VPR Series Vacuum Circuit Breakers 10-VPR-D
HEAD OFFICE: TOKYO BLDG., 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN
http://Global.MitsubishiElectric.com
Safety Warning To ensure proper use of the products listed in this catalog, please be sure to read the instruction manual prior to use.
JNEC-SL-0153 1303 (MDOC)
New publication effective March 2013. Specifications subject to change without notice.
High Levels of Reliability and Safety Achieved Through Use of the Latest Technologies Vacuum Circuit Breakers Designed for the Future with Enhanced Environmental Measures and Maintenance Features.
The All-new
10-VPR-D Series
● Incorporates
Mitsubishi Electric vacuum interrupter technology, realizing a more compact vacuum interrupter (VI) 16% smaller than in the previous type* and high reliability (class E2). ● Self-cooling vacuum circuit breakers (VCBs) that do not require a fan to be mounted on the side of the panel. Available in a wide range, from rated current of 600 to 3,150A. ● Compliant with IEC 62271-100- 2012 and has passed type tests for classes M2, E2 and C2, which represent the highest levels of quality.
Type Selection
06
Ratings
07
Description and Structure
09
External Dimensions
11
Connection Diagrams
17
Accessories
19
Optional Accessories
21
Relevant Devices
25
Interlocking Process for the Panel Door When Using Withdrawable with Door Closed (Type-M) Operation Mechanism
28
Technical Information
29
Applicable Standards
33
Ordering Information
39
*The VI in 10-VPR-32D (1,250A).
● Exposure
of live parts in the main circuit has been minimized even in VCBs with a 3,150A rating. This enhances safety through prevention of potential hazards such as short circuits caused by intrusion of small animals.
Earthing switch
● The
mechanical parts are coated with a long-life grease that contributes to the prevention of oxidation degradation and oilless bearings has been adopted for the bearing section of latch, thus extending the lubrication cycle to mechanical parts from three to six years and reducing the time required for maintenance. ● Includes a new withdrawable with door closed* (in addition to the conventional lever-based insert/draw-out mechanism) with cam-slide mechanism that reduces operating effort, saves time and enhances VCB safety. *Mechanism used to insert/draw-out the circuit breaker from the external panel based on IEC 62271-200 switchgear standards.
●
Enhanced options including additional auxiliary switch and earthing switch. ● VCB with the rated normal current up to 3,150A is transported together with a panel by shipping clamps. ● Compatibility with mounting frame of previous 10-VPR-C Series (positions of mounting holes, terminals and partitions are the same).
Minimizing exposure to the live part of a main circuit
Withdrawable with door closed (Type-M)
● No
use of the six hazardous substances (mercury, cadmium, lead, hexavalent chromium, PBB and PBDE), a measure that exceeds the requirements of RoHS standards. One example is use of a rust-proofing treatment for small parts such as pins and screws that is free of hexavalent chromium, a substance known to contaminate soil. ● Marking of main resin materials to facilitate recycling.
01
02
Cutting-edge Technologies Using 3D CAD and CAE VCB Structure
to Ensure the Utmost Levels of Reliability and Safety Operating Mechanism
● Through
use of thermal fluid analysis, we have realized efficient of heat to the cylinder-shaped insulation frame covering the VCB main circuit part, enabling a self-cooling mechanism up to a rated current of 3,150A.
● Greater
performance reliability and extension of the lubrication cycle from three to six years through measures for the mechanism such as minimizing the number of parts, reducing the number of moving parts, adopting oilless bearings and use of a long-life grease.
Heat flow
release
operating
● More
reliable distribution of operating friction (which, due to the addition of a spring load, is difficult to verify/evaluate) has been achieved thanks to utilization of a three-dimensional mechanical simulation used to switch operation from the operating mechanism to a VI contact.
● Compound
insulation of insulated parts and air has been optimized through analysis and testing, resulting in a basic impulse level (BIL) up to 95kV, yet at a size equivalent to the previous 10-VPR-C Series. ● Materials
with superior tracking resistance have been adopted a cylindrical shape realized through stress analysis of the insulation frame and cutting-edge molding technology.
100 Insulation rod displacement [%]
and
● Improved
safety through insulation of live parts to prevent short circuits caused by intrusion of small animals. Fig.1 Example of thermal fluid analysis.
Vacuum Interrupter (VI) ● VIs
with even higher reliability through utilization of computer-aided (CAE) technology and backed by record of manufacturing 3.5 million* 1 VIs in over 40 years of manufacturing experience that has seen us capture the top share of the market in Japan. addition to adopting spiral contacts, improvements in contact materials, and tests utilizing electromagnetic analysis and arc behavior observations have realized a 16% size reduction compared to the VI in the previous 10-VPR-32D type.
Analytical value
0 0
engineering
Measured value
0.01
0.02
0.03
0.04
Time [s]
Fixed terminal Flange Fixed conductor
Fig. 5 Example of the three-dimensional mechanism simulation.
● In
Fixed contact
Arc shield
Movable contact Insulator
Movable conductor
Withdrawable with Door Closed (Type-M) Operation Mechanism of VCB can be inserted in three simple steps: ① insert the insertion/draw-out handle, ② slide in the direction of the cross and ③ pull out the handle with the panel door closed. A cam-slide mechanism shortens the time required for insert/draw-out.
● VCBs
*1 As of 2012 Bellows shield
Optical Observation for Arc Behavior
Bellows Flange
Arc behavior was observed via a high-speed camera at the time of interruption between the fixed and moving contacts (see Fig. 4).
Connected position
Movable terminal
Test/Disconnected position Fig. 2 Three-dimensional model of a VI.
A
B
C
Current Fixed contact
Fixed contact Arc
Magnetic force Spiral slit Movable contact
Arc Conductor Fig. 3 Current flow at the time of breaking.
Current flows along the spiral electrode causing a radial magnetic field which generates an electromagnetic force circumferentially towards the contacts. This results in arcs that rotate circumferentially on the contact surface.
03
Moving contact
Fig. 4 Observation of arc behavior in an internal VI.
① A B
C
③
② Approx. 60° Fig. 6 Withdrawable with door closed (Type-M) operation mechanism.
04
Type Selection
M2, E2, and C2 Classes Described in the Specifications (IEC62271-100) Classification as for Mechanical Endurance ( M1 and M2 )
3 / 6 / 10 / 15-VPR-25D / 32D / 40D Series*3
The IEC standards broadly divide the mechanical operating test into classes M1 and M2. At the control voltages shown in Table 1, class M1 requires the rated operation sequence to be performed 2,000 times in total while class M2 requires the rated operation sequence to be performed 10,000 times in total. At five times the actuating cycle of class M1, class M2 represents a highly reliable operation class. Table 1 M1 and M2 operating sequence. Control voltage
Actuating cycle M1
M2
C-O
85%
500
2,500
C-O
100%
500
2,500
C-O
110%
500
2,500
O-CO-C
100%
250
1,250
Type
Rated short-circuit breaking current
Series name
Classification*1
Mounting configuration *2
10
VPR
25
D
1
M
10,000 Actuating cycle Actuating cycle
Sequence
Rated voltage
8,000 6,000
M2 10,000
4,000 2,000 0
M1 2,000 M1
M2
3
3.6kV
25
25kA
1
Class E1
6
7.2kV
32
31.5kA
2
Class E2
10
12kV
40
40kA
3
Class E1, BIL95kV (12kV)
15
15kV
4
Class E2, BIL95kV (12kV)
Fig. 7
Classification as for Electrical Endurance ( E1 and E2 ) Electrical endurance test that is specified in the IEC standards is broadly divided into classes E1 and E2. Class E2 has a longer breaking times than class E1, and is a highly reliable class due to huge energy arcs.
Type
Description
Table 2 E1 and E2 operating sequence.
10% 30%
Operating sequence O-CO-CO
Number of operating sequence E1 1
80
E2 1
O-CO-CO
1
1
O
-
15
60% O-CO-CO
1
15
100% (symmetry)
O-CO-CO
1
2
100% (asymmetry)
O-O-O
1
-
70 Number of breaking test
Testing current (percentage of rated short-circuit breaking current)
60 50 40
100% (asymmetry) 100% (symmetry) 60% 30% 10%
Withdrawable with door closed and mounting frame (class MW)
C
Withdrawable with door open and mounting frame (class CW)
LSC1
Withdrawable with door open and mounting frame (class PW)
LSC2B-PI
Withdrawable with door open and mounting frame (class MW)
LSC2B-PM
Withdrawable type
G
20
L
10 0
M
D
30
E1
High-voltage switchgear standards (IEC62271-200)
Fixed type
Fixed (with wheels)
LSC2B-PM
LSC1
E2
Fig. 8
Probability of Restrike during Capacitive Current Switching (C1 and C2) Performance in capacitive current swiching test is broadly divided into classes C1 and C2; class C2 is highly reliable. Class C1: Low probability of arc restrike at the time of capacitive current switching test (2 restrikes are allowed during O 24 operations and CO 24 operations). Class C2: Very low probability of arc restrike at the time of capacitive current switching test (Restrikes is not allowed during O 24 operations and CO 24 operations).
*1 Rated short-circuit breaking current of 40kA with E2 class cannot be manufactured. And basic impulse level (BIL) with rated voltage 12kV has BIL75kV and BIL95kV. *2 Fixed (type-L) with rated current of 2,500A or 3,000/3,500A cannot be manufactured. *3 Please refer to the JNEC-SI-0150 catalog for 3/6-VPR-25D type with a rating of 1,250A or lower for information regarding class E1, withdrawable (types C,D and G) and fixed type-L.
