Siemens | MB 11000 UC | medium voltage switchgear and controlgear

MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
MODEL
MS-E
IEC 62271-200
7.2 /12 / 15 kV
25, 31.5, 40 kA
The MS-E conforms to IEC 62271-200 standard and is designed and manufactured
utilising Mitsubishi Electric state-of-the-art technology, fully taking into account
present and future power system requirements.
Page
Mitsubishi Electric has manufactured hundreds of thousands of medium voltage
panels over the last almost 60 years.
With this experience, Mitsubishi Electric has gained a reputation of manufacturing
FEATURES
3
APPLICATIONS
4
STANDARD RATINGS
5
up-to-date and reliable medium voltage panels, and possesses a supply record
that comprises satisfied customers from all across the globe.
CONSTRUCTION
8
1. ENCLOSURE AND PARTITIONS
2. BUSBAR
3. VACUUM CIRCUIT BREAKER (VCB)
4. FUSED VACUUM CONTACTOR
5. AUTOMATIC SHUTTERS
6. CABLE COMPARTMENT / CURRENT TRANSFORMERS
7. WIRING
8. EARTHING BUSBAR
SWITCHGEAR ARRANGEMENT
13
1. EXAMPLE
2. STANDARD SECTION VIEW AND DIMENSIONS
3. FOUNDATION
STANDARD DESIGN
MS-E with gas exhaust duct
MS-E with gas screen
40 kA internal arc fault test of MS-E at KEMA’s Netherlands laboratory
Type testing of the MS-E was first performed at Mitsubishi Electric’s High Power
18
1. ENCLOSURE AND STRUCTURE
2. BUSBAR AND CONNECTING CONDUCTOR
3. EARTHING BUSBAR
4. CONTROL CIRCUIT WIRING
5. PHASE / POLARITY ARRANGEMENT AND COLOUR CODING
6. WITHDRAWABLE EQUIPMENT
7. WITHDRAWABLE EQUIPMENT POSITIONS
8. SAFETY INTERLOCKS
9. PAINTING AND COLOUR
10. NAMEPLATES
11. SURGE (SWITCHING) PROTECTIVE DEVICES
Testing Laboratory in Japan, and then by an independent external testing and
certification authority, KEMA, in the Netherlands.
21
ACCESSORIES
1. STANDARD ACCESSORIES
2. OPTIONAL ACCESSORIES
3. EARTHING DEVICES
4. GAS EXHAUST DUCT
5. GAS SCREEN
OPTIONS
1
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
24
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
2
1
2
FEAT URES
A PP L I C AT I ONS
HIGH RELIABILITY
Type testing of the MS-E was performed by an independent external testing and
Mitsubishi MS-E provide control and protection of the power supply to motors,
certification authority, KEMA, in the Netherlands.
transformers, capacitors and other feeder circuits.
MS-E is designed with the benefit of Mitsubishi’s vast medium voltage panels production
experience of hundreds of thousands of panels over the last almost 60 years.
The MS-E is available at rated voltages of 7.2 to 15 kV, with rated short-circuit breaking
All components, such as current transformers, voltage transformers and multi-function
capacities from 25 to 40 kA.
relays are made of the highest quality materials.
Heat stress analysis of the switchgear structure has led to a heat-resistant design in
MS-E is designed for indoor use and is particularly suitable for electric power plants,
which circuit breakers up to 3150 A are self-cooled (i.e. cooling fans not required).
substations, industrial plants, commercial buildings, pumping stations, pipeline stations
The reduced number of parts reduces the chance of failure.
and transportation systems.
SAFETY
Partitions between compartments and an automatic shutter system (for withdrawable
equipment primary junctions) completely isolate live parts.
Safe operation and maintenance is ensured with the adoption of comprehensive
interlocking mechanisms.
In the event of an internal arc fault, the MS-E is designed to withstand the huge
pressure and burning effect of the arc. (Relief flaps located on top of the panel open to
limit pressure.)
Multiple
protection relay
Control (low voltage)
compartment
Withdrawable equipments are inserted / withdrawn whilst the front panel door is closed
so that any arc proof rating is not compromised (in line with IEC 62271-200
requirements).
EASY INSTALLATION
Installation and testing duration are considerably reduced as the panel is tested and
Withdrawable
vacuum circuit breaker
Self-cooled horizontal
busbars
adjusted in the factory and then delivered as a complete unit.
Withdrawable
fused vacuum contactor
FLEXIBLE DESIGN
Panels with main circuit and control cable entry from either the top or bottom are
available.
Reinforced
inspection windows
PROTECTION
Mitsubishi MP or EMC Multiple Protection relays are installed as standard. The MP or
Cable compartment
EMC relay provides protection, measurement, communications and control functionality.
