© Siemens AG 2018. All rights reserved.
3TM 1-pole
Vacuum contactor
4.15 kV - 6.9 kV
OPERATING INSTRUCTIONS
Order No.: 9229 0098 176 0-
Version: 10.2018 en
29229 0098 176 0-
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For your safety
Signal terms and
definitions
Hazards are classified in accordance with ISO 3864-2 using the following keywords:
• DANGER, WARNING, or CAUTION, where there is a risk of personal injury
• NOTE, where there is a risk of material damage.
Hazards are classified and indicated in the operating instructions and on the vacuum
contactor as follows:
Qualified personnel For the purpose of these operating instructions or the warning notices on the vacu-
um contactor, qualified personnel are persons who are familiar with the transport,
storage, set-up, assembly, commissioning, operation, and maintenance of the prod-
uct and who have qualifications relevant to their work, e. g.:
• Training and instruction, or authorisation to energise, de-energise, clear, earth
and tag circuits and equipment in accordance with established safety practices.
• Training or instruction in the proper care and use of protective equipment in
accordance with established safety practices.
• Training in first aid.
Product liability
DANGER
Indicates an imminently hazardous situation.
If the hazard is not avoided, it will result in death or serious injury.
WARNING
Indicates a potentially hazardous situation.
If the hazardous situation is not avoided, it could result in death or serious injury.
CAUTION
Indicates a potentially hazardous situation.
If the hazardous situation is not avoided, it could result in minor or moderate
injury.
Note
Indicates a potentially harmful situation.
If the harmful situation is not avoided, the product or an item in its vicinity can
sustain damage.
Note
Product liability claims are upheld only if the replacement of the purchased spare
parts is performed by personnel that have been trained and certified by Sie-
mens.
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Contents
For your safety ................................................................................................................................................... 2
List of abbreviations ............................................................................................................................................ 4
Other applicable supplements for Operating Instructions 9229 0098 ................................................................. 4
Transport/storage/packaging ....................................................................................................................... 5
Transport ............................................................................................................................................................. 5
Scope of delivery ................................................................................................................................................ 5
Unpacking ........................................................................................................................................................... 5
Reuse of transport unit ........................................................................................................................................ 6
Storage ............................................................................................................................................................... 7
General information ......................................................................................................................................... 9
Area of application ............................................................................................................................................ 10
Type approval as per the German X-Ray Ordinance ........................................................................................ 11
Description ........................................................................................................................................................ 13
Design ............................................................................................................................................................... 13
Rating plate ....................................................................................................................................................... 17
Technical data ................................................................................................................................................... 18
Ambient conditions ............................................................................................................................................ 19
Installation altitudes .......................................................................................................................................... 19
Dimensional drawings ....................................................................................................................................... 21
Circuit diagrams ................................................................................................................................................ 22
Installation ......................................................................................................................................................... 27
Installation ......................................................................................................................................................... 27
Operation ............................................................................................................................................................ 35
Commissioning ................................................................................................................................................. 35
Troubleshooting ................................................................................................................................................ 36
First closing operation ....................................................................................................................................... 36
Maintenance ...................................................................................................................................................... 37
Maintenance and servicing ............................................................................................................................... 37
Accessories and spare parts ............................................................................................................................. 39
Manufacturer's product liability .......................................................................................................................... 43
Disposal ............................................................................................................................................................ 43
Service .............................................................................................................................................................. 43
Index ..................................................................................................................................................................... 45
Central legend .................................................................................................................................................. 47
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List of abbreviations
Other applicable supplements for Operating Instructions 9229 0098
ANCE Asociación de Normalización y Certificación, A.C. (Association for Standardisation and Certification)
ANSI American National Standard Institute
AWG American Wire Gauge
BGBl Bundesgesetzblatt (German Federal Law Gazette)
CO Close-Open
CSA Canadian Standards Association
DIN Deutsches Institut für Normung (German Institute for Standardisation)
DIP Dual in-line package
EMC Electromagnetic compatibility
EN European standard
ESD Electrostatic discharge
GB Guobiao (Chinese standard)
IEC International Electrotechnical Commission
MLFB Maschinenlesbare Fabrikate Nummer (machine-readable manufacturer number)
NMX Normas Mexicanas (Mexican standard)
ASL Sea level
OOpen
NC NC contact
PMA Distance between pole centres
RöV Röntgenverordung (German X-Ray Ordinance)
NO NO contact
ops Operating cycles
VDE Verband Deutscher Elektrotechniker (Association of German Electrical Engineers)
Order no. Title
9229 0091 Important information on unpacking, transporting, and storage
9229 0092 Removing and installing the electronic controller
9229 0093 Removing and installing shunt release Y1
9229 0094 Removing and installing the auxiliary switches
9229 0095 Retrofitting, removing and installing the mechanical closing latching
9229 0096 Retrofitting, removing and installing the manual unlatching
9229 0097 Note the start-up power loss
Transport/storage/packaging
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Transport/storage/packaging
Transport
Transport weight Refer to the delivery documents for the weight of the transport unit.
After receipt of delivery:
Checking the transport
unit
• Check the transport unit for damage.
• Major damage must be documented photographically.
• Ensure that any damage to the transport unit is confirmed by the transport com-
pany in writing
Scope of delivery
Delivery includes:
• 3TM vacuum contactor
• Operating instructions
• Device-specific circuit diagrams
• Connector (accessory pack)
Unpacking
Working equipment Required tools: Knife/scissors.
Opening the transport unit • Place the transport unit on a level, non-slip and pressure-resistant surface.
• Open the box.
• Check that the delivery is complete.
• Check the vacuum contactor for damage.
Note
Observe stacking height
For transport, no more identical transport units may be stacked on top of each
other than indicated on the transport unit.
Observe loads specified on the transport unit.
Note
Secure load
For transport, secure the load in such a way that the transport unit is not at risk.
Note
Do not use the vacuum contactor if parts are broken, i.e. if you find cracks, flaking,
bent metal parts, damaged plug-in contacts, tears, or bare cables.
Send it back in its original transport unit (see “Reuse of transport unit”, page 6).
Note
Transporting the vacuum contactor
Transporting the vacuum contactor by holding and lifting the auxiliary switches on
the sides (23) leads to material damage.
Only transport the vacuum contactor by holding it under the operating mechanism
box (34), the base plate (2), or the pole shells (7).
Transport/storage/packaging
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Transport to the
installation site
Remove accessory pack and store safely in the packaging for later installation.
Reuse of transport unit
Reusing the transport unit The box and the filler materials can be reused if the vacuum contactor is to be trans-
ported again.
• Pack the vacuum contactor in reverse order.
• Close the box.
Due to the low weight, no lifting eyes are provided. The
vacuum contactor can be lifted and transported without
tools.
The fastening eyelets (*) can be used for lifting with a
crane. Watch for shifting weight!
