Flexible Cable - Hitachi Metals · - Do not use the cable exceeding the rated temperature in ......
Transcript of Flexible Cable - Hitachi Metals · - Do not use the cable exceeding the rated temperature in ......
Safety PrecautionsMake sure to read all the 'Safety Precautions' thoroughly before using the products indicated in this guide book.If you have any other questions about the products, please contact us prior to use.As the safety precautions indicated here provide very important points regarding safety, be sure to follow them.Symbols used in the texts are as follows.
1. Risk of electric shock or fire.- Do not perform connecting and wiring operation with the power switched ON.- Do not disassemble or alter the products.- Make sure to ground the shielding layer. Note: Single grounding results in induced voltage at the ungrounded end. Grounding both ends may cause a temperature increase to the shielding layer.
2. Risk of burn injury, burnout, or fire.- Do not apply voltage or current exceeding the rated level.- Do not use the cable exceeding the rated temperature in consideration of the operating environment.
1. Prohibited matters at wire/cable processing.- When installing a terminal joint of the high-voltage cable, make sure to remove the outer semiconductive layer
thoroughly without any residue, otherwise it may cause an insulation failure.- Do not install the wire or cable with torsion remained, otherwise it may damage the products.- Do not use the wire or cable for any purpose other than that which is provided for each product, otherwise it
may damage the products.- Be sure that no water, etc. enters the conductor when terminating the wire or cable, otherwise it may damage
the products.
2. Handling Precautions- Make sure that tension or bending radius does not exceed the permissible level, otherwise it may break or damage the conductor and result in shortening the product life.
- When the wire or cable is subjected to tension or vibration, be sure to clamp terminals securely to prevent the cores from being wrongly positioned. Otherwise, it may damage the products.
- Load the drums in a vertical state (on its flange side). Loading them sideways tangles the wire or cable and makes it difficult in unloading them.
- When unloading drums, make sure to use a forklift or crane. Also be aware that coils should be treated carefully. If dropped from the delivery vehicle, the drums or products may be damaged.
- When lifting a drum with a crane, be sure to use a long wire so that the wiring angle is 60 degrees or less. If being lifted with a short wire and the wiring angle becomes 60 degrees or more, the lateral pressure exerts on the drum flange and crushes the flange, resulting in product damage.
WARNINGS : Ignoring warnings and handling the products incorrectly may lead to serious injury or death.
CAUTIONS : Ignoring cautions and handling the products incorrectly may lead to injury or property damage.
WARNINGS
CAUTIONS
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■ Cable Selection Guide■ Types and Features of Cables
Introduction of ProductsFestoon System Flexible Cable 600V 2PNCT, 600V CUR-2PNCT 600V 3PNCT, 600V CUR-3PNCT 600V 2PNCT-SB, 600V CUR-2PNCT-SB (Overall Shielded Type) 600V 3PNCT-SB, 600V CUR-3PNCT-SB (Overall Shielded Type) 600V 2PNCT-PSB, 600V CUR-2PNCT-PSB (Pair Shielded Type) 600V SK-2PNCT (Flat Cable)
Carrier Drum System Flexible Cable 600V CAR-2PNCT, 600V CAR-3PNCT 600V CAR-2PNCT-SX (Overall Shielded Type)
Torsion System Flexible Cable 600V TOR-2PNCT
Reel System Flexible Cable 600V RE-2PNCT, 600V RE-3PNCT (Reel System) 600V RE (V)-2PNCT-RF (Vertical Reel System) 600V H-2PNCT, 600V H-3PNCT (Flat Type Cable) 3300V H-3PNCT, 6600V H-3PNCT (Flat Type High-Voltage Cable)
Optical Composite Reel System Flexible Cable 3300V FG-H-3PNCT, 6600V FG-H-3PNCT(Flat Type Cable) 6600V FG-RE-3PNCT
Gravity Collector Basket System Spreader Cable 600V SPD-FHNCT (for quayside cranes) 600V SPD(Y)-2PNCT (for yard cranes)
Instrumentation Flexible Cable K-PNCT K-PNCT-SB (Overall Shielded Type)
PVC Flexible Cable 600V VCT
Vibration Resistance Flexible Cable 600V T-2PNCT
Fluonlex® Flexible Cable (Heat Resistant to 200 degrees C) 600V FFCT 600V FFCTB (Glass Tape + Stainless Braided Type) 600V FFCT-SB (Overall Shielded Type) 600V FFCTB-SB (Overall Shielded Type + Glass Tape + Stainless Braided Type)
Optical Fiber Flexible Cable FRC-4G5032-V, FRC-6G5032-V, FRC-4G6242-V, FRC-6G6242-V etc.
Coaxial Chloroprene Rubber Sheathed Flexible Cable ENCT
Technical DataAmpacitiesCore IdentificationMaterial DataPrecautions of UseStock ListConfirmation Sheet for Specifications
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* Fluonlex is a registered trademark of Hitachi Metals, Ltd. in Japan and U.S.A.
