OSM15/25_Al_4
SEL-651R® COMPATIBLE SERIES
Outdoor Circuit Breaker / Triple-Single Recloser
15 kV, ...16 kA, ...630 A
27 kV, ...12.5 kA, ...630 A
Application Guide MAN5002238
Revision 2
This application guide contains information necessary for installation, commissioning
and operation. It is absolutely necessary for the proper and safe use of the OSM to
read this application guide carefully before starting and to adhere to the instructions
as well as relevant regulations.
Safety First
· Installation, operation and maintenance shall only be carried out by trained and experienced personnel who are familiar with the equipment and the electrical
safety requirements.
· During installation, commissioning, operation and maintenance of the equipment the relevant legal regulations (such as NFPA 70E, CEC, ANSI), accident prevention
regulations and the connecting conditions of the electric utilities shall be followed.
· Take note that during operation of the OSM certain parts are subject to dangerous voltage. Mechanical parts, also remote-controlled, can move quickly. Failure to comply may result in death, severe personal injury or damage to
equipment.
· Pay attention to the hazard statements located throughout this manual.
· The operating conditions of the OSM shall comply with the technical data specified in this manual.
· Personnel installing, operating and maintaining the equipment shall be familiar
with this manual and its contents.
For special configurations please contact Tavrida Electric North America.
Table of Contents
1.Introduction
•
•
•
•
•
1
Applicability ..........................................................................................................................................7
Hazard Statements..................................................................................................................................8
Safety Instructions..................................................................................................................................8
Definitions..............................................................................................................................................9
General .................................................................................................................................................9
2.OSM Recloser
2
•
•
•
•
•
•
•
•
•
•
3
4
5
Overview .............................................................................................................................................. 11
Vacuum Circuit Breaker - VCB................................................................................................................ 12
Protective Tank..................................................................................................................................... 14
Main Circuit Bushings........................................................................................................................... 15
Bushing extensions............................................................................................................................... 15
Cable Clamps......................................................................................................................................... 16
Current Transformers............................................................................................................................. 17
Mechanical Trip..................................................................................................................................... 18
Mechanical Position Indicator............................................................................................................... 18
Junction Box........................................................................................................................................ 18
3.Installation: Primary Part
6
• General, Preparation............................................................................................................................. 20
• Bracket Mounting.................................................................................................................................. 20
• Main Terminal Connection..................................................................................................................... 21
4.Installation: Secondary Part
•
•
•
•
Secondary Connections of the OSM........................................................................................................ 23
Auxiliary Circuit Terminations................................................................................................................ 23
Protective Earthing............................................................................................................................... 25
Fitting of the Manual Trip Hook............................................................................................................. 25
5.Commissioning, Maintenance
•
•
•
•
•
General................................................................................................................................................. 27
Commissioning Primary Part.................................................................................................................. 27
Commissioning Secondary Part.............................................................................................................. 27
Maintenance......................................................................................................................................... 27
Non-conformity..................................................................................................................................... 27
6.Receiving and Inspection
• Packing ................................................................................................................................................ 30
•
•
•
•
4
Transport ............................................................................................................................................. 31
Unpacking, GoodsReceived Control....................................................................................................... 31
Rating Plate, Seal................................................................................................................................. 32
Storage................................................................................................................................................. 32
7.Product Line
• Outdoor Circuit Breaker(OSM)............................................................................................................... 34
• Accessories........................................................................................................................................... 34
8.Dimensions and Weights
•
•
•
•
Dimensions and Weights of the OSM...................................................................................................... 36
Dimensionsof the OSM Earthing Provisions........................................................................................... 36
Dimensions of the Mounting Provisions................................................................................................. 36
Standard ANSI Mounting Hardware ....................................................................................................... 37
9.Circuit Diagrams
10. Technical Data
• Outdoor Circuit Breaker (OSM)............................................................................................................... 41
• Ambient Conditions............................................................................................................................... 43
11. Legal Information
•
•
•
•
•
•
•
•
Warranty............................................................................................................................................... 45
Quality Regulations............................................................................................................................... 45
Complaints and .................................................................................................................................... 45
Transport Damage................................................................................................................................. 45
Environmental Friendliness.................................................................................................................... 46
Non-conformity Report.......................................................................................................................... 46
Liability................................................................................................................................................ 46
Copyright.............................................................................................................................................. 46
7
8
9
10
11
12
13
14
5
Introduction
1
6
Applicability
This application guide applies to a range of Outdoor Switching Modules (OSM) manufactured by Tavrida Electric that
work specifically with the Schweitzer Engineering SEL-651R® Recloser Control:
Model Type - 15 kV
Model Type - 27 kV
OSM15_Al_4(630_150)
OSM25_Al_4(630_150)
1
The OSM_Al_4(630_150) series are compatible only with the Schweitzer Engineering SEL-651R®. Chapters in this manual
refering to mounting, primary connection and operation of the OSM; for all information relating to the operation, mounting
and functionality of the SEL-651R® control please consult the applicable manual provided by Schweitzer Engineering®.
The model number is shown on the equipment rating plates. If your equipment does not correspond to the numbers in the
table above then this manual is not applicable. Please contact your nearest Tavrida Electric office or distributor for the
correct documents.
Every care has been taken in the preparation of this manual. However please note that not all the details or variations
in the equipment or process being described can be covered. Neither is it expected to address all contingencies
associated with the installation and operation of this equipment. For any further information please contact your nearest
Tavrida Electric office or distributor.
7
Hazard Statements
This manual contains three types of hazard statements, as follows:
DANGER: Indicates an imminently hazardous situation that, if not avoided, will result in death or serious injury.
WARNING: Indicates a potentially hazardous situation that, if not avoided, could result in death or serious injury.
CAUTION: 1
Indicates a potentially hazardous situation that, if not avoided, could result in personal injury or equipment damage.
Safety Instructions
General hazard statements applying to this equipment are described in this section. Statements relating to specific
tasks or procedures are located throughout this manual.
8
DANGER: Contact with hazardous voltage will cause death or severe personal injury. Contact with
Recloser or Control Cubicle terminals should only be undertaken when equipment is
isolated from applicable sources of voltage.