LSC1 : No partition LSC2A-PI : No partition in the cable room LSC2A-PM : No partition in the cable room LSC2B-PI : Partitions in all compartments LSC2B-PM : Partitions in all compartments
*Arc restrike is the phenomenon that occurs when current flows later than a 1/4 of a cycle after zero when there are insufficiencies in the VCB arc extinction or in insulation stress between VCB poles for recovery voltage.
05
06
Ratings Table 3 List of Ratings (JEC / IEC Standards). Type
3-VPR-25D* 6
3-VPR-32D
Closing operating mechanism
Table 4 List of Ratings (JEC / IEC Standards).
3-VPR-40D
6-VPR-25D*6
6-VPR-32D
6-VPR-40D
Standards* 1
JEC-2300-2010 / IEC 62271-100-2012 3.6
Rated voltage (kV)
Rated normal current (A)
7.2 600 / 630
600 / 630
600 / 630
600 / 630
600 / 630
600 / 630
600 / 630
600 / 630
1,200 / 1,250
1,200 / 1,250
1,200 / 1,250
1,200 / 1,250
1,200 / 1,250
1,200 / 1,250
1,200 / 1,250
1,200 / 1,250
1,600
1,600
1,600
1,600
1,600
1,600
1,600
1,600
1,600
1,600
1,600
1,600
2,000
2,000
2,000
2,000
2,000
2,000
2,000
2,000
2,000
2,000
2,000
2,000
2,500
2,500
2,500
2,500
2,500
2,500
2,500
2,500
2,500
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
3,000 / 3,150
25
31.5
40
25
31.5
40
Rated short-circuit breaking current (kA) Rated making current (kA) Rated short-time withstand current (kA)
65
81.9
104
65
81.9
104
Rated short-time withstand current (kA)
JEC, 2s
25
31.5
40
25
31.5
40
IEC, 3s
25
31.5
40
25
31.5
40
0.03
Rated opening time (s)
Power frequency (JEC/IEC) Lightning impulse
22 / 20
45
60
*1 *2 *3 *4
E1
IEC
O-3min-CO-3min-CO, CO-15s-CO, O-0.3s-CO-1min-CO 0.1 1.2 (motor charging time: 6s) 3.5 Shunt tripping coil (STC) 4 5a5b (10a10b)* 4 Standard equipment Fixed (type-L) / Withdrawable (types M, C, D and G) 124 (600∼1,250A) 152 (1,600A, 2,000A) 200 (2,500A∼3,150A)
: JEC: Japanese standard JEC 2300-2010, IEC: International standards, IEC 62271-100-2012. : Type test class described in IEC62271-100 (see page 5) : Closing operation/control current and opening control current show the value of 110V DC. : Auxiliary switches are available up to 10a10b by adding 5a5b. In addition, when selecting additional shunt tripping coil from optional accessories, the switches are 3a3b and will be 8a8b by adding 5a5b. *5 : Mass of VCB units (including 12kg of the type-M) (excluding for options). *6 : Refer to the catalog (JNEC-SL-0150) for class E1 of 25kA, standard draw-out operation (types C,D and G), and the fixed (type-L), for the rated current of 1,250A and lower of products rated at 3.6/7.2kV. *7 : Fixed (type-L) is not compatible with the rated voltage 15kV BIL95kV and code B. In addition, withdrawable (type M) is not compatible with the mounting configuration of class CW.
07
40
25
31.5
40
JEC
63
80
100
63
80
100
IEC
65
81.9
104
65
81.9
104
JEC, 2s
25
31.5
40
25
31.5
40
IEC, 3s
25
31.5
40
25
31.5
40
0.03 3
Power frequency (JEC/IEC) Lightning impulse
Type test class* 2 Electrical Small capacitive current switching
C2 O-1min-CO-3min-CO (A), CO-15s-CO (B), O-0.3s-CO-1min-CO (R)
Mounting configuration*7
Mass (kg)* 5
E1, E2
E1
31.5
28 / 28
ー / 36
75, 95
95 M2
Mechanical
JEC
Operating counter (mechanical)
Rated withstand voltage (kV)
M2 E1, E2
25
Rated breaking time (cycles)
16 / 10
Mechanical
50 / 60
Rated opening time (s)
3
Rated breaking time (cycles)
Auxiliary switch
Rated normal current (A)
Rated frequency (Hz)
50 / 60
IEC
Opening control current (A) (STC)*3
15
1,200 / 1,250
100
Tripping device
12
600 / 630
80
(Closing coil)
IEC 62271-100-2012
1,200 / 1,250
63
Motor Closing operation/ control current (A)*3 Control current
JEC-2300-2010 / IEC 62271-100-2012
600 / 630
100
No-load closing time (s)
15-VPR-40D
1,200 / 1,250
80
Rated operating sequence
15-VPR-32D
600 / 630
63
Small capacitive current switching
15-VPR-25D
1,200 / 1,250
JEC
Type test class*2 Electrical
10-VPR-40D
Motor-spring charged mechanism
Rated voltage (kV)
Rated making current (kA)
Rated withstand voltage (kV)
10-VPR-32D
600 / 630
Rated frequency (Hz) Rated short-circuit breaking current (kA)
10-VPR-25D
Closing operating mechanism
Motor-spring charged mechanism
Standards* 1
Type
Rated operating sequence
E1, E2
E1
O-1min-CO-3min-CO (A), CO-15s-CO (B), O-0.3s-CO-1min-CO (R)
IEC
O-3min-CO-3min-CO, CO-15s-CO, O-0.3s-CO-1min-CO
Motor Closing operation/ control current (A)*3 Control current (Closing coil)
Tripping device Opening control current (A) (STC)*3
Auxiliary switch Operating counter (mechanical) Mounting configuration*7
E1
C2
JEC
No-load closing time (s)
Mass (kg)* 5
E1, E2
0.1 1.2 (motor charging time: 6s) 3.5 Shunt tripping coil (STC) 4 5a5b (10a10b)* 4 Standard equipment Fixed (type-L) / Withdrawable (types M, C, D and G) 124 (600∼1,250A) 152 (1,600A, 2,000A) 200 (2,500A∼3,150A)
*1 *2 *3 *4
: JEC: Japanese standard JEC 2300-2010, IEC: International standards, IEC 62271-100-2012. : Type test class described in IEC62271-100 (see page 5) : Closing operation/control current and opening control current show the value of 110V DC. : Auxiliary switches are available up to 10a10b by adding 5a5b. In addition, when selecting additional shunt tripping coil from optional accessories, the switches are 3a3b and will be 8a8b by adding 5a5b. *5 : Mass of VCB units (including 12kg of the type-M) (excluding for options). *6 : Refer to the catalog (JNEC-SL-0150) for class E1 of 25kA, standard draw-out operation (types C,D and G), and the fixed (type-L), for the rated current of 1,250A and lower of products rated at 3.6/7.2kV. *7 : Fixed (type-L) is not compatible with the rated voltage 15kV BIL95kV and code B. In addition, withdrawable (type M) is not compatible with the mounting configuration of class CW.
08
Description and Structure VCB Configuration
Mounting Frame Configuration
Manual charging handle aperture
Primary junction
Manual close button (with button cover) Manual trip button Closing spring indicator Secondary junction
Front view of VCB
Rear view of VCB
Front view of mounting frame (with earthing switch)
Rear view of mounting frame (with earthing switch)
Fig. 9
Fig. 10
Fig. 17
Fig. 18
Closing spring charged indication switch (page 21)
Additional auxiliary switch (page 22)
Padlock device for close and trip button (page 22)
Short-circuit capacity earthing (page 24)
Fig. 11
Fig. 12
Fig. 19
Fig. 20
Mechanical locking device (page 21)
Additional shunt tripping coil (page 22)
Position switch (page 23)
Optional terminal (V: Vertical, H: Horizontal) (page 24)
Fig. 13
Fig. 14
Fig. 21
Tripping coil disconnection monitoring (page 21)
Draw-out mechanism padlock device (page 22)
Earthing switch (page 23)
Shutter padlock device (page 24)
Fig. 16
Fig. 23
Fig. 24
(Vertical)
Fig. 22
(Horizontal)
(+)
52a 52a
STC
(-)
09
Fig. 15
10
External Dimensions (1) 600A / 630A, 1,200A / 1,250A Rating: External Dimensions (Circuit Breaker)
600A / 630A, 1,200A / 1,250A Rating: External Dimensions (Mounting Frame)
Fixed (type-L)
Class CW (type-C)
450
25
613
320
195 208.5
34
34
Vacuum interrupter
Primary junction
693
Operation counter
34
Fig. 26
391
188 Shutter guide
Additional auxiliary switch (option)
18
238
152
638
263 38 15 45 20 20 45 15 263 38 38 253 484 15 45 Length=18∼20
20
18
35
M12 bolt Torque=35N・m
210
210
30
30
20
20
80
29 56
4-M12 tap screws (depth=22)
15
45
320 133
φ60 Maximum displacement magnitude
300
Rear view
Partition (not supplied)
Interlock lever
21 Draw-out handle aperture
Shutter device
25
Main-circuit terminal
693
783
505
195 208.5
19
M8 tap screw for earth 2×3-φ7 holes for mounting (pitch=405)
Handle
Interlock plate
Wheels
Test and disconnected position
613
Connected position
Code A without interlock
Nameplate
Partition (not supplied)
15
Code B:with interlock
Manual trip button
25
80
Secondary junction
450
80
On-Off indicator
312
788.5
Closing spring charge indicator
49
320
Manual close button (with the cover)
2×2-φ11 holes for shipping clamp (pitch=40)
2-φ12 holes for mounting (pitch=450) Interlock plate (types D,G)
189.5
Primary junction
2-M8 tap screws for partition (pitch=300)
16.5
80
579
50
34
100
340
Manual charging handle aperture
Vacuum interrupter
10
Front plate
180
190
2-entrance holes for control wire
1018.5
540
2×2-M8 tap screws for partition (pitch=320×605)
2×2-φ10 holes
188 Shutter guide
180
Interlock pin
2×2-φ12 holes for mounting (pitch=300×450)
410
320
391