Lift the vacuum contactor out of the box by the provided
points:
• Fastening eyelets (*)
• Base plate (2)
• Pole shell (7)
• Operating mechanism box (34)
Fig. 1 Transporting vacuum contactor without box
Transport/storage/packaging
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Storage
1) In the storage conditions given above, the capacitors must be reformed after
one year. To do so, apply rated supply voltage via terminal A1/A2 of the elec-
tronic controller for at least 20 minutes.
Note
During transport and storage, the vacuum contactor must be in the following con-
dition:
• OPEN switching position
• Unlatched condition (only if unlatching is available).
Note
Risk of corrosion damage if stored improperly!
The vacuum contactor can be stored for up to a year in its transport unit if the stor-
age conditions listed below are met.
If the storage conditions are not met, the vacuum contactor cannot be stored any
longer than 6 months in the transport unit.
If storage of longer than one year is planned, unpack the vacuum contactor from
the transport unit. Further storage must ensure that the vacuum contactor cannot
be damaged.
Storage room Transport
unit
Storage time Temperature
range
Number of
units per
stack
Enclosed, dry, well ventilated, and as
free from dust as possible, with a rela-
tive air humidity below 95 %.
Unopened Max. 6 months -40 °C to +70 °C max. 3
Unopened max. 1 year -5 °C to +40 °C max. 3
Enclosed, dry, well ventilated and as
free from dust as possible, with a maxi-
mum relative humidity of up to 90 %
per month.
None Over 1 year 1) -25 °C to +70 °C 0
Transport/storage/packaging
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General information
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General information
Smooth and safe operation of this switching device requires proper transport and
storage, professional installation and assembly, as well as careful operation and
maintenance.
The operating instructions are an integral part of the switching device and contain
all information for commissioning and use.
The basic version and all listed configurations of the vacuum contactors 3TM are
type-tested devices as per IEC 62271-1 (see also “Standards”, on page 10)
WARNING
Dangerous electrical voltage and mechanical movements
When electrical devices are operated, certain parts are inevitably live under
dangerous voltage, and mechanical parts may move very quickly, also
when remotely controlled.
If the warnings are not observed, serious injury or material damage may be the
result.
Only personnel with the relevant qualifications may work on or in the vicinity of
this device. These personnel must be familiar with all warnings and servicing ac-
tivities specified in these operating instructions.
CAUTION
Material damage caused by electrostatic discharge to the electronic con-
troller
Electrostatic discharge can cause material damage to the electronic controller
and restrict its functionality.
To prevent damage to electronic components, discharge any existing electrostat-
ic charges on hands or tools by touching grounded surfaces prior to touching
electronic components and before removing the connector plugs.
Note
In the event of subsequent attachments or fittings, e. g. locking parts in connec-
tion with switchgear, ensure that
• fast moving parts are not additionally loaded with masses or forces and
• additional parts have sufficient clearance, in particular, from moving and live
parts.
If the vacuum contactor is to be equipped with additional functions by the custom-
er, we recommend consulting the factory, since tried and tested solutions are fre-
quently available.
General information
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Area of application
Vacuum contactors 3TM are 1-pole switching devices with an electromagnetic op-
erating mechanism for high switching capacity and a rated voltage range from
4.15 kV to 6.9 kV (single-phase, rigidly earthed star point).
Applications Vacuum contactors 3TM comply with the protection class IP00 (stationary, weather-
protected operation) as per EN 60529 and can be used
• with circuit breakers and fuses,
• for ambient temperatures from -40 °C to +70 °C,
• at various altitudes ranging from -1250 m to 5000 m ASL,
• for high mechanical vibrations or
• for use in seismic zones,
• on ships below deck,
• on open pit or mining equipment,
• in stationary or moving rail operation.
The technical data are affected by ambient conditions, installation position, and in-
stallation volume.
Function Operational currents and overload currents are switched by the vacuum contactor.
3TM vacuum contactors operate in continuous, periodic, and short-term operation.
Suitable for high frequency of operation and unlimited on-time.
Intended use Vacuum contactors 3TM are suitable for switching any type of alternating current cir-
cuits under normal operating conditions, such as:
• Motors
• Transformers
• Resistor consumers
• Neutral earthing
The vacuum contactor can be mounted:
• as a fixed installation (with busbars or cables with cable lugs),
• on a withdrawable part, or
• on a carriage.
Standards
Vacuum contactors 3TM comply with the following standards:
• IEC/DIN EN 62271-1 High-voltage switchgear and controlgear – Part 1: Common specifications
• IEC/DIN EN 62271-106 High-voltage switchgear and controlgear – Part 106: Contactors and controllers
• IEC/DIN EN 62271-200 High-voltage switchgear and controlgear – Part 200: AC metal-enclosed switchgear
and controlgear
• GB/T14808 High voltage alternating current contactors and contactor-based motor-starters
• ANSI American National Standard (ANSI), harmonized ANCE, CSA, and UL Standard for
medium-voltage ac contactors, controllers, and control centres
• CSA C22.2 No. 253-09 Medium-Voltage AC Contactors, Controllers, and Control Centers
• NMX-J-564/106-ANCE Medium-Voltage AC Contactors, Controllers, and Control Centers
• IEC 61000-4 Electromagnetic compatibility (EMC)
• IEC 61000-6 Parasitic x-ray emittance and interference voltage
• IEC 60068 Environmental test procedures
General information
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Type approval as per the German X-Ray Ordinance
The vacuum interrupters installed in the switching devices are type-approved as
sources of interference radiation according to § 8 of the German X-Ray Ordinance
and they comply with the requirements for sources of parasitic X-ray emitters ac-
cording to Annex 2 No. 5 of the current German X-Ray Ordinance up to the rated
voltage defined in the approval certificate.
Vacuum interrupters with the type identifier can be operated by the owner of the
switchgear without licensing or notification. Keep a printed copy of the certificate in
a suitable central location.
General information
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Description
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Description
Design
The vacuum contactor is a 1-pole switching device consisting of:
• the high-voltage section with vacuum interrupters, customer terminals and posi-
tion indicator on the front side,
• the low-voltage section with the solenoid actuator
• the electronic controller for the solenoid actuator and shunt release
• the auxiliary switches (freely accessible from the side).
Optionally available:
• Mechanical closing latching with shunt release Y1
• Manual unlatching (EMERGENCY STOP) via push rod or draw bar.