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R R
Chain for suspendingthe operation box
Cable
Operationbox
Power supplyend (fixed)
D
D
Cable
Cable
Fixed pulley
Moving pulley
Load
Power receivingend (moving)
Power supplyend (fixed)
Power receivingend (moving)
Cable
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
Cable
Power receivingend (moving)
Power supplyend (fixed)
Cable clamp
Cable clamp
Power supplyend (fixed)
Power receivingend (moving)
RCable
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
ConductorInsulation
SheathCradle core
Reinforcement
Conductor
Insulation
Sheath
ConductorInsulationSheathReinforcement
Power supplyend (fixed)
Cable
Power receivingend (moving)
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receivingend (moving)
Wire rope
Carrier drum
Power supplyend (fixed)
Electric tool
■Cable Selection Guide
●System Application and Recommended Cables
●Classification from Structure of Flexible Cables ●Cables for Special Requirements
SystemApplication
Type of Cable
Festoon Cable Chain Lift Carrier Drum Reel (Traveling) Pendant Vertical Reel Vibration-ResistanceMoving PulleyTorsion (Revolving) Gravity CollectorBasket (Spreader)
CUR - 2PNCT
SK - 2PNCT
CAR - 2PNCT
TOR - 2PNCT
RE - 2PNCT
RE(V)-2PNCT-RF
H - 2PNCT
K - PNCT
T - 2PNCT
FFCT
FRC
FG-H-3PNCTFG-RE-3PNCTSPD-FHNCT
SPD(Y)-2PNCT
Class Feature Special RequirementsApplication Cross-section
Class 2Flame
resistance
Class 3
Class 4
This cable has the most basic structure consisting of flexible conductors, insulation, and sheath. There is no reinforcement under the sheath.
Cradle core (bedding) is arranged between cores and therefore the thickness of sheath is thicker than that of class 3. It results higher resistance to impact or wear than that of class 3.
As this cable has reinforcement in the middle of the sheath and the thickness of both insulation and sheath are thicker than that of class 2, it results high resistance to impact or wear. Reinforcement applied in the middle of the sheath generally consists of sailcloth, however embedded yarn braid is used instead of sailcloth in case of more flexibility.
This is the most general-purpose low- voltage cable and can be used for outdoors.
This cable is suitable for conditions where there is high possibility of damage.
This cable is used to severe applications, such as for coal cutter, etc. used in coal mining.
Main Application Examples of Suitable Types Feature
Coldresistance
Heatresistance
Heat Barrier, Slag spattering
preventionLow voltage circuit
(60V or less)Flexibility
Nuclear power plant,Thermal power plant
Refrigerated storage
Around furnace
Steel plant
For measuringinstruments
600V MM-2PNCT and others
600V LT-2PNCT,600V SKR-2PNCT and others
600V FFCT,600V FFCT-SB and others
600V 2PNCTB,600V FFCTB and others
K-PNCT,K-PNCT-SB and others
Flame retardancy in accordance with IEEE383-1974 VTFT (vertical tray flame test)
EP rubber insulated special chloroprene sheathed cable having cold resistance (embrittlement) of - 40 degrees C.
Cables shall be installed by semi-fixing method on the equipments with low voltage (60V or less) circuit.To be used in case of flexibility of cable is required.
Glass tape and stainless braid to be applied onto the sheath.
Heat resistant temperature of 200 degrees C
* Please contact us if you have any special requirements.
Main application May be used (Please contact the manufacturer) Please never use
Note1)
Note1) In the case of 10 cores or more please use CAR-2PNCT
4 5
R R
Chain for suspendingthe operation box
Cable
Operationbox
Power supplyend (fixed)
D
D
Cable
Cable
Fixed pulley
Moving pulley
Load
Power receivingend (moving)
Power supplyend (fixed)
Power receivingend (moving)
Cable
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
Cable
Power receivingend (moving)
Power supplyend (fixed)
Cable clamp
Cable clamp
Power supplyend (fixed)
Power receivingend (moving)
RCable
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
ConductorInsulation
SheathCradle core
Reinforcement
Conductor
Insulation
Sheath
ConductorInsulationSheathReinforcement
Power supplyend (fixed)
Cable
Power receivingend (moving)
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receivingend (moving)
Wire rope
Carrier drum
Power supplyend (fixed)
Electric tool
■Cable Selection Guide
●System Application and Recommended Cables
●Classification from Structure of Flexible Cables ●Cables for Special Requirements
SystemApplication
Type of Cable
Festoon Cable Chain Lift Carrier Drum Reel (Traveling) Pendant Vertical Reel Vibration-ResistanceMoving PulleyTorsion (Revolving) Gravity CollectorBasket (Spreader)
CUR - 2PNCT
SK - 2PNCT
CAR - 2PNCT
TOR - 2PNCT
RE - 2PNCT
RE(V)-2PNCT-RF
H - 2PNCT
K - PNCT
T - 2PNCT
FFCT
FRC
FG-H-3PNCTFG-RE-3PNCTSPD-FHNCT
SPD(Y)-2PNCT
Class Feature Special RequirementsApplication Cross-section
Class 2Flame
resistance
Class 3
Class 4
This cable has the most basic structure consisting of flexible conductors, insulation, and sheath. There is no reinforcement under the sheath.