Figure 2-1 MS-E panel
Figure 1-1 MP Multiple Protection relay
3
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
Figure 1-2 EMC Multiple Protection relay
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
4
2. VACUUM CIRCUIT BREAKER
3
1. SWITCHGEAR AND CONTROLGEAR
Manufacturer
Mitsubishi Electric
Type designation
6/10-VPR-MMC1
Applied standard
Rated voltage
Ratings
Type designation
Rated frequency
MS-E
Applied standard
IEC 62271-200 1
Rated voltage2
[kV, rms] Ur
Rated frequency
7.2
[Hz] fr
Rated insulation level4
Short-duration power frequency withstand voltage, 1 min. [kV, rms] Ud
Lightning impulse withstand voltage
[kV, peak] Up
[A, rms] Ir
Rated normal main busbar current
Rated short-time withstand current , symmetrical [kA, rms] Ik
Rated peak withstand current
12
15 3
50, 60
20
60
28
75
36
95
630, 1250, 2000, 3150 5
25, 31.5, 40
[kA, peak] Ip 50 Hz: 2.5 × Ik , 60 Hz: 2.6 × Ik
Rated duration of short-circuit
[sec] tk
LSC2B-PM
Loss of Service Continuity category
Internal Arc Classification6
Accessibility type
Arc test current
Arc test current duration
1, 3
IAC
[kA]
[sec]
AFL, AFLR
25, 31.5, 40
0.1, 0.5, 1.0
Rated normal current (self-cooling)
IEC 62271-100
[kV, rms] Ur
[°C]
-5 ~ 40
Altitude a.s.l.
[m]
1000 max.
[%]
[kPa]
95 max.
2.2 average
[m/s2]
[m/s2]
9.80
3.23
Humidity
R.H.
Water vapour pressure
Earthquake protection
Horizontal seismic withstand8
Vertical seismic withstand
50, 60
630, 1250, 2000, 31503
Rated insulation level
Short-duration power frequency withstand voltage, 1 min. [kV, rms] Ud
Lightning impulse withstand voltage
[kV, peak] Up
Type test9
Withdrawable equipment10 position
Withdrawal / insertion method
Maintenance access
KEMA (Netherlands)
Mid-mount
20
60
28
75
36
95
Rated short-time withstand current
[kA, rms] Ik
Rated peak withstand current
[kA, rms] Ip 50 Hz: 2.5 × Ik , 60 Hz: 2.6 × Ik
Rated duration of short-circuit
Rated cable-charging breaking current
Rated short-circuit breaking current
25, 31.5, 40
[sec] tk
3
[A, rms] Ic
10, 25
[kA, rms] Isc
25, 31.5, 40
Transient Recovery Voltage (TRV)
Reference voltage
Rate of Rise of Recovery Voltage (RRRV)
12.3
[kV] uc
[kV/µs] uc /t3 0.24
Rated break time
[cycles]
Rated short-circuit making current
Rated control voltage
[kA, peak]
[V DC] Ua
Closing operation
Motor current (at 110 V DC)
Spring charging time
20.6
0.34
3
63, 78.8, 100
48, 110, 220
[A]
[sec]
1.2 (peak 6 A)
Approx. 6 (after closing)
Closing control current (at 110 V DC)
[A]
3.4
Tripping control current (at 110 V DC)
[A]
3.4
Weight
25.7
0.34
O– 3 min–CO–3 min–CO
O –0.3 sec–CO –3 min–CO
CO –15 sec–CO
Auxiliary switch (contacts)
7
152
[A] Ir
Indoor
Ambient temperature
12
[Hz] fr
Rated operating sequence
Location
7.2
5a, 5b
[kg] M
630, 1250 A: 140
2000 A: 160
3150 A: 210
1. Rated short-circuit breaking current
2 5
25 kA
3 2
31.5 kA
4 0
40 kA
2. North American rating (range I, series II in IEC).
3. 3150 A apply to 7.2 kV and 12 kV switchgear.
External operation (with door closed)
Front & rear, Front
1. High-voltage switchgear and controlgear-Part 200:
AC metal-enclosed switchgear and controlgear for rated voltages above 1 kV and up to and including 52 kV.
2. 12 kV and 15 kV apply to switchgear.
3. North American rating (range I, series II in IEC).
4. 28 kV rms (75 kV peak) and 36 kV rms (95 kV peak) apply to switchgear.
5. 3150 A apply to 7.2 kV and 12 kV switchgear.
6. Optional
7. General use, class B on the upper floor or roof of building according to JEM-TR 144.
8. Static acceleration of horizontal is 3.92 m/s2 at base of structure.
9. Internal arc fault test.
10. Circuit breaker or Fused contactor or Voltage transformer.
Figure 3-1 Withdrawable vacuum circuit breaker
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MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
6
3. FUSED VACUUM CONTACTOR
4
Manufacturer
Mitsubishi Electric
MMFKVN1
Type designation
Applied standard
IEC 60470
The all-metal enclosure is completely earthed. Each compartment (control,
Rated voltage
[kV, rms] Ur
6.6
withdrawable equipment, busbar and cable) is segregated from other compartments by
Rated insulating voltage
[kV, rms]
7.2
earthed metal partitions.