Fig. 2 Front view - high-voltage side Fig. 3 Rear view - mounting side
2 Base plate (mounting)
3 Vacuum interrupter
4 Upper terminal
5 Lower terminal
6 Position indicator (OPEN-CLOSED)
7 Pole shell
8 Rating plate
12 Push rod for manual unlatching (optional)
14 Unlatching (EMERGENCY STOP), manual (optional)
17 Cover of manual unlatching
23 Auxiliary switch
24 Electronic controller
25 Cover of electronic controller
31 Operating mechanism lever
Description
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Fig. 4 Sectional view with mechanical closing latching with shunt release Y1 and
manual unlatching - CLOSED switch position
2 Base plate (mounting)
3 Vacuum interrupter
4 Upper terminal
5 Lower terminal
7 Pole shell
9 Mechanical closing latching with shunt release Y1 (optional)
10 Cover for closing latching (optional)
11 Shunt release Y1 (optional)
12 Push rod for manual unlatching (optional)
14 Unlatching (EMERGENCY STOP), manual (optional)
15 Draw bar for manual unlatching (optional)
21 Connector for supply voltage A1/A2
24 Electronic controller
25 Cover of electronic controller
30 Operating mechanism solenoid
31 Operating mechanism lever
0090-06
3
12
24
2
15
30
14
10 119
2125
31
4
5
7
Description
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Installation position
Observe the distances as per IEC 60071 insulation coordination or comply with the
required leeway distances according to the national operational requirements.
- Front side: High-voltage section with protection class IP00.
- Rear side: Low-voltage section with protection class IP20.
Installation position The vacuum contactor 3TM can be installed in four positions.
1) Wall mounting, vertical
2) Supine position, horizontal
3) Wall mounting, vertical, rotated 180°
4) Suspended, with reduced parameters (after consultation with manufacturer)
*) Observe distance to high-voltage and grounded components!
Fig. 5 Mounting position
High-voltage section The high-voltage section consists of an autonomous pole shell, which can receive
the correspondingly dimensioned vacuum interrupter.
Solenoid actuator The vacuum interrupter is actuated by a common solenoid actuator. This solenoid
actuator has a very low holding capacity in continuous operation.
The solenoid actuator and the shunt release of the vacuum contactor 3TM can be
actuated with AC or DC.
Vacuum contactors 3TM work according to a defined closing and opening time,
which can be configured and extended by an additional closing and opening delay.
Both delay values are independent of each other and are added to the closing and
opening times.
Electronic controller The electronic controller controls the supply of energy to the solenoid actuator on
closing. The closing current is controlled to a specified level. The current is switched
to the holding current after a specified time. The holding current reduces the vacuum
contactor’s energy supply during operation.
The voltage supply of the magnetic unlatching is not affected. The customer is to
deal with the signal control. The maximum signal duration is to be observed, since
the shunt release solenoid only has a limited continuous current strength of 500 ms.
The inrush current (peak) is dependent on the control voltage.
Supply voltage terminals The electronic controller has terminals for the following:
• supply voltage A1/A2
as well as independent thereof
• the release voltage for the magnetic unlatching E1/E2 (optional).
Description
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Fig. 6 Terminals A1/A2 and optionally E1/E2 of the electronic controller
The electronic controller also allows the configuration of additional closing and open-
ing delays. If no configuration is selected, only the natural closing and opening time
of the switching device is active. Configuration is done via a 6-pole DIP switch S2
on the electronics assembly (matrix, see Chapter “Configuring the controller”, p. 42).
Auxiliary switch The auxiliary switches are mounted on the side of the operating mechanism box and
are not wired. The wiring is carried out on the customer’s premises using screw ter-
minals.
Mechanical closing
latching
(Applies only to vacuum contactors with closing latching)
When the vacuum contactor is closed, the mechanical closing latching is activated.
The solenoid actuator is held and automatically separated from the supply voltage
once the latching position is reached.
Switching in the de-energised holding mode (supply voltage circuit A1/A2) is carried
out automatically via the electronic controller.
9 Mechanical closing latching (optional)
11 Shunt release Y1 (optional)
12 Push rod for manual unlatching (optional)
14 Manual unlatching with mechanism for push rod or draw bar (optional)
15 Draw bar for manual unlatching (optional, not mounted)
Fig. 7 Mechanical closing latching and manual un-
latching (optional)
Fig. 8 Mechanical closing latching with shunt re-
lease (optional) - shown without manual un-
latching mechanism
Description
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Electromagnetic unlatch-
ing and manual unlatching
Unlatching is done via:
• Electromagnetic unlatching, remote-controlled
• Manual unlatching via push rod or draw bar.
The remote tripping is carried out via the electromagnetic shunt release Y1 (9). If
manual unlatching (EMERGENCY STOP) via the push rod or draw bar is not avail-
able, the shunt release Y1 can be carefully manually actuated from the rear side of
the vacuum contactor in a de-energised state and for test purposes (see details in
Fig. 8).
Manually operated unlatching (EMERGENCY STOP) is performed with a push rod
or draw bar (12, 15) with approx. 30 N. The customer is to mount M4 threaded rods
for the push rod or draw bar with fitting end pieces or other suitable terminators.
Tightening torque 3 ±0.5 Nm.
Subsequent ordering If no latching or unlatching is available but is planned for backfit, the following mod-
ules can be subsequently ordered and mounted:
• Mechanical closing latching with shunt release Y1
• Manually operated unlatching mechanical system (EMERGENCY STOP) with
draw bar or push rod
See chapter “Mounting the mechanical closing latching (optional) and manual
unlatching (optional)”, p. 29.
A description of the installation is only supplied with the operating instructions of the
retrofit kit.