Cradle core (bedding) is arranged between cores and therefore the thickness of sheath is thicker than that of class 3. It results higher resistance to impact or wear than that of class 3.
As this cable has reinforcement in the middle of the sheath and the thickness of both insulation and sheath are thicker than that of class 2, it results high resistance to impact or wear. Reinforcement applied in the middle of the sheath generally consists of sailcloth, however embedded yarn braid is used instead of sailcloth in case of more flexibility.
This is the most general-purpose low- voltage cable and can be used for outdoors.
This cable is suitable for conditions where there is high possibility of damage.
This cable is used to severe applications, such as for coal cutter, etc. used in coal mining.
Main Application Examples of Suitable Types Feature
Coldresistance
Heatresistance
Heat Barrier, Slag spattering
preventionLow voltage circuit
(60V or less)Flexibility
Nuclear power plant,Thermal power plant
Refrigerated storage
Around furnace
Steel plant
For measuringinstruments
600V MM-2PNCT and others
600V LT-2PNCT,600V SKR-2PNCT and others
600V FFCT,600V FFCT-SB and others
600V 2PNCTB,600V FFCTB and others
K-PNCT,K-PNCT-SB and others
Flame retardancy in accordance with IEEE383-1974 VTFT (vertical tray flame test)
EP rubber insulated special chloroprene sheathed cable having cold resistance (embrittlement) of - 40 degrees C.
Cables shall be installed by semi-fixing method on the equipments with low voltage (60V or less) circuit.To be used in case of flexibility of cable is required.
Glass tape and stainless braid to be applied onto the sheath.
Heat resistant temperature of 200 degrees C
* Please contact us if you have any special requirements.
Main application May be used (Please contact the manufacturer) Please never use
Note1)
Note1) In the case of 10 cores or more please use CAR-2PNCT
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ConductorSeparator
EP rubber insulationFiller
Binder
Chloroprene sheath
ConductorSeparator
EP rubber insulationFillerBinderChloroprene sheath
ConductorSeparatorEP rubber insulationFillerTapeChloroprene sheath
ConductorSeparator
EP rubber insulationRubber fillerChloroprene sheath
ConductorSeparator
EP rubber insulationFiller
Binder
Chloroprene sheath
ConductorEP rubber insulationTape
Chloroprene sheath
① ② ③ ④ ⑤
600V CUR PNCT SB 30 × 3.5mm22No. of cores (or pairs) x size
●Main Cable Types and Structural Features (Examples of 2PNCT)
●Product Description
■Types and Features of Cables
Cable types(Main application) Structures Feature
CUR-2PNCT(Festoon System)
SK-2PNCT(Festoon System)
RE-2PNCT(Reel System)
H-2PNCT(Reel System)
TOR-2PNCT(Torsion System)
CAR-2PNCT(Carrier Drum
System)
- High flexibility and bending resistance. (however, not suitable for applications where cables are subjected to lateral pressure, such as carrier drum system)
- High resistance to lateral pressure.- Reduced cable corkscrewing by making rubber
sheath solidal structure.- Robust type of chloroprene is used as sheath.
- High resistance to lateral pressure and wear.- Robust type of chloroprene is used as sheath.
- High torsion resistance.- Improved slipping performance between cores by
individually taping on each core.
- High resistance to lateral pressure, tension, and bending.
- Small-size conductors have steel wires in addition to copper wires to increase the kink resistance and tension resistance.
- Robust type of chloroprene is used as sheath.
- High flexibility and bending resistance. (however, not suitable for reeling system)- More efficient cable installation because of its
smaller bending radius than those of round cable.
<Example>
CUR (Festoon system)SK (Festoon system, flat cables)CAR (Carrier drum system)RE (Reel system)RE(V) (Vertical reel system)H (Reel system, flat cable)TOR (Torsion system)T (Vibration resistant)SPD (Spreader)F (Composite cable)FG (Optical composite cable)K (Instrumentation cable with low voltage circuit (60V or less))
PNCT (Insulation: EP rubber) (Sheath: Chloroprene)VCT (Insulation: PVC) (Sheath: PVC)FFCT (Insulation: Fluonlex) (Sheath: Fluonlex)
SB (Overall shield)PSB (Pair shield)CSB (Individual core shield)SX (Special shield)B (Glass tape and stainless braid)RF (Reinforced sheath)
600V3300V6600V -
2 (class 2)3 (class 3)4 (class 4) -
①Rated Voltage ②Main Application ③Class ④Cable Type ⑤Option (shield, etc.)