2-M8 tap screws for partition (pitch=300)
325.5
67
605 300
260
6
Wheels
Partition (not supplied)
300
74.5
133
320
Additional auxiliary switch (option)
Draw-out handle aperture
Withdrawable with door open (types C, D and G)
30
20
56
φ60 505 566
30
Air clearance for ventilation (more than 400cm²)
258
783
Maximum displacement magnitude
Classes PW and MW (types M, D and G) Partition (not supplied)
Nameplate 21
30
80 126 80 126 80
Fig. 27
Interlock plate
Code A without interlock
210
Details of main-circuit terminal
50
680
Length=18∼20
Handle
Code B:with interlock
Manual trip button
210
80 30
M12 bolt Torque=35N・m
320
Secondary junction
18
152
Closing spring charge indicator
On-Off indicator
35
23
638 Operation counter
Manual close button (with the cover)
18
275.5
Manual charging handle aperture
579
20
80
Front plate
180
788.5
166
238
540 180
4-M12 tap screws (depth=22)
Partition (not supplied)
M8 tap screw for earth terminal (center of VCB)
85
Fig. 25
Withdrawable with door closed (type-M)
300 Rear view
Main-circuit terminal
1018.5
210 391
Wheels
19 25
15
133
65
φ60
505 534 564
253 484
M8 tap screw for earth 2×3-φ7 holes for mounting (pitch=405)
Connected position
4-φ14 holes
38 320
Test and disconnected position
Nameplate
11
Partition (not supplied)
Interlock plate
312
189.5
49
2-φ12 holes for mounting (pitch=450)
16.5
783
693
12
2×2-φ11 holes for shipping clamp (pitch=40)
100
80
Lower terminal
Handle
2-M8 tap screws for partition (pitch=300)
340 320
Secondary junction
50
On-Off indicator Manual trip button
2-entrance holes for control wire
12
Closing spring charge indicator
10
Manual close button (with the cover)
2×2-M8 tap screws for partition (pitch=320×605)
2×2-φ10 holes
Operation counter
190
2×2-φ12 holes for mounting (pitch=300×450)
410
325.5
Upper terminal
Vacuum interrupter
Manual charging handle aperture
75
4-φ14 holes
82
80
475
2-M8 tap screws for partition (pitch=300)
260
34
258
Front plate
300
180
Partition (not supplied)
275.5
540
Partition (not supplied) 20
17
605 300
Air clearance for ventilation (more than 400cm²) 40
Details of main-circuit terminal 180
210
35 40 25
30
80 126 80 126 80
23 30
680
50
Details of main-circuit terminal
Fig. 28
12
External Dimensions (2) 1,600A, 2,000A Rating: External Dimensions (Circuit Breaker)
34
579 Primary junction
Vacuum interrupter
30
Nameplate
Partition (not supplied)
2×2-φ11 holes for shipping clamp (pitch=40)
49
312 450
30
34
Shutter device
29 56
391
188 Shutter guide
80 688
263 38 253 484 189.5 15 263 38 253 484
38
320
30
680
23
50
45 20
Length=18∼20
210
210
20
260
18
152
238
Interlock lever
Fig. 30
18
35
45 15
320 133
φ60 Interlock pin
20
80
788.5
1018.5
693
783
Interlock plate
Wheels
4-M12 tap screws (depth=22) M12 bolt Torque=35N・m
Main-circuit terminal Partition (not supplied)
Code A without interlock
Maximum displacement magnitude
300
Rear view
15
Handle
21
25
80
Code B:with interlock
Manual trip button
195 208.5
320
Secondary junction
19
M8 tap screw for earth 2×3-φ7 holes for mounting (pitch=405)
Connected position
Closing spring charge indicator
Draw-out handle aperture
20
Partition (not supplied)
Test and disconnected position
625
Operation counter
190
2-φ12 holes for mounting (pitch=450)
Interlock plate (types D,G)
189.5
Primary junction
15
579
2-M8 tap screws for partition (pitch=300)
16.5
340
80 34
Vacuum interrupter
505
30
2×2-M8 tap screws for partition (pitch=320×655)
2-entrance holes for control wire
50
Front plate
10
180
Nameplate
30
126 80 126 80
2-M8 tap screws for partition (pitch=300)
325.5
188 Shutter guide
100
391
540
On-Off indicator
30
655 300
2×2-φ12 holes for mounting (pitch=300×450)
410
300
133
φ60
74.5 67
Wheels
Manual close button (with the cover)
80
Air clearance for ventilation (more than 400cm²)
2×2-φ10 holes 6
566
Manual charging handle aperture
210
320
Additional auxiliary switch (option)
Maximum displacement magnitude
Classes PW and MW (types M, D and G) Partition (not supplied)
56
505
180
210
Details of main-circuit terminal
50
275.5
Code A without interlock
Withdrawable with door open (types C, D and G)
Length=18∼20
320 693
783
Interlock plate
258
Manual trip button
Handle
20
Code B:with interlock
Draw-out handle aperture
M12 bolt Torque=35N・m
Fig. 31
Secondary junction
21
190
38 680
Closing spring charge indicator
On-Off indicator
18
23
688
Operation counter
Manual close button (with the cover)
18
35
80
Front plate
20
152
238
180
4-M12 tap screws (depth=22)
Main-circuit terminal
80
788.5
1018.5
166
300 Rear view
45
320 M8 tap screw for earth terminal (center of VCB)
85
540 180
Manual charging handle aperture
13
15
Partition (not supplied)
Fig. 29
Withdrawable with door closed (type-M)
195 208.5
133
65
φ60
210 391
Wheels
34
19 25
M8 tap screw for earth 2×3-φ7 holes for mounting (pitch=405)
Connected position
20
30
450 625
Nameplate
4-φ14 holes
Partition (not supplied)
Test and disconnected position
45
312
15
49
260
20
783
693
10
2×2-φ11 holes for shipping clamp (pitch=40)
2-φ12 holes for mounting (pitch=450)
Interlock plate
16.5
80 50
Lower terminal
Handle
100
340
320
Manual trip button
2-M8 tap screws for partition (pitch=300)
2-entrance holes for control wire
320
20
Secondary junction
505 534 564
2×2-M8 tap screws for partition (pitch=320×655)
2×2-φ10 holes
Closing spring charge indicator
On-Off indicator
2×2-φ12 holes for mounting (pitch=300×450)
410
325.5
Upper terminal
Operation counter
Manual close button (with the cover)
2-M8 tap screws for partition (pitch=300)
80
82
475
Vacuum interrupter
Manual charging handle aperture
Partition (not supplied)
275.5
34
4-φ14 holes
258
Front plate
35
300
180
655 300
Air clearance for ventilation (more than 400cm²)
Partition (not supplied) 20
Details of main-circuit terminal
540 180
Class CW (type-C)
40 25
40 75
17
210
Fixed (type-L)
1,600A, 2,000A Rating: External Dimensions (Mounting Frame)
30
30
30
80 126 80 126 80 Details of main-circuit terminal
Additional auxiliary switch (option)
Fig. 32
14
External Dimensions (3) 2,500A, 3,000A/3,150A Rating: External Dimensions (Circuit Breaker)
2,500A, 3,000A/3,150A Rating: External Dimensions (Mounting Frame)
Withdrawable with door closed (type-M)
Class CW (type-C)
755 300
Air clearance for ventilation (more than 400cm²)
Partition (not supplied)
2-M8 tap screws for partition (pitch=300)
20
Partition (not supplied)
38 38 253 484 16.5
Main-circuit terminal
10
14 50 26
35
98 126 98 126 98
160
47.5
80
40
30
680
47.5
40
*set
the busbars so that this distance keep 125mm or more, or cover busbars with insulation cover.
40
100 125* 100 125* 100
23
788
Length=18∼20
26
10
90
20
M12 bolt Torque=35N・m
50
1018.5
Shutter guide
Wheels
263
204 15
Partition (not supplied)
188
In case of BIL95kV, set the no edge busbars. 4-M12 tap screws (depth=22)
271.5
391
【Note】
2×3-φ7 holes for mounting (pitch=405)
Connected position
320
195 208.5
300
Rear view
Test and disconnected position
238
Draw-out handle aperture
67
19 25
M8 tap screw for earth Partition (not supplied)
730
133
74.5
φ60
6
566
Interlock plate
30
450 720
34
Code A 56 without interlock Additional auxiliary 21 switch (option) Maximum displacement magnitude
505
4-φ12 holes for mounting (pitch=730,450)
312
14
783
Interlock plate
Nameplate
49
780
Manual trip button
320
Handle Secondary junction Code B:with interlock
2×2-φ11 holes for shipping clamp (pitch=40)
2-M8 tap screws for partition (pitch=300)
189.5
80 10
50
Closing spring charge indicator
On-Off indicator
100
Manual close button (with the cover)
2-entrance holes for control wire
340
Operation counter
788.5
Manual charging handle aperture
2×2-M8 tap screws for partition (pitch=320×755)
2×2-φ10 holes
248
Vacuum interrupter
2×2-φ12 holes for mounting (pitch=300×450)
410
325.5
Primary junction
90
579
258
34
Front plate
300
200
320
540 200
50
Details of main-circuit terminal
Fig. 34
Classes PW and MW (types M, D and G)
Withdrawable with door open (types C, D and G)
Air clearance for ventilation (more than 400cm²)
Partition (not supplied)
312 450
30
34
263 38 38 4-M12 tap screws (depth=22)
Main-circuit terminal
M12 bolt Torque=35N・m
90
10
160
23 30
680
50
Length=18∼20
26
35
Partition (not supplied)
98 126 98 126 98
26
10
50
90
788.5
188
Shutter guide Additional auxiliary switch (option)
20
14
391
50
14
56
788
Fig. 33
In case of BIL95kV, set the no edge busbars.
