40 °C...+85 °C
24 V DC ±15 %
55 mA (release circuit enabled), 6 mA (release circuit not enabled)
35 mA
with bridge via C1/C2: typ. 50 ms, without bridge via C1/C2: typ.
20 ms
LED green, power, LED yellow, signal
Yes, max 4 s up to switch-off (Polyfuse)
Status display
Short-circuit detection
Monitoring circuit
Operating voltage
Input
Output (release circuit)
Contact version
Switching voltage AC, max.
Max. permitted switching current
Min. switching capacity
Max. switching power
Switch-on time
Accessories
Markers
Note
E.33
13
23
24
14
K2
POWER
CH1
CH2
A1 A2 C1 C2 S33 S34 S35 S11 S12 S21 S22
+24 V DC 0 V
Logic Input tr
C1 C2
Reset Auto Start
Activation
tr
> 50 ms
> 20 ms
117.2
114
2 NO positively-driven (EN 50205)
250 V
6A
12 V / 10 mA
2000 VA
55 ms (C1/C2 bridged, switched via A1/A2), 30 ms (opening/closing
of monitoring circuit)
20 ms (C1/C2 bridged, switched via A1/A2), 15 ms (opening/closing
of monitoring circuit)
AgSnO
5A
5 A time lag
Contact base material
Max. switching current, external fuse
external back-up fuse
Feedback output
Contact version
Switching voltage AC, max.
Max. switching current
Insulation coordination (EN 50178)
Rated voltage
Creepage and clearance distance input – output
Creepage and clearance distance output – output
Dielectric strength input – output
Dielectric strength output – output
Dielectric strength to mounting rail
Impulse withstand voltage
Surge voltage category
Pollution severity
Further details of approvals / standards
Standards
Ordering data
32
K1
22 V DC, from internal power supply
2, each externally bridgeable
Switch-off time
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
31
22 V DC, from internal power supply
falling edge (button via S33/S34), rising edge (permanent bridge via
S33/S35)
Input (supply)
Rated control voltage
Current consumption
Guaranteed current consumption at 24 V DC -10 %
Response time
1 NC positively-driven (EN 50205 type B)
250 V
1A
300 V
≥ 5.5 mm
≥ 5.5 mm
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
6 kV (1.2/50 µs)
III
2
22.5
E
Safety OUT
max. 240 V AC
switching voltage
EN 50178, EN 61000, EN 61326-3-2
mm²
mm
1.5 / 0.13 / 2.5
114 / 22.5 / 117.2
Type
SCS 24VDC P2SIL3ES
Qty.
1
Order No.
1319280000
Type
Terminals
Front - adhesive
Front - non adhesive
Qty.
Order No.
1082540000
1248580000
1749321044
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Need adjustable timing?
Our Timers will give you the edge
The BT-series timers provide fully functional timing blocks for standalone circuits. Available as either powered plus
control input, or powered from input. Pulse emitters allow continued control pulses for timing applications or for
interrupting a light circuit to add flashing. The dual timer BTDS can control star/delta starts or similar applications.
All are multifunction and multi voltage for ease of installation in your next application … Let’s connect.
www.weidmuller.com.au
BT-SERIES – electronic timer
BT-SERIES – Timer
TimerBT-SERIES
Installation
Installation timer
timer
•Screw
or tension clamp connection
•Screwortensionclampconnection
•LED
status
indicator Input:
•LEDstatusindicator
Input:
Output:
a 508
•Approvals
EN 61812-1
IEC 60947-5-1
IEC 60664-1
EN 55011
voltage
present
voltagepresent
output
active
outputactive
r 22.2 Nr. 14
IEC 60664-1
EN 61812-1
IEC 60947-5-1
EN 50082-2
Input
Rated
Input voltage
Voltage
tolerance
Ratedvoltage
Breaking
voltage
Voltagetolerance
Power
consumption per type
V AC
Breakingvoltage
VVAC
DC
Powerconsumptionpertype
Reset time
VDC
Insulation
Reset time
Insulation
Insulationresistance
Insulation
test voltage
Insulationresistance
between input and output, to enclosure
Insulationtestvoltage
between non-adjacent contacts
betweeninputandoutput,toenclosure
Ingress protection class
betweennon-adjacentcontacts
Output
Ingressprotectionclass
Contact/contact
material
Output
Switch
output
Contact/contactmaterial
Service
life
mechanical min.
Switchoutput
electrical min.
Servicelife
mechanicalmin.
Time range
electricalmin.
Repetition
Timerangeaccuracy
Other
data
Repetitionaccuracy
Flammability
Other data class as per UL94
Ambient
temperature/storage temperature
FlammabilityclassasperUL94
Humidity
Ambienttemperature/storagetemperature
Humidity
Clamping range (nominal/min/max)
mm2
Depth
x Width x Height
mm 2
Clampingrange(nominal/min/max)
DepthxWidthxHeight
mm
Type designation:
Type designation:
B=Building
B =
Building
T=Timer
T =
Timer
R = Response Delay
R =
ResponseDelay
TT=Two Times
TT =
Two Times
M=Multifunction, 8 ranges
M =
Multifunction,8ranges
MF= Multifunction, 4 ranges
MF = Multifunction,4ranges
DS= Delta, Star
DS =
Delta,Star
S=Screw
S =
Screw
Z=Tension
Z =
Tension
E
F
Accessories
Accessories
Designation
Locking
and adjusting key
Designation
Lockingandadjustingkey
Type
BT Lock Pen
Qty.
1
Contacts hard gold plated
24
... 230 Vhard
AC, gold
50/60
Hz, 24 ... 48 V DC
Contacts
plated
85
... 110 % of rated voltage
24...230VAC,50/60Hz,24...48VDC
Max.
2.4 V AC/DC
85...110%ofratedvoltage
21...33
VA at 230 V
Max.2.4VAC/DC
0.6...1.3
W at 24 V
21...33VAat230V
Min.
0.1 s (BTDS: 0.5 s)
0.6...1.3Wat24V
Min.0.1s(BTDS:0.5s)
100 MΩ min., at 500 V DC
100MΩmin.,at500VDC
2000 V AC, 50/60 Hz, 1 min
1000
V AC, 50/60 Hz, 1 min
2000VAC,50/60Hz,1min
IP30,
terminal block IP20
1000VAC,50/60Hz,1min
IP30,terminalblockIP20
1 change-over contact (BTDS 2 NOC) / AgNi 90/10
51change-overcontact(BTDS2NOC)/AgNi90/10
A at 250 V AC, resistive load (cos φ=1)
7
10
switching cycles (no load, 1800/h)
5Aat250VAC,resistiveload(cosφ=1)
10
switching cycles (5A at 250 V AC, resistive load at 1800/h)
1057switchingcycles(noload,1800/h)
0,10
s…120 h
105switchingcycles(5Aat250VAC,resistiveloadat1800/h)
±0,10s…120h
1%
±1%
V-2
–10...+55
°C / –25...+65 °C (without condensation)
V-2
35...85
% rel. humidity, no condensation
–10...+55°C/–25...+65°C(withoutcondensation)
35...85%rel.humidity,nocondensation
73.0 x 17.5 x 80.0
73.0x17.5x80.0
Connection of the timer
Order No.
8659840000 BTM-Z Type
BTM-Z
BTLockPen
A1 15 A1 B1 15 B1
BTMF-Z/BTR-Z
BTMF-Z/BTR-Z
BTTT-ZBTTT-Z
BTM-S BTM-S
A1
15 A1 B1 15
A1
18
18
15
15
16 18
16
16 18 A2 16
A2
(DIN notation)
(DIN notation)
A1
15
18
16 18
16 18 A2 16
15 A1
Qty.
1
Order No.
8659840000
15
L
15
18
15
B1
L
15
15 A1
BTMF-S/BTR-S
BTMF-S/BTR-S
L
BTTT-SBTTT-S L
16
18
15
16 18
15
16
A2
(see note (see
1) note 1)
18
16 18 A2 16
15
18
16 18
18
16 18 A2 16
16
A2
A2
(see note (see
1) note 1)
(DIN notation)
(DIN notation)
Note: 1. Pole numbers are not necessary for DC voltage supply.
F.11
E.4
as it
2. The contact symbol of BTM is marked with
provides serveral operating modes and differs from the
delayed contacts of conventional timer.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
1427050000 – 2013/2014
BT-SERIES – electronic timer
BT-SERIES
Multifunction relay with control input (BTM)
Ordering data
Connection system
Screw connection
Tension clamp
Type
BTM-S
BTM-Z
Qty.
1
1
Functions
Function A – on-delay
Connect power supply (A1/A2). When the input
signal (B1/A2) is applied, the set time T begins
to delay. After the time has expired, the output R
(15/18) disconnects the load. To reset, the input
signal needs to be switched off.
Function E – passing make function
A1 / A2
B1 / A2
15 / 18
Function B – pulse emitter (starting at normal position)
Connect power supply (A1/A2). After applying
the input signal (B1/A2), output R (15/18)
switches the load synchronously and alternately
between the normal and operated positions
within the set time T. In this function, the cycle
starts at the normal position.
Connect power supply (A1/A2). After applying
the input signal (B1/A2), output R (15/18)
connects the load immediately. At the end of the
set delay time T, output R (15/18) switches the
load off again.
A1 / A2
B1 / A2
15 / 18
F
Function G – on and off-delay function
A1 / A2
B1 / A2
15 / 18
Function B2 – pulse emitter (starting at operated position)
Connect power supply (A1/A2). After applying
the input signal (B1/A2), output R (15/18)
switches the load synchronously and alternately
between the normal and operated positions
within the set time T. In this function, the cycle
starts at the operated position.
Order No.
8647700000
8647710000
A1 / A2
B1 / A2
15 / 18
Connect power supply (A1/A2). Time delay
T begins after applying the input signal (B1/
A2). At the end of this time, output R (15/18)
connects the load (on-delayed). After the input
signal (B1/A2) has been switched off again, the
output switches the load off again after the set
time (off-delayed).
A1 / A2
B1 / A2
15 / 18
Function J – on-delay with pulse
Connect power supply (A1/A2). Time delay T
begins after applying the input signal (B1/A2).
At the end of this time, the output R (15/18)
connects the load for 1 second.
A1 / A2
B1 / A2
15 / 18
s
approx. 1 s ± 0,6 s (fixed)
Function C – interval time-delay
Connect power supply (A1/A2). After applying
the input signal (B1/A2), output R (15/18)
connects the load for the set time T. Output R
(15/18) switches the load off again at the end
of time T.
After switching off the input signal (B1/A2),
output R (15/18) connects the load again for
the set time T. Output R (15/18) switches the
load off again at the end of time T.
A1 / A2
B1 / A2
15 / 18
Function D – off-delay function
Connect power supply (A1/A2). After applying
the input signal (B1/A2), output R (15/18)
connects the load.
The time delay T begins after the input signal
(B1/A2) has been switched off. At the end of
time T, output R (15/18) switches the load off
again.
A1 / A2
B1 / A2
15 / 18
F.2
BT-SERIES – electronic timer
Timer (BTR)
BT-SERIES
Multi-function relay without control input (BTMF)
Ordering data
Connection system
Screw connection
Tension clamp
Type
BTMF-S
BTMF-Z
Qty.
1
1
Order No.
8647680000
8647690000
Connection system
Screw connection
Tension clamp
Type
BTR-S
BTR-Z
Functions
Functions
When the input signal (A1/A2) is applied, the
on-delay lasting for the set time T starts. The
output R (15/18) connects the load at the end
of the set time. To reset, the power supply has
to be switched off.
When the power supply is connected (A1/A2),
the on-delay lasting for the set time T starts. The
output R (15/18) connects the load at the end
of the set time.
Function A – on-delay
F
Ordering data
Qty.
1
1
Order No.
8647720000
8647730000
Function A – on-delay
A1 / A2
15 / 18
A1 / A2
15 / 18
Function B2 – pulse emitter (starting at operated condition)
After applying the input signal (A1/A2), output
R (15/18) switches the load synchronously and
alternately between the normal and operated
positions within the set time T. In this function,
the cycle starts at the operated position.
A1 / A2
15 / 18
Function E – passing make function
After applying the input signal (A1/A2), output
R (15/18) connects the load immediately. At the
end of the set delay time T, output R (15/18)
switches the load off again.
A1 / A2
15 / 18
Function J – on-delay with pulse
Time delay T begins after applying the input signal (A1/A2). At the end of this time, the output
R (15/18) connects the load for 1 second.
F.33
A1 / A2
15 / 18
s
approx. 1 s ± 0,6 s (fixed)
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
BT-SERIES – electronic timer
Timer (BTDS)
BT-SERIES
Timer (BTTT)
Ordering data
Connection system
Screw connection
Type
BTTT-S
Qty.
1
Order No.
8647740000
Ordering data
Connection system
Screw connection
Tension clamp
Type
BTDS-S
BTDS-Z
Functions
Functions
When the power supply is connected (A1/A2),
the repeat cycle begins with two independently
adjustable times. The standard setting is to
start at the normal position. A bridge between
connections A1 and A2 allows the module to
start at the operated position.
After connecting the power supply, output R1
(17/18) connects immediately. At the end of
time T1, output R1 (17/18) switches off and
time T2 starts. At the end of time T2, output R2
(27/28) connects. After switching off the power
supply, output R2 (27/28) switches off.
Function BTTT – pulse emitter
Qty.
1
1
Order No.
8647660000
8647670000
Star-delta changeover
A1 / A2
15 / 18
T1 T2
T1 T2
T1 T2
A1 / A2
17 / 18
27 / 28
T1
T2
A1 / B1
F
15 / 18
T1 T2
T1 T2
T1 T2
F.4
SOLID STATE RELAYS
Optical isolators, Opto’s, Solid state relays ... which one do I need?
Solid state relays
Opto’s and Solid state relays all use optical isolation. In
digital switching circuits, this provides many benefits over
mechanical relays. The design of the input circuit requires
activating a LED to operate a photo-diode. This provides
electrical isolation between the input and output of many
thousands of volts. The photo diode when activated operates
an output driver. This could consist of a transistor for
switching small DC loads from a few milliamps, or a MosFet
Opto module
for larger DC loads. For AC loads, a Triac or Thyristor is used.
The special design of Solid State Relays for specific
applications ensures it’s suitability for long term
performance. Operation of the Solid state device within its
limits will provide many years of reliable service, reducing
maintenance costs compared to mechanical relays and
overall cost of ownership.
Control circuit
Load circuit
Control circuit
Optocoupler
Optocoupler
Switching amplification
Solid-state relay
Pro‘s
Con‘s
•• No mechanical wear
•• Fast switching frequency
•• No contact bounce
•• No transients when switching •• Insensitive to shock and vibration
•• No electromagnetic interference
•• Special application models
•• Silent switching
•• Small size
•• Small leakage current when off
•• Higher initial cost
•• Single switched output
•• Produces more heat under constant load
Load circuit
Solid state relay range:
Opto or optical Isolator
Used for switching small loads from a milliamps to few
Amps. Suitable for isolating field voltage from control system
voltage ie: 230V input from field to 24V to PLC input.
Solid state Relays (SSR)
Output switching of larger loads, solenoids, or contactors.
AC models switch on/off at the Zero crossover point of
the sine wave reducing transients and electrical noise.
Commonly used in place of a mechanical relay.
Power solid state relay (PSSR)
Used in place of contactors or large relays. Either comes with
a heatsink attached or requires an external heatsink due to
heat build up when switching. Provides long life with little
disturbance to the power system and negligible transients to
the load.
Solid state relay, like mechanical relays, have switching
characteristics suitable for the load, with either a fixed
control voltage or Universal control voltage.
*If you cannot find a suitable device, please contact us for assistance.
Need switching that will increase with
productivity demands
Our solid state relays provide many advantages
Solid state relays provide many advantages over electromechanical models to meet the demands of current and
future automation requirements. We have a large range of models to suit your needs, whether for signal isolation,
switching small loads, solenoids, or large power loads. With fixed or pluggable models, cross connections, monitoring,
or custom models, Weidmuller has an SSR for you … Let’s connect.
www.weidmuller.com.au
TERMSERIES - solid state relays
Termseries Solid State Relays
TERMSERIES
•Space-saving 6.4 mm width
•5 cross connection level
•Screw and tension connection
•Multi voltage input: 24…230 V UC (AC/DC) in one unit
•Pluggable modules
Control: Fixed voltages or universal
Load: 3…33 V DC / 100 mA
3…33 V DC / 2 A
24…230 V AC / 1 A
Technical data
AC-Input + RC-Filter
~
=
AC/DC-Input
=
~
DC-Input
=
12
=
NC
A2
G
14 11
11
COM
14
A1
A2
TOS
A1
Load side
Output
Switching voltage
Frequency range of switching voltage
Continuous current
Peak reverse voltage
Forward voltage
Max. switching frequency at rated load
Short-circuit-proof / Protective circuit
General data
Status indicator / Free-wheel (Input)
Reverse polarity protection (Input)
Ambient temperature (operational)
Storage temperature
Humidity
Reference temperature technical data
Insulation coordination (EN 50 178)
Rated voltage
Rated impulse voltage
Overvoltage category
Pollution degree
Clearage and creepage distance input / output
Total circuit to rail
24 V 0.1 A DC
Bipolar transistor
3…33 V DC
100 mA
54 V
< 1 V DC
300 Hz
No / Free-wheel diode
24 V 2 A DC
230 V 1 A AC
MOS-FET
Triac
3…33 V DC
24…240 V AC
45 Hz … 60 Hz
2A
1A
33 V
600 V
< 120 mV
<1V
300 Hz
3 Hz
No / Free-wheel diode
no / -
LED green / yes
yes
-40 °C to 60 °C
-40 °C to 85 °C
5 %...95 %, Tu=40 °C, no condensation
20 °C
300 V
6 kV (1.2 / 50 µs)
III
2
>= 5.5 mm
4 kVeff / 1 min
NO
Dimensions
Clamping range
Height x length x width
Note
mm² 0.14…1.5 mm²
mm 90 x 88 x 6.4 24 V - 230 V UC (AC/DC)
Control side
Rated control voltage
Input current
Input power
Making threshold
Dropout threshold
Ordering data
Screw connection
Order No.
Tension clamp connection
Order No.
24 V…230 V UC (AC/DC) +-10 %
22 mA @ 24 V DC / 4 mA @ 230 V AC (+/- 10 %)
530 mW @ 24 V DC / 930 mW @ 230 V AC
11 V / 20 mA
5 V / 6 mA
24 V 0.1 A DC
24 V 2 A DC
230 V 1 A AC
TOS 24-230VUC* 48VDC0.1A
TOS 24-230VUC* 24VDC2A
TOS 24-230VUC* 230VAC1A
1127020000
1127250000
1127500000
TOZ 24-230VUC* 48VDC0.1A
TOZ 24-230VUC* 24VDC2A
TOZ 24-230VUC* 230VAC1A
1127130000
1127380000
1127620000
*AC/DC (UC)
Note
G.11
Spare relay type SSS 24V...
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMSERIES - solid state relays
Termseries Solid State Relays
(PSW\ (PSW\VRFNHWV
$8 *ROGSODWHGFRQWDFW
7 7(506(5,(6
5 5HOD\
2 665
; 6XSSO\WHUPLQDO
6 6FUHZ
&RQWUROYROWDJH
= 7HQVLRQ
FRORUPDUNLQJ
9'&
98&$&'&
9'&
98&$&'&
9'&
9$&
98&
9$&
98&
²98&$&'&
98&
Ordering data
Control side
Rated control voltage
Input current AC/DC
Making threshold
Dropout threshold
TERMSERIES
5HODLV
&2 &KDQJHRYHU63'7
&2 &KDQJHRYHU'3'7
6ROLG6WDWH5HOD\
9'&$ «9'&P$
9'&$ «9'&$
9'&$ 9$&«9$&$
9'&$ «9'&$
5&)LOWHU
RQO\9$&,QSXW
5 V DC
12 V DC
24 V DC
24 V UC (AC/DC)
48 V UC (AC/DC)
5 V DC +-20 %
7/10/15 mA
3.8 V DC @
1.6 V DC @
12 V DC +-20 %
- / 9.6 mA
4.7 V DC @
4.6 V DC @
24 V DC +- 20 %
- / 10…13 mA
15 V DC @
11 V DC @
24 V UC (AC/DC) +-10 %
11 mA / 6 mA
14 V @
13 V @
48 V UC (AC/DC) +-10 %
6 mA / 4 mA
36 V @
19 V @
TOS 5VDC 48VDC0.1A
1126920000
TOS 5VDC 24VDC2A
1127140000
TOS 5VDC 230VAC1A
1127390000
TOZ 5VDC 48VDC0.1A
1127030000
TOZ 5VDC 24VDC2A
1127270000
TOZ 5VDC 230VAC1A
1127510000
TOS 12VDC 48VDC0.1A
1126930000
TOS 12VDC 24VDC2A
1127150000
TOS 12VDC 230VAC1A
1127400000
TOZ 12VDC 48VDC0.1A
1127040000
TOZ 12VDC 24VDC2A
1127280000
TOZ 12VDC 230VAC1A
1127520000
TOS 24VDC 48VDC0.1A
1126940000
TOS 24VDC 24VDC2A
1127170000
TOS 24VDC 230VAC1A
1127410000
TOZ 24VDC 48VDC0.1A
1127050000
TOZ 24VDC 24VDC2A
1127290000
TOZ 24VDC 230VAC1A
1127530000
TOS 24VUC* 48VDC0.1A
1126950000
TOS 24VUC* 24VDC2A
1127180000
TOS 24VUC* 230VAC1A
1127420000
TOZ 24VUC* 48VDC0.1A
1127060000
TOZ 24VUC* 24VDC2A
1127300000
TOZ 24VUC* 230VAC1A
1127540000
*AC/DC (UC)
TOS 48VUC* 48VDC0.1A
1126960000
TOS 48VUC* 24VDC2A
1127190000
TOS 48VUC* 230VAC1A
1127430000
TOZ 48VUC* 48VDC0.1A
1127070000
TOZ 48VUC* 24VDC2A
1127310000
TOZ 48VUC* 230VAC1A
1127550000
*AC/DC (UC)
Spare relay type SSS 5V…
Spare relay type SSS 5V…
Spare relay type SSS 24V…
Spare relay type SSS 24V…
Spare relay type SSS 24V…
Ordering data
Screw connection
24 V 0.1 A DC
24 V 2 A DC
230 V 1 A AC
Tension clamp connection
24 V 0.1 A DC
24 V 2 A DC
230 V 1 A AC
For replacement modules please see
page G77.