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Introduction of ProductsFestoon System Flexible CableCarrier Drum System Flexible CableTorsion System Flexible CableReel System Flexible CableOptical Composite Reel System Flexible CableGravity Collector Basket System Spreader CableInstrumentation Flexible CablePVC Flexible CableVibration Resistance Flexible CableFluonlex Flexible Cable (Heat Resistant to 200 degrees C)Optical Fiber Flexible CableCoaxial Chloroprene Rubber Sheathed Flexible Cable
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Festoon System Flexible Cable
600V 2PNCT (600V CUR-2PNCT)Class 2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V 2PNCT (600V CUR-2PNCT)
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationStandard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V /1 minute: High flexibility: Festoon System and Lift System * Please use CAR-2PNCT for cable chain system (10 cores or more) and carrier drum system.: Color coding / tracer method (ref. Page 39 of the Technical Data): SP97-31-9001Rev.1
600V 2PNCT, 600V CUR-2PNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. InsulationResistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
1
2
3
1.7
1.8
1.9
2.0
2.1
2.2
2.3
2.5
2.6
2.6
2.7
3.0
3.2
1.7
1.7
1.8
1.9
2.0
2.1
2.2
2.6
2.7
2.9
3.1
3.3
3.7
3.9
1.7
1.8
1.8
1.9
2.0
2.1
2.3
2.7
2.8
3.0
3.3
3.4
3.8
4.1
4.2
4.4
150
220
340
425
515
660
790
1,080
1,310
1,550
1,760
2,410
2,920
105
125
155
220
315
395
590
950
1,190
1,440
1,810
2,160
2,980
3,600
115
145
180
260
380
480
735
1,180
1,480
1,810
2,310
2,750
3,790
4,620
5,500
6,230
400
300
300
300
200
200
200
300
200
200
200
200
200
500
500
500
400
400
400
300
300
300
200
200
200
300
200
500
500
500
400
400
400
300
300
300
200
200
200
300
200
200
200
60
70
90
90
100
110
120
140
150
160
170
200
210
60
60
70
80
90
100
120
150
160
180
200
220
260
270
60
70
70
80
100
110
120
160
170
190
220
230
270
300
320
330
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
19/42/0.45
27/34/0.45
37/34/0.45
37/42/0.45
30/0.18
50/0.18
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
30/0.18
50/0.18
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
19/42/0.45
27/34/0.45
* 600V 2PNCT and 600V CUR-2PNCT have quite the same structure.
3.7
4.9
7.0
8.1
9.1
10.4
11.6
13.5
15.2
16.8
18.7
21.2
23.6
1.1
1.5
1.8
2.5
3.1
3.7
4.9
7.0
8.1
9.1
10.4
11.6
13.5
15.2
1.1
1.5
1.8
2.5
3.1
3.7
4.9
7.0
8.1
9.1
10.4
11.6
13.5
15.2
16.8
18.7
9.2
11.0
13.5
14.5
15.5
18.0
19.0
22
24
26
27
32
35
8.9
9.7
10.5
12.5
14.5
16.0
18.5
24
26
29
33
36
42
45
9.3
10.5
11.0
13.0
15.5
17.0
20
26
28
31
36
38
45
49
52
55
2.45
1.39
0.892
0.661
0.525
0.411
0.329
0.243
0.193
0.156
0.136
0.0993
0.0803
26.6
16.0
10.2
5.54
3.56
2.52
1.43
0.919
0.681
0.541
0.423
0.339
0.250
0.199
26.6
16.0
10.2
5.54
3.56
2.52
1.43
0.919
0.681
0.541
0.423
0.339
0.250
0.199
0.161
0.140
8
14
22
30
38
50
60
80
100
125
150
200
250
0.75
1.25
2
3.5
5.5
8
14
22
30
38
50
60
80
100
0.75
1.25
2
3.5
5.5
8
14
22
30
38
50
60
80
100
125
150
1.0
1.0
1.2
1.2
1.2
1.5
1.5
2.0
2.0
2.0
2.0
2.5
2.5
0.8
0.8
0.8
0.8
1.0
1.0
1.0
1.2
1.2
1.2
1.5
1.5
2.0
2.0
0.8
0.8
0.8
0.8
1.0
1.0
1.0
1.2
1.2
1.2
1.5
1.5
2.0
2.0
2.0
2.0
Size(mm2)
OuterDiameter
(mm)
Min. PermissibleBending Radius
(mm)
ConductorSeparatorEP rubber insulation
FillerBinderChloroprenesheath
12-core
Conductor
EP rubberinsulation
Separator
Chloroprenesheath
3-core
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
9