Rear view
15
80
29
Maximum displacement magnitude
204
2×3-φ7 holes for mounting (pitch=405)
238
Interlock pin
Draw-out handle aperture
Wheels
1018.5
320
21
133
φ60
Interlock lever
505
【Note】
300
Test and disconnected position Connected position 195 Shutter 208.5 device
Code A without interlock
Nameplate
19 25
M8 tap screw for earth
720 730
Interlock plate
Partition (not supplied)
248
Code B:with interlock
49
271.5
Manual trip button
2×2-φ11 holes for shipping clamp (pitch=40)
4-φ12 holes for mounting (pitch=730,450)
Interlock plate (types D,G)
780
Secondary junction
320
On-Off indicator
10
Handle
253 484
80 50
Closing spring charge indicator
783
100
Manual close button (with the cover)
2-M8 tap screws for partition (pitch=300)
2-entrance holes for control wire
340
Operation counter
189.5
Vacuum interrupter
2×2-φ12 holes for mounting (pitch=300×450) 2×2-M8 tap screws for partition (pitch=320×755) 2×2-φ10 holes
410
16.5
Primary junction
320
579
325.5
34
258
Front plate
300
200
Manual charging handle aperture
15
2-M8 tap screws for partition (pitch=300)
20
540 200
Partition (not supplied)
755 300
47.5 40
47.5 40
40
100 125* 100 125* 100 Details of main-circuit terminal
*set
the busbars so that this distance keep 125mm or more, or cover busbars with insulation cover.
Fig. 35
16
Connection Diagrams Withdrawable: Standard Connection Diagram (Code A)
On
5
27
J3
52X
D1 D2 D3 D4
R1
52Y
R2 R3
M
D7 D8 ZNR4
J2 52Y
J5
D5 D6
J2
ZNR2
J4
ZNR3
D9
ZNR5
This device is not supplied with the VCB; please order separately.
CC 52b LS0
STC
Capacitor tripping device AC1 AC2 DC+ DC-
J1
4
6
(-)
When the auxiliary switch has micro current specifications, terminals 7 ∼ 18 (3a3b) are standard contacts and terminals 19 ∼ 26 (2a2b) are contacts for micro current.
J3 ZNR1 D1 D2 D3 D4
M : Motor (for charging the closing spring) CC : Closing coil STC : Shunt tripping coil 52Y : Auxiliary relays (for motor) 52X : Auxiliary relays (for prevention of pumping) 52a/b : Auxiliary contacts for circuit breaker
14 15 16 17
1 2 3 4 5 6 7 8 9
25 18 26 19 27 20 21 28 22 29 23 30 24
17P
13P
Front view of the VCB
LS0 : Limit switch (for detecting VCB's position) LS1 : Limit switch (for detecting the charging of the closing spring) LS2 : Limit switch (for starting up and stopping motor) LS3 : Limit switch (for closing spring charged indication) R1/2/3/4 : Resistor (R3 and R4 200/220V only)
Fig. 36
ZNR2 52Y
J4
ZNR3 D5 D6
J2
R2 R3
M
D7 D8 ZNR4
J2 52Y
(+)
7
9 11 13 15 17 19 21 23 25
D9
ZNR5
39
8 10 12 14 16 18 20 22 24 26
This device is not supplied with the VCB; please order separately.
52a
LS1 CC
The shunt tripping coil (STC) is for DC only; for AC operation, use a capacitor tripping device for conversion to DC. For rated voltage of 100/110VAC, 200/220VAC,use a STC with a 100-125 VDC rating.
52b 52b
52X R4
38
LS0
STC
Capacitor tripping device AC1 AC2 DC+ DC-
J1 J5
2
10 11 12 13
Note: The following are VCB options: the micro current specification auxiliary switch, the tripping coil disconnection monitoring (terminal No. 30), the capacitor tripping device and LS3.
In the above wiring diagram; Circuit breaker : Opened state Closing spring : Discharged state Motor circuit : No-voltage condition
R1
52Y
52X J1
52a
52X
(-)
Secondary junction
37
52a
AC input DC output
40
LS3 J4
LS2
J5
J5 2
17
The shunt tripping coil (STC) is for DC only; for AC operation, use a capacitor tripping device for conversion to DC. For rated voltage of 100/110VAC, 200/220VAC,use a STC with a 100-125 VDC rating.
(+)
J5
8 10 12 14 16 18 20 22 24 26
29
52a
LS1
52b 52X R4
28
5
J3
52a
52X J1
52a
VCB auxiliary switch 5a5b
Off
3
J5
AC or DC
J4
52Y
1
LS3
LS2
ZNR1
On
9 11 13 15 17 19 21 23 25
7
(+)
J5 J3
AC or DC
(+)
30
Note: There is no LS0 in a fixed (type-L).
Note: For DC voltage, set the COM to the positive terminal.
in the control substrate
VCB auxiliary switch 5a5b
Off
3
J5
Withdrawable: Standard Connection Diagram (Code B)
Note: For DC voltage, set the COM to the positive terminal.
in the control substrate
1
Note: There is no LS0 in a fixed (type-L).
4
6
AC input DC output
When the auxiliary switch has micro current specifications, terminals 7 ∼ 18 (3a3b) are standard contacts and terminals 19 ∼ 26 (2a2b) are contacts for micro current.
Secondary junction
Note: The following are VCB options: the micro current specification auxiliary switch, the tripping coil disconnection monitoring (terminal No. 40), the capacitor tripping device and LS3.
1
8 15 22
2
9 16 23
37
3 10 17 24
38
4 11 18 25
39
5 12 19 26
40
6 13 20 7 14 21 Front view of the VCB
In the above wiring diagram; Circuit breaker : Opened state Closing spring : Discharged state Motor circuit : No-voltage condition
M : Motor (for charging the closing spring) CC : Closing coil STC : Shunt tripping coil 52Y : Auxiliary relays (for motor) 52X : Auxiliary relays (for prevention of pumping) 52a/b : Auxiliary contacts for circuit breaker
LS0 : Limit switch (for detecting VCB's position) LS1 : Limit switch (for detecting the charging of the closing spring) LS2 : Limit switch (for starting up and stopping motor) LS3 : Limit switch (for closing spring charged indication) R1/2/3/4 : Resistor (R3 and R4 200/220V only)
Fig. 37
18
Accessories Secondary Connector
Lifting Adapter
Lifting
Code A
The panel side lead wires connect the input voltage and VCB unit. They are inserted in the control plug section of the VCB. A lifting adapter used to lift the VCB. Please refer to the directions for use in the instruction manual.
Number of accessories: 1 per unit
Number of accessories: 1 per 1-5 VCBs (min. 1) Code B
Manual Charging Handle This handle enables the closed spring to be charged manually by inserting the handle in the front manual charging handle aperture and rotating clockwise for approximately 15 rotations.
Shipping Clamp
Number of accessories: 1 per 1-5 VCBs (min. 1)
Insertion / Draw-out Handles
For type-M
3,150A rating (shipped with a panel)
600-1,250A
1,600-3,150A For types C, D and G
These are fixtures for shipping the VCB and a mounting frame together. Use them as described in the instruction manual.
This is a insertion / draw-out handle to move the VCB unit between the test position and the connected position. Number of accessories: 1 per 1-5 VCBs (min. 1)
Number of accessories: 1 per unit For types C, D and G
For type-M
19
20
Optional Accessories Closing Spring Charged Indication Switch
Additional Auxiliary Switch (Additional 5a5b)
Used for charging/discharging output of closing springs. The contact number is 1C. Table 5 Contact ratings. Rated voltage (V)
Resistance load (A)
Inductive load (A)
125AC/DC
5.5
5.5
250AC/DC
3
1.5
Secondary junction
Secondary junction
The switch makes it possible to add 5a5b to a standard 5a5b contact number to create a 10a10b arrangement (the additional auxiliary contact has no settings for micro current contact). It is also possible to create an 8a8b configuration by adding 5a5b to the standard 3a3b contact number through use of the optional additional shunt tripping coil.
37 38 39
17P
Additional Shunt Tripping Coil
27
LS3
*1: Please refer to the standard connection diagram for the VCB (P17 and P18). *2: Fig. 38 shows a closed spring in a dischrged state. *3: LS3 (limit switch for the spring charge indicator) uses X-10GW22-B (manufactured by OMRON). *4: For DC voltage, set the COM to the positive electrode.
NC
N0
X-10GW22-B (OMRON)
28 29
28
LS3
NC
13P N0
29
COM 27 (+)
COM X-10GW22-B (OMRON)
(+)
38 39
37
An additional shunt tripping coil can be arranged through addition of an independent tripping coil. If one of the tripping coils malfunctions, the other tripping coil can still perform tripping.
Fig. 38 Wiring diagram
(+)
(+)
52a
52a
52a
52a
STC
STC
(-)
(-)
Fig. 40
Mechanical Locking Device Draw-out Mechanism Padlock Device
Key for interlocking
The interlock system is configured to lock the VCB in the off position. To shut down the VCB either automatically or manually requires the VCB to be locked using the key. The key can only be removed after the VCB has been opened and locked. The VCB cannot be closed in this state. Note that users are responsible for preparing the interlock key; a key will not be supplied by the manufacturer. In addition, note that this feature cannot be used together with the draw-out mechanism padlock device.
This padlock can be used to lock the VCB in the connected position or test / disconnected position. Note that users are responsible for preparing a padlock; a padlock will not be supplied by the manufacturer.