Rating plate
a Manufacturer
b Type designation
c Classification according to the IEC standard
d Classification according to further standard
e Classification according to further standard
f Line without entry
g MLFB, as on the order
h Special versions and additional equipment
i Factory number, as on the order
k Rated voltage Ur
l Rated lightning impulse withstand voltage Up
m Rated short-duration power frequency withstand
voltage Ud
n Rated frequency fr
o Rated switching current Ie for utilisation categories
AC-1 to AC-4
p Thermal current Ith
r Rated short-duration breaking current Isc
s Rated supply voltage Ua
t Additional closing delay tc
u Additional opening delay to
v Release voltage U
w Set-up height above sea level
x Mechanical strain, values given for vibrations and
shock
y Weight
z Date of manufacture
Fig. 9 Example - rating plate for vacuum
contactor 3TM
a
Vacuum contactor, 1-pole b
IEC 62271-106 c
d
e
f
3TM1... g
h
S.3TM../00000001 i
Rated voltage Ur ... kV k
Rated lightning impulse
withstand voltage Up ... kV l
Rated short-duration
power frequency withstand
voltage
Ud ... kV m
Rated frequency fr ... Hz n
Rated switching current
AC-1 to AC-4 Ie ... A o
Thermal current Ith ... kA p
Rated short-circuit break-
ing current Isc ... kA r
M1 Ua ... V s
Additional closing delay tc ... ms t
Additional opening delay to ... ms u
Y1 U... V v
Set-up height above sea
level
-1250 to
+2000
mw
Mechanical stress
... x
Weight 16 kg y
Date of manufacture 08/18 z
Made in Germany
Description
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Technical data
*) phase-to-earth
Fig. 10 Electrical data
ops operating cycles
Fig. 11 Mechanical data
Fig. 12 Rated data of solenoid actuator
Fig. 13 Rated data for latching and unlatching
Electrical data 3TM 12 13 14 15
Rated voltage Ur *) kV 4.15 4.15 6.9 6.9
Rated frequency frHz 50-60
Rated operating current Ie (at ambient temperatures
ranging from -40 °C to +70 °C) A 450
Thermal current Ith A 450
Rated lightning impulse withstand voltage Up kV 60 60 75 75
Rated short-duration power frequency withstand volt-
age Ud kV 20 22 28 42
Mechanical data 3TM 12 13 14 15
Maximum mechanical switching frequency, without
latching and unlatching ops/h 600
Mechanical service life ops 100,000
Weight kg 16
Solenoid actuator 3TM 12 13 14 15
Rated supply voltage Ua (-20 % to +10 %) V 110 V DC to 250 V DC
V 100 V AC to 240 V AC
Start-up power loss, maximum (for 10 ms per closing)
at a stable power supply (without voltage reductions
due to overload)
(VA) 1400
Start-up power loss, average (100 ms per closing) (VA) 700
Holding mode power loss (VA) 10 to 20
Closing time ms 40 ±10
Optional additional adjustable on-time delay*),
additional closing delay ms 50 ±10
Opening time ms 50 to 85
Optional additional off-time delay*), additional
opening delay ms 50 ± 10, 150 ± 10
Latching and unlatching 3TM 12 13 14 15
Rated release voltage Ua (-20 % to +10 %)
V 24 V DC to 60 V DC
V 110 V DC to 250 V DC
V100VAC to 240VAC
Power loss of the shunt release (VA) 160
Required signal duration (for release signal) ms 100 to 500
Description
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AWG American Wire Gauge
Fig. 14 Rated data for auxiliary switches
Ambient conditions
*) see also “Mechanical data”, Fig. 11
Auxiliary switch 3TM 12 13 14 15
Protection class on the front side IP 20
Rated insulation level at pollution degree 3 V 690
Rated short-duration power frequency withstand
voltage Ud
kV 6
Rated operating current Ie at rated voltage Ur
Utilisation category AC 12 for alter-
nating current
AC 24 V A 10
AC 230 V A 10
Utilisation category AC 14 for alter-
nating current AC 125 V A 10
Utilisation category AC 15 for alter-
nating current
AC 24 V A 10
AC 230 V A 5.6
AC 400 V A 3.6
Utilisation category DC 13 for direct
current
DC 24 V A 10
DC 60 V A 5
DC 110 V A 1.14
DC 220 V A 0.48
Terminal cross-sections of auxiliary switches as per IEC EN 60947-5-1
with wire end ferrule mm22 x (0.5 to 1.0), 2 x (0.75 to 2.5)
for AWG terminals AWG 2 x (18 to 12)
Vacuum contactors are suitable for use in the fol-
lowing climate classes according to IEC 60721:
Class
• Climatic ambient conditions: 3K41)
3K8H2)
• Biological ambient conditions: 3B1
• Mechanical ambient conditions: 3M3
• Chemically active substances: 3C23)
• Mechanically active substances: 3S24)
1) Peak value of the 24-hour mean: +75 °C
2) to -40 °C
3) Without occurrence of salt fog and simultane-
ous condensation
4) Restriction: Clean insulation parts
5) Max. per day
6) Max. per month
Fig. 15 Ambient conditions*
+70 °C
-40 °C
95 % 5), 6)
5 %
Description
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Installation altitudes
As standard, 3TM vacuum contactors can be used at -1250 m to +2000 m. For high-
er operation heights, a configuration from 2000 m to 5000 m can be ordered.
Insulating capacity The insulation capacity of insulation in air declines with rising altitude increases due
to the lower air density. As per IEC 62271-102, the rated lightning impulse voltage
values given in Fig. 11 are valid up to an installation altitude of 1000 m above sea
level.
Above an altitude of 1000 m, the insulation level must be corrected as shown in
Fig. 16:
Note
The installation altitude for the vacuum contactor is set at the factory according
to the ordering option.
U ≥ U0 • Ka
U Rated withstand voltage U under standard reference
atmosphere
U0required rated withstand voltage for the installation
location
KaAltitude correction factor
Ka = em • (H - 1000)/8150
Calculating the altitude correction factor Ka:
H = Site altitude in metres
m = 1 for AC voltage, lighting impulse voltage (between
phases, phase-to-earth, applied longitudinally)
Example
For a required rated withstand voltage of 75 kV at an al-
titude of 2,500 m, an insulation level of at least 90 kV un-
der standard reference atmosphere conditions is
required:
90 kV ≥ 75 kV • e1 • (2500 - 1000)/8150
≈ 75 kV • 1.2
Fig. 16 Altitude correction factor Ka
Description
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Dimensional drawings
Fig. 17 Example - Distance between pole centres 120 mm, with auxiliary switch-
es 4NO + 4NC
*) with 4NC and 4NO
Fig. 18 Rated data of 3TM vacuum contactor, with auxiliary switches 4NO + 4NC
Rated voltage
UrRated current
Distance of
the terminals Height Width*)Depth
Distance of the
mounting holes
Width of
the base
plate
Threads in
the upper
and lower
terminals
Mass
A C D E F1 F2 G kg
4.15 kV -
6.9 kV
450 A mm 210 310 340 280 256 250 310 M10 16
Description
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Circuit diagrams
Fig. 19 Example 110 V to 125 V,
with auxiliary switches 4NO
+ 4NC - without closing
latch
Only terminals A1 and A2 are to be
used. Terminals E1 and E2 are avail-
able, but not assigned (de-energised).
0098-21
Colours of insulating sleeves of connector plugs
-X7.1 red
-X7.2 yellow
-X5.1 black
-X5.2 white
Description
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Fig. 20 Example 110 V to 125 V,
with auxiliary switches 4NO
+ 4NC - with mechanical
closing latching and shunt
release Y1
Terminals E1 and E2 are assigned in-
dependent of A1 and A2.
0098-22
Colours of insulating sleeves of connector plugs
-X7.1 red
-X7.2 yellow
-X5.1 black
-X5.2 white
Description
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Fig. 21 Example 220 V to 240 V,
with auxiliary switches 4NO
+ 4NC - without closing
latch
Only terminals A1 and A2 are to be
used. Terminals E1 and E2 are avail-
able, but not assigned (de-energised).
0098-23
Colours of insulating sleeves of connector plugs
-X7.1 red
-X6.1 black
-X6.2 yellow
-X5.2 white
Description
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Fig. 22 Example 220 V to 240 V,
with auxiliary switches 4NO
+ 4NC - with mechanical
closing latching and shunt
release Y1
Terminals E1 and E2 are assigned in-
dependent of A1 and A2.
0098-24
Colours of insulating sleeves of connector plugs
-X7.1 red
-X6.1 black
-X6.2 yellow
-X5.2 white
Description
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Blank page
Installation
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Installation
Installation
DANGER
Risk of injury!
• Do not touch live parts!
• When work is performed on the switchgear, it must be de-energised and
earthed!