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)
4
5
6
7
8
10
12
16
20
24
30
1.81.81.92.02.12.22.42.83.03.23.53.74.14.44.54.71.81.91.92.12.22.32.63.03.23.41.81.92.02.12.32.42.73.11.92.02.12.22.02.02.12.32.12.22.32.52.12.22.32.52.22.32.42.72.32.52.62.82.42.62.73.02.52.72.83.1
140175220320465590910
1,4901,8802,2902,9403,5304,8605,9207,0808,020
160210255385560720
1,1301,8102,2902,800
185245305455675865
1,3502,160
215285360530250325410615305395500745335440560845415550705
1,080505680870
1,340600810
1,0501,610
715965
1,2501,930
500500500400400400300300300200200200300200200200500500500400400400300300300200500500500400400400300300500500500400500500500400500500500400500500500400500500500400500500500400500500500400500500500400
70708090
110120140170190210240260300330350370708080
100120130150190210230809090
1101201401702108090
10011090
100110120100110120140110120120150120130140160130140150180140150170200150170180210
30/0.1850/0.1837/0.2645/0.3270/0.3250/0.4588/0.45
7/20/0.457/27/0.457/34/0.45
19/16/0.4519/20/0.4519/27/0.4519/34/0.4519/42/0.4527/34/0.45
30/0.1850/0.1837/0.2645/0.3270/0.3250/0.4588/0.45
7/20/0.457/27/0.457/34/0.45
30/0.1850/0.1837/0.2645/0.3270/0.3250/0.4588/0.45
7/20/0.4530/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.3230/0.1850/0.1837/0.2645/0.32
1.11.51.82.53.13.74.97.08.19.1
10.411.613.515.216.818.7
1.11.51.82.53.13.74.97.08.19.11.11.51.82.53.13.74.97.01.11.51.82.51.11.51.82.51.11.51.82.51.11.51.82.51.11.51.82.51.11.51.82.51.11.51.82.51.11.51.82.5
10.511.512.514.017.018.52228313439425054586111.012.513.015.518.5212531353812.013.514.517.02022273413.014.515.518.014.015.517.019.516.518.019.52317.018.5202418.5212226212325292225273224272934
26.616.010.2
5.543.562.521.430.9190.6810.5410.4230.3390.2500.1990.1610.140
26.616.010.2
5.543.562.521.430.9190.6810.541
26.616.010.2
5.543.562.521.430.919
26.616.010.2
5.5426.616.010.2
5.5426.616.010.2
5.5426.616.010.2
5.5426.616.010.2
5.5426.616.010.2
5.5426.616.010.2
5.5426.616.010.2
5.54
0.751.2523.55.58
14223038506080
100125150
0.751.2523.55.58
142230380.751.2523.55.58
14220.751.2523.50.751.2523.50.751.2523.50.751.2523.50.751.2523.50.751.2523.50.751.2523.50.751.2523.5
0.80.80.80.81.01.01.01.21.21.21.51.52.02.02.02.00.80.80.80.81.01.01.01.21.21.20.80.80.80.81.01.01.01.20.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.80.8
Size(mm2)
OuterDiameter
(mm)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
10
Festoon System Flexible Cable
600V 3PNCT/600V CUR-3PNCTClass 3 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V CUR-3PNCT
Cross-section
600V 3PNCT
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationStandard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V / 1 minute: High flexibility and impact resistance: Festoon System and Lift System * Please use CAR-3PNCT for cable chain system (10 cores or more) and carrier drum system.: Color coding / tracer method (ref. Page 39 of the Technical Data): SP97-31-9006Rev.1
Conductor
Separator
EP rubber insulation
Chloroprene sheath
Reinforcement (sailcloth)*
3-core
12-core
ConductorSeparatorEP rubber insulationFillerBinderReinforcement (sailcloth)*Chloroprene sheath
12-core
ConductorSeparatorEP rubber insulationFillerBinderReinforcement (embedded yarn braid)*Chloroprene sheath
Conductor
Separator
EP rubber insulation
Reinforcement(embedded yarn braid)*
Chloroprene sheath
3-core
* Embedded yarn braid of reinforcement has higher flexibility than that of sailcloth.