WARNING: This equipment is not intended to protect human life. Follow all locally approved safety procedures when installing or operating this equipment. Failure to comply may result in death or severe personal injury.
WARNING: Before working with equipment described in this manual carefully read and understand the contents of this manual. Improper handling, installation, operation or maintenance can result in death, severe personal injury or damage to equipment.
WARNING: Power distribution equipment must be properly selected for the intended operation. It must be installed and used in conjunction with all relevant safety procedures. Failure to comply can result in death, personal injury or equipment damage.
Definitions
The following abbreviations are used in this operating manual:
AR CM CO SM LED MCB Automatic reclosing
Control module
Close open cycle
Switching module
Light emitting diode
Miniature circuit breaker
NC Normally closed contact
NO Normally open contact
OSM Outdoor Circuit Breaker
PCD Pole center distance
SCADA Supervisory control and data aquisition
VCB Vacuum circuit breaker
VI Vacuum interrupter
1
Make time
The make time is the time period from the energising of the closing circuit to the time when the current begins to
flow in the first pole.
Closing time
The closing time is the time period from the energising of the closing circuit to the time when all three poles have
contact.
Pre-arcing time
Interval of time between the initiation of current flow in the first pole during a closing operation and the instant
when the contacts touch in all poles for three-phase conditions and the instant when the contacts touch in the
arcing pole for single-phase conditions.
Opening time
The opening time is the time period from energising of the closing circuit up to the time when all the switching
poles are separated.
Break time
The break time is the time period from the energising of the closing circuit up to the time when the arcs of all the
poles are extinguished.
Open-close time (during AR)
Interval of time between the instant when the arcing contacts have separated in all poles and the instant when the
contacts touch in the first pole during a reclosing cycle.
Dead time (during AR)
Interval of time between final arc extinction in all poles in the opening operation and the first reestablishment of
current in any pole in the subsequent closing operation.
General
The Outdoor Switching Module (OSM) is designed for use as an automatic
circuit recloser or sectionalizer on overhead distribution lines and as
an outdoor circuit breaker in distribution substation applications for
voltages up to 27 kV.
Figure 1
9
OSM Recloser
2
10
Overview
Tavrida Electric’s OSM provides the following advantages:
Environmentally friendly
The OSM is an air insulated outdoor circuit breaker with a patented combined insulation that makes it the
environmentally friendly option - no oil or SF6 despite its compact size.
The reliability of the design is proven by the worlds‘ most severe climate and pollution conditions test at the Koeberg
Insulator Pollution Test Station (KIPTS) in South Africa.
2
Smallest Dimensions and lowest Weight
Tavrida Electric‘s innovative vacuum circuit breaker and the robust aluminium tank contribute to the light weight
of the OSM - not more than 76kg - making it the most light weight outdoor circuit breaker in its class, greatly
simplifying shipping, handling and installation.
Highest Availability
30,000 C-O operations at rated current and up to 200 operations with full short circuit breaking current without any
maintenance.
Optimized Measurement
Built-in voltage sensors on all six poles and three current transformers guarantee high accuracy over a wide
measurement range.
1
2
1. Terminal
2. Six HV bushings
3
4
5
6
3. Current transformers built into the bushings
4. Vacuum circuit breaker
5. Protective tank
6. Mechanical position indicator
7. Manual trip operation mechanism
8. Support rail
7
8
Figure 2
General arrangement of the OSM
11
Vacuum Circuit Breaker - VCB
Each OSM is equipped with Tavrida Electric’s innovative vacuum circuit breaker (VCB). Tavrida Electric has simplified
the mechanical structure of the vacuum circuit breaker to the greatest possible degree. It uses three single-coil
magnetic actuators, one per pole. All switching elements are assembled along a single axis - all mechanical
movements are therefore direct and linear. The three actuators are mounted in a steel frame and mechanically
linked by a synchronizing shaft. Optimal selection of all components makes these the most compact vacuum
circuit breakers in the world.
Failure of critical components, such as
· mechanical latches
· gears, chains, bearings and levers
· tripping and closing coils
· spring charging motors
...are completely avoided.
2
Maximizing the benefits of the drive mechanism requires vacuum interrupters that combine small dimensions with an
extraordinarily long mechanical and electrical lifespan. The use of a predefined axial magnetic field shape provides
even distribution of current density and consequently substantial improvement of vacuum interrupting performance.
Carefully selected contact material and expert contact design as well as optimized movement and switching speed
result in bounce-free closing.
Substantial increase in mechanical lifespan as well as size reduction of Tavrida Electric vacuum interrupters was achieved
by utilizing metal bellows consisting of welded single discs as opposed to the conventional use of folded steel.
The result is 30,000 C-O cycles at rated current or up to 100 operations at full short-circuit breaking current without
the need to replace or adjust any parts of the vacuum circuit breaker.
Tavrida Electric´s vacuum circuit breaker are entirely maintenance free over a total life expectancy of at least 30 years.
Vacuum Circuit Breaker (VCB)
1. Upper terminal
2. VI
1
3. Lower terminal
4. Movable contact with bellows
5. Flexible junction shunt
2
3
4
15
5
6. Drive insulator
7. Opening and contact pressure springs
8. Magnetic actuator (complete module)
9. Armature
10. Synchronizing shaft
11. Actuator coil
12. Interlocking pins
6
7
14
13
12
11
10
9
8
13. Auxiliary contacts
14. Frame
15. Support insulator
Figure 3
View into the VCB
12
Closing
Closing operation is possible only if the manual trip hook is in the upper position. In the open position the contacts are kept open by the force of the opening springs. To close the contacts the coils of the magnetic actuators are excited by a current impulse of the close capacitors of the CM. As a result the contacts close, while at the same time the opening springs are compressed. In the closed position the contacts are kept closed by means of the magnetic force only. The VCB maintains the closed position without mechanical latching also in case of a failure of the auxiliary power supply (Figure 4).
Opening
To open the contacts a current impulse in the reverse polarity derived from the opening capacitors of the
CM is injected in the coils of the magnetic actuators releasing the magnetic holding force. The compressed opening springs and contact pressure springs open the contacts (Figure 4).