Rated frequency
Rated operational current (self-cooling)
[Hz] fr
50, 60
[A] Ie
200, 400
Rated insulation level
Short-duration power frequency withstand voltage, 1 min. [kV, rms] Ud
Lightning impulse withstand voltage
[kV, peak] Up
Rated short-circuit breaking current
Rated control voltage
The front of the MS-E is divided into three kinds of compartments. The upper
compartment is the control compartment, and the middle one is the withdrawable
equipment compartment. The bottom-most compartment can be used for maintenance
20
60
access. (See Figure 4-1.) The multi-function relay (or meters, protective relays, control
switches, etc.) is semi-flush mounted on the door of the control compartment.
[kA, rms] Isc
40 (Power fuse)
[V AC/DC] Ua
100, 110, 200, 220
Closing control current (at 100 V DC)
[A]
4.8
Tripping control current (at 100 V DC)
[A]
3.5 (Mechanical latch type)
2a, 2b
Auxiliary switch (contacts)
[kg] M
Weight
1. Power fuse rating
20 A
50 A
100 A
150 A
200 A
300 A
400 A
Contactor rating
200 A
400 A
/
/
z
z
x
c
v
L1
Electrical hold type,
Mechanical latch type
Operation system
L2
L3
200 A: 90
400 A: 90 (for 3.3 kV)
100 (for 6.6 kV)
x
b
/
b
/
/
/
w
r
Gas exhaust duct or gas screen (optional)1
Ventilator 2
Control compartment
Withdrawable equipment compartment
Busbar compartment
Cable compartment
Circuit breaker
Earthing switch (optional)3
Power cable
1. Gas exhaust duct or gas screen required when Internal Arc Classification selected. Refer to p. 23 for more detail.
2. When the current within a compartment is 2000 A or greater, a ventilator is required for that compartment.
However, not required if gas exhaust duct used.
3. Earthing truck is applied for 15 kV switchgear with Ik > 25 kA
Figure 3-2 Withdrawable fused
vacuum contactor
Load capacity selection table
Voltage Unit type
3.3 kV
The main busbar is made of copper conductor.
Motor Transformer Capacitor
(kW)
(kVA)
(kVar)
02F2VN
75
100
75
05F2VN
200
250
10F2VN
400
15F2VN
2
Voltage Unit type
Motor Transformer Capacitor
2
MS-E has bare busbars as standard. However,
(kW)
(kVA)
(kVar)
02F2VN
150
200
100
200
05F2VN
400
500
300
500
400
10F2VN
800
1000
500
630
750
500
15F2VN
1250
1500
750
20F2VN
800
1000
750
20F2VN
1600
2000
1000
30F4VN
1250
1500
1000
30F4VN
2000
3000
2000
covered with insulating tape. Connecting bars,
40F4VN
1500
2000
1200
40F4VN
2800
3500
2000
such as those between busbars and circuit
2. A series reactor must be provided.
6.6 kV
when required, the busbar can be insulated.
Also, the main bus joints, such as the busbar
joints between adjacent panels, can be
shrouded with insulating covers. Other joints,
such as those at the cable terminals, are
breaker bushings, or circuit breaker bushings
and cable terminals, may also be optionally
insulated.
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MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
Figure 4-1 Front compartments of MS-E
(switchgear)
Figure 4-2 Main busbars (air-insulated)
with tin plating
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
8
3. VACUUM CIRCUIT BREAKER (VCB)
4. FUSED VACUUM CONTACTOR
The VCB is easy to operate, with the closing spring charge indicator, the manual close
The fused vacuum contactor is easy to operate, with the manual trip button for
and trip buttons, the operation counter and mechanical ON / OFF indicator all being
mechanical latch type, the operation counter and mechanical ON / OFF indicator all
located on the front of the circuit breaker. (See Figure 4-3.)
being located on the front of the fused contactor. (See Figure 4-4.)
The circuit breaker has two positions, Service and Test/Disconnected, and may be
The fused contactor has two positions, Service and Test/Disconnected, and may be
optionally padlocked at each position. When the VCB is closed, the VCB locks in each
optionally padlocked at each position. When the contactor is closed, the fused
position by mechanical interlock. When the VCB is opened, the interlock pin is released.
contactor locks in each position by mechanical interlock. When the contactor is opened,
The circuit breaker can be easily drawn out or inserted by a simple rotation action. (See
the interlock is released.
Figure 4-3.) This is accomplished with the circuit breaker compartment door closed.
The fused contactor can be easily drawn out or inserted by a simple rotation action. (See
Unauthorised racking can be prevented by padlocking the shutter for the draw-out
Figure 4-4.) This is accomplished with the fused contactor compartment door closed.
handle aperture.
Unauthorised racking can be prevented by padlocking the shutter for the draw-out
The control circuit terminal of the circuit breaker is of manual connection type. The
handle aperture.
connector (see Figure 4-3) can be only attached when the VCB is in the Test/
The control circuit terminal of the fused contactor is of manual connection type. The
Disconnected position, and has the following mechanical interlocks.
connector (see Figure 4-4) can be only attached when the fused contactor is in the
The circuit breaker cannot be inserted to the Service position when the control
Test/ Disconnected position, and has the following mechanical interlocks.
circuit terminals are not connected.
The fused vacuum contactor cannot be inserted to the Service position when the
The control circuit terminals cannot be disconnected when the circuit breaker is
control circuit terminals are not connected.
in the Service position.