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
11
600V 3PNCT, 600V CUR-3PNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Thickness ofReinforcement
(mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2)Outer
Diameter(mm)
1
2
3
4
5
10
12
16
20
24
30
3.7
4.9
7.0
8.1
9.1
10.4
11.6
13.5
15.2
16.8
18.7
1.8
2.5
3.1
3.7
4.9
7.0
8.1
9.1
10.4
11.6
13.5
15.2
1.8
2.5
3.1
3.7
4.9
7.0
8.1
9.1
10.4
11.6
13.5
15.2
1.8
2.5
3.1
3.7
4.9
7.0
8.1
9.1
10.4
11.6
1.8
2.5
3.1
1.8
2.5
1.8
2.5
1.8
2.5
1.8
2.5
1.8
2.5
1.8
2.5
2.6
2.7
2.9
3.0
3.0
3.2
3.3
3.4
3.5
3.6
3.7
2.8
2.9
2.9
3.0
3.2
3.6
3.7
3.9
4.2
4.3
4.6
4.8
2.8
2.9
3.0
3.1
3.3
3.7
3.9
4.0
4.3
4.5
4.8
5.0
2.9
3.0
3.1
3.2
3.4
3.9
4.1
4.2
4.6
4.8
3.0
3.1
3.2
3.4
3.6
3.4
3.7
3.6
3.8
3.8
4.0
3.9
4.2
4.1
4.4
12.5
14.0
17.0
18.0
19.0
22
23
25
27
31
33
15.0
17.0
18.0
19.5
24
30
32
34
40
42
46
50
16.0
17.5
19.0
21
25
31
34
36
42
45
49
53
17.0
19.0
21
23
27
34
37
40
46
49
18.5
21
23
27
30
28
32
30
34
34
38
36
41
39
44
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
1.0
1.0
0.5
0.5
0.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
0.5
0.5
0.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
0.5
0.5
0.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
0.5
0.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
215
295
445
540
630
815
955
1,210
1,440
1,810
2,020
260
340
410
500
735
1,180
1,420
1,690
2,230
2,590
3,280
3,920
295
390
490
605
900
1,440
1,770
2,090
2,760
3,250
4,130
4,960
350
465
590
730
1,100
1,790
2,210
2,630
3,480
4,110
420
565
720
790
1,080
870
1,230
1,080
1,520
1,330
1,850
1,560
2,200
1,850
2,620
400
400
300
300
300
300
300
300
200
200
200
500
500
500
400
400
300
300
300
300
300
300
200
500
500
500
400
400
300
300
300
300
300
300
200
500
500
500
400
400
300
300
300
300
300
500
500
500
500
500
500
500
500
500
500
500
500
500
500
500
80
90
110
110
120
140
140
150
170
190
200
90
110
110
120
150
180
200
210
240
260
280
300
100
110
120
130
150
190
210
220
260
270
300
320
110
120
130
140
170
210
230
240
280
300
120
130
140
170
180
170
200
180
210
210
230
220
250
240
270
8
14
22
30
38
50
60
80
100
125
150
2
3.5
5.5
8
14
22
30
38
50
60
80
100
2
3.5
5.5
8
14
22
30
38
50
60
80
100
2
3.5
5.5
8
14
22
30
38
50
60
2
3.5
5.5
2
3.5
2
3.5
2
3.5
2
3.5
2
3.5
2
3.5
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
19/42/0.45
27/34/0.45
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
37/0.26
45/0.32
70/0.32
37/0.26
45/0.32
37/0.26
45/0.32
37/0.26
45/0.32
37/0.26
45/0.32
37/0.26
45/0.32
37/0.26
45/0.32
2.45
1.39
0.892
0.661
0.525
0.411
0.329
0.243
0.193
0.156
0.136
10.2
5.54
3.56
2.52
1.43
0.919
0.681
0.541
0.423
0.339
0.250
0.199
10.2
5.54
3.56
2.52
1.43
0.919
0.681
0.541
0.423
0.339
0.250
0.199
10.2
5.54
3.56
2.52
1.43
0.919
0.681
0.541
0.423
0.339
10.2
5.54
3.56
10.2
5.54
10.2
5.54
10.2
5.54
10.2
5.54
10.2
5.54
10.2
5.54
1.2
1.2
1.6
1.6
1.6
2.1
2.1
2.1
2.1
2.7
2.7
1.2
1.2
1.2
1.2
1.2
1.6
1.6
1.6
2.1
2.1
2.1
2.1
1.2
1.2
1.2
1.2
1.2
1.6
1.6
1.6
2.1
2.1
2.1
2.1
1.2
1.2
1.2
1.2
1.2
1.6
1.6
1.6
2.1
2.1
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
* There is no difference in the specified values of the above table between 3PNCT and CUR-3PNCT.
For twisted pair cable
12
Festoon System Flexible Cable
600V 2PNCT-SB (600V CUR-2PNCT-SB)Class 2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Overall Shielded Type)
Cross-section
600V 2PNCT-SB (600V CUR-2PNCT-SB)
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplication
Core identification
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: High flexibility: Festoon System and Lift System * Please use CAR-2PNCT-SX for cable chain system (10 cores or more) and carrier drum system.
: 1. Concentric lay cable Color coding / tracer method (ref. Page 39 of the Technical Data) 2. Twisted pair cable Core identification (black x white) Pair identification (numbering of the tape onto each pair)
Standard Specification No.
: SP97-31-9002Rev.3 (concentric lay cable) SP02-31-9001Rev.1 (twisted pair cable)
600V 2PNCT-SB, 600V CUR-2PNCT-SB (Concentric Lay Cable)No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Thickness ofShield Braid (mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
3
2
5
4
* 600V 2PNCT-SB and 600V CUR-2PNCT-SB have quite the same structure.