Table 6 Specifications of key for interlocking. Manufacturer
Castell
Model
FS1
Lock portion symbol
User option
Key rotation
90 degrees clockwise to trap
Spigot dimensions
9.5mm2 X 22mm long
Padlock Device for Close and Trip Button
Tripping Coil Disconnection Monitoring (+)
52a
This function monitors disconnection of the tripping coil and control connector based on output from the input terminal. The disconnection monitoring current is 30mA or below.
52a
STC
(-)
21
This padlock board can be used to cover the VCB closing and tripping buttons and prevent manual switching operations. Note that users are responsible for preparing a padlock; a padlock will not be supplied by the manufacturer.
Fig. 39
22
Optional Accessories Position Switch (Connected Position / Test and Disconnected Position)
Short-circuit Capacity Earthing
Output of the test and disconnected position as well as the connected position of the circuit breaker. The maximum output contact number is 2C for the test and disconnected position and 4C for the connected position. Table 8 Connected position contact ratings (switching).
Table 7 Test and disconnected position contact ratings (switching). Rated voltage (V) Resistance load (A) Inductive load (A) 10 6 100∼125AC 0.5 0.05 100∼125DC 0.25 ー 200∼250DC
2C for test and disconnected position 4C for connected position
Wiring diagram of connected position contact
Wiring diagram of test and disconnected position contact No.2 SW
196.5
2 units
40 65
Rated voltage (V) Resistance load (A) Inductive load (A) 100∼125AC 15 10 100∼125DC 0.5 0.1 200∼250DC 0.3 ー
2C for test and disconnected position 2C for connected position
1 unit
2-φ12 holes
1.25mm2 , yellow, 2m
No.1 SW
Switches for the connected position
142 1R1 1W1
D4
NC
N0 D6
NC
D5
N0
D2
1R2
COM(+)
D3
1R3
D1
BZ-2RW822-T4-J Asvel Co.,Ltd.
Position detecting switch timing
1W2
2R2
1W3
2R3
No.1 SW
2W2 2W3 No.2 SW
TDL-22C-S Fuji Electric Industry Co., Ltd.
12
COM(+) 1.25mm2 , yellow, 2m
5∼13
Connected position contact
↑NO:ON
Fig. 43
NC:ON↓ 175±5
Test and disconnected position contact
↑NO:ON
NC:ON↓
Optional Terminal (V: Vertical, H: Horizontal )
VCB insert/draw-out stroke 195±5
Conductors can be installed vertically and horizontally inside panels through use of horizontal and vertical terminals in the mounting frame terminal area.
Connected position
Test and disconnected position
Fig. 41
4-φ15 holes
Earthing Switch (ES)
17.5 40
Table 9 Coil ratings.
Class E2 (40kA / 3s) Applicable standards: IEC 62271-102-2012 Accessories: Operating handle: 1 piece / 1-5 ES unit (s)
Rated voltage
Current f low
100/110V DC
63mA
Option Electric interlock circuit (-)(+)
Earth position
40 75
This earthing switch is used to ground the main circuit part (lower side of the mounting frame). It enables simple safety checks at the time of maintenance and inspections.
20
For 630-2,000A 4-φ15 holes
Terminal block TE-K2-9S (M3.5 screw)
COM(+) NC
E4
LS1 (Off position) X-10GW22-B (OMRON)
COM(+) E3 NO E2 NC E1
121
3×2-φ14 holes 411
30
Mounting frame width
Main-circuit terminal for the earthing switch
24.5
Shutter Padlock Device This padlock prevents release of the shutter in the mounting frame. Note that users are responsible for preparing a padlock; a padlock will not be supplied by the manufacturer.
Earth position
Handle insertion part Shutter close position
A: terminal thickness 600-2,000A:20 2,500-3,150A:24
Details of handle insertion part
Protrusion of shutter
6
50 88 End of mounting frame 710
Off position φ11 hole for earth
212 411
20
301 306
305.5
130
8 133.5
24.5
361
(68)
82
Indicator
82
20
101
51
25
A
89
Open: 250(max.) Close: 130
Handle insertion part
25
Fig. 44
Connection diagram
15
Shutter open position
306
50
For 2,500-3,150A
COM(+)
108
Range of handle motion
301 14
24
210
101 89
60 210
(33° )
(610)
30
890
IC
LS2 (Earth position) X-10GW22-B (OMRON)
E6 NO E5 NC
S1 C2
50 98
S1 C2 E1 E2 E3 E4 E5 E6
Operating handle
Off position
20
2R1 2W1
19.5
Switches for the test position
The ground-fault current to the VCB frame flows into the earth bus on the panel side at the VCB's connected position. Current flow of 40kA-3 seconds.
160 210
210
636
Fig. 42
23
24
Relevant Devices Vacuum Checker
Sold Separately
This is a device to absorb the surge generated by switching.
Sold Separately
This is a device to check the VI vacuum level of a VCB using a vacuum checker. Panel
External CR-12
CR-15
11
15
C
ー
ー
16
20
Capacitance (μF)
0.05×3 phases
0.05×3 phases
0.1×3 phases
0.1×3 phases
Resistance (Ω)
100×3 phases
100×3 phases
100×3 phases
100×3 phases
8.5
10
31
33
Mass (kg)
◎ Precautions (1)Caution for circuits containing harmonics As is the case with general high-pressure capacitors, please exercise caution when applying CR suppressors to circuits with higher harmonic waves. Particular care is required regarding multiple-order harmonic waves which may have flowed into circuits used for current control via the thyristor. When using a CR suppressor, set the effective value of resultant current with harmonic waves to the values shown in the table below (values are 1.3 times the rated value). Table 11 Effective value of resultant current with harmonic waves. Type
CR-3
CR-6
CR-12
CR-15
Acceptable values for the resultant current of the harmonic wave
0.05A effective value / phase
0.1A effective value / phase
0.37A effective value / phase
0.37A effective value / phase
(2)How to install Install the CR suppressor vertically; do not install it horizontally or upside down.
Pilot lamp Input voltage selection switch
Removable cover
Power supply outlet
136
(4)Caution for withstand voltage tests 1.Please conduct a withstand voltage test after removing any wire connections. 2.Take care to ensure that test voltages and application times are correct. Depending on transformer capacity, excessive current flow may prohibit the test from being performed. For withstand voltage tests where the panel includes a CR suppressor, the CR suppressor must be disconnected from main circuit.
192
Ammeter
Table 13 Specifications of vacuum checker. Type
Primary input voltage (VAC)
V-1C
100/110/120
V-2C
200/220/240
Lifter ( F-3C, F-3C + Adapter for Type-M)
Between T-C
10 minutes
CR-3
CR-6
CR-12
CR-15
6.6kV
13.2kV
24kV
30kV
7.6kV
14.2kV
28kV
36kV
Table 14 List of lifter. Type
Lifter
L, C, D, G
F-3C
M
F-3C + adapter
Minimum rotation radius approx.1050
4.95kV
9.9kV
18kV
22.5kV
180
Cap
Fig. 45-1 CR-3, CR-6.
180
Terminal details M12 screw
Cap
3 220 430 MAX
2-15×20 oval holes
25
140
Earth terminal M8 screw
260 535 MAX
C B MAX
2-15×20 oval holes
A 1.6
350 370
M12 screw
Winch box
39
180
Center load 2450N
Wire rope
Fig. 45-2 CR-12
Earth terminal M8 screw
Main mast Steering handle Floor lock (one-touch pedal type) Free wheel with rubber (2-φ125)
Fixed wheel made of plastic
25
M6 screw
180
Terminal details
640 605
3 39
640 605
100Ω 0. 1μΩ
Inner R7.5 (installation foot)
Inner R7.5 (installation foot)
Terminal details
75
324
540
140
110
Wire cover
105 150
105 150
80
122
4-φ8 installation holes
Earth terminal M6 screw
110
540
249
37
Adapter for type-M
Sheave Guide roller
620 598 100Ω 0. 1μF
49
(Adapter size)
(5)Recommended replacement period: 15 years 620 598
Adapter for type-M only
2-φ20 holes F-3C
Safety catcher
322
Test switch
Sold Separately
2-φ20 holes
T: Terminal C: Case
100 Ω 0.05 μF
66
22
1 minute
Power switch
Fig. 45-3 CR-15
Lifting stroke
Between T-T Between T-C
AC
Remote control
Fig. 46
Table 12 Acceptable test voltage of CR suppressor.
Rated test voltage
Remote control outlet
Fuse
Base foot (made of rubber)
This is the lifter necessary to carry the circuit breaker unit in and out of the panel. Please use F-3C and adapter for type-M.
(3)Caution for regular inspections Be sure to ground the secondary terminals of the CR suppressor before touching them.
Type
Warning label Warning label
Output voltage selection switch
Panel portion
120
337
22
237
Earth terminal
High voltage lead terminal
235
B
Remote control box storage portion
150
200
136
20
6.6
150
Carrying knob
320
3.3
A
Applicable circuit voltage (kV) External dimensions (mm) *1
CR-6
140
CR-3
(10)
Type
192
Table 10 Ratings.
286 320 555 644 (Adapter size)
Surge Absorbing Capacitor (CR Suppressor)
Fig. 47 Lifter (F-3C)
(2-φ150)
*1: Maximum height of the main-circuit terminal.
25
26
Interlocking Process for the Panel Door When Using Withdrawable with Door Closed (Type-M) Operation Mechanism
Relevant Devices Capacitor Tripping Device (CTD)
Through optional processing of the panel door, the VCB unit can be installed together
Sold Separately
This device makes it possible to trip the circuit breaker electrically within a fixed time via remote control even when the control power is out.
with the following interlock function.