• The work described in the following sections must only be performed when
the switchgear has been de-energised:
- Take safety measures to prevent reclosing!
- Observe industrial safety regulations!
- Ensure that the vacuum contactor is mounted and commissioned only by
qualified personnel who are familiar with the operating instructions and
observe the warning notices.
CAUTION
Inadequate ventilation leads to material damage.
The customer is to ensure there is adequate ventilation in the installation space
or in the switch cabinet (see “Installation position”, p. 15).
Note
Transporting the vacuum contactor
Transporting the vacuum contactor by holding and lifting the auxiliary switches on
the sides leads to material damage.
Only transport the vacuum contactor by holding it under the operating mechanism
box, the base plate, or the pole shells (see “Transport to the installation site”,
Fig. 1).
Note
Attaching the vacuum contactor
Attaching the vacuum contactor with shear, tensile, or compressive stresses can
lead to material damage.
Attach the vacuum contactor by the specified mounting points without shear, ten-
sile, or compressive stresses.
Installation
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Due to the special shape of the mounting holes on the 3TM vacuum contactor , it is
possible to position it safely on loose, pre-assembled screws.
Mount the 3TM vacuum contactor tension-free and torsion-free at the four specified
mounting points (*) on a frame, wall, or on a withdrawable part.
Mounting screws M10, strength 8.8, tightening torque 48 Nm
Earthing
Connect the earthing conductor on the earthing terminal (22) to the high-voltage pro-
tective earth as specified (DIN EN 50341).
Connecting to earthing on
the customer’s premises
Mount the contact washer (SN 70093), ring cable lug of the earthing conductor and
washer with the hexagonal bolt M12 (see Fig. 24) on the earthing terminal (22) and
tighten to 105 Nm.
Fig. 23 Mounting points Fig. 24 Connecting the earthing conductor
* Mounting points 2 Base plate
** Contact washer (SN 70093) 22 Earthing connection
Note
The base plate is provided with a protective layer. The earthing conductor must
be connected on the customer’s premises with the use of a contact washer:
• with spring steel serrations and
• mechanically galvanized.
Only in this way is the protective layer reliably penetrated to the metal and contact
established.
Note
If the vacuum contactor is installed into an earthed metal frame and is connected
so it is permanently electrically conductive, no separate earthing is required.
In this case, place contact washers (SN 70093) under the screw heads when fas-
tening the vacuum contactor.
Installation
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Mounting the mechanical closing latching (optional) and manual unlatching
(optional)
If the 3TM vacuum contactor 3is prepared for backfit, the mechanical closing latch-
ing with shunt release Y1 and manual unlatching can be mounted in accordance
with the supplied assembly drawing.
9 Mechanical closing latching with shunt release Y1
11 Shunt release Y1
12 Push rod for manual unlatching
13 Coupling point for customer connection
14 Manual unlatching, mechanism
15 Draw bar for manual unlatching
Connecting the low voltage
Wiring the auxiliary
switches
Connect the low-voltage connecting cables in the customer's switch cabinet in such
a way that safe operation as per supplied circuit diagram is guaranteed.
Fig. 25 Mounted mechanical closing latching and
manual unlatching
Fig. 26 Mounted manual unlatching with draw bar or
push rod (view, vacuum contactor in horizon-
tal orientation)
The auxiliary switches (23) are not wired in the as-deliv-
ered condition.
The connecting cables are to be mounted by the custom-
er as a flexible flex with wire end ferrules. Cross-sections
can be found in the supplied data sheet (see also “Rated
data for auxiliary switches”, Fig. 14, p. 19).
Fig. 27 Auxiliary switch without wiring, as-delivered
condition
Installation
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Removing the side plate • Remove the screws on the side plate (33) and remove the side plate (see
Fig. 28).
23 Auxiliary switch
33 Side plate
44 Switching lever cam
45 Switching lever for auxiliary switch
* Recess in switching lever
Mounting the side plate • Connect the auxiliary switch (23) in accordance with the circuit diagram.
• If present, remove the label from the switching lever (45)
• Insert a screwdriver in the recess (*) in the switching lever (45) for the auxiliary
switch (23).
• Position the side plate (33) and move the switching lever (45) with the screw-
driver so that the switching lever (45) fits easily in the opening in the cam (44)
(see Fig. 29).
• Securely screw on the side plate (33).
• The correct position is achieved when the switching lever (45) can only be
moved slightly back and forth.
If the switching lever (45) can be moved far in one direction after installation, the
switching lever (45) is not inserted in the cam (44) and the above steps must be re-
peated.
Wiring the connectors for
the electronic controller
The electronic controller (24) for the vacuum contactor is the interface to the custom-
er-side connection. Protection with appropriate fuses is performed by the customer.
Use the respective 2-pole plug or screw connectors supplied in the accessory pack
according to the supplied circuit diagram.
To protect against the effects of oscillations and vibrations, the connectors are wired
(see also Fig. 30 and Fig. 31):
• without shear, tensile, or compressive stresses
Fig. 28 Removing the side plate Fig. 29 Mounting the side plate
Note
Connectors for A1/A2 and E1/E2 can become loose through repeated
disconnection.
When installing a new vacuum contactor, use only the new connectors provided
in the accessory pack and rewire.
Installation
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• without exceeding the permissible connector cross-sections
• under consideration of the potential voltage drops due to long cables
• with cables routed in an S configuration
• using suitable fastening elements to secure the cables
If long cables are necessary for control circuits, malfunctions can occur on closing
or opening under certain conditions. The maximum allowable single cable length lall
can be calculated based on the following formula:
US Rated supply voltage in V
RSL Ohmic resistance per conductor and km of control cable in Ω/km
uSL Voltage drop along control cable in %
Sclose, Pclose Contactor inrush current in VA/W
cos ϕclose Power factor of contactor solenoid on closing
16 Connector for release voltage E1/E2 of latching
21 Connector for supply voltage A1/A2
24 Electronic controller
25 Cover of the electronic controller
for direct current (in m)
for alternating current (in m)
lzul =RSL · Pein
5 · U2
S · uSL
lzul =RSL · Sein · cosφ
5 · U2
S · uSL
Fig. 30 Terminals of the electronic controller Fig. 31 Optimum cable routing and securing
Installation
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Functional check with ap-
plied low voltage
When low voltage is applied, the release, closing, and opening of the vacuum con-
tactor can be checked.
Electrical connection of the prime conductor
Connection variants:
• Busbars
• Power cable with cable lug
Upper and lower terminals Observe the use of M10 threads and screw-in depths of 20 mm to 25 mm
Tightening torque 35 Nm
For installation dimensions, see “Dimensional drawings”, p. 21.
DANGER
Danger to life – high voltage!
Closing without safety precautions can result in death or serious injury.
Test the vacuum contactor in the switchbay with high voltage applied only after
faultless functioning has been ascertained (see "Commissioning", p. 29).