The control circuit terminals cannot be disconnected when the fused vacuum
contactor is in the Service position.
Circuit breakers of different ratings other than specified are mechanically prevented
from being inserted into the Service position.
Contactor of different ratings other than specified can be (optionally) mechanically
prevented from being inserted into the Service position.
Rating nameplate
Rating nameplate
Operation counter
Manual closing spring
charging handle aperture
Closing spring charge indicator
Manual trip button for
mechanical latch type
Manual close button
Control circuit plug-in terminal
Manual trip button
Operation counter
ON / OFF indicator
ON / OFF indicator
Control circuit
plug-in terminal
Racking truck
Wheels
Wheels
Racking truck
Power fuse
Racking
Auxiliary VT
(optional)
Racking
Front face-plate
Figure 4-3 Vacuum circuit breaker details
9
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
Vacuum Magnetic
Contactor (VMC)
Figure 4-4 Fused vacuum contactor details
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
10
6. CABLE COMPARTMENT / CURRENT TRANSFORMERS
5. AUTOMATIC SHUTTERS
Inserting the withdrawable equipment into the Service position causes the shutters to
Moulded-type current transformers are installed in the cable compartment.
automatically open. Drawing the withdrawable equipment out to the Test/Disconnected
position causes the shutters to move and cover the primary junction contacts.
Figure 4-5 Shutters open
Figure 4-6 Shutters closed
Figure 4-9 Current transformers installed in cable compartment
As shown below, the shutters operate on the busbar and cable sides. The shutters for
the upper and lower primary junctions can be closed and opened individually, and can
be (optionally) padlocked in the closed position.
7. WIRING
Necessary control equipment such as auxiliary relays, terminal blocks and fuses are
located in the control compartment.
Ducting and bundling ensure that control wiring is systematic and neat.
External control cable can be terminated to both sides of the compartment.
Wiring to devices mounted on the door are protected from damage during opening or
closing by vinyl tubing.
Figure 4-7 Individual shutter operation
Figure 4-10 Control compartment
8. EARTHING BUSBAR
Figure 4-8 Optional padlocking of top and bottom shutters
The earthing busbar is made of copper conductor.
MS-E has no plating earthing busbar as standard.
The shutters are made of metal and the following labels can be (optionally) provided.
However, when required, the earthing busbar can
“ BUSBAR” on shutter for busbar (line) side.
be optionally tin-plated.
“ CABLE ” on shutter for cable (load) side.
An earthing busbar is installed along the full
The shutters can be (optionally) provided with a manually operated device to keep it in
length of the switchgear structure, with provision
the opening position.
for earth cable connection at each end.
The function of the device is cancelled by insertion of withdrawable equipment.
Figure 4-11 Earthing busbar (tin-plated)
viewed from rear of panel
The earthing busbar can be easily accessed from
the front by removing the cover within the cable
compartment.
11
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
12
5
(1) 7.2 / 12 / 15 kV, 25 ~ 40 kA MITSUBISHI MS-E SWITCHGEAR
1. EXAMPLE
Panel
type
Rated
voltage
(kV)
Section view
A. SINGLE-LINE DIAGRAM
TR
25
TR
7.2
12
3VT
3VT
Shortcircuit
current
(kA)
1900
300
31.5
CT
CT
1
CT
CT
ES
550
ES
3VT
250
3VT
L1
VCB
40
L2
VCB
L3
Incomer
VCB
2600
CT
PF
VCB
PF
VMC
VCB
VCB
VCB
VCB
PF
VMC
ES
CT
CT
ES
CT
CT
CR
ZCT
ZCT
ES
ZCT
ES
CT
LA
LA
ZCT
ZCT
ES
CT
2300
PF
VMC
ES
ES
CTS
25
2
ES
CT
15
31.5
CR
ZCT
ZCT
ZCT
TR
M
TR
M
M
M
M
25
B. PANEL LAYOUT
1900
PF
PF
VMC
VMC
VCB
VCB
VCB
VCB
VCB
VCB
VCB
PF
PF
VMC
VMC
7.2
12
300
31.5
ES
ES
CT
ES
CT
CT
CR
ES
550
CT
LA
3VT
ES
CT
3VT
CT
ES
CT
CT
3VT
CT
ES
ES
CT
ES
CT
LA
ES
CT
CT
CR
L1
Incomer
+
VT
(fixed type)
40
L2
L3
CTS
2600
VCB
2300
25
2
ZCT
ZCT
ZCT
ZCT
630
630
1250
2000
2000
3150
3150
630
630
1250
1250
2000
2000
3150
3150
630
630
1250
1250
2000
2000
3150
3150
630
630
1250
1250
ZCT
ZCT
ZCT
ZCT
630
630
1250
1250
630
630
1250