Ordering data
Control side
Rated control voltage
Input current AC/DC
Making threshold
Dropout threshold
60 V UC (AC/DC)
120 V UC (AC/DC)
230 V UC (AC/DC)
120 V AC RC
230 V AC RC
60 V UC (AC/DC) +-10 %
5 mA / 3 mA
35 V @
20 V @
120 V UC (AC/DC) +-10 %
5 mA / 3 mA
82 V @
65 V @
230 V UC (AC/DC) +-10 %
3.5 mA / 2.9 mA
159 V @
99 V @
120 V AC +- 10 %
7 mA / 79 V @
65 V @
230 V AC +-10 %
9 mA / 119 V
94 V
TOS 60VUC* 48VDC0.1A
1126970000
TOS 60VUC* 24VDC2A
1127200000
TOS 60VUC* 230VAC1A
1127440000
TOZ 60VUC* 48VDC0.1A
1127080000
TOZ 60VUC* 24VDC2A
1127320000
TOZ 60VUC* 230VAC1A
1127570000
*AC/DC (UC)
TOS 120VUC* 48VDC0.1A
1126980000
TOS 120VUC* 24VDC2A
1127210000
TOS 120VUC* 230VAC1A
1127450000
TOZ 120VUC* 48VDC0.1A
1127090000
TOZ 120VUC* 24VDC2A
1127330000
TOZ 120VUC* 230VAC1A
1127580000
*AC/DC (UC)
TOS 230VUC* 48VDC0.1A
1126990000
TOS 230VUC* 24VDC2A
1127220000
TOS 230VUC* 230VAC1A
1127470000
TOZ 230VUC* 48VDC0.1A
1127100000
TOZ 230VUC* 24VDC2A
1127340000
TOZ 230VUC* 230VAC1A
1127590000
*AC/DC (UC)
TOS 120VAC RC 48VDC0.1A
1127000000
TOS 120VAC RC 24VDC2A
1127230000
TOS 120VAC RC 230VAC1A
1127480000
TOZ 120VAC RC 48VDC0.1A
1127110000
TOZ 120VAC RC 24VDC2A
1127350000
TOZ 120VAC RC 230VAC1A
1127600000
TOS 230VAC RC 48VDC0.1A
1127010000
TOS 230VAC RC 24VDC2A
1127240000
TOS 230VAC RC 230VAC1A
1127490000
TOZ 230VAC RC 48VDC0.1A
1127120000
TOZ 230VAC RC 24VDC2A
1127370000
TOZ 230VAC RC 230VAC1A
1127610000
Spare relay type SSS 60V…
Spare relay type SSS 60V…
Spare relay type SSS 60V…
Spare relay type SSS 60V…
Spare relay type SSS 60V…
G
Ordering data
Screw connection
24 V 0.1 A DC
24 V 2 A DC
230 V 1 A AC
Tension clamp connection
24 V 0.1 A DC
24 V 2 A DC
230 V 1 A AC
For replacement modules please see
page G77.
G.2
TERMSERIES - solid state relays
Termseries Solid State Relays
TERMSERIES
•Universal control voltage 24-230VUC (AC/DC)
•Pluggable module
•Highly visible indication
•Switching to 300Hz
Control: 24V DC or universal 24-230V AC
Load: 3…33 V DC / 3.5A
12…275 V AC / 1A
Technical data
AC-Input + RC-Filter
~
=
AC/DC-Input
=
~
DC-Input
=
12
=
A2
NC
G
14 11
11
COM
A1
A2
TOS
A1
Load side
Output
Switching voltage
Continuous current
Peak reverse voltage
Forward voltage
Max. switching frequency at rated load
Short-circuit-proof / Protective circuit
General data
Status indicator / Free-wheel (Input)
Reverse polarity protection (Input)
Ambient temperature (operational)
Storage temperature
Humidity
Reference temperature technical data
Insulation coordination (EN 50 178)
Rated voltage
Rated impulse voltage
Overvoltage category
Pollution degree
Clearage and creepage distance input / output
Total circuit to rail
24 V 3.5 A DC
MOS-FET
3…33 V DC
1 mA...5 A
35 V
< 300 mV
300 Hz
No / Free-wheel diode
230 V 1 A AC
TRIAC, zero cross switch
12…275 V AC
50 mA...3 A
600 V
< 1.1 V
3 Hz
no / -
LED green / yes
yes
-40 °C to 60 °C
-40 °C to 85 °C
5 %...95 %, Tu=40 °C, no condensation
20 °C
300 V
6kV (1.2 / 50 µs)
III
2
>= 5.5 mm
4kVeff / 1 min
14
NO
Dimensions
Clamping range
Length x width x height
Note
mm²
mm
0.14…1.5 mm²
90 x 88 x 12.8
24 V DC
Control side
Rated control voltage
Input current
Input power
Making threshold
Dropout threshold
24 V DC +- 20 %
8m +- 20 %
192 mW
15V DC @
11V DC @
24 V - 230 V UC*
24 V…230 V UC* +-10 %
22 mA @ 24V DC / 4mA @ 230 V AC (+/- 10 %)
530 mW @ 24 V DC / 930 mW @ 230 V AC
*AC/DC (UC)
11 V
5V
Ordering data
Screw connection
24 V DC 5A
230 V AC 3A
Tension clamp connection
24 V DC 5A
230 V AC 3A
TOS 24VDC / 24VDC 5A
1127630000
TOS 24VDC / 230VAC 3A
1127680000
TOZ 24VDC / 24VDC 5A
1127650000
TOZ 24VDC / 230VAC3A
1127700000
TOS 24-230VUC*/24VDC3A
1127640000
TOS 24-230VUC*/230VAC5A
1127690000
TOZ 24-230VUC*/24VDC3A
1127670000
TOZ 24-230VUC*/230VAC5A
1127710000
*AC/DC (UC)
Note
G.33
Spare relay type SSR10…32 V DC/…
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMSERIES ACCESSORIES
TERMSERIES
Termseries Accessories
Empty socket 6.4 mm
Type: 1 CO, Screw connection / 1 CO, Tension clamp connection
Input voltage
5VDC 1CO empty
12VDC 1CO empty
24VDC 1CO empty
24VUC (AC/DC) 1CO empty
48VUC (AC/DC) 1CO empty
60VUC (AC/DC) 1CO empty
120VUC (AC/DC) 1CO empty
230VUC (AC/DC) 1CO empty
120VAC RC 1CO empty
230VAC RC 1CO empty
24-230VUC (AC/DC) 1CO empty
5 V DC (1)
12 V DC (2)
24 V DC (3)
24 V AC / DC (3)
48 V AC / DC (3)
60 V AC / DC (4)
120 V AC / DC (4)
230 V AC / DC (4)
120 V AC (4)
230 V AC (4)
24…230 V AC / DC (3)
Useable with 1) RSS…005; SSS 5V… 2)
RSS…012 3)
RSS…024; SSS 24V…
4)
Screw conect.
Order No.
1123220000
1123230000
1123240000
1123250000
1123270000
1123280000
1123290000
1123300000
1123310000
1123320000
1123330000
Tension Clamp
Order No.
1123340000
1123350000
1123370000
1123380000
1123390000
1123400000
1123410000
1123420000
1123430000
1123440000
1123450000
Tension Clamp
Order No.
1127740000
1127750000
1124080000
1124090000
1124100000
1124110000
1124120000
1124130000
1124140000
1124150000
1124170000
1124180000
1124190000
RSS…060; SSS 60V…
Empty socket 12.8 mm
Type: 1 CO, Screw connection / 1 CO, Tension clamp connection
Input voltage
24VDC empty
24-230VUC (AC/DC) empty
Type: 2 CO, Screw connection / 2 CO, Tension clamp connection
TRS 5VDC 2CO empty
TRS 12VDC 2CO empty
TRS 24VDC 2CO empty
TRS 24VUC (AC/DC) 2CO empty
TRS 48VUC (AC/DC) 2CO empty
TRS 60VUC (AC/DC) 2CO empty
TRS 120VUC (AC/DC) 2CO empty
TRS 230VUC (AC/DC) 2CO empty
TRS 120VAC RC 2CO empty
TRS 230VAC RC 2CO empty
TRS 24-230VUC (AC/DC) 2CO empty
24 V DC (1)
24…230 V AC / DC (1)
Screw conect.
Order No.
1127720000
1127730000
5 V DC (2)
12 V DC (3)
24 V DC (4)
24 V AC / DC (4)
48 V AC / DC (5)
60 V AC / DC (6)
120 V AC / DC (7)
230 V AC / DC (7)
120 V AC (7)
230 V AC (7)
24…230 V AC / DC (4)
1123950000
1123970000
1123980000
1123990000
1124000000
1124010000
1124020000
1124030000
1124040000
1124050000
1124070000
Useable with 1) RCL31.024; SSR 10…32VDC/... 2)
RCL42.005 3) RCL42.012 4)
RCL42.024 5)
RCL42.048 6)
RCL42.060 7)
G
RCL42.110
Small Solid-State Relays
Technical data
Input
SSS 5 V…
SSS 24 V…
SSS 60 V...
SSS 5 V…
SSS 24 V…
SSS 60 V...
SSS 5 V…
SSS 24 V…
SSS 60 V...
Rated voltage / current
2.5…6 V DC / 4 mA
16…30 V DC / 7 mA
52…72 V DC / 3 mA
2.5…6 V DC / 9 mA
18…30 V DC / 7 mA
40…72 V DC / 3 mA
2.5…6 V DC / 15 mA
18…30 V DC / 7 mA
40…72 V DC / 3 mA
SSS…24 V 0.1 A DC
SSS…24 V 2 A DC
SSS…230 V 1 A AC
Order No.
4064320000
4601180000
4061230000
–
–
–
–
–
–
Order No.
–
–
–
4064310000
4601190000
4601200000
–
–
–
Order No.
–
–
–
–
–
–
1132260000
4061210000
4061220000
SSR…/0-35 V DC 5A
SSR…/12-275 V AC 3A
Order No.
1132310000
Order No.
1132290000
Solid-State Relays
Technical data
Coil data
SSR10…32 V DC/…
Rated voltage / current
10…32 V/3…13 mA
G.4
TERMSERIES ACCESSORIES
TERMSERIES
Pluggable cross connection
Supply terminal
Type
ZQV 1.5N/R6.4/2 GE
ZQV 1.5N/R6.4/10 GE
ZQV 1.5N/R6.4/19 GE
ZQV 1.5N/R12.8/10 GE
ZQV 1.5N/R6.4/10 SW
ZQV 1.5N/R6.4/19 SW
ZQV 1.5N/R6.4/10 RT
ZQV 1.5N/R6.4/19 RT
ZQV 1.5N/R6.4/10 BL
ZQV 1.5N/R6.4/19 BL
No. of poles / Pitch
2 / 6.4 mm
10 / 6.4 mm
19 / 6.4 mm
10 / 12.8 mm
10 / 6.4 mm
19 / 6.4 mm
10 / 6.4 mm
19 / 6.4 mm
10 / 6.4 mm
19 / 6.4 mm
Type
TXS SUPPLY
TXZ SUPPLY
Colour
yellow
yellow
yellow
yellow
black
black
red
red
blue
blue
Qty.
10
10
10
10
10
10
10
10
10
10
Order No.
1193670000
1193680000
1193690000
1193700000
1391630000
1391600000
1391640000
1391610000
1390350000
1391620000
Connection technology
Screw connection
Tension clamp connection
Qty.
10
10
Order No.
1240780000
1240790000
Isolation plate
TW TXS/TXZ R3.2
Note
Isolation plate 3.2 mm pitch
Isolation plate - small
Isolation plate - large
Qty.
10
600
Order No.
1240800000
1818400000
1112930000
Markers
WS 10/6 MC Middle (Note: *2 Isolation plate complete with marker)
WAD 5 MC SDR (Note: *2 Isolation plate complete with marker)
Screwdriver
SDK PH0
SD 0.6 x 3.5 x 100
SD TO 0.6 x 3.0 (Pictured)
Note
10 * 6 mm
*2 plates required
Note
only screw connection
600
1818400000
1112930000
1
1
1
9008470000
9008330000
1323880000
100
1061210000
* Note: use the supply terminal to add power across specific connection points on the
Termseries relays. A wire connection and cross connection are provided at each point
to simplify design.
14
A1 +
A2 -
G
11
12
Other accessories
only tension clamp connection (angled)
End bracket
WEW35/2 SW
Dimensions
Tension clamp connection
Screw connection
90 mm
G.55
6.4 mm
12.8 mm
12.8 mm
88 mm
88 mm
6.4 mm
90 mm
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Compact
Compact design reduces space requirements
in the switching cabinet by > 80 % compared
to conventional relay solutions.
Status indicator
Cross-connection
TERMOPTO
Maintenance free isolation in terminal block design
TERMOPTO offers a compact, electronic alternative to the electromechanical relay for electrical isolation and signal
conditioning. Instead of an electromechanical solution that is susceptible to wear, a maintenance-free and compact
terminal block with integrated electrical isolation is used. This saves space, reduces the amount of servicing and
increases system availability.
www.weidmuller.com.au
TERMOPTO – solid-state relays
Solid state isolating relay for DC loads
TERMOPTO
• Space-saving 6.1 mm width
• Plug-in cross-connections
• Screw and PUSH IN wire connection
• Enclosed design
• Status indicator: Green LED
Control: Various DC or AC voltages
Load: 5-48V DC /100mA or 500mA
Technical data
5 V DC
A2
13
A1
14
12...220 DC
A2
13
A1
14
24...230 V AC
H
A2
A1
13
14
Load side
Rated switching voltage
Continuous current
Making current
Solid-state type
Voltage drop at max. load
Leakage current
Protective circuit, load side
Short-circuit-proof / Protective circuit, load side
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
mm²
mm
5...48 V DC
100 mA or 500 mA
Transistor
<1V
< 10 µA
Integrated free-wheel diode
No / Integrated free-wheel diode
-20 °C...+60 °C
-40 °C...+80 °C
5–95% rel. humidity, Tu = 40°C, no condensation
CE; cULus; GOSTME25
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
> 3 mm
III
2
Screw connection
2.5 / 0.5 / 4
55 / 6.1 / 74.5
PUSH IN connection
1.5 / 0.5 / 2.5
55 / 6.1 / 79.5
Applications
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H.11
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3RZHUVXSSO\
9'&
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMOPTO – solid-state relays
TERMOPTO
Solid state isolating relay for DC loads
Ordering data
Control side
Rated control voltage
Nominal control current
Input frequency for 100mA
Input frequency for 500mA
Status indicator
Protective circuit
5 V DC
12 V DC
24 V DC
48...60 V DC
110 V DC
5 V DC ±20 %
7.7 mA DC
< 3000 Hz
< 200 Hz
Green LED
Varistor, rev. polarity protection
12 V DC ±20 %
7.8 mA DC
< 3000 Hz
< 200 Hz
Green LED
Varistor, rev. polarity protection
24 V DC ±20 %
7 mA DC
< 3000 Hz
< 200 Hz
Green LED
Varistor, rev. polarity protection
48…60 V DC ±20 %
4.3 mA DC
< 500 Hz
< 200 Hz
Green LED
Varistor, rev. polarity protection
110 V DC ±20 %
2.6 mA DC
< 500 Hz
< 200 Hz
Green LED
Varistor, rev. polarity protection
TOS 5VDC/48VDC 0,1A
8950700000
TOP 5VDC/48VDC 0,1A
8950760000
TOS 5VDC/48VDC 0,5A
8950900000
TOP 5VDC/48VDC 0,5A
8950960000
TOS 12VDC/48VDC 0,1A
8950710000
TOP 12VDC/48VDC 0,1A
8950770000
TOS 12VDC/48VDC 0,5A
8950910000
TOP 12VDC/48VDC 0,5A
8950970000
TOS 24VDC/48VDC 0,1A
8950720000
TOP 24VDC/48VDC 0,1A
8950780000
TOS 24VDC/48VDC 0,5A
8950920000
TOP 24VDC/48VDC 0,5A
8950980000
TOS 48-60VDC/48VDC 0,1A
8950730000
TOP 48-60VDC/48VDC 0,1A
8950790000
TOS 48-60VDC/48VDC 0,5A
8950930000
TOP 48-60VDC/48VDC 0,5A
8950990000
TOS 110VDC/48VDC 0,1A
8950740000
TOP 110VDC/48VDC 0,1A
8950800000
TOS 110VDC/48VDC 0,5A
8950940000
TOP 110VDC/48VDC 0,5A
8951000000
220 V DC
24 V AC
48...60 V AC
120 V AC
230 V AC
220 V DC +10 % / -15 %
1.65 mA DC
< 500 Hz
< 200 Hz
Green LED
Varistor, rev. polarity protection
24 V AC ±20%
7.4 mA AC
< 10 Hz
< 10 Hz
Green LED
Varistor
48…60 V AC ±20 %
4.3 mA AC
< 10 Hz
< 10 Hz
Green LED
Varistor
120 V AC ±20 %
2.9 mA AC
< 10 Hz
< 10 Hz
Green LED
Varistor
230 V AC +10 % / -20 %
1.75 mA AC
< 10 Hz
< 10 Hz
Green LED
Varistor
TOS 220VDC/48VDC 0,1A
8950750000
TOP 220VDC/48VDC 0,1A
8950810000
TOS 220VDC/48VDC 0,5A
8950950000
TOP 220VDC/48VDC 0,5A
8951010000
TOS 24VAC/48VDC 0,1A
8950820000
TOP 24VAC/48VDC 0,1A
8950860000
TOS 24VAC/48VDC 0,5A
8951020000
TOP 24VAC/48VDC 0,5A
8951060000
TOS 48-60VAC/48VDC 0,1A
8950830000
TOP 48-60VAC/48VDC 0,1A
8950870000
TOS 48-60VAC/48VDC 0,5A
8951030000
TOP 48-60VAC/48VDC 0,5A
8951070000
TOS 120VAC/48VDC 0,1A
8950840000
TOP 120VAC/48VDC 0,1A
8950880000
TOS 120VAC/48VDC 0,5A
8951040000
TOP 120VAC/48VDC 0,5A
8951080000
TOS 230VAC/48VDC 0,1A
8950850000
TOP 230VAC/48VDC 0,1A
8950890000
TOS 230VAC/48VDC 0,5A
8951050000
TOP 230VAC/48VDC 0,5A
8951090000
Ordering data
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Note
Ordering data
Control side
Rated control voltage
Nominal control current
Input frequency for 100mA
Input frequency for 500mA
Status indicator
Protective circuit
H
Ordering data
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Note
H.2
TERMOPTO – solid-state relays
Solid state isolating relay for AC loads
TERMOPTO
• Space-saving 6.1 mm width
• Plug-in cross-connections
• Screw and PUSH IN wire connection
• Enclosed design
Control: Various DC or AC voltages
Load: 24-230V AC /100mA
Technical data
5 V DC
A2
13
A1
14
12...220 DC
A2
13
A1
14
24...230 V AC
H
A2
A1
13
14
Load side
Rated switching voltage
Continuous current
Making current
Solid-state type
Voltage drop at max. load
Leakage current
Protective circuit, load side
Short-circuit-proof / Protective circuit, load side
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
mm²
mm
24...230 V AC
100 mA
Triac (zero-cross switch)
< 1.8 V
< 10 µA
Varistor
No / Varistor
-20 °C...+60 °C
-40 °C...+80 °C
5–95% rel. humidity, Tu = 40°C, no condensation
CE; cULus; GOSTME25
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
> 3 mm
III
2
Screw connection
2.5 / 0.5 / 4
55 / 6.1 / 74.5
PUSH IN connection
1.5 / 0.5 / 2.5
55 / 6.1 / 79.5
Applications
The TERMOPTO opto module is used in industrial applications in which
electrical isolation and signal conditioning without switching amplification
is sufficient.
The compact design in terminal-block format saves space on the rail and
offers the option of a pluggable cross connection.
The choice between 10 input voltages and 3 output voltages as well as
between screw or PUSH IN connection technology gives 60 variations for
different applications.
E.g. signal conditioning
230 V AC
PE N L
Power supply
24 V DC
The integrated protective circuit ensures sufficient protection in
applications with resistive as well as slightly inductive and capacitive
loads. For purely inductive, capacitive or comparable loads with high
switch-on and switch-off peaks, such as solenoid valves or filament lamps,
ensure that the module is dimensioned appropriately or an additional
safeguard is used.