Position main
contacts
Open position kept by
opening springs
VCB main contacts open
Trip impuls to VCB-coils
Trip command CM
(dry contact)
Start anchor movement
Switch off actuator
current for close operation
Manual Trip
When the manual trip hook is pulled down the synchronizing shaft is rotated. A force exceeding the
magnetic attraction forces of the ring magnet is applied to the armature, which subsequently starts to move. As the air gap increases, the opening springs and the contact pressure springs overcome the magnetic
holding force, and the vacuum interrupter opens.
VCB main contacts closed
Stop anchor movement
Close impuls to VCB-coils
Manual Closing
The VCB can only be closed electrically via the CM. In the case of a failure of auxiliary power supply the contacts can be closed using an alternative auxiliary power supply such as a battery. Mechanical closing
is not possible and leads to the destruction of the VCB.
Close command CM (dry contact)
Warning
2
Open
Closed
Actuator coil
current
0
Closed
Anchor travel
Open 0
Anchor velocity
0
0
20 40 60 80
100 120 140
160
Time (ms)
Figure 4
Typical oscillogram of VCB operation
13
Protective Tank
The OSM are constructed from an aluminium tank incorporating the vacuum circuit breaker with single coil magnetic
actuators. The protective tank consists of two main parts: The housing and the bottom protective cover riveted to the
housing. The OSM housing and the cover are made of a corrosion resistant aluminium alloy. Water-tight aluminium
rivets are used to secure the cover. The tank is powder coated in light grey (RAL 7038). The tank including the
control cable cover provides IP65 degree of protection.
Four threaded holes (M12x30) on each side of the tank allow mounting equipment for pole or substation
installation to be fitted. Two of these threaded holes are used to install the set of lifting lugs on the tank.
The earthing provision (M12x30 threaded hole) is labelled for easy identification.
2
Provisions for Lifting lugs
Mounting Provisions
Figure 5
Earthing Provision
The tank supports provide a firm, stable support. The
supports are protection against chipping of the powder
coating during transportation. These supports shall be
removed after installation on the pole.
The protective tank is equipped with a ceramic breather
on the bottom.
The breather ensures that no dust or pollution ingress
occurs.
Figure 6
Ceramic Breather
Tank supports
Each OSM has the following rating plates:
· Serial number plate
· Rating plate
Figure 7
Rating plate
Serial number plate
14
Main Circuit Bushings
The main circuit bushings are manufactured from UV stable
polymer. They are covered by light grey silicon rubber bushing
boots which provide a creepage distance of 500 mm (19.7“)
for the 15.5 kV version and 860 mm (33.8“) for the 27 kV
version.
The bushings are indelibly marked by stickers with the
terminal designation X1, X2, X3 for the normal incoming
side and X4, X5 and X6 for the normal outgoing side.
2
Allowable wire pull at the connection point is 300 N.
Figure 8
Phase Marking
Bushing extensions
Bushing extensions of the OSM end with cylindrical rods with a milled surface profile for connection of cables. This
surface is necessary for placing of cable conductors. All parts are tin plated, which allows the connection of both
aluminum and copper conductors. A special clamp is used for connection of the cables.
NOTE: Bushing extensions shown for illustrative purposes only. Bushings on the OSM are not removable.
Bushing extension of 15.5 kV OSMs
Bushing extension of 27 kV OSMs
Figure 10
Figure 9
Each type of bushing extension has special inserts in the bull-end.
Inserts are initially fitted with plastic plugs that must be removed before connection of lugs.
Plastic plugs
Insert
Figure 11
Figure 12
15
Cable Clamps
The clamps allow reliable connection of cable
conductors from 35 to 240 mm2.
Clamp
Cleat
Nut
2
Plain washer
Spring lock washer
Figure 13
One clamp is enough for connection of cables
up to 90 mm2. Two clamps shall be used for
connection of cables 120 mm2 and more.
Figure 14
Nuts should be torqued to 20±1 Nm.
Figure 15
Figure 16
For protection of connections against
environmental conditions protective covers are
used.
If the diameter of connected cable is more than
10 mm the end of covers shall be cut off by a
corresponding length to provide tight stretching
of cover to cable.
Figure 17
Figure 18
16
In case of connection of cables with lugs the lugs shall
have 10.5 mm holes.
The range of connected cables with lugs is from 16 to
240 mm2. Bolts M10±25 at torque 30±2 Nm are used. In
this case protective covers are not placed.
Figure 19
2
NEMA two-hole and four-hole pads are available for
installation onto the OSM.
For both variants, align the pads with the bolt
connections as shown in Figure 20. Tighten the bolts to
25±2Nm.
Figure 20
NEMA pads installed
Current Transformers
The OSM15/25_Al_4 are equipped with protection
transformers in the bushings X1, X2, X3. The parameters
of the current transformers are specified in the Chapter
“Technical Data” on page 42.
Figure 21
Current transformer
17
Mechanical Trip
The mechanical trip hook is made of zinc anodised
steel and coated with powder polymer paint RAL1023
(Figure 22). When pulled down, the OSM is mechanically
locked in the OPEN position and electrically interlocked
against closing.
Until the hook stick lever is pushed back in the closed
position, the OSM remains locked and cannot be
electrically operated.
2
Figure 22
Manual Trip Hook
Mechanical Position Indicator
The position indicators are located under a protective
cover underneath the tank and are clearly visible from
the ground. The indicator colour is red when the
OSM is closed and green when it is opened.
Figure 23
Open / Close Marking
18
Installation:
Primary Part
7
19
General, Preparation
All local and national electrical codes, standards and practices must be adhered to during installation and
comissioning of this device. Only licensed and qualified personnel shall perform installation, commissioning and
operation.
7
Bracket Mounting
There are different mounting bracket sets available on request. They can be complimented with surge arrestor and PT
brackets. After mounting of the OSM its support rails should be removed, as shown in Figures 24 and Figure 25.
Application sample for round wooden pole
(Hardware type with two 1kVA transformers for loop schemes shown).