Note
Clean the cable lugs or busbars and grease with Vaseline prior to installation.
Note
The contact surfaces of the terminals must not be damaged
Fig. 32 Screw-in depths Fig. 33 Dimensional drawing of upper and lower ter-
minals
20-25mm
M10
20-25 mm
M10
20-25 mm
Installation
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Preparing contact surfaces
Use a steel brush to carefully brush (cross-wise) the contact surfaces of the cable
lugs or busbars until they are metallic bright and wipe off any residue using a clean
cloth.
After cleaning, very lightly grease the bright contact areas with acid-free Vaseline
(e. g. Shell-Vaseline 8420) and screw together immediately.
Note
Clean silver-plated contact areas with a cloth; do not brush.
Different connection materials (AI/Cu) must not be cleaned with the same clean-
ing tools.
Silver-plated parts must not be bolted to aluminium bars!
Fig. 34 Cleaning the contact surfaces of the poles Fig. 35 Cleaning the contact surfaces of the busbars
Installation
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Mounting busbars
Adjust the busbars in such a way that, before fastening, they lie flat easily and fit the
holes on the contact surfaces of the upper and lower terminal.
Corresponding to the rated current strength, use M10 screws and nuts - strength
class 8.8 - and the appropriate spring elements and washers for connection of the
busbars.
Tightening torque M10: 35 ±4 Nm
Tightening torques apply to greased threads only.
Attach the busbars or flexible braid tension-free and torsion-free to the upper and
lower terminals.
Further steps for connecting the prime conductors are not described herein and are
performed by the customer.
Fig. 36 Busbars mounted at an angle Fig. 37 Busbars mounted in a straight position
Operation
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Operation
Commissioning
Dielectric tests To test the vacuum contactor in a state without supply voltage, it is necessary to
short-circuit and earth the terminals for supply voltage A1/A2 and, if applicable,
E1/E2 for the release voltage for magnetic unlatching.
Subsequently the following tests can be performed:
• Dielectric test of the main circuit as per DIN EN 62271-1 (Chapter 7.1.) and
• Dielectric test of the auxiliary and control circuits as per DIN EN 62271-1 (Chap-
ter 7.2.4.).
Before commissioning, check the following points to ensure that the vacuum contac-
tor is functioning faultlessly.
Continued on the next page
DANGER
Danger to life due to electric shock!
Electric shock can result in death, serious injury, or considerable material dam-
age.
• Do not touch live parts!
• Ensure that the vacuum contactor is operated only by qualified personnel
who are familiar with the operating instructions and observe the warning
notices!
• Check through all of the items on the checklist and ensure correct functioning
before commissioning!
Checklist Notes
Does the information on the rating plate match the order data (see p. 17)?
Ensure correct operating voltage.
Check the supply voltage and the performance data of the low-voltage
network are correct.
If necessary, clean the vacuum contactor (details on this in section
“Cleaning” on p. 39).
Check that a stable supply voltage is applied with a short-time load
exceeding 1.7 kW, otherwise the switching device will not reach the clos-
ing position or reach it with a delay.
If necessary, check the functionality of the manual unlatching (EMER-
GENCY STOP) in conjunction with the switch cabinet door.
Check that screw connections are tightened securely.
Check the plug connections for a firm seat.
Check the functioning of the auxiliary switches.
If necessary, check and adjust the customer's devices.
If the DIP switch setting has been changed by the customer:
Check the correct setting of the DIP switch on the electronic controller
(see p. 42).
Check changed MLFB entries on the rating plate.
Operation
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Troubleshooting
1) Complete vacuum contactor
First closing operation
If all functions have been checked and are OK, switch on the high voltage while ob-
serving all of the safety regulations and operational requirements.
Checklist Notes
Check the unlatching. If manual unlatching (EMERGERNCY-STOP) via
the push rod or draw bar is not available, the shunt release (-Y1) can be
manually actuated in a de-energised state and for test purposes (see
Fig. 8 on p. 16).
Test the electric switching repeatedly before the vacuum contactor is put
into operation in the network.
WARNING
Do not commission the vacuum contactor if there are malfunctions.
If the malfunctions or damage cannot be remedied, contact a sales representative
or Siemens Service and, if necessary, send back the vacuum contactor in the
original packaging.
Incident Troubleshooting
Vacuum contactor does not
respond
• Check the DIP switch S2 position and reset if necessary (see matrix Fig. 44).
Closing is blocked • Send it back to the manufacturer1).
Failure of the supply voltage
Ua
• Check the connectors on the electronic controller for a firm seat.
• Check the cable connection to the connectors.
• If a new vacuum contactor is installed, use only the connectors provided in
the accessory pack (see p. 30).
Defective shunt release • Order a spare part and mount according to the supplied instructions.
Vacuum contactor does not
return to the starting position
or the initial state
• Inspect the contact welding and remedy by means of no-load switchings.
• For existing closing latching, actuate the manual unlatching (no-load switch-
ing permissible).
Vacuum contactor does not
latch • Send it back to the manufacturer1).
Manual unlatching is blocked • Check that the unlatching mechanism is attached to the coupling point and
reattach with max. 4 Nm. While doing so, prevent the threaded rod from twist-
ing.
Maintenance
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Maintenance
Maintenance and servicing
Inspections The following work is to be carried out as part of the regular inspections:
• Visual inspections during storage, see “Storage” on p. 7
• Visual inspections during operation
• Screws and terminals are firmly attached
• Earthing connection firmly established and not damaged
• Labelling is clearly legible
• Insulation capacity not hampered by deposits, see “Cleaning” on p. 39
• Check the limit dimension of switching stroke of the vacuum interrupters,
depending on the mechanical and electrical strain or switching frequency, every
100,000 switch operations or once a year. See “Checking the switching stroke
of vacuum interrupters” on p. 37
• Regular function check of closing latching and then unlatching with manual trip,
see “Mechanical closing latching”, on p. 16
• Measurement of conductance of auxiliary switch contacts.
Checking the switching
stroke of vacuum
interrupters
Reliable switching of the 3TM vacuum contactor is only ensured if the switching
stroke of the vacuum interrupters is not below the minimum of 3.5 mm and does not
exceed the maximum of 7.5 mm.
The switching stroke can vary depending on current, elapsed service life, and
switching frequency. If the value goes below the limit, arcing between the contacts
in the vacuum interrupter can negatively affect opening.
Correct functioning of the bellows for the vacuum interrupters can be compromised
if the limit is violated.
The switching stroke must be regularly checked. If the limit is reached, the switching
stroke can be readjusted once.
If the limit is then exceeded again, the vacuum contactor must be replaced.
If the specified limits for mechanical or electrical service life are reached, the vacu-
um contactor must be replaced and readjustment is not permissible.
DANGER
Risk of injury!
Working on the opened and closed vacuum contactor can lead to fatal injuries.