2000
2000
630
630
1250
1250
2000
2000
3150
3150
630
630
1250
1250
2000
2000
3150
3150
M
TR
TR
M
M
M
630
630
1250
1250
2000
2000
3150
3150
630
630
1250
1250
2000
15
31.5
630
630
1250
1250
2000
CT:
E. BUS:
ES:
LA:
M:
CR:
VCB:
VT:
ZCT:
TR:
VMC:
PF:
13
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
Current Transformer
Earthing Busbar
Earthing Switch
Lightning Arrester
Motor
CR suppressor
Vacuum Circuit Breaker
Voltage Transformer
Zero-phase sequence Current Transformer
Transformer
Vacuum Magnetic Contactor
Power Fuse
Depth3 Height4
(D)
(H)
1500
1900
(2200)
1500
1900
(2200)
1500
1900
(2200)
800
2600
(2850)
1500
1900
(2200)
1500
1900
(2200)
2000
1250
2000
VT
M
Width
(W)
2000
E. BUS
M
Dimensions (mm)
1500
1900
(2200)
1500
1900
(2200)
1500
1900
(2200)
Weight
(t)
Heat
loss
(W)
0.9
200
1.0
500
1.2
800
1.4
1200
0.9
200
1.0
500
1.2
800
1.4
1200
0.9
200
1.0
500
1.2
800
1.4
1200
0.9
200
1.0
500
1.2
800
0.9
200
1.0
500
1.2
800
0.9
200
1.0
500
1.2
800
1.0
200
1.1
500
1.3
800
1.5
1200
1.0
200
1.1
500
1.3
800
1.5
1200
1.0
200
1.1
500
1
250
3VT
VCB
1250
2000
40
M
Busbar
2000
VMC
CT
Rated current (A)
40
2000
630
630
1250
1250
2000
2000
1500
1900
(2200)
800
1500
1900
(2200)
1500
1900
(2200)
1500
1900
(2200)
2600
(2850)
1.3
800
1.5
1200
1.0
200
1.1
500
1.3
800
1.0
200
1.1
500
1.3
800
1.0
200
1.1
500
1.3
800
1. Gas exhaust duct or gas screen (shown dashed) is required when Internal Arc Classification (IAC) be selected.
2. Arc proof ventilator (shown dashed) is required when AFLR of IAC be selected.
3. Depth given in parentheses applies when AFLR of IAC be selected.
And if more than 2 cables / phase required, or CT is non-standard, then the depth will increase.
4. Height given in parentheses applies when IAC be selected.
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
14
Panel
type
Rated
voltage
(kV)
Section view
Shortcircuit
current
(kA)
Rated current (A)
Busbar
VCB
630
630
1250
1250
2000
2000
3150
3150
630
630
1250
1250
2000
2000
3150
3150
630
630
1250
1250
L2
2000
2000
L3
3150
3150
630
630
1250
1250
25
1900
7.2
12
300
31.5
Dimensions (mm)
Width
(W)
Depth
(D)
3
Weight
Height
(t)
(H)
4
1500
1900
(2200)
1500
1900
(2200)
Heat
loss
(W)
0.9
200
1.0
500
1.2
800
1.4
1200
0.9
200
1.0
500
1.2
800
1.4
1200
0.9
200
1.0
500
1.2
800
1.4
1200
0.9
200
1.0
500
Panel
type
Rated
voltage
(kV)
Section view
Shortcircuit
current
(kA)
Rated current (A) or VT ratio
Busbar
1500
25
630 ~ 3150
1
550
250
L1
Outgoing
feeder
(transformer)
7.2
12
31.5
630 ~ 3150
L2
40
L3
2600
VCB
CT
25
2300
630 ~ 3150
630 ~ 2000
VCB / VT
Dimensions (mm)
Heat
Weight loss
Width Depth Height
(t)
(W)
(D)
(H)
(W)
2
3
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
630
0.9
300
1250
1.0
600
0.8
100
800
1500
630
2600
(2850)
1
550
250
40
L1
Bus-tie
CTS
2600
VCB
2300
25
2
1500
1600
(2 × 800)
L3
15
31.5
2000
2000
630
630
1250
1250
2000
40
25
630
1250
1250
1500
1900
(2200)
2000
2000
630
630
1250
1250
2000
2000
1900
(2200)
1900
(2200)
3150
630
2000
2000
3150
3150
630
630
1250
1250
L2
2000
2000
L3
3150
3150
630
630
1250
1250
2000
2000
630
630
1250
1250
1500
(2200)
2000
1900
(2200)
250
40
Bus-tie
+
VT
(fixed type)
L1
CTS
2600
VCB
2300
25
2
L1
L2
L3
VT
15
31.5
2000
40
800
0.9
200
1.0
500
630 ~ 2000
1500
25
630 ~ 3150
1
550
250
L1
Outgoing
feeder
(motor)
7.2
12
31.5
630 ~ 3150
L2
40
L3
2600
VCB
25
2300
CT
15
630
630
1250
1250
2000
2000
800
1.0
200
1.1
500
1.3
800
1.5
1500
1900
(2200)
1
550
40
31.5
630 ~ 3150
630 ~ 2000
630 ~ 2000
40
ZCT
630 ~ 2000
630 ~ 3150
7.2
1500
1200
25
31.5
40
800
630
1500
2600
(2850)
1500
1600
(2 × 800)
1900
(2200)
1500
1900
(2200)
1500
1900
(2200)
2600
(2850)
1.0
200
1.1
500
1.3
800
1.5
1200
1.0
200
1.1
500
1.3
800
1.5
1200
1.0
200
1.1
500
1.3
800
1.0
200
1.1
500
1.3
800
1.0
200
1.1
500
1.3
800
3 × VT
6600/110 V
3 × EVT
630 ~ 3150
1
1250
31.5
500
1.2
1500
630
7.2
12
1.0
1.2
1500
1250
300
200
630 ~ 2000
LA4
800
0.9
31.5
CR
3150
1900
1.2
1500
2000
630
2600
(2850)
1900
(2200)
L1
L2
1900
(2200)
15
550
6600 110
3
3
190
V
3
250
L1
VT
(withdrawable)
630 ~ 3150
L2
L3
12
2600
VT
25
31.5
40
3 × EVT
630 ~ 3150
2300
630 ~ 2000
15
25
31.5
40
3 × VT
11000/110 V
11000 110
3
3
190
V
3
800
1500 2600
(1900) (2850)