Interlock function with panel door 2-φ7 holes
e
45
45
Table 15 Ratings. Type
45
2-M6 Mounting screws
27
f100
4-M4 Terminal screws
Protective cover 16
75 110.6
0.5W240kΩ
KF-200CD
820μF
10W300Ω
10W100Ω
0.5W240kΩ
Items Rated working voltage (V)
100/110AC
200/220AC
Cancellation handles of the side lock (both sides) Side-lock plates for mounting frame(both sides) Fig. 51
140/155DC
Function
0.1 1
VCB can only be moved when the panel door is in the closed state.
2.3
An insertion/draw-out handle (for type-M) can be used to move the VCB after closing the panel door with the unlocking pin attached to the door.
100∼125DC
Unlocking pin must be installed
φ7×9 oval hole
2.3
KF-200CD converts the input voltage of 200V into 100V via the transformer.
Fig. 48
D1
KF-200CD 50/60
Device-mounting fixture
AC1
KF-100E
VCB operational voltage (V)
90 (Pitch)
90
Insertion hole for draw-out handle Insertion hole for cancellation pin of the operation
Electric charge time constant
f104
Insertion hole for insertion handle
Table 16 Table of ratings.
Power consumption (steady state) (W)
φ7 15
4-φ7
120 90
10W100Ω
Rated output voltage (V)
50 35
70
10W300Ω
Rated frequency (Hz)
87 110
Dimension of CTD 130
820μF
R1
DC+
AC1
D
R1
Example of processing procedure In this example, the distance between the inside of the panel door and edge of the mounting frame is 53mm.
DC+ ●
AC power supply
SW
ZNR C
R3
52a
R2 LED
AC power supply
ZNR
SW C
R3
DC-
Fig. 49 Circuit diagram (KF-100E).
52a 52a
R2 LED
STC
D2 AC2
52a
STC
AC2
●
Install a φ5mm unlocking pin (figure below shows M5 screw) in the position shown in the figure below (dimensions: 117mm, 32.5mm). Use an unlocking pin with a length that enables it to be inserted in a position 11mm from the edge of the mounting frame. Please process the handle aperture for a panel cover of 160×25 mm or larger.
DC-
Fig. 50 Circuit diagram (KF-200CD). Handle pivot point
Mounting frame end
*53 +2 117 ー1
Draw-in/draw-out handle (Testing position)
Panel door Unlocking pin
Panel opening ≧ 160
Unlocking pin 32.5±2
Unlocking pin mounting location +2 117 ー1
(42)
26
1. Please note that the KF-200CD output voltage is 140/155VDC. It cannot be used to open circuit breakers with a tripping voltage of 200/220VDC and may cause an accident in this case. 2. Be sure to completely charge a capacitor before performing opening operation or giving the opening command. 3. The sole purpose of this device is tripping a VCB. Do not use for any other purpose. 4. One device is required per VCB unit. 5. Recommended replacement period: 6 years
60°
25
Caution:
(97.5)
1. Capacitor tripping devices are mounted on the panel as standard. 2. Mounting fixtures that enable installation inside the panel are optional. The device can be installed facing the left, right, up or down according to the direction of the mounting fixtures.
11±3
Remarks
32.5±2
R6
4-
Condenser C Resistance R1 Resistance R2 Resistance R3
KF-100E
T
14.3 13
Function VCB can only be moved when the panel door is in the closed state.
45
4
10 φ
l ho
Panel opening ≧ 160
Mounting frame clamp face Door thickness T
11±3 *53 Mounting frame end
Fig. 52
27
28
Technical Information Operation Mechanism and Operating Principles
Operation / Control Voltage (Current) Table 17 Variation range of operation/control voltage.
Closing Operation Fig. 53 shows the state where the circuit breaker is opened and the closing spring is discharged.
Standard
Electrical (Closing) Operation ① When the power supply is connected, auxiliary relay 52Y is excited via limit switch LS2 and the contact of auxiliary relay 52Y closes, which then activates the motor via LS2, and the contact of auxiliary relay 52Y starts to charge the closing spring. When the closing spring is completely charged, limit switch LS2 opens, the motor then stops and limit switch LS1 closes (the closed control circuit is formed). ② By closing the closing command switch CS1 in this state, the closing coil CC is excited, the closing latch of the operating mechanism is released and the circuit breaker closes as a result of the energy from the charged closed spring. Through discharging the closed spring, LS2 is closed and LS1 is opened. ③ When limit switch LS2 closes, the motor activates and charges the closing spring to prepare for the next closing operation. ④ When the circuit breaker is closed, circuit breaker auxiliary contact 52b opens and shuts off excitation of closing coil CC. At the same time auxiliary contact 52a closes and forms a trip circuit of the voltage trip coil STC and at the same time excites the auxiliary relay (for anti-pumping prevention) 52X.
If consecutive closing commands are given to the closing operation switch CS1 while charging the closed spring (charge time of motor: 6 seconds): limit switch LS1 closes, the closing coil CC is excited, and the circuit breaker closes after completing the charging of the closing spring.
② When the circuit breaker is opened (tripped), circuit breaker auxiliary contact 52a opens and shuts off excitation of STC to prepare for the next closing operation.
Trip-free Operation If the closing command and trip command are given simultaneously when the circuit breaker is in an opened state and the closing spring is in a charged state (closing preparation):
③ When performing the closing operation, it is necessary to release the closing command by closing command switch CS1 and then restore auxiliary relay 52X.
3
1
(0n) CS1
5
DC
75∼125%
AC
85∼110%
Opening control voltage (tripping circuit)
DC
Control voltage (V)
J4 LS2
52a
24
ZNR1 D1
52X J4
ZNR3
3/6/10/15-VPR-25D/32D/40D
Closing
48
D2
D5
52Y ZNR2
D6
D3 D4
M 52Y
D9
J2
2
Motor circuit
52a
52X
R4
LS0
STC
4
M
: Motor (for charging closing spring)
CC
: Closing coil
STC
: Shunt tripping coil
LS0
: Limit switch
LS1 LS2
6
200/220
T
I
T
I
T
I
T
I
T
I
T
I
T
0.05
7
0.05
3.5
0.05
4.5
0.05
1.5
0.05
4
0.05
1.8
0.05
24 I
Type
T
48 Is
Tripping 13 0.03 0.03
3/6/10/15-VPR-25D/32D/40D
VAC*1
VDC
Current (A), Time (s)
I 8
T
100/110 Is
0.03 0.03
I 4
T
125
Is
T
I
0.03 0.03
5
100/110
200/220 Is
0.03 0.03
I 2
T
Is
I
T
200/220
Is
0.03 0.03 ー 0.03 ー
I
T
Is
ー 0.03 ー
Is: Maximum flowing current at the time of disconnection monitoring *1 CTD used.
Table 19 Motor operation control current and current-flow time for DC and AC (see Fig. 55). Control voltage (V) Current (A), Time (s)
VDC 24
48
VAC
100/110
125
200/220
100/110
200/220
I1 I2 T1 T2 I1 I2 T1 T2 I1 I2 T1 T2 I1 I2 T1 T2 I1 I2 T1 T2 I1 I2 T1 T2 I1 I2 T1 T2
Type 3/6/10/15-VPR-25D/32D/40D
18 6.5 0.1 6 12 2.5 0.1 6
6 1.2 0.1 6 7.5 1.5 0.1 6 3.5 0.6 0.1 6 8.5 3 0.1 6 4.5 1.5 0.1 6
Operation / Control Current Waveform for DC.
: Limit switch : Limit switch (for starting/stopping motor)
52Y
: Auxiliary relay (for motors)
52X
: Auxiliary relay (for pumping prevention)
T1 T2(run time)
T (time)
Fig. 54 Closing / tripping control current waveform.
Fig. 55 Motor operation current waveform.
Operation / control Voltage (Current) Table 20 Burden VA of closing coil and electrifying time for AC operation. 100/110V AC
Control voltage (V) Type 3/6/10/15-VPR-25D/32D/40D
Burden (VA)
Resistance welding time ( s)
680
0.05
Table 21 Motor burden VA and drive time for AC operation.
R1/2/3/4 : Resistor (R3 and R4 are equipped only for 200/220V)
I(steady-state 2 current)
(current) I
52a/b : Auxillarry contacts for circuit breaker
J5
100/110
I
Control voltage (V)
(for detecting spring charge)
J1
200/220
≪Opening control current≫
: No-voltage condition
(for detecting VCB’s position)
52b
Fig. 53 Basic control circuit diagram.
29
J1
52b
52Y ZNR5 J5
Circuit breaker : Opened state Closing spring : Discharged state
R2 R3 D7 D8 ZNR4
125
I1 (inrush current)
52X
CC
R1 J2
VAC
100/110
(0ff) CS2
LS1
85∼110%
12
Type
52a
J3
70∼110%
VDC
The wiring diagram on the left indicates:
J5 J3
85∼110%
60∼125%
AC
In the control substrate J5
85∼110%
Closing control voltage (closing circuit)
AC
Table 18 Closing and tripping control current and current-flow time for DC and AC (see Fig. 54). ≪Closing control current≫
① Operation takes place in the order of ②, ③, and ④ of the electrical (closing) operation. Then, because the trip command is being continued, operation ① of the electrical (trip) operation occurs. ② Electrical (closing) operation ① is returned but since the auxiliary relay 52X is continuously being excited, a closed circuit is not formed by contact 52Xb and the circuit remains in the opened state.
85∼110%*
DC
*Due to electric spring operation
When Closing Commands are Consecutively Given While Charging Closed Spring ① By closing the trip command switch CS2, the voltage trip coil STC is excited, the engagement of the tripping latch at the operating mechanism is released and the circuit breaker opens.