• Before beginning maintenance work, note the 5 safety rules for high-voltage
equipment specified in EN 50110-1, namely:
- Isolate from the power supply
- Secure against reclosing
- Verify that the equipment has been de-energised
- Earth and short-circuit
- Cover or cordon off neighbouring live parts
• Open the vacuum contactor by hand and operate the mechanical unlatching
if necessary. This ensures that the vacuum contactor is open.
• The vacuum contactor is to be taken out of the system/switch cabinet for
maintenance work.
Maintenance
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Limit
Limit: a - b = min. ≥ 3.5 mm or max. ≤ 7.5 mm
a OPEN switch position
b CLOSED switch position
Adjusting the switching
stroke of vacuum
interrupters
Torsional loading of the draw bar (40) of the vacuum interrupters (3) must be pre-
vented.
7 Pole shell
40 Draw bar for vacuum interrupter
41 Locking nut
42 Adjusting nut
43 Spherical seat
If the permissible limit for the difference between "a" and "b" is reached, the inter-
rupters can be readjusted as follows:
• Remove the vacuum contactor from the switchgear if necessary
• Measure the distance between the top edge of the pole shell (7) and the top
edge of the draw bar (40), see Fig. 38 and Fig. 39 in the OPEN and CLOSED
conditions. This is done by switching the vacuum contactor CLOSED and OPEN
again.
• Use a size 12 open-end spanner to keep the adjusting nut (42) from turning.
• Use an additional size 13 open-end spanner to loosen the locking nut (41) over
the adjusting nut (42) and the spherical seat (43).
• To readjust the switching stroke:
- If the value is below the limit - turn the adjusting nut (42) clockwise at least
one turn, approx. 1.5 mm lower. A complete turn corresponds to approx.
Fig. 38 OPEN switch position Fig. 39 CLOSED switch position
Fig. 40 OPEN switch position - cross-sectional view
Maintenance
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1.25 mm.
- If the value is above the limit - turn the adjusting nut (42) counter-clockwise
at least one turn, approx. 1.5 mm higher.
• Use the open-end spanner to prevent the adjusting nut (42) from turning and
securely tighten the locking nut (41).
• Function check of mechanical parameters such as on-time and off-time, see
“Rated data of solenoid actuator”, Fig 12.
• After successful adjustment - install the vacuum contactor in the switchgear.
Cleaning The insulating parts must be clean if their insulation capacity is to be guaranteed.
Rub insulating parts with a moist cloth.
As a cleaning agent, use only warm water with a mild, liquid household detergent
added and leave to dry.
Accessories and spare parts
Replacing spare parts To ensure that the device operates reliably, spare parts must be replaced only by
trained and certified personnel.
Remove the vacuum contactor from the system or switch cabinet for maintenance
work.
Continued on the next page
CAUTION
Risk of injury!
Put the vacuum contactor in the OPEN position. Operate the manual unlatching
if available.
Separate the vacuum contactor from the control feed voltage/switch it off and re-
lease the low-voltage connector/terminal connection.
Accessory/spare part Order number Comment
Operating instructions, German 9229 0098 100 Catalogue supplement -
ZL03
Electronic controller 110 V-240 V DC/AC 3TY5902-0AA1 Standard design
Shunt release Y1 Release voltage of unlatch-
ing
DC 24 V 3TY5903-0AB0
DC 30 V 3TY5903-0AC0
DC 48 V 3TY5903-0AD0
DC 60 V 3TY5903-0AE0
DC 110 V 3TY5903-0AF0
DC 125 V 3TY5903-0AG0
DC 220 V 3TY5903-0AH0
DC 250 V 3TY5903-0AJ0
AC 100 V 3TY5903-0AL0
AC 110 V 3TY5903-0AM0
AC 115 V 3TY5903-0AN0
AC 120 V 3TY5903-0AP0
AC 230 V 3TY5903-0AQ0
AC 240 V 3TY5903-0AR0
Maintenance
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Fig. 41 Accessories available for order
For spare part orders, indicate the type and serial number of the vacuum contactor
in accordance with the rating plate.
Accessory/spare part Order number Comment
Mechanical closing latching with shunt release Y1 Release voltage
DC 24 V 3TX5903-0AB0
DC 30 V 3TX5903-0AC0
DC 48 V 3TX5903-0AD0
DC 60 V 3TX5903-0AE0
DC 110 V 3TX5903-0AF0
DC 125 V 3TX5903-0AG0
DC 220 V 3TX5903-0AH0
DC 250 V 3TX5903-0AJ0
AC 100 V 3TX5903-0AL0
AC 110 V 3TX5903-0AM0
AC 115 V 3TX5903-0AN0
AC 120 V 3TX5903-0AP0
AC 230 V 3TX5903-0AQ0
AC 240 V 3TX5903-0AR0
Manual unlatching with
- Push rod
-Draw bar
3TX5904-0AA1
3TX5904-0AA0
M4 threaded rods without
terminators
Auxiliary switch (S1.1) with 2NO + 2NC, left 3TY5901-0AA1 Mounted on side plate, with-
out wiring
Auxiliary switch (S1.2) with 2NO + 2NC, right 3TY5901-0AB1
Vaseline (contact grease)
e. g. Atlantic white, Atlantic Mineralölwerk GmbH 3AX1133-4A Pasty consistency, flash
point 210 °C, low acid
Maintenance
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Replacing the electronic controller
If the electronic controller is to be replaced, then remove and mount according to the
supplied assembly drawing.
Setting the electronic
controller
If necessary: Using the DIP switches S2 (26) and the set-up matrix, have the cus-
tomer adjust the settings on the electronic controller (see Fig. 44, p. 42).
CAUTION
Material damage caused by electrostatic discharge to the electronic con-
troller
Electrostatic discharge can cause material damage to the electronic controller
and restrict its functionality.
To prevent damage to electronic components, discharge any existing electrostat-
ic charges on hands or tools by touching grounded surfaces prior to touching
electronic components and before removing the connector plugs.
Note
Store all disassembled screws, washers, and nuts safely for reuse.
Fig. 42 Electronic controller with cover Fig. 43 Electronic controller with cover removed
Maintenance
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Configuring the controller
Observe the following when reordering the switching device:
If the factory-supplied configuration is changed by the customer, the MLFB on the
rating plate is invalid and the warranty is void. Despite this, the MLFB on the rating
plate must then be changed. Line g, s to v, see “Example - rating plate for vacuum
contactor 3TM”, page 17, Fig. 9.
1) Average values under normal conditions. Deviations possible under different ambient conditions.