H.33
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMOPTO – solid-state relays
TERMOPTO
Solid state isolating relay for AC loads
5 V DC
12 V DC
24 V DC
48...60 V DC
110 V DC
5 V DC ±20 %
7.8 mA DC
< 40 mW
12 V DC ±20 %
3.6 mA DC
< 45 mW
24 V DC ±20 %
3.6 mA DC
≤ 80 mW
48…60 V DC ±20 %
3.7 mA DC
≤ 170 mW
110 V DC ±20 %
3.6 mA DC
≤ 360 mW
≥ 4 V DC
≤ 2 V DC
< 10 Hz
Green LED
Varistor, rev. polarity protection
≥ 9.6 V DC
≤ 4.8 V DC
< 10 Hz
Green LED
Varistor, rev. polarity protection
≥ 19.2 V DC
≤ 9.6 V DC
< 10 Hz
Green LED
Varistor, rev. polarity protection
≥ 38.4 V DC
≤ 19.2 V DC
< 10 Hz
Green LED
Varistor, rev. polarity protection
≥ 88 V DC
≤ 44 V DC
< 10 Hz
Green LED
Varistor, rev. polarity protection
≤ 10 ms
< 12 ms
≤ 10 ms
< 12 ms
≤ 10 ms
< 12 ms
≤ 10 ms
< 12 ms
≤ 10 ms
< 12 ms
Screw connection
TOS 5VDC/230VAC 0,1A
8951100000
TOP 5VDC/230VAC 0,1A
8951160000
TOS 12VDC/230VAC 0,1A
8951110000
TOP 12VDC/230VAC 0,1A
8951170000
TOS 24VDC/230VAC 0,1A
8951120000
TOP 24VDC/230VAC 0,1A
8951180000
TOS 48-60VDC/230VAC 0,1A
8951130000
TOP 48-60VDC/230VAC 0,1A
8951190000
TOS 110VDC/230VAC 0,1A
8951140000
TOP 110VDC/230VAC 0,1A
8951200000
Ordering data
220 V DC
24 V AC
48...60 V AC
120 V AC
230 V AC
220 V DC +10 % / -15 %
2.9 mA DC
≤ 640 mW
24 V AC ±20%
8.8 mA AC
≤ 0.2 VA
48…60 V AC ±20 %
6.4 mA AC
≤ 0.3 VA
120 V AC ±20 %
8.5 mA AC
≤ 1 VA
230 V AC +10 % / -20 %
7.7 mA AC
≤ 1.7 VA
≥ 187 V DC
≤ 88 V DC
< 10 Hz
Green LED
Varistor, rev. polarity protection
≥ 19.2 V AC
≤ 9.6 V AC
< 10 Hz
Green LED
Varistor
≥ 38.4 V AC
≤ 19.2 V AC
< 10 Hz
Green LED
Varistor
≥ 96 V AC
≤ 48 V AC
< 10 Hz
Green LED
Varistor
≥ 184 V AC
≤ 92 V AC
< 10 Hz
Green LED
Varistor
≤ 10 ms
< 12 ms
< 14 ms
< 16 ms
< 14 ms
< 16 ms
< 22 ms
< 18 ms
< 22 ms
< 18 ms
TOS 220VDC/230VAC 0,1A
24 V AC ±20%
8951150000
8.8 mA AC
TOP 220VDC/230VAC
≤ 0.2 VA 0,1A
8951210000
TOS 24VAC/230VAC 0,1A
8951220000
TOP 24VAC/230VAC 0,1A
8951260000
TOS 48-60VAC/230VAC 0,1A
8951230000
TOP 48-60VAC/230VAC 0,1A
8951270000
TOS 120VAC/230VAC 0,1A
8951240000
TOP 120VAC/230VAC 0,1A
8951280000
TOS 230VAC/230VAC 0,1A
8951250000
TOP 230VAC/230VAC 0,1A
8951290000
Ordering data
Control side
Rated control voltage
Nominal control current
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Switch-on delay
Switch-off delay
Ordering data
Type
Order No.
PUSH IN connection
Type
Order No.
Note
Control side
Rated control voltage
Nominal control current
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Switch-on delay
Switch-off delay
H
Ordering data
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Note
≥ 19.2 V AC
≤ 9.6 V AC
< 10 Hz
Green LED
Varistor
< 14 ms
< 16 ms
H.4
TERMOPTO – solid-state relays
Solid state isolating relays for DC loads with AC input
RC filter
TERMOPTO
• Space-saving 6.1 mm width
• Plug-in cross-connections
• Screw and PUSH IN wire connection
• Enclosed design
• RC input circuitry for improved interference immunity
Control: 120V / 230V AC
Load: 5-48V DC / 500mA
Technical data
120 V...230 V AC
A2
13
A1
14
H
Load side
Rated switching voltage
Continuous current
Making current
Solid-state type
Voltage drop at max. load
Leakage current
Protective circuit, load side
Short-circuit-proof / Protective circuit, load side
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
Ordering data
Control side
Rated control voltage
Nominal control current
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Switch-on delay
Switch-off delay
120 V AC
230 V AC
120 V AC ±20 %
6.4 mA AC
≤ 0.61 VA
≥ 102 V AC
≤ 48 V AC
< 10 Hz
Green LED
RC element
230 V AC +10 %/ -15 %
6.4 mA AC
≤ 1.5 VA
≥ 207 V AC
≤ 69 V AC
< 10 Hz
Green LED
RC element
< 12.6 ms
< 20.8 ms
< 12 ms
< 14 ms
TOS 120VAC/48VDC 0.5A RC
1180290000
TOP 120VAC/48VDC 0.5A RC
1188830000
TOS 230VAC/48VDC 0.5A RC
1189270000
TOP 230VAC/48VDC 0.5A RC
1189260000
mm²
mm
5...48 V DC
500 mA
Transistor
<1V
< 10 µA
Diode
No / Diode
-20 °C...+60 °C
-40 °C...+80 °C
5–95% rel. humidity, Tu = 40°C, no condensation
CE; cULus
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
> 3 mm
III
2
Screw connection
2.5 / 0.5 / 4
55 / 6.1 / 74.5
PUSH IN connection
1.5 / 0.5 / 2.5
55 / 6.1 / 79.5
Ordering data
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Note
H.55
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
TERMOPTO – solid-state relays
Solid-state relay, 3…33 V DC / 4 A
Output versions
TERMOPTO
• Space-saving 6.1 mm width
• Plug-in cross-connections
• Screw and PUSH IN wire connection
• Enclosed design
Technical data
24 V DC
A2
A1
13
14
Load side
Rated switching voltage
Continuous current
Making current
Solid-state type
Voltage drop at max. load
Leakage current
Protective circuit, load side
Short-circuit-proof / Protective circuit, load side
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
Ordering data
Control side
Rated control voltage
Nominal control current
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Switch-on delay
Switch-off delay
mm²
mm
3...33 V DC
4A
Transistor
90 mV
< 10 µA
Integrated free-wheel diode
No / Integrated free-wheel diode
-20 °C...+60 °C
-40 °C...+80 °C
5–95% rel. humidity, Tu = 40°C, no condensation
CE; cULus
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
> 3 mm
III
2
Screw connection
2.5 / 0.5 / 4
55 / 6.1 / 74.5
H
PUSH IN connection
1.5 / 0.5 / 2.5
55 / 6.1 / 79.5
24 V DC
24 V DC ±20 %
7 mA DC
≤ 170 mW
≥ 16.8 V DC
≤ 9.6 V DC
≤ 10 Hz
Green LED
Varistor, rev. polarity protection
< 13 µs
< 200 µs
Ordering data
Screw connection
Type
Order No.
PUSH IN connection
Type
Order No.
Note
TOS 24VDC/24VDC 4A
1275100000
TOP 24VDC/24VDC 4A
1254880000
H.6
TERMOPTO ACCESSORIES
Accessories
General data – TERMOPTO
9
TERMOPTO
Handling the PUSH IN connection
✓
✓
YES
H
No. of poles
Order No.
2
3
4
10
20
60
60
60
20
20
1758250000
1762630000
1762620000
1758260000
1909020000
2
3
4
10
20
60
60
60
20
20
1793950000
1793980000
1794010000
1794040000
1909150000
2
3
4
10
20
60
60
60
20
20
1793960000
1793990000
1794020000
1794050000
1909100000
2
3
4
10
20
60
60
60
20
20
1793970000
1794000000
1794030000
1794060000
1909120000
Other accessories
12 x 6 mm
484 labels/sheet
Qty.
Order No.
600
1609900000
10
1686360000
10
9008330000
Technical data
Conductor
Solid H07V-U
Stranded H07V-K
“f” with wire end ferrules to DIN 46228-1
“f” with wire end ferrules with plastic collar
Max. clamping range
Plug gauge to IEC 60947-1
General technical data
Nominal torque
Continuous current for 2-pole cross-connection
Continuous current for multi-pole cross-connection
Stripping length
Ingress protection class
Housing material
UL94 flammability rating
Nominal current
Nominal voltage
mm2
mm2
mm2
mm2
mm2
Size
Nm
A
A
mm
A
V
NO
NO
Screwconnection
0.5…2.5
0.5…2.5
0.5…1.5
0.5…1.5
0.13…2.5
A3
10
10
10
IP 20
Wemid
V-0
6
250
0.6
10
10
9
IP 20
Wemid
V-0
6
250
Dimensions
PUSH IN connection
Screw connection
79.5 mm
6.1 mm
Screwdriver – blade shape
✗
PUSH IN
connection
0.5…1.5
0.5…1.5
0.5…1.5
0.5…1.5
0.13...1.5
A2
55 mm
Type
Markers
WS 12/6
Labels, Lasermark
LM MT 300 15/6 ge
Screwdriver
SD 0.6 x 3.5 x 100
Qty.
✗
55 mm
Type
yellow
ZQV 4N / 2 GE
ZQV 4N / 3 GE
ZQV 4N / 4 GE
ZQV 4N / 10 GE
ZQV 4N / 20 GE
red
ZQV 4N / 2 RT
ZQV 4N / 3 RT
ZQV 4N / 4 RT
ZQV 4N / 10 RT
ZQV 4N / 20 RT
blue
ZQV 4N / 2 BL
ZQV 4N / 3 BL
ZQV 4N / 4 BL
ZQV 4N / 10 BL
ZQV 4N / 20 BL
black
ZQV 4N / 2 SW
ZQV 4N / 3 SW
ZQV 4N / 4 SW
ZQV 4N / 10 SW
ZQV 4N / 20 SW
OPENING PORT
WIRE PORT
74.5 mm
6.1 mm
Plug-in cross-connection
YES
ø 3.5
✓
YES
H.77
✗
NO
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Not sensitive
Protected by suppressor circuit
on input and output circuits.
Alarm function
Clear condition display through status and
error LEDs in the output.
Tough and sturdy
With a short-circuit-proof output.
Auxiliary contact
An auxiliary contact issues alerts
in event of short circuits.
Space-saving
Space-saving 6 mm modular width.
MICROOPTO
Short-circuit-proof switching amplifier for inductive loads
The MICROOPTO family offers the customer high-quality optos and solid-state relays for application-oriented problem
solutions. All products are designed in the space-saving 6 mm terminal size. The new solid-state relay can be
connected in the output circuits of control systems and feedback control modules for selective activation of inductive
loads up to 24 V DC / 10 A, such as solenoid valves, contactors etc. The error controlled output monitors short-circuts
and, if necessary, switched off; a potential-free signalling contact provides feedback to the control system – the
system can be shut down in a controlled manner for error rectification.
www.weidmuller.com.au
MICROOPTO – solid-state relays
For direct connection of actuators
up to 24 V DC, 2 A
8...30 V DC 2 A
The solid-state relay MICROOPTO ACTOR has been
specifically designed as a switching amplifier for
actuators up to 24 V DC and 2 A with inductive loads such
as solenoid valves and contactors. 3-wire actuators can
be connected directly to the module.
MICROOPTO
• Only 6 mm modular width
• Plug-in cross-connection
• PE connection direct to mounting rail
• Status display when error in output
• Fault indication
This is short-circuit proof and protected against
application-related transients and spikes by extensive
protective circuitry.
+24 V DC
• Control: 24V DC
0V
6
A2
MICROOPTO 2 A
Load current [A]
5
• Load: 8 - 30V DC / 2A
3
2
1
Technical data
0
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
I
4
0 10 20 30 40 50 60 70 80 90
Ambient temperature [°C]
24 V DC ±20 %
≤ 170 mW
> 13.8 V
< 13.6 V
125 Hz
Error indication LED red; status LED green
Varistor, rev. polarity protection
Switching frequency 100 Hz
Switching frequency 1 Hz
Example: pneumatic valve
bar
PE
Intelligent POWER MOS-FET
8...30 V DC
2A
≤ 50 mV
< 10 µA
Yes (thermal cut-out) / Varistor, integrated free-wheel diode
Valve
0.1 ms / < 0.5 ms
Switch-on delay / Switch-off delay
Pulse load, max. current
Load category
General data
Alarm contact
Ambient temperature (operational)
Storage temperature
UL 94 flammability rating
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
LC A
-20 °C... °C
-40 °C...+80 °C
V-0
5–95% rel. humidity, Tu = 55°C, no condensation
CE; cULus; GL; GOSTME25
Power
supply
30 V
500 V (1,2/50 µ)
350 Veff / 1 min.
350 Veff / 1 min.
+24 V DC
0V
A2
14
II
2
100 °C
PE
A1
ERROR
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
mm²
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
PE
Ordering data
Screw connection
Type
MOS 24VDC/8-30VDC 2A
TS 35
Qty.
1
Order No.
8937970000
PE
Control
Note
I.11
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
MICROOPTO – solid-state relays
For switching valves up to
24 V DC 10 A
24 V DC / 5-33 V DC 10 A
A2
• Control: 24V DC
13
MICROOPTO 10 A
12
14
A1
MICROOPTO
The MICROOPTO SOLENOID solid-state relay is used
specifically as a switching amplifier for actuators up to
24 V DC and 10 A with inductive loads such as solenoid
valves and contactors.
A potential-free signalling contact transmits errors,
such as short circuits, to the controller.
The MICROOPTO SOLENOID solid-state relay is
short-circuit-proof and protected against power-related
transients and voltage peaks by extensive protective
circuits. The closed housing also offers a high level of
protection against contact.
• Width only 6 mm
• Plug-in cross-connector
• For mounting on TS 35
• Status display and error signaling contact with
an error in the output
• Fault output with indication
• Load: 5 - 33V DC / 10A
24
23
Technical data
8
6
4
2
0
0 10 20 30 40 50 60 70 80 90
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Ambient temperature [°C]
24 V DC ±20 %
400 mW
> 18 V
< 13 V
50 Hz
Error LED red; Status LED green
Varistor, rev. polarity protection
Switching frequency 50 Hz
Switching frequency 1 Hz
e.g. pneumatic valve
bar
POWER MOS-FET
5...33 V DC
10 A
approx. 100 mV
< 1 mA
Resistance / Current sensor, Varistor, integrated free-wheel diode
Valve
Power supply
typical. 250 µs / typical. 700 µs
Switch-on delay / Switch-off delay
Pulse load, max. current
Load category
General data
Alarm contact
Ambient temperature (operational)
Storage temperature
UL 94 flammability rating
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
Load current [A]
10
I
LC A
5...48 V DC / 0.1 A
-25 °C...+60 °C
-40 °C...+60 °C
V-0
40 °C / 93 % rel. humidity, no condensation
CE; cULus; GL; GOSTME25
A2
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
> 3 mm
III
2
mm²
mm
13
A1
14
10 A
ERROR
24
23
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
Suppressor circuitry for inductive loads, 10 cm installation clearance
to inductive switching devices.
Ordering data
Screw connection
Type
MOS 24VDC/5-33VDC 10A
Qty.
1
Order No.
8937940000
Auxiliary contact for
error messages
Control
Note
I.2
MICROOPTO – solid-state relays
For DC loads up to 300 V DC and 1A
12...300 V DC 1 A
7KHVROLGVWDWHUHOD\0,&5223729'&KDVEHHQ
GHYHORSHGDVDVZLWFKLQJDPSOLILHUIRUKLJKLQGXFWLYH
ORDGVXSWR9'&DQG$LQPRWRUEUDNHVDQG
FRQWDFWRUV
MICROOPTO
• Only 6 mm modular width
• Plug-in cross-connection
• Power Boost: 20 A / 20 ms, 5 A / 1 sec
$SRZHUERRVWLQWKHORDGFLUFXLWFRPSHQVDWHVWUDQVLHQW
RYHUORDGV$IRUPV$IRUVVXFKDVPDNLQJ
RUEUHDNLQJVSLNHV$GGLWLRQDOSURWHFWLYHFLUFXLWVFRXQWHU
KLJKHURYHUORDGV
GHUDWLQJFXUYH
/RDGFXUUHQW,>$@
• Control: 24V DC
• Load: 12 - 300V DC / 1A
$PELHQWWHPSHUDWXUH7>ƒ&@
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
I
]%([DPSOHPRWRUEUDNH
24 V DC ±20 %
0.36 W
> 18.8 V
< 14.7 V
50...60 Hz
Green LED
Varistor, rev. polarity protection
POWER MOS-FET
12...300 V DC
1A
≤ 0.4 V
< 1 µA
No / Varistor, integrated free-wheel diode
< 18 µs / < 1 ms
27 A (10 ms)
LC A
Switch-on delay / Switch-off delay
Pulse load, max. current
Load category
General data
Alarm contact
Ambient temperature (operational)
Storage temperature
UL 94 flammability rating
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
3RZHUVXSSO\
-20 °C... °C
-40 °C...+80 °C
V-0
5–95% rel. humidity, Tu = 55°C, no condensation
CE; cULus; GL; GOSTME25
300 V
2.5 kV (1.2/50 µs)
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
> 3 mm
II
2
Dimensions
Clamping range (nominal / min. / max.)
mm²
Depth x width x height
mm
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
Note
Ordering data
Screw connection
Type
MOS 24VDC/12-300VDC 1A
Qty.
1
Order No.
8937830000
&RQWURO
Note
I.33
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
For electronically switching or inverting signals
• Function: Signal inversion
• Control: 24V DC
• Load: 5 - 48V DC / 500mA
• Protection: Yes
24 V DC / 5-48 V DC 0.5 A
12...28 V DC 100 kHz
(OHFWURQLF&2FRQWDFWVDUHXVHGDQ\ZKHUHRXWSXWVLJQDOV
QHHGWREHFKDQJHGRYHU
A special interior circuit in the opto module
MICROOPTO 100 kHz ensures that rapidly transmitted
signals are isolated from one another and that they can
be transferred practically without delay. This allows
switching frequencies up to 100 kHz to be achieved.
Comprehensive suppressor circuits safeguard the module
against conducted transients and voltage spikes.
)RUWKLVSXUSRVHWKHLQSXWVLJQDOLVGLUHFWO\VZLWFKHG
WKURXJKWRWKHRXWSXWVLGHDQGLQYHUWHGDVDUHVXOWWKH
RSWRPRGXOHFDQDOVREHXVHGDVDSXUHLQYHUWHU
For high switching frequency up to 100kHz
7KHDGYDQWDJHRYHUHOHFWURPHFKDQLFDOUHOD\VOLHVLQWKH
ZHDUIUHHVZLWFKLQJDQGWKHSRVVLELOLW\RIUHDOLVLQJKLJK
VZLWFKLQJIUHTXHQFLHV
• Function: 100kHz switching
• Control: 12 - 28V DC
• Load: 24V / 50mA
• Protection: Yes
MICROOPTO
MICROOPTO – solid-state relays
Max. switching frequency is dependent
on the duty cycle deviation
Max. switching frequency [kHz]
MOS 12-28 V DC 100 kHz (switching current+2450
V DCmA, ohmic load)
Technical data
600
500
400
300
200
100
0
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
24HJ,QYHUWHU
V DC ±20 %
160 mW
> 18.8 V
Switch-on delay / Switch-off delay
Pulse load, max. current
Load category
General data
Alarm contact
Ambient temperature (operational)
Storage temperature
UL 94 flammability rating
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Clamping range (nominal / min. / max.)
mm²
Depth x width x height
mm
0
2
4
6
8
10 12 14 16 18 20
1 kHz
Green status LED
Varistor, rev. polarity protection
12 V DC...28 V DC
Duty-cycle deviation [%]
≤ 280 mW
> 5.6 V
For example rotational speed measurement
≤ 15 V DC
100 kHz
Green LED
Varistor, rev. polarity protection
Transistor
5...48 V DC
500 mA
Max. 1 V
< 1.5 mA
No / Integrated free-wheel diode
Transistor Sensor
19.6...28.8 V
max. 50 mA
≤2V
< 1 µA
No / Varistor, rev. polarity protection
< 30 µs3RZHUVXSSO\
/ < 50 µs
< 200 ns / < 400 ns
0.6 A (20 ms)
LC A
LC A
Dimensions
0V
9'&
I
-25 °C...+60 °C
-40 °C...+60 °C
V-0
40 °C / 93 % rel. humidity, no condensation
CE; cULus; GL; GOSTME25
-20 °C...+60 °C
-40 °C...+80 °C
Power supply
V-0
5–95% rel. humidity, Tu = 55°C, no condensation
CE; cULus; GL; GOSTME25
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
> 3 mm
III
2
30 V
500 V (1,2/50 µ)
350 Veff / 1 min.
350 Veff / 1 min.
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
+24 V DC
II
2
0V
Note
Ordering data
Screw connection
Type
MOS 24VDC/5-48VDC 0,5A
&RQWURO Qty.
RQ
RII
1
Order No.
8937980000
Type
MOS 12-28VDC 100kHz
Control
Qty.
1
Order No.
8937990000
Note
I.4
MICROOPTO – solid-state relays
For adjusting TTL signals
5 V TTL / 24 V DC 0.1 A
12-28 V DC / 5 V TTL
MICROOPTO
To adjust sensitive TTL signals to the typical voltage level
of 24 V DC used in industrial automation applications,
the MICROOPTO TTL modules are used.
For the protection of the electronics, the sensitive
TTL signals require electrical isolation from the
24 V world.
To control the optical coupler circuit via the 5 V TTL
signal, an additional auxiliary voltage is fed in.
Function: Conversion of TTL signals
0V
• Control: 5V TTL / 12 - 28V DC
TTL
+5 V
A2
+24 V DC
OUT
A1
14
5 VTTL
• Load: 24V TTL / 100mA
• Load: 5V TTL / 50mA
+5 V DC
0V
0V
Technical data
Control side
Rated
e.g.control
printervoltage
interface
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
TTL
Load side
Solid-state type
Rated switching voltage
Continuous current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
I
+24 V DC
V
Switch-on delay / 0Switch-off
delay
Pulse load, max. current
14
Load category TTL
General data
Alarm contact
0V
+5 V DC
Ambient temperature (operational)
Storage temperature
UL 94 flammabilityTTL
rating
24 V DC
Humidity
Approvals
Insulation coordination (EN 50178)
Rated voltage
Impulse withstand voltage
Dielectric strength for control side - load side
Dielectric strength to mounting rail
Clearance and creepage distances for control side - load side
Surge voltage category
A2
+5 V DC
Pollution severity
12 V DC...28 V DC
150 mW
> 10.7 V
< 10.6 V
100 kHz
Green status LED
Varistor, rev. polarity protection
TTL
24 VDC ±20%
100 mA
<1V
< 20 µA
No / Integrated free-wheel diode
TTL
5 V TTL
max. 50 mA
90 mV
< 1 µA
No / Varistor
< 1.3 µ / < 1 µs
typical. < 1 µs / typical. < 4 µs
LC A
LC A
-25 °C...+60 °C
-40 °C...+60 °C
V-0
40 °C / 93 % rel. humidity, no condensation
CE; cULus; GOSTME25
-25 °C...+60 °C
-40 °C...+60 °C
V-0
40 °C / 93 % rel. humidity, no condensation
CE; cULus; GOSTME25
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
> 3 mm
III
2
300 V
4 kV (1.2/50 µs)
1.2 kVeff / 1 min.