IEC-62271-100
Closing operation voltage (motor circuit)
Current (A), Time (s)
Tripping Operation
JEC-2300
Items
100/110V AC
Control voltage (V) Type 3/6/10/15-VPR-25D/32D/40D
Burden (VA)
Resistance welding time ( s)
180
6
30
Technical Information Sequence Timing
Table 22 Table of auxiliary switch ratings. Type 3/6/10/15-VPR-25D/32D/40D
Operating sequence
Ratings and specifications Rated insulation voltage (V)
250 AC/DC
Rated working voltage (V)
220 AC/DC 100∼125V AC
5 (power factor 0.3∼0.4)
200∼220V AC
4 (power factor 0.3∼0.4)
24∼55V DC
6 (time constant 40ms)
100∼110V DC
3 (time constant 40ms)
200∼220V DC
1 (time constant 40ms)
100V AC / V DC
30
24V AC / V DC
50
Main contact
AC
Standard contact
Rated operational current (A)
T2
T3
"b" contact DC
Minimum operational current (mA)
"a" contact
T1
TC
AC/DC
Rated continuous current (A)
5
Rated operational voltage (V)
125 AC/DC
T4
TT
Fig. 56
For micro current
Rated operational current (mA)
AC ratings
100∼125V AC
1∼500
DC ratings
24∼125V DC
1∼500
Rated continuous current (A)
31
0.5
Table 23 Operating time (reference). Code
Code descriptions
Time (ms)
TC
Closing time
30∼60
T1
"b" contact off ― main contact on
0∼8
T2
Main contact on ― "a" contact on
2∼10
TT
Opening time
10∼30
T3
"a" contact off ― main contact off
0∼8
T4
Main contact off ― "b" contact on
0∼8
32
Applicable Standards Operating Environment and Application Operating Environment
Impact on Load Device
Table 24 Normal service conditions.
10-VPR-D VCBs are designed and manufactured as an indoor unit and comply with JEC-2300 (AC circuit breakers) and IEC 62271-100. Accordingly, these VCBs require a normal service conditions specified in Table 24. Furthermore, sufficient maintenance and inspections must be performed in accordance with the VCB instruction manual. Please consult the manufacturer regarding operation of VCBs under special conditions.
Caution for Installation Site and Surrounding Environment The VCB service conditions must comply with the specifications shown in Table 24. Do not use the VCBs in environments that do not meet these conditions. For use in outdoor panels and special environments where there is excessive dust, corrosive gas, water/condensation or abnormal vibration/shock, be sure to take appropriate countermeasures. Non-adherence to these cautions may result in damage to the products or degraded performance in areas such as switching, current carrying capacity and insulation.
1
Ambient temperature
-5℃ - 40℃ (The average temperature for 24 hours must not exceed 35℃.)
2
Influence of solar radiation
There must be no influence of solar radiation.
3
Altitude
1,000m or lower
Powder dust
There must be no excessive powder dust. (As a guideline, the powder dust should be 2mg/cm3 or less.)
5
Humidity
Relative humidity: 45 - 85% (There must be no dew condensation.)
6
Vibration
There must be no excessive vibration.
4
CR suppressor used
23
Capacitor IEC60871-1
28
60 75 49 60 75
Application for Reactor Circuit
8
Poisonous gas
There must be no corrosive gas.
Although a capacitor circuit can be used, please exercise caution in regard to the following:
Application to the Capacitor Circuit Before re-closing the capacitor, make sure the capacitor is fully discharged to prevent the risk of overvoltage being generated.
Application to the Different System Butt Welding Circuit
Surge Protection Standards
3/6/10/15-VPR-D
Rated lighting impulse withstand voltage kV (peak value)
28
Rotator IEC-34-15-1995
There must be no pollution. (As a guideline, the equivalent salt deposit density should be less than 0.01mg/cm2.)
Table 25 Type
Oil IEC60076-3-2000 Dry IEC726-3-1982
Degree of pollution
types for actual applications.
Motor
Transformer
7
Table 22 outlines surge protection standards for the load circuit. Please use this table as a reference when selecting VCB
Generator
Power frequency rated withstand voltage kV (rms value)
Type
A reactor circuit can be applied because the current chopping surge is not at a problematic level.
Application of Surge Protection Device
Load device
Table 26 Withstand voltage test voltage value of load device (11kV system).
VCB load devices are generally considered to include transformers, rotators and capacitors. When the surge voltage is higher that the insulation level of a load device, one of the surge protection devices shown in Table 25 must be applied. The withstand voltage of transformers, rotators and capacitors as listed in the IEC standards are shown in Table 26. Please confirm the overvoltage tolerance of each device with the relevant manufacturer.
Dry transformer
Oil transformer
General purpose arrester used
Not required
Mitsubishi Electric Phase-advanced molded transformer capacitor General-purpose arrester used
Not required
*1: To directly switch the semiconductor rectifier unit (for example, a electric power thyristor rectifier unit) to the secondary side of a transformer, use a transformer with a contact-protective plate. Use a general-purpose arrester on the primary side and the surge protective device (such as a filter capacitor) on the secondary side. *2: Avoid interrupting the no-load excitation inrush current of a molded transformer oil transformer. When such current must be interrupted, use a general-purpose arrester. Before using any oil transformer or molded transformer made by other manufacturers, consult the manufacturer. *3: For motors in applications where inching operation is frequently performed and inching is the predominant switching duty (cranes, conveyors, etc.), use a CR suppressor.
Application to different-system circuits Application to different-system circuits is possible. In this case, it is necessary to shorten the maintenance, inspection and cleaning cycle because the voltage added between VCB poles will be higher than under normal conditions. A more frequent maintenance and inspection cycle is especially important in environments where there is pollution or high humidity.
Caution for Korndorfer Start Circuit For a korndorfer start, a neutral point release of the auto-transformer should be conducted after the start current is completely diminished. Alternatively, for an auto-transformer that is used as a starting compensator, please use a korndorfer system startup transformer specified in "power transformer (JEC-2201)."
Application to Electric Furnace Circuit High frequency switching of the circuit breaker for an electric furnace increases the possibility of generating a switching surge, and when a filter capacitor is connected there is a risk of generating high overvoltage. In addition to adopting a surge protection device, please use a circuit breaker with a high withholding voltage or select a circuit breaker with a rated voltage in one of the top classes.
Surge Voltage for Breaking Current Surge voltage at the time of interrupting current generally includes the current chopping surge when interrupting an inductive small current. If small current is interrupted by a switch that is superior in arc extinction capacity like the vacuum circuit breaker, the arc suddenly dissipates before forcing the current to zero and then interrupts current. This is called the current chopping phenomenon, and a high surge voltage may be generated if the phenomenon occurs at the time of inductive small current breaking. It is possible to calculate the current chopping surge voltage by the following general equations.
Circuit conditions
Fig. 57 Application example of a surge protection device (for general-purpose vacuum circuit breakers). For a motor direct switch (with line and reduced voltage starting)
(1) Without reverse voltage (inching switching of transformer circuit/motor)
×
CR
×
SR
: Surge voltage (peak value) :Power voltage to ground (peak value) :Attenuation coefficient (for transformer: approx. 0.65, for motor: 0.85) :Surge impedance
33
×
VCB
VCB CR
VCB (△)
T CR
×
:Inductance of load circuit including a transformer or motor :Earth capacity of load circuit including a transformer or motor :Chopping current
M
CR
CR
(2) With reverse voltage (motor switching of the constant - velocity drive)
VCB
VCB
VCB
VCB
Surge voltage equation
M
M
M
Full-voltage starting
Reactor starting
Korndorfer starting
VCB
VCB ( )
Star-delta starting
34
Applicable Standards For semiconductor rectifier
For dry transformer switching
Electric furnace transformer
Table 28 Capacitor load applicable capacities. Items
Multiple switching capacity (kVar)
3-VPR-D
2,500
1,500
6-VPR-D
5,000
3,000
10/15-VPR-D
7,000
4,000
Type VCB
VCB
LA
VCB VCB
CR
LA
CR
T
Furnace transformer
(with short-proofing plate)
10,000
Maximum switching capacity (kVar)
Number of switching
For changeover to private power generation facility
*1: Electrical service life for the max. switching capacity is approx 2,000 times; multiple switching capacity is 10,000 times. *2: Applicable capacities with 6-13% series-connected reactor.
1,000 1,000
G
∼ Generator
Power thyristor rectifiers
Fig. 59 Guidelines on the switching times for applicable capacity (for 12, 15kV).
Table 29 Maximum applicable capacity. Items
Service Life and Applications Vacuum Service Life of VI The high vacuum of the VI in the VCB ensures interrupting and insulation characteristics. It is very important that this vacuum be maintained. Our VIs are manufactured on our advanced production line and provide safe, long term use guaranteed by our original method of service life testing and control. Vacuums can be inspected simply as part of regular inspections via the withstand voltage method or through use of portable vacuum checkers.
Electrical Service Life of VI (see Table 27) The electrical service life of a VI is determined by the electrode consumption and the number of switchings. For VPR-D, the service life can be determined by the number of load switchings, because the electrode consumption is extremely small. Therefore, it is not required to measure the electrode consumption (wipe) at the time of maintenance and inspection.
Mechanical Service Life
7.2kV
12kV
15kV
3.6kV
7.2kV
12kV
15kV
3.6kV
7.2kV
12kV
15kV
3/6/10/15-VPR-D (1,250A)
1,250
4,900
9,800
16,100
20,300
7,000
14,000
23,000
29,000
3/6/10/15-VPR-D (2,000A)
2,000
7,700
15,400
26,600
32,900
11,000
22,000
38,000
47,000
3/6/10/15-VPR-D (3,150A)
3,150
12,600
25,200
42,000
52,500
18,000
36,000
60,000
75,000
*1 Maximum applicable full-load current (A) is for a single breaker. *2 Motor output (kW) is: calculated by power factor × efficiency=0.7.
Polarity in Connecting to Main Circuit It is unnecessary to classify the polarity in the power/load sides when connecting the main circuit of the VCB. (Electrical or mechanical performance is not changed regardless of whether it is connected to the power side of load side.)