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.8
1.8
1.9
2.0
1.8
1.9
1.9
2.0
1.9
1.9
2.0
2.1
1.9
2.0
2.0
2.2
11.0
12.0
13.0
14.5
11.5
12.5
13.5
15.0
12.5
13.5
14.5
16.5
13.5
14.5
15.5
17.5
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
130
155
185
245
150
185
215
295
175
215
260
360
200
255
300
435
500
500
500
400
500
500
500
400
500
500
500
400
500
500
500
400
70
80
80
90
70
80
90
90
80
90
90
100
90
90
100
110
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
Structural Features - Effective against static induction, can be expected for concentric lay cable. - Effective against static and electromagnetic induction, can be expected for twisted pair cable.
ConductorSeparatorEP rubber insulationTapeFillerBinderShield braidTapeChloroprene sheath
6-pair
Twisted pair cable
Conductor
20-core
Concentric lay cable
SeparatorEP rubber insulationFillerBinderShield braidTapeChloroprene sheath
12
3
4
Black
White
5
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
13
600V 2PNCT-SB, 600V CUR-2PNCT-SB (Concentric Lay Cable)No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Thickness ofShield Braid (mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
6
10
12
16
20
24
30
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
2.0
2.1
2.1
2.3
2.2
2.3
2.3
2.5
2.2
2.3
2.4
2.6
2.3
2.4
2.5
2.7
2.4
2.5
2.7
2.9
2.5
2.7
2.8
3.1
2.6
2.8
2.9
3.2
14.5
15.5
16.5
19.0
17.5
19.0
21
24
18.0
19.5
21
25
19.5
22
24
27
22
24
26
30
24
27
28
33
25
28
30
35
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.45
0.3
0.3
0.3
0.45
0.3
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
235
295
355
510
355
450
550
835
385
495
620
945
475
640
800
1,190
595
770
975
1,450
695
920
1,150
1,740
815
1,080
1,360
2,070
500
500
500
400
500
500
500
400
500
500
500
400
500
500
500
400
500
500
500
400
500
500
500
400
500
500
500
400
90
100
100
120
110
120
130
150
110
120
130
150
120
140
150
170
140
150
160
180
150
170
170
200
150
170
180
210
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
26.6
16.0
10.2
5.54
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
2P(4)
3P(6)
4P(8)
5P(10)
6P(12)
7P(14)
8P(16)
No. ofPairs
(Cores)
InsulationThickness
(mm)
SheathThickness
(mm)
Thickness ofShield Braid (mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
2.3
2.4
2.6
2.4
2.5
2.7
2.5
2.6
2.8
2.6
2.7
3.0
2.7
2.9
3.1
2.9
3.0
3.3
3.0
3.2
3.5
19.5
21
25
21
23
26
23
25
29
25
27
32
27
30
34
30
32
37
32
35
41
0.3
0.3
0.45
0.3
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.65
370
440
625
435
550
760
545
660
920
650
790
1,120
760
940
1,320
890
1,080
1,540
1,010
1,250
1,800
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
120
130
150
130
140
160
140
150
180
150
170
200
170
180
210
180
200
230
200
210
250
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
600V 2PNCT-SB, 600V CUR-2PNCT-SB (Twisted Pair Cable)
14
Festoon System Flexible Cable
600V 3PNCT-SB/600V CUR-3PNCT-SBClass 3 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Overall Shielded Type)
Cross-section
600V CUR-3PNCT-SB
Cross-section
600V 3PNCT-SB
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationStandard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: High flexibility and impact resistance: Festoon System and Lift System * Please use CAR-3PNCT-SX (special shielded type) for cable chain system (10 cores or more) and carrier drum system.
: Color coding / tracer method (ref. Page 39 of the Technical Data): SP11-31-9009
600V 3PNCT-SB, 600V CUR-3PNCT-SBNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Thickness ofShield Braid (mm)
Thickness ofReinforcement
(mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
Min. PermissibleBending Radius
(mm)
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8
0.5
0.5
0.5
0.5
0.5
1.0
1.0
1.0
2.9
2.9
3.0
3.1
3.2
3.5
3.8
4.1
0.3
0.3
0.3
0.3
0.3
0.45
0.45
0.45
17.5
18.0
19.5
21
22
28
35
40
10.2
10.2
10.2
10.2
10.2
10.2
10.2
10.2
500
500
500
500
500
500
500
500
110
110
120
130
140
170
210
240
2
2
2
2
2
2
2
2
2
3
4
5
6
10
20
30
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
315
360
420
490
565
900
1,440
1,970
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
* Embedded yarn braid of reinforcement has higher flexibility than that of sailcloth.
* There is no difference in the specified values of above table between 600V 3PNCT-SB and 600V CUR-3PNCT-SB.