Figure 24
Mounting kit TNA1001140
20
Application sample for trapezoidal concrete pole
7
Figure 25
Mounting kit 2TES.029.002-01
Main Terminal Connection
Tools and lubricant required:
· Torque wrench
· 8mm hex socket head
· CG60 contact lubricant (Electrolube, http://www.electrolube.co.uk).
Procedure:
· If an existing cable shall be reconnected the old lubricant shall be removed from the contact surfaces.
· If an insulated cable is used the insulation of the connecting tip should be stripped by 70 mm (Figure 26).
Figure 26
End of connected tail
· Contact surfaces shall be first smoothed out
with a card file or metallic brush and the abrasive
dust shall be removed with rags. Then a thin layer of
the lubricant, with a thickness of not more than 1 mm,
shall be applied onto the connection tip.
· Connect stripped portion to the OSM terminal according to Figures 14 and 15.
· Tighten the nuts to 20 ± 1 Nm or bolt to 30 ± 2 Nm.
· For protection of connections against environments use
protective covers according to Figures 16, 17 and 18.
21
Installation:
Secondary Part
6
22
Secondary Connections of the OSM
The secondary connection of the OSM is realized with a Harting terminal type Han-42DD installed underneath the
OSM next to the position indicators.
6
Figure 27
The protective lid is intended for protection of the auxiliary circuit connections from water and dust. It is made from
aluminum and has a finish similar to the protective tank. They are supplied with a rectangular rubber seal to provide
the same IP65 degree of protection of the module.
Auxiliary Circuit Terminations
Pin arrangement of Harting terminal Han-42DD is as follows:
Figure 28
23
Termination of Harting terminals for OSM15_Al_4(630_150), OSM25_Al_4(630_150)
4
24
OSM Internal Designation
Note
Associated Harting Pin Number
Common
Auxiliary contacts common point
29
AS1.1
NC1(A) auxiliary common point
22
AS2.1
NC2(B) auxiliary common point
17
AS3.1
NC3(C) auxiliary common point
16
YH1.1
Yellow handle contact
15
SC1.1
Phase A-1 actuator coil
2
SC2.1
Phase B-1 actuator coil
4
SC3.1
Phase C-1 actuator coil
6
SC3.2
Phase C-2 actuator coil
7
SC2.2
Phase B-2 actuator coil
5
SC1.2
Phase A-2 actuator coil
3
CT1.1
Phase A CT
21
CT2.1
Phase B CT
28
CT3.1
Phase C CT
35
CT3.2...1.2
CTs common point
27
VS1.1
X1-1 voltage sensor
36
GND
X1-2 voltage sensor
30
VS2.1
X2-1 voltage sensor
37
GND
X2-2 voltage sensor
31
VS3.1
X3-1 voltage sensor
38
GND
X3-2 voltage sensor
32
VS4.1
X4-1 voltage sensor
40
GND
X4-2 voltage sensor
39
VS5.1
X5-1 voltage sensor
41
GND
X5-2 voltage sensor
33
VS6.1
X6-1 voltage sensor
42
GND
X6-2 voltage sensor
34
GND
Ground
19
GND
Ground
20
GND
Ground
25
GND
Ground
26
-
Not used
12
-
Not used
13
-
Not used
14
-
Not used
18
-
Not used
23
-
Not used
24
-
Reserved for 651R Multi-recloser interface
1
-
Reserved for 651R Multi-recloser interface
8
-
Reserved for 651R Multi-recloser interface
9
-
Reserved for 651R Multi-recloser interface
10
-
Reserved for 651R Multi-recloser interface
11
Protective Earthing
For personnel protection the metal housing of the OSM must
be connected according to the applicable regulations, such as
DIN VDE 0141, via the marked earth screw of the OSM to the
earth arrangement of the pole earth bus or substation. The earth
connections can be carried out with cables or flat bar (zinccoated
steel or copper). The cross section must be dimensioned such
that a worst-case fault current (short circuit) does not cause a
weakening of the earth connection (Figure 29).
Tighten the earthing bolt to 30 ± 2 Nm of torque.
Reference values for cross sections of earth connection (copper):
Duration of fault
current (1 s)
Max. temperature of
earth connection
Cross section
earth connection
<10 kA/10 kA
300 °C
35-70 mm² (1...3/0 AWG)
16 kA
300 °C
70-95 mm² (3/0...4/0 AWG)
OSM
Voltage
transformer
Power supply cable
OSM earthing
Umbilical
cable
4
Earth bus
SEL-651R
Control cubicle earthing
The area around the earth screws shall be cleaned before
providing the earth connections. After the occurrence of a short
Figure 29
circuit, the proper condition of the protective earthing must be
checked.
The OSM must be connected to earth ground via the stainless steel grounding bolt at the rear of the
OSM tank. All metal objects including mounting hardware should also be suitably grounded. Failure
to properly ground the OSM could lead to damage, mis-operation or high voltage potential on metal
Caution
components.
Installation of the Manual Trip Hook
Installation procedure:
· Install the hook after final OSM installation
· The M8 nut should be screwed on the threaded end of the hook
· The hook with the nut to be drawn up at the mounting seat checking comfortable orientation of the hook
· Holding the hook in this position, tighten the M8 nut to 10 Nm as shown in Figure 30.
Figure 30
Installation of manual trip hook
25
5
Commissioning,
Maintenance
26
General
Commissioning, operation and maintenance is only permitted for qualified and trained personnel.
Danger
Insofar as installation, commissioning or retrofit is carried out on energized equipment, the relevant safety regulations, including all national and local standards must be adhered to. Failure to comply could result in death or severe injury.
5
The OSM must always be tested and operated together with the appropriate recloser control. Individual Caution
testing is not possible and may lead to the destruction of the OSM.
Commissioning Primary Part
Tests at the end of the installation shall include at least:
· Operating conditions of OSM comply with requirements of the rating plate.
· Check for damage, remove dirt.
· Check bolted connections for fixing points and main terminals (also torques) according to page 16.
· Protective earthing according to page 25.