1.2 kVeff / 1 min.
> 3 mm
III
2
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
Screw connection
2.5 / 0.5 / 4
98 / 6.1 / 88
SVTTL
A1
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
12 - 28 V DC
5 V TTL
< 0.5 mW
approx. 2 V
ca. 1 V
100 kHz
Green status LED
Varistor, rev. polarity protection
0V
mm²
mm
TTL
Ordering data
Screw connection
Type
MOS 5VTTL/24VDC 0,1A
Qty.
1
Order No.
8937920000
Type
MOS 12-28VDC/5VTTL
Qty.
1
Order No.
8937930000
Control
Note
I.55
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
MICROOPTO ACCESSORIES
General data – MICROOPTO
MICROOPTO
Accessories
Qty.
Order No.
2
3
4
10
20
60
60
60
20
20
1758250000
1762630000
1762620000
1758260000
1909020000
2
3
4
10
20
60
60
60
20
20
1793950000
1793980000
1794010000
1794040000
1909150000
2
3
4
10
20
60
60
60
20
20
1793960000
1793990000
1794020000
1794050000
1909100000
2
3
4
10
20
60
60
60
20
20
1793970000
1794000000
1794030000
1794060000
1909120000
Type
Qty.
Supply terminals
MOS SUPPLY
1
MOS FEED THROUGH
1
Markers
WS 12/6
12 x 6 mm
600
Labels, Lasermark
LM MT 300 15/6 ge
484 labels / sheet
10
Screwdriver
SD 0.6 x 3.5 x 100
10
Cross-connector for plugging into the clamping point
QB 75/6.2/15
10
Coloured insulating profile for QB
ISPF QB75 black
10
ISPF QB75 blue
10
ISPF QB75 red
10
End bracket
WEW 35/2
100
Order No.
8973460000
8973450000
Technical data
Conductor
Solid H07V-U
Stranded H07V-K
“f” with wire end ferrules to DIN 46228-1
“f” with wire end ferrules with plastic collar
Max. clamping range
Plug gauge to IEC 60947-1
General technical data
Nominal torque
Continuous current for 2-pole cross-connection
Continuous current for multi-pole cross-connection
Stripping length
Ingress protection class
Housing material
UL 94 flammability rating
Nominal current
Nominal voltage
Screwconnection
0.5 … 4.0
0.5 … 2.5
0.5 … 1.5
0.5 … 1.5
0.13 … 4.0
A3
mm2
mm2
mm2
mm2
mm2
Size
Nm
A
A
mm
0.6
10
10
7
IP 20
Wemid
V-0
6
250
A
V
I
Drawings: Supply terminals
Dimensions
8973460000
MOS SUPPLY
Screw connection
3
4
88
1609900000
1686360000
2
5
1
6
9008330000
0535200000
0526700000
0526780000
0526760000
90
Other accessories
No. of poles
97.8
Type
yellow
ZQV 4N / 2 GE
ZQV 4N / 3 GE
ZQV 4N / 4 GE
ZQV 4N / 10 GE
ZQV 4N / 20 GE
red
ZQV 4N / 2 RT
ZQV 4N / 3 RT
ZQV 4N / 4 RT
ZQV 4N / 10 RT
ZQV 4N / 20 RT
blue
ZQV 4N / 2 BL
ZQV 4N / 3 BL
ZQV 4N / 4 BL
ZQV 4N / 10 BL
ZQV 4N / 20 BL
black
ZQV 4N / 2 SW
ZQV 4N / 3 SW
ZQV 4N / 4 SW
ZQV 4N / 10 SW
ZQV 4N / 20 SW
8973450000
MOS FEED THROUGH
3
1061210000
2
4
5
6.1
Plug-in cross-connection
1
6
I.6
Power solid-state relays – Overview
PSSR
Power solid state relays
Switch high AC loads up to 75 A completely wear-free and noiseless.
Your applications require switching capacities that conventional relays
cannot handle? Our power solid state relays have an unrestricted
service life – even in extreme environments. Let’s connect.
Due to their high shock and vibration resistance, the large switching
current and the option of simple fusing, our power solid state
relays outperform by far any electromagnetic relays,
especially in the process industry.
The compact modules have low power drive
requirements, fast response times and operate
odourless. The optional 1PH-Control-Unit
allows the current monitoring of up to five
parallel connected loads.
Our new power solid state relays are ideally
suited for a multitude of diverse tasks:
switching pipe trace heating, phase controls
for motors and infrared heating, and permanent
current monitoring.
J
High current load integral
The high current load integral I²t of 6,000 A²s
allows affordable conductor protection using
standard circuit breakers for variants with 35 A
load current.
J.77
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Power solid-state relays – Overview
PSSR
Simple current monitoring
The optional, plug-on monitoring module
warns when current drops by 16 % or more.
Short-circuit, line-break and defective loads are
detected.
Simple current control
The 70 A phase control with analog input (4 –
20 mA) allows you to set up heating controls or
the power control of single-phase motors.
J
High output current
Ideal for controlling pipe trace heating due to
the high output current of 50 or 75 A.
The compact design allows directing mounting
at application site.
J.8
Power solid state relays
PSSR - 1-phase
PSSR 24 V DC / 1 PH AC 25 A
PSSR
• Single-phase load circuit: 12–275 V AC / 25 A
• Ready-to-use: simply clip on and connect
• Zero-cross switch
• Noiseless, wear-free switching
• Attachable monitoring module
1/L1
A1
Zero
Cross
A2
2/T1
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination (EN 50178)
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Depth x width x height
Note
3XOVHORDG$
Note
J.11
3XOVHFXUUHQWIRUGLPHQVLRQLQJWKH
EDFNXSIXVHQRQUHFXUULQJ
Triac (zero-cross switch)
12...275 V AC
20 A (AC 51) @ 40 °C, 3.5 A (AC 53)
5 mA
25 A
0.85 V
< 1 mA
No / Varistor
≤ 10 ms / ≤ 10 ms
50 / 60 Hz
140 A (10 ms)
AC 51, AC 53
340 A²s
0DNLQJFXUUHQW
3XOVHGXUDWLRQV
/RZYHQWLODWLRQ
-55 °C...+100 °C
-55 °C...+125 °C
40...85 % (indoor) no condensation
CE
EN 60947-4-3, EN 60950, IEC 60335-1
4 kV (1.2/50 µs)
≥ 8 mm
III
2
mm²
mm²
mm
'HUDWLQJFXUYH
PLC
$PELHQWWHPSHUDWXUH>ƒ&@
CONTROLLER
1.5 / 0.13 / 3.3
10 / 1.5 / 10
110 / 22.5 / 93
PSSR
Ordering data
Screw connection
2YHUORDGFXUUHQWFXUYH
6ZLWFKLQJFXUUHQW>$@
J
3.5…32 V DC
≤ 280 mW
≥ 3 V DC
≤ 2 V DC
max. 10 Hz
LED yellow
Suppressor diode
Type
PSSR 24VDC/1PH AC 25A
Qty.
1
Order No.
1406200000
A
N
HEATER
A heatshrink is required for correct operation otherwise damage to
device will occur.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Power solid state relays
PSSR - 1-phase
PSSR 230 V AC / 1 PH AC 25 A
PSSR
• Single-phase load circuit: 12–275 V AC / 25 A
• Ready-to-use: simply clip on and connect
• Zero-cross switch
• Noiseless, wear-free switching
• Attachable monitoring module
A1
A2
1/L1
Zero
Cross
2/T1
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination (EN 50178)
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Depth x width x height
Note
160...240 V AC/DC
≤ 1.38 VA
≥ 160 V AC, ≥ 160 V DC
≤ 5 V AC, ≤ 5 V DC
max. 10 Hz
LED yellow
Rectifier
3XOVHORDG$
Note
3XOVHFXUUHQWIRUGLPHQVLRQLQJWKH
EDFNXSIXVHQRQUHFXUULQJ
Triac (zero-cross switch)
12...275 V AC
20 A (AC 51) @ 40 °C, 3.5 A (AC 53)
5 mA
25 A
0.85 V
< 1 mA
No / Varistor
≤ 30 ms / ≤ 30 ms
50 / 60 Hz
140 A (10 ms)
AC 51, AC 53
340 A²s
0DNLQJFXUUHQW
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6ZLWFKLQJFXUUHQW>$@
/RZYHQWLODWLRQ
J
-55 °C...+100 °C
-55 °C...+125 °C
40...85 % (indoor) no condensation
CE
EN 60947-4-3, EN 60950, IEC 60335-1
4 kV (1.2/50 µs)
≥ 8 mm
III
2
mm²
mm²
mm
'HUDWLQJFXUYH
PLC
$PELHQWWHPSHUDWXUH>ƒ&@
CONTROLLER
1.5 / 0.13 / 3.3
10 / 1.5 / 10
110 / 22.5 / 93
PSSR
Ordering data
Screw connection
2YHUORDGFXUUHQWFXUYH
Type
PSSR 230VAC/1PH AC 25A
Qty.
1
Order No.
1406220000
A
N
HEATER
A heatshrink is required for correct operation otherwise damage to
device will occur.
J.2
Power solid state relays
PSSR - 1-phase
PSSR 24 V DC / 1 PH AC 35 A
PSSR
• Single-phase load circuit: 24–600 V AC / 35 A
• Ready-to-use: simply clip on and connect
• Zero-cross switch
• Noiseless, wear-free switching
• Attachable monitoring module
• High capacity for handling surge currents I²t =
6000 A²s (10 ms)
• Fusing with B circuit breaker possible
1/L1
A1
Zero
Cross
A2
2/T1
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination (EN 50178)
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Depth x width x height
Note
2YHUORDGFXUUHQWFXUYH
3XOVHORDG$
Thyristor (no-voltage switch)
24…600 V AC
24 A (AC 51) @ 40°C, 7 A (AC 53)
5 mA
50 A
<1V
< 1 mA
No / Varistor
≤ 10 ms / ≤ 10 ms
50 / 60 Hz
600 A (10 ms)
AC 51, AC 53
6000 A²s
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/RZYHQWLODWLRQ
$PELHQWWHPSHUDWXUH>ƒ&@
4 kV (1.2/50 µs)
≥ 8 mm
III
2
PLC
CONTROLLER
1.5 / 0.13 / 3.3
10 / 1.5 / 10
110 / 22.5 / 93
PSSR
Ordering data
Screw connection
'HUDWLQJFXUYH
-55 °C...+100 °C
-55 °C...+125 °C
40...85 % (indoor) no condensation
CE
EN 60947-4-3, EN 60950, IEC 60335-1
mm²
mm²
mm
3XOVHGXUDWLRQV
6ZLWFKLQJFXUUHQW>$@
J
3.5…32 V DC
≤ 280 mW
≥ 3 V DC
≤ 2 V DC
max. 10 Hz
LED yellow
Suppressor diode
Type
PSSR 24VDC/1PH AC 35A
Qty.
1
Order No.
1406210000
A
N
HEATER
Note
J.33
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Power solid state relays
PSSR control unit
PSSR 1 PH CONTROL UNIT
PSSR
• Monitoring of up to 5 consumers connected
in parallel
• Can be attached to the single-phase PSSRs
• Error message feedback output
• Undercurrent switching threshold: 0.84 x teach
• Teach button on the module and external
teach input
control output for PSSR
1
power supply
input control
diagnostic ouput
external teach input
LED red
2
3
4
5
D G
S
internal
logic
LED yellow
LED green
teach button
Technical data
Control side
Rated control voltage
Nominal control current
Dropout voltage
Rated control voltage (external teach input)
Nominal control current (external teach input)
Supply
Supply voltage
Current consumption
Feedback output
Solid-state type
Nominal switching voltage
Continuous current
Undercurrent switching threshold
Current measurement range AC, min.
Current measurement range AC, max.
Switch-on delay
Switch-off delay
Control output for PSSR
Rated switching voltage
Solid-state type
Switch-on delay
Switch-off delay
General data
Ambient temperature (operational)
Storage temperature
Humidity
Current sensor hole diameter
Approvals
Standards
Insulation coordination (EN 50178)
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (nominal / min. / max.)
Depth x width x height
Note
4…30 V DC
≤ 2.5 mA
≤ 2 V DC
4…30 V DC
≤ 2.5 mA
8...30 V DC
< 20 mA
MOS-FET
8...30 V DC
0.1 A
0,84 x Iteach
2A
40 A
≤ 100 ms
≤ 100 ms
8...30 V DC
Transistor
≤ 15 ms
≤ 16 ms
J
-40 °C...+80 °C
-40 °C...+125 °C
40...85 % (indoor) no condensation
9 mm
CE
EN 60947-4-3, EN 60950
4 kV (1.2/50 µs)
≥ 8 mm
III
2
mm²
mm
1.5 / 0.15 / 2.5
43 / 25 / 112
Ordering data
Screw connection
Type
PSSR 1PH CONTROL UNIT
Qty.
1
Order No.
1406230000
Note
J.4
Power solid state relays
PSSR - 1-phase
PSSR 24 V DC / 1 PH AC 50 A HP
PSSR
• Single-phase load circuit: 24–600 VAC / 50 A
• Compact design
• Zero-cross switch
• Noiseless, wear-free switching
1/L1
A1
Zero
Cross
A2
2/T1
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination (EN 50178)
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
J
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Length x width x height
Note
3XOVHORDG>$@
3.5…32 V DC
≤ 280 mW
≥ 3 V DC
≤ 2 V DC
max. 10 Hz
Green LED
Suppressor diode
2YHUORDGFXUUHQWFXUYH
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EDFNXSIXVHQRQUHFXUULQJ
0DNLQJFXUUHQW
Thyristor (no-voltage switch)
24…600 V AC
50 A (AC 51)
5 mA
60 A
<1V
< 1 mA
No / No
≤ 10 ms / ≤ 10 ms
50 / 60 Hz
400 A (10 ms)
AC 51
2450 A²s
PLC
3XOVHGXUDWLRQ>V@
CONTROLLER
PSSR
-55 °C...+100 °C
-55 °C...+125 °C
40...85 % (indoor) no condensation
CE
EN 60947-4-3, EN 60950, IEC 60335-1
A
N
HEATER
4 kV (1.2/50 µs)
≥ 8 mm
III
2
mm²
mm²
mm
1.5 / 0.75 / 2.5
10 / 1.5 / 10
58.5 / 45 / 29
Ordering data
Screw connection
Note
J.55
Type
PSSR 24VDC/1PH AC50A HP
Qty.
2
Order No.
1406240000
A heatshrink is required for correct operation otherwise damage to
device will occur.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Power solid state relays
PSSR - 1-phase
PSSR 24 V DC / 1 PH AC 75 A HP
PSSR
• Single-phase load circuit: 24–600 VAC / 75 A
• Compact design
• Zero-cross switch
• Noiseless, wear-free switching
• High capacity for handling surge currents I²t =
6000 A²s (10 ms)
• Fusing with B circuit breaker possible
1/L1
A1
Zero
Cross
A2
2/T1
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination (EN 50178)
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Length x width x height
Note
3.5…32 V DC
≤ 280 mW
≥ 3 V DC
≤ 2 V DC
max. 10 Hz
Green LED
Suppressor diode
2YHUORDGFXUUHQWFXUYH
3XOVHORDG>$@
Thyristor (no-voltage switch)
24…600 V AC
75 A (AC 51)
5 mA
90 A
<1V
< 1 mA
No / No
≤ 10 ms / ≤ 10 ms
50 / 60 Hz
600 A (10 ms)
AC 51
6000 A²s
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EDFNXSIXVHQRQUHFXUULQJ
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PLC
CONTROLLER
J
PSSR
-55 °C...+100 °C
-55 °C...+125 °C
40...85 % (indoor) no condensation
CE
EN 60947-4-3, EN 60950, IEC 60335-1
A
N
HEATER
4 kV (1.2/50 µs)
≥ 8 mm
III
2
mm²
mm²
mm
1.5 / 0.75 / 2.5
10 / 1.5 / 10
58.5 / 45 / 29
Ordering data
Screw connection
Note
Type
PSSR 24VDC/1PH AC75A HP
Qty.
2
Order No.
1406250000
A heatshrink is required for correct operation otherwise damage to
device will occur.
J.6
Power solid state relays
PSSR - 1-phase
PSSR 4-20 MA / 1 PH AC 70 A PC
PSSR
• Single-phase load circuit: 200–460 VAC / 70 A
• 4–20 mA control input
• Manual phase angle adjustment
• Noiseless, wear-free switching
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/RDG
Technical data
Control side
Nominal control current
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit, load side
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
J
4…20 mA ±15 %
3XOVHORDG>$@
Triac
200…460 V AC
70 A
10 mA
2YHUORDGFXUUHQWFXUYH
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EDFNXSIXVHQRQUHFXUULQJ
≤ 1.6 V
< 5 mA
No / RC combination with varistor
≤ 10 ms / ≤ 50 ms
47–100 Hz (manual phase angle adjustment necessary)
870 A (10 ms)
AC 51
5000 A²s
-40 °C...+85 °C
-40 °C...+85 °C
40...85 % (indoor) no condensation
CE
EN 60947-4-3, EN 60950
0DNLQJFXUUHQW
PLC
3XOVHGXUDWLRQ>V@
CONTROLLER
4.20mA
PSSR
4 kV (1.2/50 µs)
≥ 8 mm
III
2
LOAD
Controlled load
Dimensions
Conductor connection (control side)
Conductor connection (load side)
Length x width x height
Note
mm
M3 ring cable lug (insulated)
M5 ring cable lug (insulated)
73.5 / 100 / 39.5
Ordering data
Screw connection
Type
PSSR 20MA/1PH AC70A PC
Qty.
1
Order No.
1406270000
Note
J.77
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Power solid-state relays
PSSR - 3-phase
PSSR 24 V DC / 3 PH AC 20 A
PSSR
• Three-phase load circuit 24...520 V AC / 20 A
at 55 °C
• Ready-to-use: snap on - connect - ready
• Zero-cross switch
• Wear-free and noiseless switching
1L1
3L2
5L3
2T1
4T2
6T3
Zero Cross
A2
A2
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current / Cartridge fuse
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination
Rated voltage
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Depth x width x height
Note
8...30 V DC / 10...30 V AC
0.1...2 W
8 V DC / 10 V AC
4V
max. 10 Hz
Green LED
RC element, Varistor
Derating curve with moderate ventilation and 50 % operational running time
Switching current (A)
25
Triac (zero-cross switch)
24…520 V AC
20 A
5 mA
20
15
10
5
0
1.4 V
< 1 mA
No / RC element, Varistor
30 ms / 30 ms
50 / 60 Hz
300 A (10 ms / FERRAZ gRC 63 A 22x58 1353 A2s
AC 53: 3 x 12 A
1500 A²s
0
10
20
30
40
50
60
Ambient temperature (°C)
70
80
Derating curve without ventilation and in continual operation
Switching current (A)
25
-40 °C...+80 °C
-40 °C...+100 °C
40...85 % (indoor) no condensation
cURus; GOSTME25
DIN EN 60950, IEC 60947-4-3
20
15
J
10
5
0
0
10
20
30
40
50
60
Ambient temperature (°C)
70
80
300 V
4 kV
≥ 6.4 mm
III
2
mm²
mm²
mm
1.5 / 0.75 / 2.5
10 / 10 / 1.5
126.2 / 89.6 / 98
Ordering data
Type
PSSR 24VDC/3PH AC 20A
Qty.
1
Order No.
8952130000
Note
J.8
Power solid state relays
PSSR - 3-phase
PSSR 230 V AC / 3 PH AC 20 A
PSSR
• Three-phase load circuit 24...520 V AC / 20 A
at 55 °C
• Ready-to-use: snap on - connect - ready
• Zero-cross switch
• Wear-free and noiseless switching
1L1
3L2
5L3
2T1
4T2
6T3
Zero Cross
A2
A2
Technical data
Control side
Rated control voltage
Power rating
Cut-in (switch-on) voltage
Dropout voltage
Input frequency
Status indicator
Protective circuit
Load side
Solid-state type
Rated switching voltage
Continuous current
Min. switching current
Max. switching current
Voltage drop at max. load
Leakage current
Short-circuit-proof / Protective circuit
Switch-on delay / Switch-off delay
Output voltage frequency range
Pulse load, max. current / Cartridge fuse
Load category
Load limit integral (I²t) <10 ms
General data
Ambient temperature (operational)
Storage temperature
Humidity
Approvals
Standards
Insulation coordination
Rated voltage
Impulse withstand voltage
Clearance and creepage distances for control side - load side
Surge voltage category
Pollution severity
Dimensions
Clamping range (rated / min. / max.) control side
Clamping range (rated / min. / max.) load side
Depth x width x height
Note
6ZLWFKLQJFXUUHQW$
'HUDWLQJFXUYHZLWKPD[LPXPYHQWLODWLRQ
Triac (zero-cross switch)
24…520 V AC
20 A
5 mA
6ZLWFKLQJFXUUHQW$
1.4 V
< 1 mA
No / RC element, Varistor
30 ms / 30 ms
50 / 60 Hz
300 A (10 ms / FERRAZ gRC 63 A 22x58 1353 A2s
AC 53: 3 x 12 A
1500 A²s
-40 °C...+80 °C
-40 °C...+100 °C
40...85 % (indoor) no condensation
cURus; GOSTME25
DIN EN 60950, IEC 60947-4-3
300 V
4 kV
≥ 6.4 mm
III
2
mm²
mm²
mm
$PELHQWWHPSHUDWXUHƒ&
'HUDWLQJFXUYHZLWKPRGHUDWHYHQWLODWLRQDQGRSHUDWLRQDO
UXQQLQJWLPH
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'HUDWLQJFXUYHZLWKRXWYHQWLODWLRQDQGLQFRQWLQXDORSHUDWLRQ
6ZLWFKLQJFXUUHQW$
J
90...240 V AC / DC
0.4...2.6 W
90 V AC/DC
15 V
max. 10 Hz
Green LED
RC element, Varistor
1.5 / 0.75 / 2.5
10 / 1.5 / 10
126.2 / 89.6 / 98
$PELHQWWHPSHUDWXUHƒ&
Ordering data
Type
PSSR 230VAC/3PH AC 20A
Qty.
1
Order No.