3 × VT
13800/110 V
3 × EVT
630 ~ 2000 13800 110
3
3
190
V
3
1. Gas exhaust duct or gas screen (shown dashed) is required when Internal Arc Classification (IAC) be selected.
2. Depth given in parentheses applies in case of incoming VT.
And if CT is non-standard, then the depth will increase.
3. Height given in parentheses applies when IAC be selected.
4. Required only for dry-type transformers.
1. Gas exhaust duct or gas screen (shown dashed) is required when Internal Arc Classification (IAC) be selected.
2. Arc proof ventilator (shown dashed) is required when AFLR of IAC be selected.
3. Depth given in parentheses applies when AFLR of IAC be selected.
And if more than 2 cables / phase required, or CT is non-standard, then the depth will increase.
4. Height given in parentheses applies when IAC be selected.
15
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
16
6
(2) 7.2 kV, 25 ~ 40 kA MITSUBISHI MS-E CONTROLGEAR
Panel
type
Rated
voltage
(kV)
Section view
Shortcircuit
current
(kA)
Dimensions (mm)
Rated current (A)
Width Depth3 Height4
(D)
(H)
(W)
VMC2
Busbar
1500
Heat
Weight
loss
(t)
(W)
700
200 / 200
25
1
1.5
630 ~ 3150
550
L1
400 / 400
1100
L2
700
200 / 200
L3
Outgoing
feeder
7.2
31.5
1200
630 ~ 3150
1500
400 / 400
2600
CT
VMC
1 x VT
2600
(2850)
1.5
1100
•
Side cover (both ends of arrangement): 2.0 mm
•
Frame: 2.0 mm
•
Door: 2.0 mm
•
Ceiling plate: 2.0 mm
•
Bottom plate: 2.0 mm
•
Internal partitions: 1.5 mm
•
Mounting plates: 2.0 mm
2300
700
200 / 200
40
Standard front door / rear cover
1.5
630 ~ 3150
ZCT
1.
2.
3.
4.
● Steel thickness is a minimum of 1.5 mm
1100
400 / 400
Gas exhaust duct or gas screen (shown dashed) is required when Internal Arc Classification (IAC) be selected.
Two VMCs are built in one panel.
If CT is non-standard, then the depth will increase.
Height given in parentheses applies when IAC be selected.
Position
Structure
Hinge location
Handle location
Handle lock
Front
Hinged doors (× 3)
Left
Right
Optional
Rear
Bolted covers (× 2)
-
-
-
Degree of protection
Enclosure: IP3X
Internal partitions: IP2X
(1) 7.2 / 12 / 15 kV, 25 ~ 40 kA MITSUBISHI MS-E SWITCHGEAR
VCB Panel
VT (withdrawable) Panel
Front space
1500 (1900)
1500
Rear space1
170 100
Hole for control cable
75
90
75
100 70
53
53
75
Hole for control cable
90
700 (200)
1500 (1900)
300 (500) 135
170 100
75
Front space
700 (200)
100 70
1500
Rear space1
Conductor material: copper (JIS H3140)
Surface treatment: tin plating at busbar joints
Auxiliary apparatus: high voltage insulated wire
75
70 100
800
75
75
75
70100
600
800
Hole for main circuit
cable and earthing cable
Conductor material: copper (JIS H3140)
Surface treatment: none (bare)
(2) 7.2 kV, 25 ~ 40 kA MITSUBISHI MS-E CONTROLGEAR
Standard dimensions: 6 mm × 25 mm
VMC2 Panel
Front space
Rear space1
1500
700 (200)
1500
205 (500) 135
Wiring system: duct or bundled
53
Insulation: 600 V heat-resistant plastic (PVC)
410
90
Hole for control cable
100 70
75
170 100
90
Hole for main circuit
cable and earthing cable
Size: 1.25 mm2
Wire numbering: indicated by "tube" ferrule
90
70 100
Ring-type crimp lug
(with insulated sleeve)
1 2 3 4
1 2 3 4
75
410
200
1200
Colour: yellow, except for earth wire (green)
Wire number
1. Rear space given in parentheses applies when AFL of IAC be selected.
2. Two VMCs are built in one panel.
Polarity indicated by colour (optional)
The VT / CT test terminals and terminal blocks shown below are adopted as standard.