· Check the manual trip mechanism as follows:
Pull down the manual trip hook when the module is in the closed position. Manual trip hook shall remain in the lowered position and the module shall open. Initiate ”Close“ instruction. It shall be ignored, as in this position of the manual trip hook the actuator coils are isolated. Push the hook upward. It shall remain in the upper position. Initiate ”Close“ instruction again. This time it shall be executed.
Commissioning Secondary Part
Please consult the SEL-651R manual for commissioning procedures with the control.
Maintenance
Under normal operating conditions (see chapter ”Ambient conditions”, page 43) the OSM is maintenance free for a
period of at least 30 years or until it has reached the permissible number of operating cycles.
Non-conformity
If during installation, commissioning, operation or maintenance any non-conformity occurs, action shall be taken
in accordance with the non-conformity report on pages 47, 48.
27
5
28
6
Receiving and
Inspection
29
Packing
The OSM/TEL is delivered in a corrugated box with dimensions 810 (L) x 810 (b) x 890 (h) and a weight of not more
than 76 kg*. The following information are provided on the OSM packing cartons (Figure 33):
· Handling symbols for transport and storage of the delivery unit (Figure 31)
· Label 1 for manufacturers‘ product information (Figure 32)
· Label 2 for logistics data (Figure 34)
6
1
2
3
4
1. This side up
2. Fragile
3. Protect from rain
100
4. Max. weight on
the delivery unit
OSM15_Al_4(630_150)
5. Serial number
5
Figure 31
Figure 32
Handling symbols
Label 1 for manufacturers‘
and product information
Mark:
TEG-C-000111
Place of delivery:
Consignee:
Consignee:
Address
Address
Address
Address
Address
Phone:
Contact person
P/O Number:
Customer reference
Article:
Article description
Serial Number:
150218
TAVRIDA ELECTRIC AG, Wetterkreuz 3, 91058 Erlangen, Germany, Phone: 0049-9131-972079-0
Figure 34
Figure 33
Label 2 Logistics data
Packing carton
* In some cases the OSM will be delivered in a wooden crate, or packaged as a ‘single lift’ device with mounting
hardware, OSM and accessories pre-assembled. In these cases please check with the Tavrida shipping department for
weights and dimensions of the packaging.
30
Transport
The OSM shall be transported in the original packing only. The packed goods shall be handled in accordance with the
handling symbols. Loading procedures for OSM packing units shall be carried out only with fork lifts or cranes.
Lifting gear must not be attached to the bushings, use only lifting lugs attached to the side mounts with suitable
clearance of straps or chains. During transportation the OSM must not be exposed to impacts or dropped.
Danger
The OSM must NEVER be lifted or moved by the bushings. Failure to use approved lifting points could
cause damange to the bushing assemblies and compromise the safety of the device. Always use
appropriate lifting and mounting points per the information in this manual.
6
Unpacking, GoodsReceived Control
Before unpacking, please check the carton for damage and dampness. Removal of the products from the original
packing must be carried out with due care. Every OSM shall be inspected for shipping damage or missing components.
Unpacking procedure:
· Remove corrugated box
· Install lifting lugs