8952140000
Note
J.99
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
POWER SOLID-STATE RELAYS – ACCESSORIES
Power loss and selection of heat sink
90
85
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
5
0
0,9 K/W
0,75 K/W
PSSR
Power loss
Order No. 1406240000
0,55 K/W
0,3 K/W
1,2 K/W
Continuous current
2,1 KW
3 K/W
6 K/W
50 % operating time
0
5
10
15 20
25
30
35
40
45
50 55
60
0
5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100
Ambient temperature [°C]
Load current [A]
Power loss
Order No. 1406250000
105
100
95
90
85
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
5
0
0,75 K/W
0,9 K/W
0,55 K/W
0,3 K/W
1,2 K/W
Continuous current
2,1 KW
3 K/W
50 % operating time
0
5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80
6 K/W
0
5
J
10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100
Ambient temperature [°C]
Load current [A]
Power loss
Order No. 1406270000
140
130
0,55 K/W
120
0,3 K/W
0,75 K/W
110
Continuous current
100
0,9 K/W
90
1,2 K/W
80
70
60
2,1 KW
50
40
3 K/W
50 % operating time
30
6 K/W
20
10
0
0
10
20
30
40
50
60
70
80
90
100 110
Load current [A]
0
5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100
Ambient temperature [°C]
J.10
POWER SOLID-STATE RELAYS – ACCESSORIES
Dimensioned drawing for PSSR, single-phase
22.5
45 max
16.3
3
82.7
Ø 4.7
4.4
LINE
INPUT
230 V 50 Hz
LED
47.6
4/A2
2/T1
40 A
PHASE ANGLE
CONTROLLER
LOAD
0V
3/A1
91
7
A2/–
A1/+
+5 V
EXT.
1/L1
2/T1
POTENT.
7.5
fixation
47.6
58.5 max
43.2
0-5 V
1/L1
40
70
66
73.5
28
M5
73.5
PSSR
27.5
40
39.5
91
25.4
2M5
M4
100
5.2
Dimensioned drawing for PSSR, three-phase
59.4
+4.3
0
87.4
+4.3
0
98
122.2
126
89.8
Ø4.5
12.7
Ø5.4
Uninsulated screwdriver
Weidmüller SoftFinish screwdriver for general uses.
Blade made from fully hardened, high-alloy chromium-vanadium-molybdenum steel,
matt chrome finish.
J
Type
Size / AF
A
B
C
Order No.
0.5
3.0
80
9008320000
100
9008540000
SD S
Slotted screwdriver with rounded blade SD DIN 5265, ISO 2380/2,
output to DIN 5264, ISO 2380/1. ChromTop tip, SoftFinish® grip
SD 0.5x3.0x80
SDK PZ
Crosshead screwdriver, Pozidriv, SDK PZ DIN 5262, ISO 8764/2-PZ,
ouput to ISO 8764/1-PZ, ChromTop tip, SoftFinish® grip
J.11
11
SDK PZ2
2
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Specialty solid state relays
Weidmüller design and manufacture relays to meet your application needs.
Weidmüller Australia manufactures specialist electronic products specifically for local customers to
meet industry needs. This ranges from a resistor in a terminal, to more advanced signal conditioning or
isolation for digital or analogue signals. Below are some of our popular solid state relay products.
For Mechanical relays, please see section D. Please ask if your required unit is not listed.
MC50 10A Solenoid Driver
Suitable for switching 24V DC solenoids to 10A with protection circuitry slim 6mm housing.
MC50 200V/1A Driver
Designed for switching DC loads to 200V/1A in a 6mm compact housing. Suits TS32/35
Din rail.
MC50 Dual voltage
Signal isolating solid state relay. Dual control voltages per unit with output drive of 250mA/60V
MC50 - solenoid driver 10A
MC50 - solenoid driver 10A
MC50
• 10A @ 5-34V DC inductive switch
• High Side High Current Power Switch
• Ultra compact 6mm wide ‘Combifoot’ housing suits TS32 & TS35
• 4000Vrms isolation
• LED relay state indication
• Reverse polarity diode protection
• Input diode protection
• Bark EMF protected
Installation
Technical data
Power
Supply
MC5O
Input
Output
5-34VDC
out
24V
+
_
V+
Load
0V
0V
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Location
To be installed in a metal enclosure.
Input
Input Voltage Range
Operating Current
Output
Type
Output Resistance (on state)
Nominal Switching Voltage
Maximum Continuous Current
Use with Fuse/Circuit Breaker (recommended)
Operate time (at nom. voltage)
Release time (at nom. voltage)
Max. operating speed (50% mark space ratio)
Isolation
Surge Strength
General
Terminal width
Width across rail
Height on rail
TS32
TS35 x 7.5
TS35 x 15
Operating temperature range
Conductor size
Solid
Flexible
EMC / LVD
10.5 to 28V DC
5.0mA @ 24V DC
High Side MOSFET Switch
Less than 10mΩ
5 to 34V DC
10A inductive
15A (65V) Slow Blow, breaking capacity 150A min
1ms approx.
1ms approx.
100Hz (6000 operations per minute)
4000V
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
EN50081-1, EN50082-1 / EN61010-1
Circuit Diagram
Output
out
K
Input
24V
V+
0V
0V
Note
It is recommended that a diode be fitted across output when
correcting inductive loads
Ordering data
Ordering Information
Solenoid Driver 5-34 V, 10A
Accessories
End Plate
AP
End Brackets
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Uninsulated
75 pole straight
75 pole angled
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
Note
K.11
Order No.
7901690001
7940005681
0383560000
0206160000
0482700000
0482800000
0482900000
0535200000
0526400000
0122800000
0383400000
0236400000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
MC50 - solenoid driver 1A up to 200V DC
MC50 - SOLENOID DRIVER 1A up to 200V DC
Installation
General
Warning: to be installed/maintained by qualified personnel as per
instructions, or module safety may be compromised.
Designed for IEC664 Installation Category II use.
Cleaning
Wipe only with a damp cloth (remove power before cleaning).
Location
To be installed in a metal enclosure.
MC50
• 1A @ 5-200V DC resistive & inductive switch
• High Voltage DC Switch
• Ultra compact 6mm wide ‘Combifoot’ housing suits TS32 & TS35
• 2500V isolation
• LED relay state indication
• Input diode protection
Technical data
Input
Input Voltage Range
Operating Current
Output
Type
Output Resistance (on state)
Nominal Switching Voltage
Maximum Continuous Current
Operate time (at nom. voltage)
Release time (at nom. voltage)
Max. operating speed (50% mark space ratio)
Isolation
Surge Strength
General
Terminal width
Width across rail
Height on rail
TS32
TS35 x 7.5
TS35 x 15
Operating temperature range
Conductor size
Solid
Flexible
10.5 to 28V DC
11.5mA @ 24V DC
MOSFET Switch
0.34 Ω
5 to 200V DC
1A resistive or inductive
1ms approx.
0.1ms max.
1Hz (60 operations per minute)
2500V
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
Circuit Diagram
K
Ordering data
Ordering Information
MC50 Solenoid Driver 1A 200 V DC
Accessories
End Plate
AP
End Brackets
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Uninsulated
75 pole straight
75 pole angled
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
Order No.
7901490001
7940005681
0383560000
0206160000
0482700000
0482800000
0482900000
0535200000
0526400000
0122800000
0383400000
0236400000
K.2
MC50 - dual voltage
MC50 - dual voltage
MC50
• Dual Input Voltage Solid State Relay
• Ultra compact 6mm wide ‘Combifoot’ housing suits TS32 & TS35
• 4000Vrms isolation
• LED relay state indication
• Input diode protection
Circuit Diagram
Technical data
Input A Nominal Voltage
(Input B nominal Voltage)
Nominal Operating Current (typical)
DC
B
_
Operating Current
A
0V
+
+
B
_
0V
+
12Vdc/5Vdc *
B
_
0V
K
+
Isolation
Surge Strength
General
Terminal width
* Width
no LED
indication
across
rail
Height on rail
A
Operating temperature range
Conductor size
B
A
_
A
0V
dc (110Vac/dc)
+
Max. operating speed (50%
B mark space ratio)
B
A
_
A
Output
Type
Maximum Switching Current 0V
Voltage Drop at max. load current
Switching Times: on A (B)
Switching Times:
off A (B)
*
12Vdc/5Vdc
24Vdc (110Vac/dc)
DC
B
_
12V DC
(48V DC) 110V AC/DC
(48V DC)
(48V DC)
(24V DC)
5mA
5mA
5mA
(5mA)
(4mA)
B (5mA)
±10% (±10%)
Reverse polarity diode
A on DC inputs only
12Vdc/5Vdc *
24Vdc (110Vac/dc)
Open Collector NPN Transistor
250mA @ 60V DC 0V
<2V
* no LED indication
20µs
40µs
125µs)
(700µs)
1.5ms
30ms
(1.5ms)
(30ms)
100Hz
20Hz
(100Hz)
(20Hz)
10ms
(30µs)
20ms
(500µs)
10Hz
(100Hz)
5V DC
(12V DC)
6mA
(7mA)
20µs
(25µs)
250µs
(250µs)
100Hz
(100Hz)
4000V (1 min)
0V
TS32
TS35 x 7.5
TS35 x 15
Solid
Flexible
6mm
76mm
68mm
63mm
71mm
-40°C to +60°C
0.5 to 4.0mm2
0.5 to 2.5mm2
A
0V
+
* no LED indication
Ordering data
Ordering Information
MC50 12/24V DC
MC50 24/48V DC
MC50 24 VDC / 110V AC
MC50 5/12V DC
Accessories
End Plate
AP
End Brackets
EW(TS35)
EWK(TS32)
Cross Connection Parts
Insulated
2 pole
3 pole
4 pole
Uninsulated
75 pole straight
75 pole angled
Mounting rail
TS32
TS35 x 7.5
TS35 x 15
K.33
Order No.
7906270000
7906280000
7906290000
7906300000
7940005681
0383560000
0206160000
0482700000
0482800000
0482900000
0535200000
0526400000
0122800000
0383400000
0236400000
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
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A properly labelled cabinet looks professional, provides ease of maintenance, and lasts a life time. Our labelling
solutions provide a complete package from terminals to custom laser engraved stainless steel. A complete assortment
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stress free, when required. See the difference … Lets connect.
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Markers
SCHT 5 OR SCHT 5S
MARKERS
Terminal group marking
SCHT 5
SCHT 5S
Technical data
Type
Material
UL 94 Flammability Rating
Temperature Rating
Printing
Polyamide 66 halogen free
V2
-40°C to 100°C
Black (Standard) coloured available
Ordering data
Label Covers
SCHT - 5
SCHT - 5 - S
Description
9.5mm width
19.5mm width
Type
ELS 16/40 MC SDR
ELS 7/40 MC SDR
SCHT - 5 Clear Cover
SCHT - 5S Clear Cover
Colour
White
White
White
White
SFC Multicard
Applications
SCHT 5 Polyamide
SCHT 5S Polyamide
Suitable for card cover
Suitable for card cover
Qty.
Pack 20
Pack 20
Order No.
0292460000
1631930000
Mat/Sheet Qty.
8
8
20
20
Order No.
104569WEIS
104570WEIS
0294000000
1631940000
SlimFix SFC
• For retrofitting wire markers
L
Technical data
Type
Material
UL 94 Flammability Rating
Temperature Rating
Printing
PVC
V2
-40°C to 100°C
Black (Standard) coloured available
Ordering data
Type
SFC 2,5/12 WS
SFC 2,5/21 WS
SFC 3/12 WS
SFC 3/21 WS
SFC 3/30 WS
Note
L.11
Colour
White
White
White
White
White
Applications
4,0-6,0 mm²
4,0-6,0 mm²
4.0 - 10.0 mm²
4.0 - 10.0 mm²
4.0 - 10.0 mm²
Mat/Sheet Qty.
24
24
16
16
12
Order No.
1062040000
1062110000
1025550000
1025560000
1025570000
Colour options are available for some WS mats, please contact your
Weidmuller Distributor
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Markers
Twin Mark Heat Shrink Sleeves
MARKERS
Wire markers heat shrink TwinMark sleeves
Technical data
Type
Material
Temperature Rating
Flammability
Polyolefin, halogen-free according to VDE 0472-815
-40°C to 105°C
VDE 5510-2 drop-forming class ST2, EN 50343;
Fed. STD-228, method 5221
MIL-M-81531, MIL-STD-202, method 215J If printed with Weidmüller
THM-Plus or HSS 2001 printer and ribbon R 83/300
Print Durability
Ordering data
Type
HSS-HF1/8”1.8-2.8
HSS-HF3/16”2.8-4.2
HSS-HF1/4”4.2-5.8 4.
HSS-HF3/8”5.8-8.0
HSS-HF1/2”8.0-11.0
HSS-HF3/4”11.0-17.0
Wire Diameter
1.8 – 2.8 mm
2.8 – 4.2 mm
2 – 5.8 mm
5.8 – 8.0 mm
8.0 – 11.0 mm
11.0 – 17.0 mm
Note
Please contact weidmuller for special print pricing and part numbers
Stainless steel cable markers
Order No.
1961900000
1961910000
1961920000
1961930000
1961940000
1961950000
Laser Engraved 316 Grade
Engraved Legend Plates
• Material 316 Stainless Steel
• Printing Black
L
Ordering data
Type
Stainless Steel - 2 Hole
Stainless Steel - 2 Hole
SS316TAG 2B
SS316TAG 2B
SS316TAG 2B
SS316TAG 2B
Grade
316
316
316
316
316
316
Dimensions mm H x L x T
SS316TAG 10X89X0.4MM PRINT
SS316TAG 19X89X0.4MM PRINT
Order No.
7940013175
7940013176
Applications
Order No.
80 x 20 x 1.5 Print
100 x 20 x 1.5 Print
120 x 25 x 1.5 Print
150 x 30 x 1.5 Print
200 x 50 x 1.5 Print
7940038881
7940038880
7940038882
7940038879
7940038878
Note
L.2
Markers
TM-I Multicard
TM-I Wire Markers
MARKERS
• Inlay tags for transparent sleeves
Technical data
Type
Material
UL 94 Flammability Rating
Temperature Rating
Printing
Material colour
Polyamide 66 halogen free
V2
-40°C to 100°C
Black (Standard) coloured available
Transparent
Ordering data
Type
TM-I 12 WS
TM-I 15 WS
TM-I 18 WS
TM-I 20 WS
TM-I 30 WS
TM-I Multicard
L
Colour
White
White
White
White
White
Applications
12mm Sleeves
15mm Sleeves
18mm Sleeves
20mm Sleeves
30mm Sleeves
Mat Qty.
64
80
64
80
80
Order No.
1718420000
1609990000
1718440000
1680420000
1876320000
TM-I Cable and Wire Markers
Technical data
Type
Material
UL 94 Flammability Rating
Temperature Rating
Printing
Material colour
PVC
V2
-50°C continuous to 80°C continuous
Black (Standard) coloured available
Transparent
Ordering data
Type
TM 203/12
TM 203/15
TM 203/18
TM 203/20
TM 203/30
TM 204/12
TM 204/15
TM 204/18
TM 204/20
TM 204/30
Cable O.D.
4 - 7 mm
4 - 7 mm
4 - 7 mm
4 - 7 mm
4 - 7 mm
6 - 10 mm
6 - 10 mm
6 - 10 mm
6 - 10 mm
6 - 10 mm
Box Qty.
500
500
500
500
200
200
200
200
200
200
Order No.
1798510000
1798490000
1798480000
1798470000
1874770000
1806180000
1806240000
1806300000
1806360000
1874780000
Note
L.33
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Markers
Labels
Engraved Acrylic Labels
MARKERS
• Alternate to Traffolyte
• Edge bevelling and standard mounting holes at
no extra cost. Alternate colour
combinations subject to availability.
• Available in shapes, cutouts, push-buttons
and complex design
• Available with or without adhesive backing
Technical data
Type
Material
Thickness
Usage
Laminated, UV Stable, Impact Acrylic
2-ply 1.6mm (1/16”)
Interior/Exterior Signage, Control Panels Legend Plates and
Personal Identification
Long-term durability, wear, impact and fade resistant
Features
Ordering data
Area cm2 (LxW)
25
50
100
150
300
600
900
1200
1800
2400
White with
Black Text
7940009885
7940009886
7940009887
7940009888
7940009889
7940009890
7940009891
7940009892
7940009893
7940009894
White with
Red Text
7940012996
7940012998
7940013000
7940013001
7940013002
7940013003
7940013004
7940013005
7940013006
7940013007
ClipCard
Blue with
White Text
7940009998
7940009999
7940010717
7940010718
7940010720
7940010723
7940012981
7940012983
7940012984
7940012985
Yellow with
Black Text
7940012986
7940012987
7940012988
7940012989
7940012990
7940012991
7940012992
7940012993
7940012994
7940012995
Red with
White Text
7940009988
7940009989
7940009990
7940009991
7940009992
7940009993
7940009994
7940009995
7940009996
7940009997
ClipCard
• An alternative to engraving. For use with CC
holder or Self Adhesive option
L
Technical data
Type
Material
UL 94 Flammability Rating
Temperature Rating
Printing
Ordering data
Colour
White
White
White
White
White
White
White
White
Note
Polyamide 66 halogen free
V2
-40°C to 100°C
Black (Standard) coloured available
CC Holder
Type
CC 15/17 MC WS
CC 15/27 MC WS
CC 15/49 MC WS
CC 15/60 MC WS
CC 30/60 MC WS
CC 85/54 MC WS
CC RAIL 1000
CC RAIL 1000 TRANSPARENT
Self Adhesive
Qty.
16
16
8
8
6
2
1
1
Order No.
1876600000
1876750000
1877230000
1877320000
1934370000
1138460000
1790150000
1790160000
Type
CC 15/17 K MC WS
CC 15/27 K MC WS
CC 15/49 K MC WS
CC 15/60 K MC WS
CC 30/60 K MC WS
CC 85/54 K MC WS
Qty.
16
16
8
8
6
2
Order No.
1876620000
1876630000
1877200000
1877300000
1934410000
1138470000
L.4
Markers
ESG 6.6/20 BHZ 5.00/04
MARKERS
Device markers
Ordering data
Type
Version
Qty.
Order No.
Device markers
ESG 6.6/20 bhz 5.00/04
Device markers, MultiCard, 20 x 6.6 mm
Polyamide 66, Colour: White
200 pc(s)
1082540000
SM 18/9.5 K MC NE WS
Ordering data
Type
Version
Qty.
Order No.
L
Device markers
SM 18/9.5 K MC NE WS
Device markers, MultiCard, 9.5 x 18 mm
Polyamide 66, Colour: White
200 pc(s)
1248580000
LM MT300 18X6.5 WS
Ordering data
Type
Version
Qty.
Order No.
L.55
LM MT300 18X6.5 WS
Device markers, Label, 18 x 6.5 mm, Polyester
PVC-free, Colour: White
10 pc(s)
1749321044
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Contents
Technical appendix/Glossary
Technical appendix/Glossary
Relay modules and solid-state relays – Comparison
W.2
Technical appendix: Relay modules
W.4
Glossary: Relay modules
W.8
Technical appendix: Solid-state relays
W.28
Glossary: Solid-state relays
W.36
W
W.1
Technical appendix/Glossary
Relay modules and solid-state relays – Comparison
Relay modules and solid-state relays – Comparison
Advantages of electromechanical relay modules
(EMR)
+ AC and DC operation in load circuit possible
Versatile (advantage as interface between different
plant equipment)
+ No leakage current in the load circuit
A semi-conductor does not achieve 100 % isolation
Fixed contacts
Movable contact
Armature
+ Low residual voltage in the load circuit
Low voltage drop
+ No power loss in the load circuit
In contrast to the semi-conductor in opto modules
there is no electrical resistance in the contacts of
the electromechanical relay modules that can lead
to a rise in ­temperature when under load. Therefore,
heat sinks are not necessary.
+ Multiple contacts possible
A single control signal can switch several load
circuits.
Coil
Reset
spring
Coil
+ Control circuit less sensitive to transients*)
Unwanted switching operations caused by voltage
fluctuations are prevented by the make capacity of
the magnetic coil.
W
* Refer to page W.8 in the Glossary for a detailed explanation of this term.
W.22
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Relay modules and solid-state relays – Comparison
Depending on the requirements, the choice between
electromechanical and solid-state relays is made based on
the different advantages that the different versions offer:
Advantages of solid-state relays (SSR)
Housing
Receiver
(Transistor)
+ Long operational lifetime and reliability
No moving parts or contact wear
+ Small dimensions
Saves space on the PCB and mounting rail
+ Low control power
An LED is activated - no mechanical parts are
moved
+ Fast response times
Fast switching, which allows high frequencies to be
achieved
+ No contact bounce
Reduces switching delays
Transmitter (LED)
+ No switching noise
Suitable for use in noise-sensitive environments
+ Not susceptible to shock and vibration
Prevents unwanted switching statuses
+No electromagnetic radiation due to switching sparks or
coils
No interference of adjacent assemblies or
electronics components
W
W.3
Technical appendix/Glossary
Technical appendix: Relay modules
Relay modules – an overview
Historical background
The term ‘relay’ was originally used for a station where
stagecoaches were able to change their tired horses for fresh
ones. The term ‘relay’ was given a totally different meaning
by the English physicist Charles Wheatstone (1802–1875).
In Wheatstone’s times, departing trains were advised of by a
bell ringing at the next railway station up the line.
This was achieved by connecting a battery in the first station
to a bell in the second. However, as the railway stations
were generally several kilometres apart the power arriving
at the second station was often insufficient to ring the bell.
Wheatstone invented a switchgear apparatus that was
installed at the second railway station. This continued to
function even with low power supply levels. The switchgear
apparatus switched a second electrical circuit that actuated
the bell. This was the birth of the electromagnetic relay.
How a relay functions
A relay is an electromagnetic switch comprising of two
galvanically isolated circuits. Firstly the control circuit and
secondly the open circuit with the normally open contact.
As soon as the control circuit is energised, the coil creates
a magnetic field in the core/yoke and attracts the armature.
The actuator now actuates the switch at the output, the
normally open contact (make contact) closes and the
normally closed contact (break contact) opens. When the
control circuit is turned off, the magnetic field diminishes
and the return spring returns the armature to its initial
position. The actuator moves the normally open (make
contact) back to its normal position, the normally open
contact opens, the normally closed contact (break contact)
closes.