VT secondary
CT secondary
Test terminals
17
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
Terminal block
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
18
8. SAFETY INTERLOCKS
5. PHASE / POLARITY ARRANGEMENT AND
COLOUR CODING
Interlock Conditions
Action
Main circuit and control circuit arrangements are as follows:
AC
1st phase
2nd phase
3rd phase
Rack withdrawable equipment
L1
L2
L3
(Viewed from front to back, top to bottom, or left to right from front.)
DC
1st wire
2nd wire
VCB / VMC
state
Positive
Negative
Withdrawable
Withdrawable Control circuit
equipment position equipment door connector
OFF
Closed
—
—
—
Earthing
Switch1
OFF
Cable
door
—
Operate Earthing Switch1
—
Disconnected2
Open withdrawable equipment door
—
Disconnected
—
—
—
Close withdrawable equipment door
—
—
Attached2
—
—
Open cable door
—
—
—
—
ON
Disconnect control circuit
—
Disconnected
Service /
Disconnected
—
Close VCB / VMC
—
—
Closed
—
—
—
—
(Viewed from front to back, top to bottom, or left to right from front.)
Main circuit colour identification is achieved with vinyl tape or coloured label at bus end
where main cables are connected.
AC
Red
Yellow
Blue
L1
L2
L3
Door
interlock
Unless specially requested, the control circuit is not colour coded.
Figure 6-1 Earthing switch1 and cable
compartment door interlock
optionally installed.)
AC 3-phase
AC 1-phase
DC
L1
L2
L3
Neutral
Red
Yellow
Blue
Black
1st wire
2nd wire
Neutral
Red
Blue
Black
Positive
Negative
Red
Blue
Vacuum Circuit
Breaker
Fused Vacuum
Contactor
Main circuit
Figure 6-2 VCB position-door interlock
(derived from shutter mechanism)
1. The earthing switch can be optionally provided.
2. Excludes VT panel.
9. PAINTING AND COLOUR
External enclosure surfaces
Surfaces are first cleaned and pretreated for rust. Two coats of paint are then applied:
first, acrylic epoxy, and finally, melamine enamel.
Internal enclosure surfaces
As for external except only first coat of acrylic epoxy, or alkyd primer, applied.
6. WITHDRAWABLE EQUIPMENT
Apparatus
Racking
interlock
Door
interlock
(Identifying colour tube markers, with the standard colours shown below, can be
Finish colour
Earthing circuit
(Carriage frame)
Control circuit
Enclosure: Iight grey (Munsell No. 5Y 7/1).
Frame, meter covers, control devices and protection relay cases: manufacturer’s
standard.
Automatic
connection
(self-aligning)
Manual connection
Automatic connection
(earthing shoe)
Voltage
Transformer
10. NAMEPLATES
Nameplates are of plastic with black lettering on white background, fastened by plastic
rivets, and are the following sizes:
7. WITHDRAWABLE EQUIPMENT POSITIONS
Panel arrangement name: 63 mm × 315 mm
Panel section name: 16 mm × 50 mm
The withdrawable equipment has the following two positions:
Service
: Main and control circuit – Connected
Test/Disconnected
: Main circuit – Disconnected
Control circuit – Connected (manual disconnection possible)
11. SURGE (SWITCHING) PROTECTIVE DEVICES
Load
The front door can be opened / closed when the withdrawable equipment is
Test/Disconnected position.
19
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
Protection device for
switching surge of VCB
Rotary machine
(electric motor &
generator)
Dry-type
transformer
Oil-immersed
transformer
CR Suppressor
Lightning Arrester
Not required
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
20
7
Optional earthing devices are available for
safety during cable and busbar maintenance
and /or inspection.
The following two types of earthing device
Draw-out handle for withdrawable equipment
can be provided upon request with the MS-E.
Manual charging handle for VCB closing spring
Test Terminals test plug set for secondary circuit of VT & CT
Earthing truck for switchgear
Lifter with bucket for withdrawable equipment
An earthing truck with fault-making
capability which has the same operating
Figure 7-3 Earthing truck
mechanism as the circuit breaker.
Integral earthing switch
In the case of cable-side earthing, the earthing switch is integrated within the cable
Lifter
compartment . A mechanical interlock between the earthing switch and circuit breaker
(or fused contactor) is provided.
Bucket
Draw-out handle
Manual spring-charging handle
Test plug set
Figure 7-1 Standard accessories
Lifter with bucket
Bus-side earthing switches are usually integrated within a VT panel, and so employ
electrical interlocking with the adjacent panel’s circuit breaker.
The mechanical indicator for the earthing switch’s state can be checked from the front of
the panel through a small, circular inspection window.