· Fit lifting slings (polyester) to the lifting lugs and lift the OSM
· Do not attach the lifting slings to the HV-bushings
Scope of delivery for the OSM:
ĞƌƟĮĐĂƚĞŽĨdĞƐƟŶŐĂŶĚŽŶĨŽƌŵĂŶĐĞ
DŽĚĞůdLJƉĞ
K^Dϭϱͺůͺϭ
sŽůƚĂŐĞZĂƟŶŐ;ŬsͿ
^ĞƌŝĂůEƵŵďĞƌ
ϰϭϰϮϱϰ
/ŶƚĞƌƌƵƉƟŶŐƵƌƌĞŶƚ;ŬͿ
ĂƚĞWƌŽĚƵĐĞĚ
ϱͬϲͬϮϬϭϭ
KƉĞƌĂƟŶŐůƟƚƵĚĞ;ŵͿ
tĞŝŐŚƚ;ŬŐͿ
ϲϴ
DĞĐŚĂŶŝƐŵ
ϭϱ
ŽŵďŝŶĞĚƵƌƌĞŶƚͬsŽůƚĂŐĞ^ĞŶƐŽƌ
ϯϬϬϬΎ
Z^h>d
W^^
ƵƐŚŝŶŐŚĞĐŬ
W^^
KƉĞƌĂƟŽŶĂůŚĞĐŬ
W^^
d^d
W^^Z/dZ/
фϱϱŵƐ
ϰϰ͘Ϭ
фϱϱŵƐ
ϰϰ͘ϰ
ŽŶƚĂĐƚůŽƐŝŶŐ͕
фϱϱŵƐ
ϰϯ͘ϴ
ŽŶƚĂĐƚKƉĞŶŝŶŐ͕
фϭϱŵƐ
ϭϭ͘ϰ
ŽŶƚĂĐƚKƉĞŶŝŶŐ͕
фϭϱŵƐ
ŽŶƚĂĐƚKƉĞŶŝŶŐ͕
фϭϱŵƐ
ϭϬ͘ϴ
ŽŶƚĂĐƚZĞƐŝƐƚĂŶĐĞ͕͕ĐƌŽƐƐƵƐŚŝŶŐ
фϴϱƵKŚŵƐ
ϱϴ
ŽŶƚĂĐƚZĞƐŝƐƚĂŶĐĞ͕͕ĐƌŽƐƐƵƐŚŝŶŐ
фϴϱƵKŚŵƐ
ϲϲ
ŽŶƚĂĐƚZĞƐŝƐƚĂŶĐĞ͕͕ĐƌŽƐƐƵƐŚŝŶŐ
фϴϱƵKŚŵƐ
ϲϮ
d^d
Outdoor Circuit Breaker / Triple-Single Recloser
15 kV, ...16 kA, ...630 A
27 kV, ...12.5 kA, ...630 A
ϭϬ͘ϲ
d^ds>h
ϱϬŬs
Z^h>d
W^^
WƌŝŵĂƌLJtŝƚŚƐƚĂŶĚͲŽŶƚĂĐƚƐůŽƐĞĚ
ϱϬŬs
W^^
ƵdžŝůŝĂƌLJtŝƚŚƐƚĂŶĚ
ϮŬs
W^^
WĂƌƟĂůŝƐĐŚĂƌŐĞ
шϭϯ͘ϮŬs
ϭϯ͘Ϯ
DĂŶƵĂůdƌŝƉ
DĞĐŚĂŶŝĐĂůĐŚĞĐŬ
W^^
DĞĐŚĂŶŝĐĂůKƉĞƌĂƟŽŶƐdĞƐƚ
ϭϬϬϬŽƉĞƌĂƟŽŶƐ
W^^
7KLVSURGXFWLVFHUWL¿HGWRKDYHSDVVHGDOOUHOHYDQWIDFWRU\DFFHSWDQFHURXWLQHWHVWV
UHTXLUHGXQGHU$16,&
Life cycle of OSM
Number of closing-opening cycles
SEL-651R® COMPATIBLE SERIES
Z^h>d
ŽŶƚĂĐƚůŽƐŝŶŐ͕
ŽŶƚĂĐƚůŽƐŝŶŐ͕
WƌŝŵĂƌLJtŝƚŚƐƚĂŶĚͲŽŶƚĂĐƚƐKƉĞŶ
OSM15/25_Al_4
ϭϲ
DĂŐŶĞƟĐĐƚƵĂƚŽƌ͕sĂĐƵƵŵ
^^D>z,<^
Technical Manual MAN50002238-VER0A
:LWKGHUDWLQJSHU$16,VWDQGDUGDERYHPHWHUV
OSM_Al_4
Screwdriver
Operating manual
The following parts are included into corresponding installation kit:
Hook
1
Bolt DIN933 M12x25
8
Nut DIN934 M8
1
Washer DIN 125A 13
8
Washer DIN 7980 12
8
Protective cover AXCA.754529.001 6
Routine test certificate
Protective cover
31
Rating Plate, Seal
6
3
1
Figure 36
Seal of the OSM
2
Figure 35
Labelling of the OSM
OSM
1. Rating plate
2. Serial number
3. Seal
4
DŽĚĞůdLJƉĞ͗K^DϭϱͺůͺϮ;ϲϯϬͺϭϱϬͿ
E^/ϯϳ͘ϲϬͬ/ϲϮϮϳϭͲϭϭϭ
KͲϬ͘ϭƐͲKͲϭƐͲKͲϭƐͲKΎ
ZĂƚĞĚŵĂdžŝŵƵŵǀŽůƚĂŐĞ
ϭϱ͘ϱŬs
ZĂƚĞĚĨƌĞƋƵĞŶĐLJ
ϱϬͬϲϬ,nj
ZĂƚĞĚĐŽŶƟŶƵŽƵƐĐƵƌƌĞŶƚ
ϲϯϬ
;ϴϬϬKǀĞƌůŽĂĚͿ
ZĂƚĞĚƐŚŽƌƚƟŵĞ
ǁŝƚŚƐƚĂŶĚ;ϰƐͿ
ϭϲŬ
ZĂƚĞĚƐŚŽƌƚĐŝƌĐƵŝƚ
ďƌĞĂŬŝŶŐĐƵƌƌĞŶƚ
ϭϲŬ
ZĂƚĞĚƉĞĂŬ
ǁŝƚŚƐƚĂŶĚĐƵƌƌĞŶƚ
ϰϮŬ
ZĂƚĞĚůŝŐŚƚŶŝŶŐŝŵƉƵůƐĞ
ǁŝƚŚƐƚĂŶĚǀŽůƚĂŐĞ
ϭϭϬŬs
tĞŝŐŚƚ
ϲϱŬŐ
dƌĂƟŽ;ďƵƐŚŝŶŐƐyϭ͕yϮ͕yϯͿ
ϲϬϬ͗ϭ
zĞĂƌŽĨŵĂŶƵĨĂĐƚƵƌĞ
ϮϬϭϮ
ΎK^DǀĂůƵĞŽŶůLJ͕ǀĂƌŝĞƐǁŝƚŚĐŽŶƚƌŽůƚLJƉĞƵƐĞĚ͘ŽŶƐƵůƚĐŽŶƚƌŽůŵĂŶƵĂůĨŽƌƉĂƌĂŵĞƚĞƌƐ͘
dĂǀƌŝĚĂůĞĐƚƌŝĐEŽƌƚŚŵĞƌŝĐĂ͕ĞůƚĂ͕͕ĂŶĂĚĂϭͲϴϲϲͲϱϱϭͲϴϯϲϮDĂĚĞŝŶZƵƐƐŝĂ
Please check that the rating plates of the delivered devices correspond to the data of the order and technical data
given on page 41.
Tavrida Electric accepts no warranty for a device if the seal is broken or has been removed.
Storage
Should immediate installation not be possible, the OSM shall be stored in the original packing under the following
conditions:
· The OSM is switched off.
· Dessicants must be placed in the packing.
· Storage must be closed dry, well ventilated and the room temperature should be between - 40°C and + 40°C
(IEC62271-1/ DIN VDE 0670 Part 1000).
· If several OSM are stacked a maximum of two layers is permitted.
32
7
Product Line
33
Outdoor Circuit Breaker(OSM)
Model Types - 15 kV
OSM15_Al_4(630_150)
Model Types - 27 kV
OSM25_Al_4(630_150)
7
Accessories
Item number
34
Description
Quantity
Note
AXCA754529.001
Protective Cover
1
Rubber cover for protection of connection
places from environmental effects.
A set of these covers (6 pcs) is included
in the OSM package, however can be
ordered separately if required.