2) If closing latching is available, the opening delay is disabled and DIP switch S2 in 3 and 4 is to
be left OPEN
Fig. 44 Matrix of the positions of the DIP switches S2 (shown in black) for addi-
tional closing and opening delay
Supply voltage Ua
Closing delay
Opening delay 1
Opening delay 2
Spare
Latch
(Shunt release)
Closing delay
Opening delay1)
123456 ms ms
OPEN 00
CLOSE
OPEN 050
CLOSE
OPEN 0 100
CLOSE
OPEN 0 150
CLOSE
OPEN 50 0
CLOSE
OPEN 50 50
CLOSE
OPEN 50 105
CLOSE
OPEN 50 150
CLOSE
1 2 3 4 5 6 Supply voltage range
OPEN 220-240 V AC/DC
CLOSE
OPEN 110-125 V AC/DC
CLOSE
1 2 3 4 5 6 Code for closing latching
OPEN Without closing latching
CLOSE
OPEN With closing latching2)
CLOSE
Maintenance
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Manufacturer's product liability
The manufacturer's product liability shall be excluded if at least one of the following
criteria applies:
1. Original Siemens spare parts are not used.
2. Fitters carrying out replacements have not been trained and certified by Sie-
mens.
3. Parts have been incorrectly mounted or adjusted.
4. Settings are not made in accordance with Siemens specifications.
Disposal
The materials of the vacuum contactor should be recycled if possible. Disposal of
the vacuum contactor with minimum environmental impact is possible on the basis
of existing legal regulations.
Metal The switching device's metal components can be recycled as mixed scrap, although
it is more environmentally sustainable to dismantle the unit as thoroughly as possi-
ble into sorted scrap and residual mixed scrap.
Electronics Electronic scrap must be disposed of in accordance with applicable regulations.
Materials The vacuum contactor consists of the following materials:
• Steel ( partly phosphatised, galvanised and CrVI-free passivated)
• Copper or aluminium ( partly silver-plated)
• Plastics (cycloaliphatic epoxy resin, polyamide, polyester, polycarbonate, ABS-
PC mixture; partly glass fibre reinforced)
• Rubber materials
•Ceramics
•Lubricant
For more information regarding declared or restricted substances in this product,
send an email to:
• materialcompliance.ms.ehs@siemens.com
Packaging If the packaging is no longer needed, it can be fully recycled.
Hazardous substances When delivered by Siemens, the product does not contain any hazardous substanc-
es within the scope of the Hazardous Substances Ordnance applicable to the terri-
tory of the Federal Republic of Germany. The switching devices are free from
asbestos, halogens, and lead. For operation outside the Federal Republic of Ger-
many, the applicable local laws and regulations must be complied with.
Further information Contact your Siemens Service Centre if you require further information.
Service
Siemens Service contact persons can be found under:
Customer service • Telephone: +49 180/524 7000
• Fax: +49 180/524 2471
• on the internet under web address www.siemens.com/energy-support
• by email: support.energy@siemens.com
or from any local Siemens representative.
Maintenance
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Blank page
Index
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Index
A
Accessories available for order ............................. 40
Altitude correction factor ....................................... 20
Ambient conditions ................................................ 19
Areas of application .............................................. 10
Auxiliary switch ..................................... 13, 19, 29
Auxiliary switches, terminal cross-sections ........... 19
B
Base plate ..................................................... 13– 14
Busbar ................................................................... 34
C
Circuit diagrams ............................................ 22– 25
Climate classes ..................................................... 19
Closing delay ........................................................ 15
Closing latching ..................................................... 16
Closing latching, mechanical ........................ 16, 29
Closing time .................................................. 15, 18
Connector
release voltage E1/E2 .................................... 31
supply voltage A1/A2 .............................. 14, 31
Contact surface, pole ............................................ 34
Coupling point, customer connection .................... 29
E
Earthing connection .............................................. 28
Electronic controller ...................................... 13– 14
cover ............................................... 13– 14, 41
replacing ......................................................... 41
setting ............................................................. 41
wiring connectors ............................................ 30
EMERGENCY STOP, manual unlatching ............. 13
F
Factory number ..................................................... 17
H
High-voltage protective earth ................................ 28
I
Inspections ............................................................ 37
Installation altitudes .............................................. 19
Insulating capacity ........................................ 20, 39
L
Limit, switching stroke ................................... 37– 38
Lower terminal .............................................. 13– 14
M
Mechanical service life .......................................... 18
Mechanical switching frequency ........................... 18
Mounting position .................................................. 15
O
Opening delay ....................................................... 15
Opening time ................................................. 15, 18
Operating mechanism lever .......................... 13– 14
Operating mechanism solenoid ............................ 14
P
Pole shell ...................................................... 13– 14
Position indicator ................................................... 13
Power loss
holding mode ................................................... 18
shunt release ................................................... 18
R
Rated frequency .................................................... 18
Rated insulation level ............................................ 19
Rated lightning impulse withstand voltage ............ 18
Rated normal current ............................................. 18
Rated release voltage ............................................ 18
Rated short-duration power frequency withstand
voltage ................................................................... 18
Rated supply voltage .................................... 17– 18
Rated voltage ....................................... 17– 18, 21
Rating plate ........................................................... 13
S
Shunt release (-Y1) ...................................... 14, 16
Shunt release Y1 ................................................... 29
Side plate
removing ......................................................... 30
Standards .............................................................. 10
Start-up power loss ................................................ 18
Storage conditions ................................................... 7
Switching stroke .................................................... 37
T
Torsional loading ................................................... 38
Type designation ................................................... 17
U
Unlatching, manual ....................................... 16, 29
complete ................................................. 13– 14
cover ............................................................... 13
draw bar ......................................... 14, 16, 29
EMERGENCY STOP ...................................... 13
push rod ................................. 13– 14, 16, 29
Upper terminal .............................................. 13– 14
Utilisation category ................................................ 19
V
Vacuum interrupter ............................... 13– 14, 37
W
Weight .......................................................... 17– 18
Index
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Blank page
Central legend
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Central legend
1 Vacuum contactor
2 Base plate
3 Vacuum interrupter
4 Upper terminal
5 Lower terminal
6 Position indicator OPEN-CLOSED
7 Pole shell
8 Rating plate
9 Mechanical closing latching with shunt release Y1
10 Cover of closing latching
11 Shunt release Y1
12 Push rod for manual unlatching
13 Coupling point for customer connection
14 Unlatching (emergency stop), manual with push rod or draw bar
15 Draw bar for manual unlatching
16 Connector for supply voltage of latching E1/E2
17 Cover of manual unlatching
18 Retaining plate right/left (of the unlatching)
19 Unlatching adapter
20 Unlatching slider
21 Connector for supply voltage of the control circuit A1/A2
22 Earthing connection
23 Auxiliary switch S1.1/S1.2
24 Electronic controller
25 Cover of the controller
26 DIP switch S2
27 Plugs
30 Operating mechanism solenoid
31 Operating mechanism lever
32 Solenoid actuator
33 Side plate with auxiliary switches
34 Operating mechanism box
40 Draw bar for vacuum interrupters
41 Locking nut
42 Adjusting nut
43 Spherical seat
44 Switching lever cam
45 Switching lever for auxiliary switch
Published by
Siemens AG
Energy Management Division
Medium Voltages & Systems
Schaltwerk Berlin
Nonnendammallee 104
13629 Berlin
Germany