Control circuit extension cable for withdrawn VCB / VMC ON / OFF testing
Load cable
terminal
Earthing switch operating handle
Earthing switch
Figure 7-4 Rear view of earthing switch
Control circuit extension cable
Operating handle
Figure 7-5 Earthing switch operation
Withdrawable equipment
compartment door
Figure 7-2 Optional accessory
Earthing switch
ON
Cable compartment door
OFF
Mechanical interlock
(door openable when E.S. ON)
Front
Figure 7-6 Section view of earthing switch
21
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
22
4. GAS EXHAUST DUCT
For switchgear and controlgear requiring optional Internal Arc Classification (IAC), the
8
gas exhaust duct must be fitted onto the top of panel. The gas exhaust duct ensure that
in the event of an internal arc fault, any hot gases or vapours are channeled away from
personnel in the vicinity of the panel.
ITEM
CLASSIFICATION
The gas exhaust duct may extend to the open air. The straight and maximum two meters
• Degree of protection
design, which is standard, is available. The part of extension duct to reach to the open
SPECIAL SPECIFICATIONS
STANDARD DESIGN
IP3X
AND/OR OPTIONS
IP31 – IP32
IP4X – IP42
air will be supplied by others. The design guideline for them will be shown for consumer
• Padlocking facility
convenience.
for withdrawable equipment
−
− Available
−
−
− A FL , A F L R
25, 31.5, 40 kA
0.1, 0.5, 1.0 sec
Power
Bottom
Top
Control
Bottom
Top
• Plating
Tin
Silver
• Insulation
Bare
Epoxy coat
The gas exhaust duct is dismantled from the panels prior to shipping, and are
Position
re-attached on site.
Shutters
Enclosure
Available
• Internal Arc Classification (IAC)
With gas exhaust duct, the switchgear and controlgear are designed to protect persons
Accessibility type
in the event of an internal arc fault of up to 40 kA. Thus, in the event of internal arcing,
Arc test current
there is no ejection of parts, no expulsion of hot gases (except from the gas exhaust
Arc test current duration
duct) and the enclosure remains earthed. Minimum clearances of 600 mm, 100 mm
• Cable entry
and 800 mm from the panel to the room’s ceiling, side walls and back wall, respectively,
are required.
Classification IAC
AFLR – signifies that the switchgear and controlgear are designed for access from the
F ront, L ateral ends and Rear by Authorised personnel only.
AFL
PVC
– signifies that the switchgear and controlgear are designed for access from the
• Short-time withstand current
F ront and L ateral ends by Authorised personnel only.
25, 31.5, 40 kA rms (1 sec.)
25, 31.5, 40 kA rms (3 sec.)
Plating
−
Tin
Size
6 × 25 mm
6 × 32, 6 × 40 mm
No segregation
With segregation
• Cable lugs
Not supplied
Specify type, size
• Cable glands
Not supplied
Specify type, size
• Cable termination material
Not supplied
Heat-shrinkable material
Busbars
• Earthing busbar
5. GAS SCREEN
The gas screen can be selected instead of the gas exhaust duct on condition that
ceiling height from floor of electrical room is 4400 mm or over.
• Busbar compartment
segregation between panels
Gas screen
Gas exhaust duct
Main circuit
(Specify size and type)
• Wire type
600 V, PVC, 75°C (HIV 1)
Please specify
• Wire size
CT / VT secondary: 2.0 mm2
Please specify
other: 1.25 mm
Control circuit
Extension gas exhaust duct
Fr o
Fr o
nt
Figure 7-7 Panel section with gas exhaust duct
23
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
2
• Colour
Yellow
Please specify
• Terminals
Up to 5.5 mm2
Please specify
• Terminal blocks
Screw type
Please specify
(MITSUBISHI: Type TJX)
(e.g. clip-on)
1. Tinned copper, heat resistant (JIS C 3316)
nt
Figure 7-8 Panel section with gas screen
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
24
ITEM
CLASSIFICATION
STANDARD DESIGN
SPECIAL SPECIFICATIONS
AND/OR OPTIONS
• Space heater
Not supplied
Please specify power source
• Thermostat
Not supplied
Please specify power source
Not supplied
Available
Not supplied
Available (behind door)
• Integral earthing switch
Not supplied
Available
• Earthing truck
Not supplied
Available
• VT
Fixed type (floor-mount)
Withdrawable (mid-mount)
• Automatic Transfer System
Not supplied
Slow speed
(for space heater)
• Interior lighting operated by
door position switch
• Transparent plastic covers
(prevention of accidental
contact with live parts)
Equipment
High speed
(ATS)
• Foundation bolts
Not supplied
Available
• Channel base
Not supplied
Available
• Secondary rating
5A
1A
Measuring
Class 1.0
Please specify
Protection for switchgear
10P20
Protection for controlgear
5P10
• Accuracy
CT
• Burden
Min. 5 VA
Please specify
• Material
Acrylic plastic
Laminated plastic
Stainless steel
Nameplates
Measurement and
Protection
25
MEDIUM VOLTAGE
SWITCHGEAR AND CONTROLGEAR
• Language
English
Please specify
• Relay
MITSUBISHI MP or EMC
Please specify instruments and
Multiple Protection Relay
protection relays
HEAD OFFICE: TOKYO BUILDING, 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN
Safety Precautions
Please read the instruction manual
before using the device.
G-199-7-C7685-B HQ 0803 Printed in Japan (MDOC)
Revised publication effective Apr. 2008.
Superseding publication of Mar. 2007.
Specifications subject to change without notice.
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