2TES.029.002
IEC Mounting Kit for wooden pole
1
For installation of OSM on a wooden pole
2TES.029.002-01
IEC Mounting Kit for concrete pole
1
For installation of OSM on a concrete pole
MountKit_Rec_2
ANSI Mounting Kit for wooden pole
1
For installation of OSM on a wooden pole
RecUnit_Umbilical_4(8)
Umbilical Cable, 8 meter length
1
For connection of OSM to SEL-651R
RecUnit_Umbilical_4(11)
Umbilical Cable, 11 meter length
1
For connection of OSM to SEL-651R
RecUnit_Umbilical_4(14)
Umbilical Cable, 14 meter length
1
For connection of OSM to SEL-651R
Dimensions and Weights
8
35
Dimensions and Weights of the OSM
8
D
Dimensions, mm
Rated voltage, kV
B
C
D
Creepage
distance
Minimum taut
string distance
15.5
216
260
652
637
500
203
65
27
296
294
731
703
860
203
72
Dimensionsof the OSM Earthing Provisions
Dimensions of the Mounting Provisions
36
Weights, kg
A
Standard ANSI Mounting Hardware
8
Figure 37
Pole mounting hardware with provision for up to x6
surge arrestors and x2 1kVA transformers for loop
scheme control power
Figure 38
Substation frame mounting hardware with provision
for up to x3 external CT‘s
37
Circuit Diagrams
9
38
9
39
10
Technical Data
40
Outdoor Circuit Breaker (OSM)
Basic Operating Parameters
OSM15_Al_4(630_150) OSM25_Al_4(630_150)
Rated data
Rated voltage (Ur)
15.5 kV
27 kV
up to 630 A (800 A) 1) depending on CT rated
primary current
Rated current (Ir)
Rated power frequency withstand voltage (Ud), 1 min dry
50 kV
60 kV (70 kV) 1)
Rated power frequency withstand voltage (Ud), 10s wet
45 kV
50 kV (60 kV) 1)
Rated lightning impulse withstand voltage (peak) (Up)
110 kV
150 kV
10 pC @ 13.2 kV
10 pC @ 16.4 kV
Rated short-circuit breaking current (Isc)
16 kA
12.5 kA
Rated short-circuit making current, peak
41.6 kA
32.5 kA
16 kA
12.5 kA
Partial discharge decay level, not less than
Rated short-time withstand current, 4s (Ik)
Rated frequency (fr)
10
50/60Hz
Cable charging current
25 A
31.5 A
Line charging current
3.33 A
5A
Switching performance
Mechanical life (CO-cycles)
30 000
Operating cycles, rated current (CO-cycles)
30 000
Maximum number of CO-cycles per hour
Refer to SEL-651R manual
Operating cycles, rated–short circuit breaking current
200
Closing time, not more than 2)
Opening time, not more than
Break time, not more than
35 ms
2)
15 ms
2)
Rated operating sequence
23 ms
Refer to SEL-651R manual
Standards
International Standard
American Standard
Russian Standard
Chinese Standard
IEC 62271-100, IEC 62271-111
IEEE C37.60
GOST R 52565-2006
GB 1984-2003
Other data
Current sensing
3 current transformers
Voltage sensing
6 voltage sensors
Main contact resistance, not more than
85 µOhm
Solar radiation
≤
Degree of protection
Weight
95 µOhm
1.1 kW/m²
IP65
65 kg
72 kg
1)
800 A continuous current and 70 kV dielectric products available by special order. Please contact Tavrida Electric
North America for further information.
2)
OSM closing, opening and break times based on Tavrida CM_15 series controls without processing acceptance time.
Please see SEL-651R manual for more information on additional time to calculate a complete fault interruption cycle.
41
Basic Operating Parameters
OSM15_Al_4
(630_150)
OSM25_Al_4
(630_150)
Design, switching capacity of auxiliary contacts OSM
3 NC + 1 NO
Number of available auxiliary contacts for OSM
10
Minimum current for (12-30) V AC / DC, ohmic load
100 mA
Minimum current for 12 V AC / DC, inductive load (t=20 ms, cosj =0.3)
100 mA
Maximum current for 30 V DC, ohmic load
5A
Maximum current for 30 V DC, inductive load (t=20 ms)
3A
Maximum current for 50 V DC, ohmic load
1A
Maximum current for 50 V DC, inductive load (t=20 ms)
1A
Maximum current for 75 V DC, ohmic load
0.75 A
Maximum current for 75 V DC, inductive load (t=20 ms)
0.75 A
Maximum current for 125 V DC, ohmic load
0.5 A
Maximum current for 125 V DC, inductive load (t=20 ms)
0.03 A
Maximum current for 250 V DC, ohmic load
0.25 A
Maximum current for 250 V DC, inductive load (t=20 ms)
0.03 A
Maximum current for 125 V AC, ohmic load
5A
Maximum current for 125 V AC, inductive load (cosj =0.3)
5A
Maximum current for 250 V AC, ohmic load
5A
Maximum current for 250 V AC, inductive load (cosj =0.3)
5A
Parameter of Current Transformers
and Voltage Sensors
OSM15/OSM25_Al_4(100_150)
Current transformers
Rated primary current A
600
Rated secondary current A
600
1
Rated output, VA at PF=0.8...1
2.5
2.5
Accuracy limit factor for protective current transformers
25
25
Accuracy class of protective transformers acc. to IEC
60044 at the rated output, PF=0.8...1
C25
C25
Rated continuous thermal current, A
630
630
Voltage Sensors
Capacitance of high arm
42
20...25pF
Temperature coefficient of capacitance
-770 ppm/oC
Continuous reverse voltage of shunted
varistor of low arm
22 - 40V real dispersion
Ambient Conditions
The OSM is designed for the following ambient and operating conditions for outdoor installations:
Maximum ambient temperature
+ 55 °C
Minimum ambient temperature
- 50 °C
Humidity
100% condensing
Altidude
to 3000 m
10
Above 1000 m derating according to ANSI C37.60
Number of closing-opening cycles
Life cycle of OSM
Figure 39
43
11
Legal Information
44
Warranty
Unless otherwise stated in the contract, the warranty period is 3 years from date of invoice. If agreed to otherwise,
the contract conditions apply. No warranty is given in the case of …
a) … the warranty period having run out during the period of storage with the customer.
b) … the operating conditions, ambient conditions, transport and storage conditions have not been adhered to according to the application description or the application guide.
c) … an unauthorized manipulation of the device has been carried out, such as opening the housing or damaging the seal.
d) … the device has not been properly installed, such as incorrect connection voltages.
11
Quality Regulations
All manufacturing facilities of the company have been
certified by KEMA in the Netherlands and comply with (DIN
EN) ISO 9001:2000.