The contact resistance and calorific value of each rated current are shown. Use this as a reference when selecting models. Table 30 Contact resistance and calorific value of each rated current.
Replace When Service Life Expires The estimated service life is 20 years when used under normal environmental conditions. When the VCB reaches the end of its mechanical service life or its specified operation count, it is necessary to replace the VCB.
Type Rated current (A)
Table 27 Switching service lives. Items
3/6/10/15-VPR-D
Load switching service life (times)
Mechanical switching service life (times)
10, 000
10, 000
*1: Values shown in the table above are based on the continuous switching test and apply to the short term; they are not guaranteed in the long term. To ensure optimum performance, please follow the maintenance and inspection procedures described in the instruction manual. 100,000
Breaking service life (times)
3.6kV
Type
Distribution transformer (kVA)
Motor output (kW)*2
Calorific Value
This can be determined by the operation counter provided in the VCB (provided in all types as standard specification).
Type
Three-phase induction motor Full-load current (A)*1
The service life of VCBs is specified in terms of the vacuum service life of VI, as well as the electrical and the mechanical service lives.
10,000
Applicable capacity (kVar)
Contact resistance Rc(μΩ) between ① and ②*1 Calorific value (W) / three phases
3/6/10-VPR-25D/32D
15-VPR-32D/ 3/6/10/15-VPR-40D
3/6/10/15-VPR-32D/40D
3/6/10-VPR-32D/40D
600/630 1,200/1,250
600/630 1,200/1,250
2,000
3,150
72
63
42
24
338*2
366*2
504
715
*1: Measured value using the direct current voltage potential drop method. *2: Value at the time of applying a 1,250A electrical current.
10,000
①
1,000
②
100 10 1
1
10
100
Breaking current (kA) Fig. 58 Breaking service life criterion for breaking current (for 10-VPR-40D 3,150A).
35
Fig. 60
36
Applicable Standards Lifting the VCB
Altitude
Lift the VCB using the mounting holes as shown below.
Lifting the mounting frame Lifting
Lift the mounting frame using the mounting holes as shown in the figure below.
Mounting hole (φ30)
Mounting hole (φ30)
Mounting hole (φ30)
Lifting Mounting hole (φ30)
When using the VCB in altitudes over 1,000m above sea level, the insulation withstand level is reduced due to differences from the standard ambient conditions. To make corrections for altitude, please confirm and apply the insulation withstand levels for higher altitudes as listed in IEC 62271-1-2011.
For installations at an altitude 2,500 m, if VCB is required with BIL 75kV, VCB with BIL 95kV should be used in accordance with Figure 65. “75 multiplied by 1.2 is 90.”
1.5
1.4
1.3
1.2
1.1
Mount both sides with accompanying bolts
1 1,000
1,500
2,000
2,500
3,000
3,500
4,000
Altitude (m) Fig. 65
Recommendations for VCB Maintenance 1.Standards for the replacement of parts
Replace parts according to the following schedule (applies to all types) to ensure reliable operation for the full term of the service life (20 years). Fig. 61
Fig. 62
Table 31 Standards for the replacement of parts.
Do not lift VCBs while they are inserted in the mounting frame. When lifting the VCB or mounting frame, please refer to the instruction manual and follow the specific conditions provided.
Shipping Clamps When a switchgear is supplied with the mounting frame and VCB (in test position), it is necessary to mount the frame and VCB on the switchgear. Follow the directions in the instruction manual and the accessories section of this catalog (page 20) to mount the devices using screws (M10) in the positions shown in the figure.
Replacement standard
Part
Usage period
Dumper
5,000
6 years
Degradation over time
Auxiliary switch
5,000
Motor
5,000
Preventive maintenance
Limit switch
5,000
10-15 years −
Electrical service life
VI
(450)
When defects occur in vacuum and withstand voltage
Insulation performance
Degradation
Table 32 Maintenance and inspection cycle. Maintenance and inspection cycle
Maintenance and inspection classification
Normal environment
Substandard environment (especially dew condensation, salt and powder dust)
Patrol inspection
6 months
1 month
37 2-φ10 holes or M10 tap screws
(65)
320
119
Periodic inspection
Fig. 63 Mounting hole positions on the panel side (type-M【2,500A, 3,000/3,150A】)
For 2,500A, 3,000/3,150A
First time: 1-2 years Second time and later: 3 years
Detailed inspection
6 years
Special inspection 2-φ12 holes for mounting (pitch=450)
(40)
2×2-φ11 holes for transport fitting (pitch=40)
1-2 years 2-4 years
Maintenance and inspection cycle
*1: Please replace a VCB when the number of switching operations reaches 10,000 times. *2: Please consider replacing the product after 20 years of use under normal environmental conditions.
3.VCB Replacement Condition VCBs are recommended for replacement when any of the following conditions are true:
10
50
For withdrawable with door open (types C,D and G)
49
312 450
Fig. 64 Mounting hole positions on the panel side (types C, D and G)
37
30 times
Switching service life of the rated short-circuit breaking current
2.Types of inspections
For withdrawable with door closed (type-M)
For 600-2,000A
Reason for replacement
Actuating cycle
1 .Twenty years have passed since manufacture. 2 .Switching service life has expired (see page 35). 3. Abnormalities are identified in the inspection described in Table 32 and there is no chance of restoring the abnormalities through repair of parts. *Make sure to refer to the instruction manual before inspection.
38
VPR
3.6kV
7.2kV
12kV
15kV
0 3
0 6
1 0
1 5
7
4 0
3 2
2 5
40kA
31.5kA
25kA
Rated short-circuit breaking current
6
D
Series name
D
8
10
0 6
2 0 2,000A
2 5 2,500A
G Withdrawable with door closed (type-G) and class MW
L Fixed
4 Class E2 BIL95kV (12kV)
(except for 15kV)
3,000A/3,150A
3 0
1,600A
D
1 6
1,200/1,250A
1 2
600/630A
Withdrawable with door closed (type-D) and class PW
(type-L)
13
Rated current
12
3
closed (type-C) and class CW
C
IEC 62271- Withdrawable with door 100-2012
I
Withdrawable with door closed (type-M) and class MW
M
Mounting configuration
11
Class E1 BIL95kV (12kV)
Class E2
2
J JEC 2300-2010
1 Class E1
Classification Standards
9
2 7 8
1
48V DC
8
24V DC
7
200/220 VDC
2
100-125 VDC
1
Tripping control voltage
15
2, 7 and 8 will be manufactured upon receipt of order
1 is standard.
48V DC
8
24V DC
7
200/220 VAC/V DC
2
100-125 VAC/V DC
1
Closing operation/control voltage
14
Connected position 4C+ Test position 2C
2 units
2
Connected position 2C+ Test position 2C
With interlock
B Code B
1
Without interlock
Code A
A
Secondary connector
17
1 unit
×
0
Position switch
16
T
K
A
Additional auxiliary switch (additional 5a5b) (A)
D
Additional shunt tripping coil (D)
P
Draw-out mechanism padlock device (P)
B
padlock device for close and trip button (B)
2
1
For 200/220VAC
For 100/110VAC
Capacitor tripping device (1), (2)
Table 34 Code description chart (special specifications)
(without optional accessories)
F
E
Without electrical interlock
With electrical interlock
Earthing switch (Class E2) (E), (F)
1 0 V P R 4 0 D 1 I D 1 2 11 0 B 0 0 0 A K D (with mechanical locking device and additional shunt tripping coil)
1 0 V P R 4 0 D 1 I D 1 2 11 0 B 0 0 0 0
Example for Order No.
Caution:・Mechanical locking device (K) and draw-out mechanism padlock device (P) should not be used together. ・Earthing switches are not compatible with type-C in the mounting configuration. ・When the tripping power is AC and the capacitor tripping device (CTD) is selected, select 100 - 125V for the tripping control voltage⑮. ・When selecting an additional auxiliary switch and additional shunt tripping coil, it will be compatible only for control circuit plug: code B. ・The tripping coil disconnection monitoring and the capacitor tripping device should not be used together. ・The fixed (type-L) is not compatible with earthing switches, short-circuit capacity earthing, optional terminals or shutter padlock device.
Tripping coil disconnection monitoring (T) Mechanical locking device (K)
Optional Accessories
H
V
Optional terminal (V: Vertical, H: Horizontal)
Standard 3a3b contact For microcurrent 2a2b contact
For microcurrent
S
Standard (5a5b)
0
Auxiliary switch
18
20
S
With Optional accessories
A Without mounting frame
X
0 ×
0
Optional accessories
21
With mounting frame
Shutter padlock device (S)
With 1C
1
×
0
Closing spring Mounting charge indication frame switch
19
□ Lifter
□ CR suppressor □ Vacuum checker
To order any of the products below (sold separately), please contact a local service representative.
J
Short-circuit capacity earthing (J)
Caution:・Refer to the catalog (JNEC-SL-0150) for the class E1 at 25kA, the standard draw-out operation (types C, D and G), and fixed (type-L) for items rated at 3.6kV/7.2kV (1,250A) and lower. ・Rated short-circuit breaking current of 40kA with E2 class cannot be manufactured. ・Withdrawable with door closed (type-M) is not compatible with mounting configuration class CW. ・Fixed (type-L) is not compatible with the rated voltage 15kV, Bil95kV, and code B. When selecting additional auxiliary switch and additional shunt tripping coil the control circuit plug configuration of code B should be applied.
Except for the 3,000/3,150A rated current
Type
Rated voltage
VPR
5
4
3
1
2
Table 33 Code Description Chart (Standard Specifications)
Standard
12. Ordering Information
Specifications
Codes and descriptions Specifications Codes and descriptions
39 40
41
42