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W.44
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Consequently, with low power input – battery power for
example – a relay provides the option of switching heavy
loads as well as being able to serve as a switching amplifier.
Thanks to the isolation between the input and output, relays
are also suitable for providing separation when the power
of the control and the open circuits differ. Equipped with
several NO (make) contacts, a relay can also be utilised for
multiplying signals.
From relay to relay module
There are two alternative methods that make a relay module
suitable for use in industrial applications: mounting onto
a PCB – in combination with the corresponding assembly
techniques and circuitry – or plugging onto a specially
designed relay base.
Generally, the design and rating data determine if a relay
coupler is or is not suitable for a particular application.
For example, relay modules with plugged on relays are only
partly suitable for use in applications subjected to heavy
vibrations. In this case, relay modules with soldered relays
should be preferred. Low, compact designs such as those
provided by the RIDERSERIES are utilised in small consumer
units where the overall available height is limited. Conversely,
the compact design of the TERMSERIES helps to save space
in electrical cabinets.
Protective separation
It is essential that all electrical equipment required to provide
protective separation be designed in such a manner that the
insulation cannot be impaired, for example by mechanical
errors. If a mechanical error occurs in a relay (bent soldering
pin, broken winding wire or broken spring), ‘protective
separation’ must be guaranteed. Relays are specified and
tested in accordance with EN 61810-1. However, the
standard makes no reference to EN 50178 (Electronic
equipment for use in power installations); equally no
definition is given for the term ‘protective separation’. Things
are made worse by the fact that different measurement
conditions are given for the test voltages stipulated for relays.
As a consequence, the test voltages cannot be applied to the
standards EN 50178 or EN 61140. And because the user
is nevertheless increasingly deploying electrical equipment
that is supposed to guarantee ‘protective separation’, a large
number of manufacturers of relays point to the EN 61140
and carry out the tests accordingly. And of course the values
are then ‘protective separation’ conform.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Technical appendix: Relay modules
Standards
Coil suppression circuit
The following individual standards are applied in accordance
with the corresponding requirements:
In DC circuits, the inductance of the relay coil generates
a release voltage when de-energised that is capable of
damaging or destroying the connected control electronics.
A free wheel diode connected in parallel to the coil limits the
release voltage, protects the control electronics and prevents
induction of the cut-off voltage to other signal lines.
Relay modules
• DIN EN 50178:
Electronic equipment for use in power installations
Relays
• DIN EN 61810-1:
Electromechanical elementary relays (electromechanical
elementary relays without specified time response
characteristics)
Part 1: General and safety requirements
Relay base
• DIN EN 61984
Connectors - Safety requirements and tests
EMC – Electromagnetic compatibility
DIN EN 61000-6-1
Part 6-1: Generic standards; Immunity for residential,
commercial and light-industrial environments
DIN EN 61000-6-2
Part 6-2: Generic standards - Immunity for industrial
environments
Large circuits or long cable runs are subjected to increased
electrical and electromechanical interference and damage.
Malfunctions or even total failure of the relay module can
result. The radiated interference, and not to forget leakage
currents emanating from trigger modules, can also mean
that a triggered relay does not drop out. As standards specify
that the drop-out voltage is limited to about 15 percent of
the rated voltage, the interference voltage generated can
be sufficient to prevent the relay from opening. One way
of resolving this problem is to connect an RC combination
line side to filter out disturbances and provide capacitive
suppression of interference voltages.
TERMSERIES products are supplied ex works with these
protective circuits already integrated in the electronics; for
the RIDERSERIES these are available as modular series
electronics.
The same principles apply as with contact protection circuits.
DIN EN 61000-6-3
Part 6-3: Generic standards - Emission standard for
residential, commercial and light-industrial environments
DIN EN 61000-6-4
Part 6-4: Generic standards - Emission standard for industrial
environments
W
W.5
Technical appendix/Glossary
Technical appendix: Relay modules
Relay modules – an overview
Switching large and small capacities
Protective circuits for the contacts
Basically, the reliability of the contacts in a relay reaches
a maximum at a medium current load thanks to the
continuous self-cleaning effect. As the contact load increases
and hence leads to more severe erosion of the contacts, the
switching reliability decreases with an increasing number
of switching operations. This reduces the service life of the
contacts. Although at very low loads the minimal erosion of
the contacts does raise the service life more or less to the
level of the mechanical service life, the lack of a self-cleaning
effect contributes to a lower contact reliability.
The switching of inductive or capacitive loads produces
switching sparks which can influence the electrical service
life of the relays. The following protective circuits for the
contacts reduce contact wear:
Reliable contact at low currents, especially when only small
voltages are involved as well, depends on the choice of
contact material. Contacts of silver-nickel, which is standard
for the majority of Weidmüller relays, are generally suitable
for currents of approx. 10 mA and higher. Such large-surface
contacts can switch both low and high currents. However, at
low currents occasional failures can occur due to erosion and
the lack of the self-cleaning effect. The higher the current,
the more reliable is the contact – thanks to the self-cleaning.
Silver-nickel is suitable as a contact material for low currents/
voltages. It provides, however, only moderate switching
reliability. If this is acceptable, then conventional standard
relays represent an inexpensive solution.
For applications that call for improved contact reliability
or low currents/voltages, conventional relays with hardplated gold contacts are preferable because they do not
erode and therefore operate more reliably.
If maximum switching reliability is necessary, especially
for low currents/voltages, a relay should not be your first
choice. In these instances Weidmüller advises the use of
solid-state relays. Wear and abrasion caused by mechanical
movements are non-existent in solid-state relays.
W
W.66
Diode
–
+
Load
US
UD
1
2
t
Free-wheeling diodes (DC)
Free-wheeling diodes are used primarily to protect against
overvoltages, which occur through self-induction when
switching off inductive DC loads (electric motors, relay coils).
Voltage spikes are limited to the equivalent value of the
diode forward voltage and excess voltage is discharged via
the diode. However, this leads to a delay in the voltage drop
and as such also delays the switching operation.
Advantage:Can be used for all capacities, low surge,
minimum space required, low price
Disadvantage: Very long release delay
Diode and Z-diode
–
+
Load
US
U
ZD
1
2
t
Zener diode / suppressor diode (DC)
These function as normal diodes in the forward conducting
­direction. In the blocking direction they become low resistant
at a certain voltage (breakdown voltage).
High levels of overvoltages can lead to the destruction of the
zener diode / suppressor diode.
Advantage:Low surge (defined by Z-diode),
short release delay
Disadvantage: Cannot be used for large capacities
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Technical appendix: Relay modules
Varistor
–
+
US
(∼) (∼)
Load
VDR
U
VDR
1
2
t
Varistor (AC/DC)
The functional principle of the varistor is also based on a
breakdown voltage, but with faster reaction times. This
allows higher levels of energy to be shunted, however,
these lead to the ­component aging. This in turn reduces
the breakdown voltage over time and increases the leakage
current.
Advantage:
Low surge, short release delay
Disadvantage: High current load on the contacts when
switching on; more complicated and
expensive at greater capacities
RC combination
–
+
(∼) (∼)
US
R
Load
URC
C
1
2
t
RC-element (AC)
The RC element compensates voltage spikes by means
of a capacitor. Due to the charging and discharging
characteristics interference pulses are filtered out when the
voltage is rising and not first when overload is reached.
For this reason, RC elements are used to protect against
interference pulses and exclude faulty switching operations.
Advantage:
Short release delay, low price
Disadvantage:Cannot be used for all operating voltages
and capacities
US = Voltage progression 1 = Closing
2 = Opening
W
W.7
Technical appendix/Glossary
Glossary: Relay modules
Glossary: Relay modules
A
AC
AC coil, alternating current coil
Adhesion (contacts)
Approvals and testing marks
Refers both to alternating values (such as voltage or current) as well as to those
devices and variables which reference these devices. Specifications are valid for
50 Hz, unless otherwise indicated.
Relay; excitation with alternating current (AC). Specifications are valid for 50 Hz,
unless otherwise indicated.
This refers to when the relay armature does not return back to its starting
position after the coil voltage has been turned off. The armature can get stuck if
there is too much retentivity in the iron core or if the reset force is too small.
Testing approvals are independent confirmation from governmental or private
registration services and testing facilities. They certify that the product complies
with the relevant regulations and maintains the specified product characteristics.
Note: The ordering scheme gives you the choice of many variations, but not all
variations are established as standard types (order numbers). Therefore, they
may not be included in the list of approved relays. Technical specifications and
list of approved types are available on request.
CSA Canadian Standards Association, Canada
GL Germanischer Lloyd, Germany
TÜV Technical Monitoring Association, Germany
UL Underwriters Laboratories, Inc., USA;
UR Component Recognition Mark for the United States
cUR UL Component Recognition Mark for Canada
cURus UL Component Recognition Mark for the United States and Canada
cULus UL Component Listing Mark for the United States and Canada
VDE VDE testing location, Germany (advisory reports with production
monitoring)
B
B10
Bounce (chatter)
Bounce times
Breaking capacity
W
W.88
Burn-off
The number of switching cycles for a load where 10 % of the relays fail. This
value is used to determine the probability of system failure.
An unintended phenomenon that may arise during the closing or opening of a
contact circuit when the contact elements touch and separate again before they
have reached their final positions.
The time (average value) between the first and last closing (or first and last
opening) of a relay contact. These times are valid when the rated voltage is used
for excitation, without other components in series or in parallel to the coil, and at
the reference temperature.
Maximum switching current that a relay contact can switch off under specified
conditions, whereby the switching current must not be greater than the nominal
current.
Loss of contact material due to switching electrical arcs.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
C
CE
Clearance and creepage distances
Coil resistance
Coil specifications
Abbreviation for Communauté Européenne (the European Community).
Manufacturers use the CE label to confirm that their products comply with the
corresponding EC directives and the “essential requirements“ therein.
The EMC Directive 2004/108/EC and Low Voltage Directive 2006/95/EC are
currently binding.
Clearance and creepage distances are critical factors that affect the insulating
capacity of electrical components. The creepage distance denotes the minimum
clearance that two live parts along a surface must have in order to prohibit a
flow of current across the insulating material at the specified operating voltage
The operating voltage, the choice of insulation material (material group) and
the protective measures taken against contamination (pollution degree) all
influence the creepage distance. The clearance distance denotes the minimum
direct clearance (through the air) that two live parts must have to one another in
order to prohibit a charge passing through the air (an arc). The expected surge
voltage (rated impulse voltage) forms the basis for calculating the distances. The
surge protection category and pollution severity are further factors that influence
dimensional design considerations.
Clearance distance
Housing contours
Creepage distance
Live, current-carrying parts
DC resistance of a relay coil at the reference temperature (+20 °C);
Higher coil temperatures increase the resistance value by 0.4 % / K. For actual
operations, the excitation voltage should be adjusted accordingly (> sparkover
value). For AC coils, the inductive resistance is much greater than the DC value.
This is why the current consumption of the coil is also specified at nominal
excitation.
The coil specifications are specified according to IEC 61810-1. Unless
otherwise specified, these values ​​apply under the following conditions: ambient
temperature 23 °C; coil at ambient temperature (cold coil, without pre-excitation);
50 Hz for AC voltage excitation; operating range of class 2; densely assembled
(mounting gap of 0 mm). A relative duty cycle of 100 % (continuous excitation)
is permitted.
W
W.9
Technical appendix/Glossary
Glossary: Relay modules
Combination of relay and plug-in
socket, Insulation requirements
The combination of relay and plug-in socket is described in the new relay
standard IEC 61810-1. The relay sockets must meet the requirements of
IEC 61984 and the insulation requirements of IEC 60664-1. Even if the socket
itself already meets (or surpasses) the insulation requirements, there may still be
reduced clearance and creepage distances (and thus reduced insulation rated
voltage) for the combination of the relay and plug-in socket. Restrictions – such
as a reduced voltage range or reduced pollution degree – should be expected
for the relay/socket combination. This should be taken into consideration for
miniature multi-pole relays with plug-in sockets which have minimal gaps
between the contact circuits.
In addition to the insulation properties, the thermal properties of the combined
relay/socket are very important (refer to the derating curves). The plug-in
frames from different manufacturers cannot be compared directly, which is
why the technical specifications are only guaranteed for approved relay/socket
combinations. Possible risks of fire or reduced dielectric strength may result
when non-approved combinations are in use.
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WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
Contact material
The list below provides an overview of the most important performance coatings
and contact materials. The load capacity of the contacts and their life span can
vary depending on the contact material and construction used. It is important
to achieve the best combination of relay function and contact material. The
specifications for individual relay types are only partially valid for other variants.
1) P
erformance coatings:
Pure gold – the best corrosion resistance but too soft when used as solid
metal; high tendency toward cold welding in layer thickness > 1 μm (goldflashed); only functions as a gold gilding and does not protect against
corrosive gases.
2) C
ontact material:
Hard gold (hard gold-plated) - Very good corrosion resistance for dry loads;
measuring and switching circuits; control inputs (1 mV – 10 V, 0.1 mA –
100 mA); low and constant contact resistance with the smallest switching
power; low cold-welding tendency and low current/voltage switching;
recommended operating range > 1 V, 1 mA, 50 mW. After switching higher
loads (>10 V, 100 mA), small loads can no longer be switched.
Silver Nickel AgNi90/10 - High resistance to burn-off; minimal tendency
towards cold welding; higher contact resistance than AgNi0,15; circuits with
medium to high loads; DC and AC circuits (solenoid valves, fans, heaters); not
suitable for high capacitive in-rush currents; range of use > 12 V, 10 mA.
Fine-grain silver AgNi0,15 - Relatively low contact resistance; low
resistance to corrosive gases; all-purpose use for average loads and low loads;
preferably in DC circuits (solenoid valves, fans, heaters); not suitable for hight
currents; range of use > 12 V, 10 mA.
Silver-tin-oxide AgSnO2 - Minimal tendency to weld; high resistance to
burn-off at high switching capacity; low material migration; circuits with high
input and output loads; DC and AC circuits (lamp loads, capacitive loads,
fluorescent tubes, switching power supplies, etc.). Well suited for resistive,
inductive and capacitive DC applications due to low occurrence of material
migration, range of use > 12 V, 100 mA..
Silver-cadmium oxide AgCdO – minimal tendency to weld; high resistance
to burn-off; especially suitable for switching inductive loads; AC circuits, range
of use > 12 V, 100 mA.
Tungsten W – highest melting point; for high switching frequency at
minimal duty cycle; as a lead contact in circuits with high in-rush and switchoff loads.
Contact material
Hard gold plating
htv
AgNi 0.15
AgNi 90/10
W
AgSnO 2 90/10
1 mA
10 mA
100 mA
1A
10 A
100 A
Load current
W.11
Technical appendix/Glossary
Glossary: Relay modules
Continuous current limit
Continuous current
Continuous operation
The highest current value (RMS value for AC) which a closed contact can
continuously conduct at specified temperature limits; this corresponds to the
thermal continuous current limit Ith.
Unless otherwise specified, the data refers to the following conditions: equal
load on all contact circuits, input voltage is 110 % of rated coil voltage,
maximum ambient temperature, opened vent, dense mounting (mounting
clearances of 0 mm), and test conditions according to the positioning for the
heating test in IEC EC 61810-1 Appendix B.
The current that can be continuously conducted without exceeding the contactoverheating values under defined conditions.
Operating mode in which a relay remains energised until it reaches thermal
equilibrium.
D
DC
DC switch-off capacity,
Direct-current switch-off capacity
Refers to the electrical variables such as voltage or current (DC, DC voltage) that
are not dependent on time.
Values below the DC switch-off capacity curve ​​(for max. permitted switching
voltage/current at resistive load) can be switched on and off reliably; e.g. an
arc is extinguished (max. arc duration is 10 ms at resistive load). The position
and shape of the load-limit curve is influenced by the contact material and relay
construction (contact gap, opening speed of the contacts, etc.).
Information about the electrical lifespan should not be derived from these
curves!
Switching voltage [V DC]
DC load breaking capacity
300
200
Resistive load
2 contacts in series
3 contacts in series
100
50
40
30
1 contact
20
10
0.1 0.2
0.5
1
2
5
10
20
Switching current [A]
W
W.12
12
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
The continuous current is reduced at higher ambient temperatures; this is shown
using a derating curve (a load reduction curve). Current flow generates heat,
which increases as the current increases. Electrical components have an upper
temperature limit which limits their ability to function.
The temperature influencing the components is a combination of the ambient
temperature and the heat generated by the current. So to ensure that the limit
temperature is not exceeded, the current must be reduced when the overall
temperature rises. The derating curve depicts the relationship between the
prevailing temperature and the resulting maximum amperage with regards to the
temperature limit.
Derating curve
Current strength
Derating / derating curve
Over the limit
Operating range
Temperature
Dielectric strength, test voltage
Dimensions
Voltage (RMS value for AC voltage, 50 Hz, 1 min) which can be applied between
mutually insulated relay components during the voltage test.
Dimensions in millimetres.
Length
Width
Height
DIN rail
Duty cycle, relative duty cycle
Unless otherwise noted, Weidmüller‘s products are built and tested for mounting
on DIN rail (rails according to TH35-7.5 / EN60175). Other installations (e.g.
TH35-15)may function but have not been tested or approved.
Describes the ratio of the excitation duration of a relay (duty cycle) to the entire
cycle time in intermittent, continuous or short-time operations. The duty cycle is
expressed as a percentage of the total cycle duration.
W
W.13
Technical appendix/Glossary
Glossary: Relay modules
E
Earth and ground loops
Denotes the connection of two potentials via their earth or ground connection. A
potential difference between the earth or ground connection of two devices (for
example, a sensor and controller) that are directly wired to one another causes
current flow via the earth of the shared housing. These interference currents can
lead to different problems, for example in the acquisition of measurement signals
or when controlling actuators. When transmitting switching or measurement
signals using a device with electrical isolation between the control and load
circuits, it is important that a closed circuit via the earth or ground connection
can never occur – so that no interference currents are generated.
Earth and ground loops
Connection element
without galvanic isolation
Connection element
with galvanic isolation
Electrical lifespan curve
The curve for the electrical lifespan specifies the typical lifespan as the mean
cycles to failure (MCTF) and is based on the Weibull distribution. No guaranteed
minimum values ​​can be interpreted from this statistical data.
Note: The curve for the electrical lifespan applies only to the specified contact
materials (or those in the datasheet). The lifespans for other contact materials
cannot be derived from this curve. It is also not possible to derive information
about the electrical lifespan by extrapolating the curve.
Switching operations
Electrical endurance
107
250 V AC Resistive load
106
105
W
W.14
14
104
0
2
4
6
8
10
12
14
16
Switching current [A]
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
Electrical lifespan, lifespan of
contact
Error, relay failure
Number of switching cycles for a relay with electrical contact load under full
operational capacity (according to IEC 61810-1 and IEC 61810-2). Unless
indicated otherwise, the contact data and electrical lifespan are valid under the
following conditions:
• On NO contact,
• AC mains frequency of 50 Hz,
• 50 % relative duty cycle,
• Nominal switching frequency,
• Contact load, schedule A,
• Resistive load,
• Rated voltage (coil),
• Ambient temperature 23 °C,
• Protection degree RTII - flux-proof
• Individual assembly
• Vertically installed (the connections of a PCB relay point downwards).
The electrical lifespan is specified according to the criteria for “useful life”,
severity level B according to IEC 61810-2. The data does not cover all usage
beyond the specified electrical lifespan. The user is obliged to avoid such
situations. Experience shows that the electrical lifespan remains relatively
constant up to a 0.8 power factor. When working with loads that have a power
factor less than 0.8, we recommend consulting with the user.
According to IEC 61810, a relay failure is defined as the occurrence of
malfunctions that exceed a certain number:
• Malfunction On contact closing
•Malfunction on contact opening (contact bridging for CO contact, as special
type of malfunction during contact opening) or as
• Insufficient dielectric strength.
Such malfunctions must be considered in the scope of the application – they
should not create any risks. Depending on the specific loads and the contact
power, a malfunction can cause excessive heat or even a fire. The user is
responsible for taking the necessary precautions in accordance with the relevant
regulations.
F
Flammability according to UL
Indicates the flammability class according to the specification from UL 94
(Underwriters Laboratories, Inc., USA). Flammability tests according to
UL 94: for testing plastic materials and classifying the propagation/extinction
characteristics when the material burns. The UL 94 flammability classes which
are relevant to relays are V-0, V-1, V-2 and HB.
W
W.15
Technical appendix/Glossary
Glossary: Relay modules
G
Galvanic isolation
Potential-free isolation between electrical components. Electrical (or galvanic)
isolation means that no charge can flow from one circuit to another. There
is no conductive electrical connection between the circuits. The circuits can
nevertheless exchange electrical power or signals via magnetic fields, infrared
radiation or by charge displacements.
H
Standard conditions: annual average relative humidity > 75 % at an ambient
temperature of 21 °C, in 30 days, evenly distributed throughout the year, and
95 % at ambient temperature w of 25 °C. On other days: occasionally 85 % at
23 °C. No icing or condensation is allowed - affects storage and/or operation.
When storing or operating under other conditions, you must take steps to avoid
temperature changes which could cause icing or condensation. Operating and
storage should be within the limits specified in the graphic.
Relative humidity (% RH)
Humidity / condensation
100
Environmental conditions
80
Area of usage
60 and storage
Tamb > 0 °
Avoid condensation
40
20 Tamb < 0 °
Avoid icing
0
-40 -20
0
+20
+40
+60
+80 +100
Ambient temperature [°C]
I
Impulse withstand voltage
Inductive loads
Inrush current
The highest withstand voltage of a specified shape and polarity that does not
lead to an insulation breakthrough or flash-over, under the specific conditions.
Refer to usage categories.
Specified as the switching current by resistive loads that can turn on a relay
under defined conditions. The data refers to the NO contact, nominal voltage,
and a current value for a duration of max. 20 ms for at least 100 switching
cycles, or 4 seconds with a relative duty cycle of 10 %, unless otherwise
indicated.