All technical data of the vacuum circuit breaker are stored
in an electronic database for each step of the manufacturing
process. Testing of the circuit breakers is carried out in
accordance with the relevant standards and beyond that
the following test are carried out:
· 1000 C-O cycles
· Insulation strength of the primary and auxiliary circuits at operating frequency
· Measurement of the resistance of the main circuit
· All test results are automatically stored
Complaints and
Transport Damage
All products are shipped exclusively with original packing
to ensure safe transport and avoid transport damage (see
Packing, Goods Received).
Tavrida Electric will not accept any claims for damages
caused by improper transport, storage as well as
unpacking. Transport damage must be reported in writing
to the supplier as soon as it is discovered. A period
of maximum 3 weeks after receipt is allowed for this.
For legitimate claims Tavrida Electric will supply replacement
equipment free of charge according to our warranty
regulations. Tavrida Electric reserves the right to verify
any claim.
45
Environmental Friendliness
The modules are manufactured from environmentally
friendly material. Therefore, special disposal is not
required.
TAVRIDA ELECTRIC NA
Non-conformity Report
11
In order to be able to exchange or repair the device, we
kindly ask you to fill the accompanied “Non-conformity
report” and send it to our regional representative or
directly to us.
Please note:
Your request can only be handled if the accompanying
report is properly filled including the name and address
as well as a copy of the invoice.
For queries please contact your Tavrida Electric partner.
Service Department
1105 Cliveden Avenue
Delta, BC, Canada
V3M 6G9
Phone: 604-540-6600
Fax: 604-540-6604
E-Mail: info@tavrida-na.com
Web: www.tavrida-na.com
Liability
Damages and demands for reimbursement of expenses incurred by the customer (in the following: compensation)
for what-ever legal reasons, especially due to non-compliance of obligations of the contractual obligations and for
unauthorized actions, are excluded. This does not apply, insofar as there is a compulsory liability such as according
to the product liability law in cases of malice, gross negligence, because of damage to life, the body or health,
because of damage to important contractual obligations.
Compensation for damage to important contractual obligations, however, is limited to the damage which can be
predicted as typical of the contract insofar as there is no malice or gross negligence, because of damage to life, the
body or health. A change of the obligation to provide proof to the disadvantage of the customer is not connected
with these regulations.
Copyright
Without our written permission, this documentation may not be used, also not in extract form, for own general
publications, printouts, handbooks, training, lectures, etc. nor copied and further processed. This includes also
the duplicating or re-copying in any form of data carriers and microfilms. A one-time written permission is not
automatically to be taken as a part or complete surrender of the copyright provisions. We reserve the right to
changes. The issue of a new version of these operating instructions renders all other older versions obsolete.
Tavrida Electric and its associated companies make every effort to adapt the contents of their documentation to
the latest and most current state of development of the products.
The present documentation was produced with the greatest care. However, we are not liable for possible errors in
this information text, user-side incorrect interpretation and/or for consequences arising therefrom.
© Copyright 2011; Tavrida Electric reserves the right to make changes to the design and data of their products. Tavrida Electric accepts no
responsibility or liability for losses or damage caused by improper actions based on this publication. Schweitzer Engineering, SEL-651R are registered trademarks of Schweitzer Engineering Inc.
46
NON-CONFORMITY REPORT
From:
To:
TAVRIDA ELECTRIC NA
Service Department
Address:
Address:
1105 Cliveden Avenue
11
Delta, BC, Canada
Name:
Phone:
Phone:
604-540-6600
Fax:
Fax:
604-540-6604
E-Mail:
E-Mail:
info@tavrida-na.com
Type designation OSM
Serial No.:
Type designation CM
Serial No.:
Date when non-conformity was noticed:
Date of commissioning:
When did the non-conformity occur:
Incoming inspection
Installation/Commissioning
Service
Place of installation of SEL-651R:
Pole / substation frame mounted
Mounted in control room
Does your installation comply with the requirements of the Technical Manual, OSM?
Primary Part (OSM):
Operating conditions of OSM comply with technical data
specified in Technical Manual (pages 41-43)
Fixing points (page 14)
Protective earthing (page 25)
Description of non-conformity:
Non-conformity report issued by:
Date:
Name:
Signature:
Your warranty claim can only be handled if this non-conformity report is filled in completely including your name and address.
47
NON-CONFORMITY REPORT
11
From:
To:
TAVRIDA ELECTRIC NA
Service Department
Address:
Address:
1105 Cliveden Ave
Delta, BC, Canada
Name:
Phone:
Phone:
604-540-6600
Fax:
Fax:
604-540-6604
E-Mail:
E-Mail:
info@tavrida-na.com
Type designation OSM
Serial No.:
Type designation CM
Serial No.:
Date when non-conformity was noticed:
Date of commissioning:
When did the non-conformity occur:
Incoming inspection
Installation/Commissioning
Service
Place of installation of SEL-651R:
Pole / substation frame mounted
Mounted in control room
Does your installation comply with the requirements of the Technical Manual, OSM?
Primary Part (OSM):
Operating conditions of OSM comply with technical data
specified in Technical Manual (pages 41-43)
Fixing points (page 14)
Protective earthing (page 25)
Description of non-conformity:
Non-conformity report issued by:
Date:
Name:
Signature:
Your warranty claim can only be handled if this non-conformity report is filled in completely including your name and address.
48
Date:
11
49
Tavrida Electric North America
Tavrida Electric North America Ltd.
1105 Cliveden Avenue,
Delta, BC, Canada
V3M6G9
Phone: (604)-540-6600
Fax:(604)-540-6604
E-Mail: info@tavrida-na.com
Web:www.tavrida-na.com
This document is copyright and is intended for users and distributors of Tavrida Electric product. It contains information that is
the intellectual property of Tavrida Electric and the document, or any part thereof, should not be copied or reproduced in any form
without written permission from Tavrida Electric.
Tavrida Electric applies a policy of ongoing development and reserves the right to change product without notice.
Tavrida Electric does not accept any responsibility for loss or damage incurred as a result of acting or refraining from action based on
information in this application guide.