W
W.16
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WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
Insulating material group
Insulation according to EN 50178
According to their CTI (comparative tracking index) values, the insulating
materials are categorised in one of the following four groups:
Group I 600 CTI
Group II 400 CTI < 600
Group IIIa 175 CTI < 400
Group IIIb 100 CTI < 175
The figures for the comparative tracking index, according to IEC 60112
(DIN IEC 60112 / DIN VDE 0303-1) are determined using special samples
prepared for this purpose with
test solution A.
Specifications for insulation coordination with:
•Type of insulation
•Nominal voltage of the supply system
•Pollution severity level
•Impulse withstand voltage
•Surge voltage category
M
Max. switching current
Max. switching frequency at rated
load
Max. switching power
Mechanical service life
Micro-switch-off
Minimum switching capacity
Mono-stable relay, switching
behaviour
Mono-stable, non-polarized relay,
neutral relay
The max. switching current indicates the maximum level of current that can be
switched.
The number of switching operations that occur in a specific unit of time. The
maximum switching frequency for average loads may be higher than the
value specified for the nominal load when the switching characteristics of the
load (such as arcing) do not cause the contact temperature to increase. The
maximum switching frequency for no-load switching can also be used for loads
where no arcing will take place (purely resistive loads cause no significant arcs
up to 12 V or 50 mA at 12 – 250 V, because the arc breaks off fairly quickly
through the contact opening (insulation)).
The switching capacity is calculated as the product of the switching voltage and
the switching power (in VA for AC; in W for DC).
Number of switching cycles for de-energised relay contacts, where a relay must
remain functional within specific conditions.
Reasonable contact opening in at least one contact that ensures functional
safety.
Note: The contact opening has a requirement for the dielectric strength but not
for the dimensions.
Calculated product of switching current and switching voltage – a measure
of reliable switching. Low contact resistance values ​​are realised only above a
certain load. Greatly increased resistances may occur at lower switching loads
which can prevent the load circuit from being safely switched. The minimum
contact loads for different contact materials should also be taken into account.
A relay is referred to as mono-stable when its contacts return to the idle state
automatically after the energising parameter (the input voltage) is switched off.
The switch position change in a neutral, mono-stable relay does not depend on
the polarity of its excitation.
W
W.17
Technical appendix/Glossary
Glossary: Relay modules
Mounting distance
Mounting position
Distance between two adjacent components when using parallel, unidirectional positioning; or the distance to other electrical components. Because
of the insulation requirements, you may need to increase the minimum gap
between the components or select a different positioning. These values refer to
components in “single-file arrangement“, unless otherwise indicated.
Also relevant for this definition:
•Density of assembly: assembled with minimum mounting clearances; this
minimum distance is determined by the insulation requirements at 230 V AC
and/or mechanical requirements for the installation(e.g. use of sockets),
•Individual installation: components are mounted with gaps so that there is NO
thermal influences from adjacent components.
Mechanical and electronic relays can usually be installed in any position when
there are no qualifying limitations. To ensure the proper current flow and heat
dissipation, the connections must be properly contacted and the cross-sections
must be adequate. Several factors must be taken into consideration when
positioning: including the insulation requirements, heat dissipation and the
possible mutual magnetic influence.
N
Nominal current (contact)
Nominal switching voltage (contact)
Nominal torque
Number of contacts
Current that a relay contact can switch off or on under specific conditions, or the
current that the relay accessories can conduct. The nominal current specification
covers the following data, unless otherwise specified:
• Contact current, switching current
• Continuous current limit
The conditions for the relay are specified under the contact lifespan;
For accessories, the nominal current is specified for a relative duty cycle of 50 %,
at the nominal switching frequency, and for an ambient temperature of 23 °C.
Voltage between the switching contacts - before the contact closes or after it
opens.
The specified value for the torque of the screws (screw connection) must not be
exceeded.
Number of working contacts in a relay (normally-open, normally-closed or
change-over)
O
Operating temperature
Permissible ambient temperature – relative to a specific relative humidity – at
which a product should be operated at nominal load.
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Technical appendix/Glossary
Glossary: Relay modules
Operational voltage range
Allowable input voltage range – depending on the ambient temperature.
The top part of the range is specified by the maximum voltage; the lower part of
the range is specified by the response/minimum voltage.
Curve 1: response time/minimum voltage U0 (without pre-excitation)
Curve 2: response time/minimum voltage U1 (after pre-excitation)
Curve 3: maximum voltage U2, contact current = 0 A
Curve 4: maximum voltage at contact current Inom
Coil voltage [U/Urated]
Operating voltage range
0A
>0A
3)
4)
Urated Rated voltage
2)
1)
Ambient temperature [°C]
P
Packing unit
Plug-in cycles
Pollution severity level
Indicates the smallest amount (a pack, for example) or the quantity per carton.
Sockets and accessories are designed for 10 insertion cycles without electrical
load – unless otherwise specified.
Pollution (contamination) includes any foreign material – whether it is solid,
liquid or gaseous (ionised gas) – which is capable of influencing the surface
resistance of the insulating material. The standard defines four degrees of
pollution. Their numbering and classification is based on the quantity of the
contaminant or the frequency with which the contaminant reduces the dielectric
strength and/or surface resistance.
Pollution degree 1:
•there is no contamination or only dry occurrences of non-conductive pollution.
The pollution has no influence.
Pollution degree 2:
•there is only non-conductive pollution. Temporary occurrences of conductivity
caused by condensation may also occur.
Pollution degree 3:
•conductive pollution or dry, non-conductive pollution that can become
conductive due to condensation is likely to occur.
Pollution degree 4:
•the contamination leads to continual conductivity which can be caused by
contaminants such as conductive dust, rain or snow.
W
Note:
Pollution degree 3 is typical for industrial environments and similar settings;
pollution degree 2 is typical for households or similar.
W.19
Technical appendix/Glossary
Glossary: Relay modules
Positively-driven contacts
Power rating
Protection degree - (IEC 60529), IP
Arrangement of contacts in accordance with EN 50205, with at least one NO
and one NC contact; mechanically constructed so that the NO and NC contacts
of the entire contact system can never (even in the event of a malfunction) be
closed at the same time. Such relays are used in safety engineering controls in
order to prevent injury and property damage.
The nominal value of the power that is converted when the nominal control
voltage is applied.
The degree of protection afforded by an enclosure is indicated by the IP Code
(IP = International Protection). This specification is equally valid for industrial
relays and accessories.
For the purposes of “component” relays(such as PCB relays), refer to the RT
protection degree.
A two-digit number is used to indicate the protection provided against touch
contact and foreign bodies (the first number) and against humidity (the second
number).
Protection levels for touch contact and foreign bodies (the first digit): the first
digit indicates the degree of protection inside the housing against ingress of
solid foreign objects and against any human access to hazardous parts.
0: no protection
1: protection for large body parts with a diameter > 50 mm
2: finger protection (diameter 12 mm)
3: tools and wires (diameter > 2.5 mm)
4: tools and wires (diameter > 1 mm)
5: full protection against touch contact
6: full protection against touch contact
Degree of water protection (the second digit)
Pull-in / drop-out current, AC/DC coil
The second digit indicates the degree of protection provided against the ingress
of water into the housing:
0: no protection
1: protection against vertically falling drops of water
2: protection against water droplets falling diagonally (up to 15°)
3: protection against water spray that falls at an angle up to 60° from vertical
4: protection against splashed water from all sides
5: protection against water jets
6: protection against powerful jets of water (flooding)
7: protection against sporadic submersion
8: protection against constant submersion
Value of the coil current at which a relay responds (spark-over) or drops out.
R
W
W.20
20
Rated control voltage
Rated voltage (Isolation)
The nominal value of the sparkover voltage for the relay.
Voltage level at which the insulation specifications are measured – this is the
basis for sizing the creepage distance.
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
Relay times (time response)
Because of the self-inductance of the coil and the inertia of the moving parts, the
steps involved in operating a relay do not occur instantaneously. The following
chart illustrates several time-function terms for the main contact variants of nondelayed switching relays.
These specified times are valid when the rated voltage is used for excitation,
without other components in series or in parallel to the coil, and at the reference
temperature.
• Sparkover time
• Drop-out/reset time
• Bounce time
• Min. excitation period
Rest position
Sparkover time
Working position
Reset
Rest position
Coil voltage
Position of the
moving parts
Voltage at
NO contact
Closed
Open
Bounce time
Voltage at
NC contact
Open
Sparkover time
Closed
Reset
Time
Relays and sockets
Reliability
Reset
The relays in this catalogue have been designed, specified and tested in
accordance with the relay standard IEC 61810-1 “Electro-mechanical elementary
relays - part 1: General considerations and safety-related requirements”. Where
the appropriate approvals have been specified in the data sheet, the relays and
sockets have been tested according to IEC 61810 or EN 61984 and UL 508.
Electro-mechanical components such as relays are subject to wear (both
mechanical and electrical). A typical “bathtub curve” depicts the reliability. This
means that there may be isolated statistical exceptions which are below the
typical levels of reliability.
Process in which a mono-stable relay resets from the working position to the rest
position.
W
W.21
Technical appendix/Glossary
Glossary: Relay modules
Reset time
Reset voltage
Response
Response voltage / drop-out voltage
AC/DC coil
Rest position
RoHS Directive 2002/95/EC
Time interval (average) between when a mono-stable relay is in its working state
with the coil voltage switched off and the time at which the final output circuit
is closed or opened (not including the bounce time). These specified times are
valid when the rated voltage is used for excitation, without other components in
series or in parallel to the coil, and at the reference temperature.
Value of the input voltage at which a mono-stable relay reliably returns to the rest
position while at the reference temperature.
The process in which the relay transitions from the normally-closed (break)
contact position into the normally-open (make) contact position.
Value of the coil voltage at which a relay responds (spark-over) or drops out.
The switched position of a mono-stable relay in its unexcited state.
RoHS stands for “Restriction of (the use of certain) Hazardous Substances”.
According to the EU Directive 2002/95/EC from 01.07.2006, all EU member
nations must forbid the use of hazardous substances which damage human
health and the environment (including mercury (Hg), cadmium (Cd), lead (Pb),
hexavalent chrome (Cr6), polybrominated biphenyls (PBB) and polybrominated
diphenyl ethers (PBDE)) in new electrical and electronic devices.
The term “compliant” means that the entire product group meets the
requirements of the RoHS Directive. The maximum weight percentage in
homogeneous materials is below the limits specified in the directive: 0.1 %
for lead, hexavalent chrome, mercury, PBB and PBDE; and below 0.01 % for
cadmium, or qualifies for an exemption in accordance with the annex to the
RoHS Directive .
S
Self-heating
Series-circuit relay contacts
The heating up of an operational component based on the power loss from the
relay coil and the switching contacts.
When two or more NO contacts in a relay are connected in series, the contact
opening is increased while switching off. Arcs which occur from DC loads are
cleared more quickly which results in reduced burn-off on the contact. This
increases the electrical lifespan and the breaking (switch-off) capacity.
Switching voltage [V DC]
DC load breaking capacity
300
200
Resistive load
2 contacts in series
3 contacts in series
100
50
40
30
1 contact
20
10
W
W.22
22
0.1 0.2
0.5
1
2
5
10
20
Switching current [A]
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Relay modules
SIL
Standardised labelling of
connections
Status indicator
Storage temperature
Surge voltage category
Safety Integrity Level. The components must meet the requirements of
IEC 61508 is order to reduce risk. This standard provides general requirements
for avoiding and minimising device and equipment outages. It stipulates
organisation and technical requirements concerning device design and
operation. Four safety levels are defined (from SIL1 for minimal risk to SIL4 for
very high risk) for classifying facilities and risk-reduction measures. Measures
taken to reduce risk must be more reliable when the classified risk level is higher.
A1, A2: coil
13, 14: NO contact (contact closes when applying a voltage to the coil)
11, 12: NC contact
11, 12, 14:CO contact (11 is the common contact, i.e. the root)
The status LED display on the input control circuit can differ from the state of the
contact circuit in the following cases:
• when there are welded-together or broken switching elements,
• when there is interference or residual voltages On the signal lines.
A reduction in light intensity may result when the ambient temperatures are
greater than 50 °C.
The permitted ambient temperature, related to a specific relative humidity level,
for which the product should be stored while in a current-free state.
The overvoltage category of a circuit or an electrical system is numbered
conventionally (from I to IV) and is based on limiting the assumed surge voltage
values that can occur in a circuit (or electrical system with different mains
voltages). The assignment to a particular overvoltage category is dependent on
the measures which are used to influence (reduce) the surge voltages.
Overvoltage category I
•Devices that are intended to be connected to the permanent electrical
building installation.
The measures for limiting transient surge voltages to the proper level are
taken outside of the device. The protective mechanisms can either be in the
permanent installation or between the permanent installation and the device.
Overvoltage category II
•Devices that are intended to be connected to the permanent electrical
building installation (such as a household appliances or portable tools).
Overvoltage category III
•Devices that are a part of the permanent installation and other devices where
a higher degree of availability is required. This includes the distributor panels,
power switches, distribution systems (including cable, busbars, distributor
boxes, switches and outlets) that are part of the permanent installation,
devices intended for industrial use, and devices that are continually connected
to the permanent installation (such as stationary motors).
Overvoltage category IV
•Devices that are intended to be used on or near the power feed in a building‘s
electrical installation – ranging from the main distribution to the mains power
system. This includes electrical meters, surge protection switches and ripple
control equipment.
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W.23
Technical appendix/Glossary
Glossary: Relay modules
Switch-off delay
Switch-on delay
Switching capacity
Switching current
Switching cycle
Switching voltage
Switching voltage, max.
Usual time interval from switching off the coil voltage of a switched relay until
the first opening or closing of the last output circuit (not including the bounce
time).
Usual time interval from switching on the coil voltage of an idle relay until the
first opening or closing of the last output circuit (not including the bounce time).
Coil voltage: pulse or square wave excitation, with rated voltage at the reference
temperature of 20 °C.
The calculated product of the switching current and switching voltage (in W for
DC, in VA for AC).
Current strength required to switch a relay on or off.
A single occurrence of the sparkover and subsequent reset.
The voltage between the switch contacts (contact elements) that is applied prior
to the closing or after the opening of the contact (DC for DC voltage; AC for AC
voltage).
The maximum allowable voltage between the contact elements prior to closing
and after opening a relay contact.
T
Test button, manual operation
Transients
Type code
For operating the relay manually: the test button is used only for test purposes
during the initial commissioning and testing of equipment. The test button
is not appropriate for normal on/off switching and has not been designed for
continuous electrical load while in the mechanical ON position. The button
should also not be used as a switch. Before pressing the test button, make sure
there is no danger posed by loads or other connected devices. Only trained
personnel should operate the test button. This prevents the facility‘s safety
mechanisms from being circumvented and the insulation requirements from
being compromised.
Transients are short-term current or voltage spikes caused by interferences
in the mains supply grid or by electromagnetic radiation. On the control side
of the optocoupler these can trigger unintended switching operations or, in
extreme cases, cause the destruction of the component. In an AC-driven load
circuit, transients can lead to the maximum permissible forward voltage being
exceeded, which in turn can activate the thyristor or Triac. As these operate at
quite high switching speeds, even very short pulses can suffice to falsely trigger
a switching operation.
The ordering scheme gives you the choice of many variations, but not all
possible variations in the current product line are established as standard types
(building codes, ordering designations). Special versions are available on request
to meet customer specifications.
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Technical appendix/Glossary
Glossary: Relay modules
Type of contact
Type of insulation
DIN 41020 describes various switching functions of the relay contacts and the
specific contact configurations, constructions and descriptions based on these
functions.
•NO (normally open) contact: contact which is closed in the relay‘s operating
position and open in its rest position.
•NC (normally closed) contact: contact which is closed in the relay‘s rest
position and open in its working position.
•CO (change-over) contact: a CO consists of an NO and an NC contact with a
common terminal (root) connection. When changing the switch position, first
the previously closed contact opens and then the previously opened contact
closes.
Note: A temporary electrical connection may be established between the NC
and NO contacts due to the switch-off arc.
Quality of the insulation system, depending on the design and
application conditions:
•Functional insulation: insulation between live components – necessary so the
relay functions properly.
•Basic insulation: insulation of live parts to provide basic protection against
electrical shock.
•Doubled insulation: consisting of a base insulation and additional insulation.
•Reinforced insulation: a single “enhanced“ insulation of active components,
which ensures the same protection against electric shock as doubled
insulation. The doubled insulation is composed of a base insulation and an
additional insulation; the extra insulation protects against electric shock if the
basic insulation fails.
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W.25
Technical appendix/Glossary
Glossary: Relay modules
U
Usage category according to
EN 60947 (mechanical relays)
AC1:
AC14:
AC15:
DC1:
DC13:
non-inductive or slightly inductive load, such as heating elements
small electro-magnetic loads (< 72 VA), such as mini-contactors
small electro-magnetic loads (< 72 VA), such as power contactors
non-inductive or slightly inductive load, such as heating elements
electro-magnetic loads, such as solenoid valves
W
Wash resistant
Withstand test voltage
Wash-resistant relays can withstand a washing process. During the wash
process, none of the cleaning agent should be able to penetrate inside the relay.
The voltage applied to a device under specific test conditions which causes no
breakthrough or flash-over of the test piece.
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W.27
Technical appendix/Glossary
Technical appendix/Glossary
Technical appendix: Solid-state relays
Definition / mode of operation
Opto modules – mode of operation
Opto modules are electronic components for switching load
circuits by means of a control circuit. On the one hand this
allows applications with different performance ratings to be
operated by relatively low switching currents. And on the
other electrical isolation*) between control and load circuits
is provided to assure protection of components should a
malfunction occur.
In contrast to electromechanical relay modules opto modules
do not have any mechanical parts that are prone to wear. To
enable the switching operation a light signal is triggered via
an LED in the control circuit that causes a light-sensitive
semiconductor receiver to complete a connected load circuit.
Transmitter (LED) and receiver (for example a
phototransistor) are embedded in a light conducting plastic
material and ­encased in a light-proof casing that protects
against outside influences.
Two design types are differentiated:
Face-to-face design with LED and transistor mounted
across from each other with direct light contact
Coplanar design with LED and transistor on the same level.
In this case the beam of light is transferred by reflection
according to the principle of fibre-optics.
Opto module
Transmitter
(LED)
Receiver
(Transistor)
Control circuit
Load circuit
Face-to-face
Coplanar
Transmitter (LED)
Transmitter Receiver
(LED) (Transistor)
Receiver
(Transistor)
Opto module
The voltage, which can be applied to the opto output i­tself,
is restricted by the sensitivity of the semiconductor r­ eceiver
(phototransistor). In applications in which only low ­currents
or voltages are required in the load circuit it is possible to use
the component without an additional auxiliary circuit in an
opto module.
Control circuit
Load circuit
Optocoupler
Solid-State Relay
Control circuit
Optocoupler
Switching amplification
W
Solid-state relay
In order to switch higher currents it is necessary to make
­adaptations to accommodate the different performance
levels of the phototransistor and the load circuit (switching
amplification).
Modules other than optos equipped with a switching
amplifier are called solid-state relays (SSR).
Load circuit
* Refer to page W.36 in the Glossary for a detailed explanation of this term.
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Technical appendix/Glossary
Technical appendix: Solid-state relays
Basic functions
Opto modules and solid-state relays are generally used in the
following fields of applications:
Potential isolation
Many applications require that the control circuit is
electrically isolated from the load circuit. This primarily
protects the control level from interference from the field,
such as:
Potential isolation
• Interference currents e.g. from earth and ground loops*)
•Interference pulses e.g. from inductive effects of
transients*)
The separation of the control and load circuits in the ­opto
module provides the required isolation.
However, this must withstand an isolation test of at least
2.5 kV in all opto modules and solid-state relays.
To guarantee isolation it is necessary that a minimum of
3 mm clearance and creepage distance*) be maintained in
all components.
Signal conditioning
The separation of the load and control circuits, in
conjunction with the variety of options this offers to
configure both circuits separately, means that opto modules
are often used for signal conditioning purposes.
This allows the different electrical potentials of signals
from the control and load circuits (for example sensors and
control) to be equalised.
Test
voltage
min.
2.5 kV
Clearance and creepage
distance min. 3 mm
Signal conditioning
120 V AC
24 V DC
Switching amplification
Applications with current and voltage values that exceed
the capacity of the phototransistor require an auxiliary
circuit on the output side of the opto module for switching
amplification ­purposes. During the switching operation
the opto module LED activates a base current in the
phototransistor. This activates a second semiconductor
(transistor, thyristor) selected to meet application
requirements which then becomes conductive for the load
­current.
W
* Refer to page W.36 in the Glossary for a detailed explanation of this term.
W.29
Control circuit
The input circuits (control circuit)
Control circuit
Auxiliary circuit
Most industrial applications cannot be connected directly
to an opto module, generally requiring voltage regulation by
means of series-connected resistances or capacitors.
To obtain exact-as-possible switching points a Schmitt
Trigger*) can be used to assign the control signals an
unambiguous s­ tatus (0 - 1) when moving from high to low or
low to high, which is then passed on to the opto module.
Voltage regulation
Input configuration
Protective circuit
Technical appendix/Glossary
Technical appendix: Solid-state relays
Depending on the design, all Weidmüller opto modules
and solid-state relays are equipped with suitable protective
devices (varistors, diodes) and filters to protect against
­interference pulses from the control circuit.
DC input:
An additional reverse-polarity protection diode guarantees
protection against the opto module being destroyed if the
control voltage is incorrectly wired. The switching status of
the control circuit is signalised by a status indicator.
DC input
AC/DC input:
A rectifier with smoothing capacitor is connected in series
for AC control voltages. Reverse polarity protection for
DC current is not necessary. The following construction
corresponds to a DC circuit.
Due to the smoothing capacitor the switching frequency of
AC control signals is fundamentally less than half the mains
­frequency. A higher switching frequency would result in the
­control signal being constantly switched through in rhythm
with the mains frequency.
The advantage of being able to choose between an AC or a
DC current input contrasts with the disadvantage that the
smoothing capacitor also restricts the switching frequency
of the DC control signal.
W
AC input:
The circuit diagram corresponds in principle with an AC/
DC circuit. Instead of series resistors it is possible to use
capacitors to regulate the voltage in a purely AC operation.
In contrast to resistors there is no power loss with capacitors
and as a result no heat that needs to be dissipated.
Control circuit
AC/DC input
Control circuit
AC input
Control circuit
* Refer to page W.36 in the Glossary for a detailed explanation of this term.
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Technical appendix/Glossary
Technical appendix: Solid-state relays
Load circuit
Protective circuit
Protective circuit
Protective circuit
Protective circuit
Load circuit
Interface circuit
Load circuit
3-wire DC output
With a 3-pole DC connection an auxiliary voltage assists
the output circuit to control the amplifying transistor more
precisely. Several applications also require this auxiliary
voltage for short-circuit protection in the interface or
protective circuitry.
AC output:
To activate AC switching and control devices a
semiconductor is connected on the load side of the opto
module component to switch the AC voltage (TRIAC or
thyristor).
Load circuit
2-wire DC output
It is possible to connect AC or DC loads subject to the output
circuit having corresponding amplifier semiconductors.
DC output:
With a 2-pole DC output the connection terminals are to
be considered in the same manner as with a conventional
switch. All that is required is that care is taken to observe the
predetermined polarity.
Interface circuit
The same applies to continuous current. Exceeding this value
too often can result in premature wear-out and destruction of
the opto modules semiconductor.
As a direct correlation exists between the current and
ambient temperature a derating curve*) is provided for all
opto modules and solid-state relays.
Overvoltages are shunted by protective devices such as
diodes or varistors.
To prevent damage caused by current spikes (for example
starting or off pulses) some modules are equipped with a
power boost*) which is capable of carrying higher levels of
current than the maximum stated for a short period of time.
Load circuit
Interface circuit
As a rule, an operating voltage range is stated for the rated
switching voltage of opto modules and solid-state relays (for
example 5 ... 48 V DC); it is not permitted to exceed or fall
below this value.
Switching amplification
Output circuit
Interface circuit
The output circuit (load circuit)
out
AC output
W
* Refer to page W.36 in the Glossary for a detailed explanation of this term.
W.31
Technical appendix/Glossary
Technical appendix: Solid-state relays
Switching amplification
The phototransistor of the opto module has a low current
and voltage rating. As a consequence, an additional
semiconductor element is accessed for larger output
loads that is capable of switching the corresponding rated
switching voltages and rated switching currents.
Switching amplification
Bipolar Transistor (DC)
Used for low currents (0.5 A).
The bipolar transistor has short response times, which
makes high switching frequencies possible as a result.
Transistor
MOSFET
TRIAC
MOSFET (DC)
Used for high load currents (up to 10 A).
The low contact resistance of the MOSFET create only very
small leakage currents (< 10 µA) with low power loss.
Triac (AC)
A Triac combines the functional principle of antiparallel
­connected thyristors in a single component.
The mode of function of a thyristor is comparable with that
of a one-way diode. Therefore, an opposing parallel circuit
­configuration consisting of two thyristors is used for AC
currents.
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Technical appendix/Glossary
Technical appendix: Solid-state relays
Switching diverse loads
The different types of loads resulting from the possible
applications (resistive, inductive, capacitive loads) represent
a particular challenge for the load circuit arrangements of
opto m
­ odules and solid-state relays. With reference to the
planned application, one should always be aware of what
effects the loads will have on the modules and how the
corresponding ­protective devices have to be designed.
Generally speaking, it must be ensured that the power
loss at the amplifier semiconductor does not exceed the
permitted limit for any length of time. This would lead to
overheating and finally to the destruction of the component.
Switching capacitive loads
Capacitive loads occur if there is a capacitor in the load
circuit. The effect is similar to to a short-circuit at the point of
activation and results in a high inrush current.
If this current is not limited it can lead to the destruction of
the amplifier semiconductor.
Switching on
capacitive loads
Amperage
Switching resistive loads
Due to the fact that in resistive loads the amperage in
the load circuit and the voltage across the amplifier
semiconductor are inversely proportional to one another
these do not generally pose a problem. It is sufficient to
adhere to the maximum ­current and voltage ratings of the
modules.
Switching glow lamps represents a special case. It is
possible that when being switched on that overcurrents 10
to 20 times the operating current can occur due to the low
cold resistance.
Therefore, the components must be designed to cope with
these possible overloads situations which correspond to the
­effect of capacitive loads.
Operating current
0A
Turning off
inductive loads
Switching inductive loads
Problems can arise with inductive loads when they are being
switched off, in particular when coils are used in the load
circuit. The flow of current in the coil builds up a magnetic
field that suddenly collapses and creates a high induction
voltage.
This voltage spike has to be short-circuited via a diode
­connected in parallel (free-wheeling diode). However, the
time ­required leads to delayed release.
Time
Voltage
Switch-on point
W
Operating voltage
0A
Switch-off point
Time
W.33
Technical appendix/Glossary
Technical appendix: Solid-state relays
Protective measures
The construction of the opto module enables fast and
sensitive switching, however, the component is also more
prone to interference. For this reason, all Weidmüller opto
modules and solid-state relays are equipped with a variety
of measures to protect against overloading and interference
pulses.
Free-wheeling diodes (DC)
Free-wheeling diodes are used primarily to protect against
overvoltages, which occur through self-induction when
switching off inductive DC loads (electric motors, relay coils).
Voltage spikes are limited to the equivalent value of the
diode forward voltage and excess voltage is discharged via
the diode. However, this leads to a delay in the voltage drop
and as such also delays the switching operation.
Protective measures
Zener diode
Suppressor diode
Free-wheeling
diode
RC element
Varistor
Zener diode / suppressor diode (DC)
These function as normal diodes in the forward conducting
­direction. In the blocking direction they become low resistant
at a certain voltage (breakdown voltage).
High levels of overvoltages can lead to the destruction of the
zener diode / suppressor diode.
Varistor (AC/DC)
The functional principle of the varistor is also based on a
breakdown voltage, but with faster reaction times. This
allows higher levels of energy to be shunted, however,
these lead to the ­component aging. This in turn reduces
the breakdown voltage over time and increases the leakage
current.
RC-element (AC)
The RC element compensates voltage spikes by means
of a capacitor. Due to the charging and discharging
characteristics interference pulses are filtered out when the
voltage is rising and not first when overload is reached.
For this reason, RC elements are used to protect against
interference pulses and exclude faulty switching operations.
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W.35
Technical appendix/Glossary
Technical appendix/Glossary
Glossary: Solid-state relays
Glossary: Solid-state relays
A
AC
Approvals and testing marks
Refers both to alternating values (such as voltage or current) as well as to those
devices and variables which reference these devices. Specifications are valid for
50 Hz, unless otherwise indicated.
Testing approvals are independent confirmation from governmental or private
registration services and testing facilities. They certify that the product complies
with the relevant regulations and maintain the specified product characteristics.
Note: The ordering scheme gives you the choice of many variations, but not all
variations are established as standard types (order numbers). Therefore, they
may not be included in the list of approved relays. Technical specifications and
list of approved types are available on request.
CSA Canadian Standards Association, Canada
GL Germanischer Lloyd, Germany
TÜV Technical Monitoring Association, Germany
UL Underwriters Laboratories, Inc., USA;
UR Component Recognition Mark for the United States
cUR UL Component Recognition Mark for Canada
cURus UL Component Recognition Mark for the United States and Canada
cULus UL Component Listing Mark for the United States and Canada
VDE VDE testing location, Germany (advisory reports with production
monitoring)
C
CE
Abbreviation for Communauté Européenne (the European Community).
The CE marking is a way for the manufacturer to confirm that their product
complies with the relevant EC directives and the “essential requirements“
contained therein. The EMC Directive 2004/108/EC and Low Voltage Directive
2006/95/EC are currently binding.
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Technical appendix/Glossary
Glossary: Solid-state relays
Clearance and creepage distances
Continuous current
Cut-in (switch-on) voltage
Clearance and creepage distances are critical factors which influence the
insulation capability of electrical components. The creepage distance denotes
the minimum clearance that two live parts along a surface must have in order to
prohibit a flow of current across the insulating material at the specified operating
voltage.
In addition to the operating voltage, the choice of insulating material (material
group) and the protective measures to counteract pollution (pollution severity)
affect the creepage distance. The clearance distance denotes the minimum
direct clearance (through the air) that two live parts must have to one another in
order to prohibit a charge passing through the air (an arc). The expected surge
voltage (rated impulse voltage) forms the basis for calculating the distances. The
surge protection category and pollution severity are further factors that influence
dimensional design considerations.
Clearance distance
Housing contours
Creepage distance
Live, current-carrying parts
The current can be continuously conducted without exceeding the overheating
values under defined conditions.
The voltage level at which an opto module or solid-state relay is conductive.
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W.37
Technical appendix/Glossary
Glossary: Solid-state relays
D
Derating / derating curve
Refers to the electrical variables such as voltage or current (DC, DC voltage) that
are not dependent on time.
The continuous current is reduced at higher ambient temperatures; this is
shown using a derating curve (a load reduction curve). Current flow generates
heat, which increases as the current increases. Electrical components have an
upper temperature limit which limits their ability to function. The temperature
influencing the components is a combination of the ambient temperature and
the heat generated by the current. So to ensure that the limit temperature is not
exceeded, the current must be reduced when the overall temperature rises. The
derating curve depicts this relationship between the prevailing temperature and
the resulting maximum amperage with regard to the limit temperature.
Derating curve
Current strength
DC
Over the limit
Operating range
Temperature
Dimensions
Dimensions in millimetres.
Length
Width
Height
DIN rail
Dropout voltage
Unless otherwise noted, Weidmüller‘s products are built and tested for mounting
on DIN rail (rails according to TH35-7.5 / EN60175). Other installations (e.g.
TH35-15)may function but have not been tested or approved.
The voltage level at which an opto module or solid-state relay blocks itself.
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Technical appendix/Glossary
Glossary: Solid-state relays
E
Earth and ground loops
Denote the connection of two potentials via their earth or ground connection. A
potential difference between the earth or ground connection of two devices (for
example, a sensor and controller) that are directly wired to one another causes
current flow via the earth of the shared housing. These interference currents
can lead to different problems, for example in the acquisition of measurement
signals or when controlling actuators. When transmitting switching signals or
measurement signals using a device with electrical isolation between the control
and load circuits, it is important that a closed circuit via the earth or ground
connection can never occur – so that no interference currents are generated.
Earth and ground loops
Connection element
without galvanic isolation
Connection element
with galvanic isolation
F
Flammability according to UL
Indicates the flammability class according to the specification from UL 94
(Underwriters Laboratories, Inc., USA). Flammability tests according to
UL 94: for testing plastic materials and classifying the propagation/extinction
characteristics when the material burns. The UL 94 flammability classes which
are relevant to the relay are V-0, V-1, V-2 and HB.
G
Galvanic isolation
Potential-free isolation between electrical components. Electrical (or galvanic)
isolation means that no charge can flow from one circuit to another. There
is no conductive electrical connection between the circuits. The circuits can
nevertheless exchange electrical power or signals via magnetic fields, infrared
radiation or by charge displacements.
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W.39
Technical appendix/Glossary
Glossary: Solid-state relays
H
Standard conditions: annual average relative humidity > 75 % at an
ambient temperature of 21 °C, in 30 days, evenly distributed throughout the
year, and 95 % at ambient temperature w of 25 °C. On other days: occasionally
85 % at 23 °C. No icing or condensation is allowed - affects storage and/or
operation.
When storing or operating under other conditions, you must takes steps to avoid
temperature changes which could cause icing or condensation. Operating and
storage should be within the limits specified in the graphic.
Relative humidity (% RH)
Humidity / condensation
100
Environmental conditions
80
Area of usage
60 and storage
Tamb > 0 °
Avoid condensation
40
20 Tamb < 0 °
Avoid icing
0
-40 -20
0
+20
+40
+60
+80 +100
Ambient temperature [°C]
I
Impulse withstand voltage
Inductive loads
Input frequency
Insulating material group
Insulation according to EN 50178
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W.40
40
The highest withstand voltage of a specified shape and polarity that does not
lead to an insulation breakthrough or flash-over, under the specific conditions.
Refer to load category
The number of switching operations that occur in a specific unit of time. The
maximum switching frequency for medium loads may be higher than the value
specified for the nominal load, as long as the switching of the load does not
result in an increased temperature.
According to their CTI (comparative tracking index) values, the insulating
materials are categorised into one of the following four groups:
Group I 600 CTI
Group II 400 CTI < 600
Group IIIa 175 CTI < 400
Group IIIb 100 CTI < 175
The figures for the comparative tracking index, according to IEC 60112
(DIN IEC 60112 / DIN VDE 0303-1) are determined using special samples
prepared for this purpose with test solution A.
Specifications for insulation coordination with:
• Type of insulation
• Nominal voltage of the supply system
• Pollution severity level
• Impulse withstand voltage
• Surge voltage category
WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand
Technical appendix/Glossary
Glossary: Solid-state relays
L
Leakage current
Load category (solid-state relay)
The current on the load side of an opto module or solid-state relay that flows
towards the output stage while in a blocked state.
Classification of the load of a solid state relay, in accordance with EN 62314
LC A– resistive loads or minimally inductive loads
LC B– motor loads
LC C– electrical discharge lamps
LC D– incandescent filament lamps
LC E – transformers
LC F – capacitive loads
M
Max. switching current
Max. switching power
Mounting distance
Mounting position
The max. switching current indicates the maximum level of current that can be
switched.
The switching capacity is calculated as the product of switching voltage and
switching current (in VA for AC / in W for DC).
Distance between two adjacent components in parallel, uni-directional
positioning; or the proximity to other electrical components. Because of the
insulation requirements, you may need to increase the minimum distance
between the components or select a different positioning. These values refer to
components in “single-file arrangement”, unless otherwise indicated.
Also relevant for this definition:
•density of assembly: assembled with minimum mounting clearances; this
minimum distance is determined by the insulation requirements at 230 V AC
and/or mechanical requirements for the installation(e.g. use of sockets),
•individual installation: components are mounted with gaps so that there are
no thermal influences from adjacent components.
Mechanical and electronic relays can usually be installed in any position when
there are no qualifying limitations. To ensure the proper current flow and heat
dissipation, the connections must be properly contacted and the cross-sections
must be adequate. Several factors must be taken into consideration when
positioning: including the insulation requirements, heat dissipation and the
possible mutual magnetic influence.
N
Nominal control current
Nominal switching voltage
Nominal torque
Input current that is required, under specific conditions, to switch the output.
Voltage at the output - before the closing or opening of the contact.
The specified value for the torque of the screws (screw connection) must not be
exceeded.
O
Operating temperature
Permissible ambient temperature – relative to a specific relative humidity – at
which a product should be operated at nominal load.
W
W.41
Technical appendix/Glossary
Glossary: Solid-state relays
P
Packing unit
Plug-in cycles
Pollution severity level
Indicates the smallest amount (a pack, for example) or the quantity per carton.
Sockets and accessories are designed for 10 insertion cycles without electrical
load – unless otherwise specified.
Pollution (contamination) includes any foreign material – whether it is solid,
liquid or gaseous (ionised gas) – which is capable of influencing the surface
resistance of the insulating material. The standard defines four degrees of
pollution. Their numbering and classification is based on the quantity of the
contaminant or the frequency with which the contaminant reduces the dielectric
strength and/or surface resistance.
Pollution degree 1:
•there is no contamination or only dry occurrences of non-conductive pollution.
The pollution has no influence.
Pollution degree 2:
•there is only non-conductive pollution. Temporary occurrences of conductivity
caused by condensation may also occur.
Pollution degree 3:
•conductive pollution or dry, non-conductive pollution that can become
conductive due to condensation is likely to occur.
Pollution degree 4:
•the contamination leads to continual conductivity which can be caused by
contaminants such as conductive dust, rain or snow.
Power rating
Note:
Pollution degree 3 is typical for industrial environments and similar settings;
pollution degree 2 is typical for households or similar.
The nominal value of the power that is converted when the nominal control
voltage is applied.
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Technical appendix/Glossary
Glossary: Solid-state relays
Protection degree - (IEC 60529), IP
The degree of protection afforded by an enclosure is shown using the IP Code
(IP = International Protection). This information is equally relevant for industrial
relays and accessories.
For the purposes of “component” relays (such as PCB relays), refer to the RT
protection degree.
A two-digit number is used to indicate the protection provided against touch
contact and foreign bodies (the first number) and against humidity (the second
number).
Protection levels for touch contact and foreign bodies (the first digit): the first
digit indicates the degree of protection inside the housing against ingress of
solid foreign objects and against any human access to hazardous parts.
0: no protection
1: protection for large body parts with a diameter > 50 mm
2: finger protection (diameter 12 mm)
3: tools and wires (diameter > 2.5 mm)
4: tools and wires (diameter > 1 mm)
5: full protection against touch contact
6: full protection against touch contact
Degree of water protection (the second digit)
The second digit indicates the degree of protection provided against the ingress
of water into the housing:
0: no protection
1: protection against vertically falling drops of water
2: protection against water droplets falling diagonally (up to 15°)
3: protection against water spray that falls at an angle up to 60° from vertical
4: protection against splashed water from all sides
5: protection against water jets
6: protection against powerful jets of water (flooding)
7: protection against sporadic submersion
8: protection against constant submersion
R
Rated control voltage
Rated voltage (Isolation)
ROHS Directive 2002/95/EC
The nominal value of the sparkover (response) voltage for the solid-state relay
Voltage level at which the insulation specifications are measured – this is the
basis for sizing the creepage distance.
RoHS stands for the “Restriction of (the use of certain) Hazardous Substances”
According to the EU Directive 2002/95/EC from 01.07.2006, all EU member
nations must forbid the use of hazardous substances which damage human
health and the environment (including mercury (Hg), cadmium (Cd), lead (Pb),
hexavalent chrome (Cr6), polybrominated biphenyls (PBB) and polybrominated
diphenyl ethers (PBDE)) in new electrical and electronic devices.
The term “compliant” means that the entire product group meets the
requirements of the RoHS Directive. The maximum weight percentage in
homogeneous materials is below the limits specified in the directive: 0.1 %
for lead, hexavalent chrome, mercury, PBB and PBDE; and below 0.01 % for
cadmium, or qualifies for an exemption in accordance with the annex to the
RoHS Directive .
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Technical appendix/Glossary
Glossary: Solid-state relays
S
Schmitt trigger
Self-heating
Short-circuit-proof
Solid-state relay
Status indicator
Storage temperature
Strictly speaking, switching voltages for digital control follow an analogue
pattern (no changeover from 0 to 1 between maximum and minimum voltages).
This can lead to inaccuracies in switching results, above all when signals
are being transmitted rapidly. In this case, the Schmitt trigger functions as a
threshold switch. If the threshold voltage set in the Schmitt Trigger is exceeded,
the output assumes the maximum possible output voltage (logic 1). Otherwise it
is the minimum possible output voltage (logic 0). The Schmitt trigger is normally
designed with a hysteresis. The threshold voltage set for activating is higher
than that for deactivating. That prevents small irregularities from triggering a
switching operation.
The heating up of an operational component based on the power loss from the
relay coil and the switching contacts. For semiconductors (such as a transistor
output), the increase in heat is caused by power loss.
Shuts off the output stage of a solid-state relay when there is a short circuit, in
order to prevent the output circuit from being damaged.
Semiconductor relay that uses an electronic component as the switching
mechanism, such as a transistor, thyristor or Triac. Semiconductor relays
function with no wearing parts and have a high switching frequency compared
with normal relays. But compared to normal relays they have a higher power
loss in the load current circuit. An integrated optocoupler is used for galvanic
isolation.
The status LED display on the input control circuit can differ from the state of the
contact circuit in the following cases:
• when there are welded-together or broken switching elements,
• when there is interference or residual voltages on the signal lines.
A reduction in light intensity may result when the ambient temperatures are
greater than 50 °C.
The permitted ambient temperature, related to a specific relative humidity level,
for which the product should be stored while in a current-free state.
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Technical appendix/Glossary
Glossary: Solid-state relays
Surge voltage category
The overvoltage category of a circuit or an electrical system is numbered
conventionally (from I to IV) and is based on limiting the assumed surge voltage
values that can occur in a circuit (or electrical system with different mains
voltages). The assignment to a particular overvoltage category is dependent on
the measures which are used to influence (reduce) the surge voltages.
Overvoltage category I
•Devices that are intended to be connected to the permanent electrical
building installation.
The measures for limiting transient surge voltages to the proper level are
taken outside of the device. The protective mechanisms can either be in the
permanent installation or between the permanent installation and the device.
Overvoltage category II
•Devices that are intended to be connected to the permanent electrical
building installation (such as household appliances or portable tools).
Switch-off delay
Switch-on delay
Overvoltage category III
•Devices that are a part of the permanent installation and other devices where
a higher degree of availability is required. This includes the distributor panels,
power switches, distribution systems (including cables, busbars, distributor
boxes, switches and outlets) that are part of the permanent installation,
devices intended for industrial use, and devices that are continually connected
to the permanent installation (such as stationary motors).
The usual time interval from switching off the control voltage of a conducting
solid-state relay to the time when the output circuit is blocked.
The usual time interval from switching on the control voltage of a closed solidstate relay to the time when the output circuit is conductive.
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Technical appendix/Glossary
Glossary: Solid-state relays
T
Transients
Type of insulation
Transients are short-term current or voltage peaks caused by interferences
in the mains supply grid or by electromagnetic radiation. On the control side
of the optocoupler these can trigger unintended switching operations or, in
extreme cases, cause the destruction of the component. In an AC-driven load
circuit, transients can lead to the maximum permissible forward voltage being
exceeded, which in turn can activate the thyristor or Triac. As these operate at
quite high switching speeds, even very short pulses can suffice to falsely trigger
a switching operation.
Quality of the insulation system, depending on the design and application
conditions:
•Functional insulation: insulation between live components – necessary so the
relay functions properly.
•Basic insulation: insulation of live parts to provide basic protection against
electrical shock.
•Doubled insulation: consisting of a base insulation and additional insulation.
•Reinforced insulation: a single “enhanced” insulation of active components,
which ensures the same protection against electric shock as doubled
insulation. The doubled insulation is composed of a base and an additional
insulation; the extra insulation protects against electric shock if the basic
insulation fails.
V
Voltage drop
The reduction of voltage via the opto module, when measured under full load
W
Withstand test voltage
The voltage applied to a device under specific test conditions which causes no
breakthrough or flash-over of the test piece.
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Notes
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WAUS Solid State and Electromechanical Relays Core Assortment Catalogue 2014 Australia & New Zealand