Conductor
Separator
EP rubber insulation
Filler
Binder
Shield braid
BinderReinforcement(embedded yarn braid)*Chloroprene sheath
Conductor
Separator
EP rubber insulation
Filler
Binder
Shield braid
BinderReinforcement(sailcloth)*Chloroprene sheath
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
12
3
4
Black
White
5
ConductorSeparatorEP rubber insulationTapeShield braid
TapeFillerBinder
Chloroprene sheath
6-pair
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
For twisted pair cable
15
Festoon System Flexible Cable
600V 2PNCT-PSB (600V CUR-2PNCT-PSB)Class 2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Pair Shielded Type)
Cross-section
600V 2PNCT-PSB (600V CUR-2PNCT-PSB)
Standards
Rated VoltageRated TemperatureTest VoltageFeature
ApplicationCore identification
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V / 1 minute: High flexibility Effective against static and electromagnetic induction can be expected because of pair shielded structure.
: Festoon System and Lift System: Core identification (black x white) Pair identification (numbering of the tape onto each pair)
Standard Specification No.
: SP98-31-1055Rev.1
600V 2PNCT-PSB, 600V CUR-2PNCT-PSBNo. of Pairs
(Cores)
InsulationThickness
(mm)
SheathThickness
(mm)
Thickness ofShield Braid (mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
2P(4)
3P(6)
4P(8)
5P(10)
6P(12)
7P(14)
8P(16)
9P(18)
10P(20)
12P(24)
* 600V 2PNCT-PSB and 600V CUR-2PNCT-PSB have quite the same structure.
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
1.5
1.8
2.5
2.3
2.4
2.6
2.4
2.5
2.7
2.5
2.6
2.8
2.7
2.8
3.0
2.8
2.9
3.2
3.0
3.1
3.4
3.1
3.3
3.6
3.3
3.4
3.8
3.3
3.5
3.8
3.4
3.5
3.9
20
22
25
22
23
27
24
26
29
26
28
32
29
31
36
31
34
39
34
36
42
37
39
45
37
40
46
38
41
48
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
380
450
615
465
555
765
575
685
950
705
840
1,170
835
1,000
1,420
985
1,180
1,660
1,140
1,370
1,920
1,310
1,560
2,200
1,400
1,670
2,380
1,570
1,870
2,680
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
500
500
400
120
140
150
140
140
170
150
160
180
160
170
200
180
190
220
190
210
240
210
220
260
230
240
270
230
240
280
230
250
290
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
1.25
2
3.5
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
50/0.18
37/0.26
45/0.32
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
16.0
10.2
5.54
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
* Please contact us when insulation between pair shields is necessary.
16
Festoon System Flexible Cable
600V SK-2PNCTClass 2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Flat Type)
Cross-section
600V SK-2PNCT
StandardsRated VoltageRated TemperatureTest VoltageFeature
ApplicationCore identification
Standard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: High flexibility Storage space can be saved since the permissible bending radius is smaller than that of round cables if they have same number of cores. Low possibility of side movement and twisting during crane operation because of the flat configuration.: Festoon System and Lift System: 1. Unit : by the color of tapes on the unit 2. Core : color coding / tracer method (ref. Page 39 of the Technical Data): SP03-31-1065Rev.1
* Please contact us in case of using counter weight to the cable.
600V SK-2PNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)
3
24
32
40
48
56
64
72
80
7.0
9.1
11.6
15.2
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
15.5X35
18.0X42
22 X52
28 X66
18.0X42
19.0X55
19.5X68
18.0X84
18.0X102
19.0X109
18.0X126
19.5X135
0.892
0.525
0.329
0.193
16.0
16.0
16.0
16.0
16.0
16.0
16.0
16.0
22
38
60
100
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
7/20/0.45
7/34/0.45
19/20/0.45
19/34/0.45
50/0.18
50/0.18
50/0.18
50/0.18
50/0.18
50/0.18
50/0.18
50/0.18
2.6
2.9
3.3
3.9
2.9
3.3
3.7
2.9
2.9
3.3
2.9
3.7
300
200
200
200
500
500
500
500
500
500
500
500
100
110
140
170
110
120
120
110
110
120
110
120
1,160
1,750
2,700
4,460
1,230
1,540
1,980
2,260
2,730
3,080
3,390
3,950
1.2
1.2
1.5
2.0
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
Size(mm2)
OuterDiameter
(mm)
Core arrangement
(24-core) (32-core)
(48-core) (40-core)
(56-core) (64-core)
(80-core) (72-core)
Chloroprene sheath
ConductorSeparatorEP rubber insulationFillerTape
ConductorSeparatorEP rubber insulation
Tape
Power core Control core
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
ConductorSeparatorEP rubber insulationRubber fillerChloroprene sheathReinforcement
ConductorSeparatorEP rubber insulationRubber fillerChloroprene sheath
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receiving end (moving)
Wire ropeCarrier drum
Power supplyend (fixed)
17
Carrier Drum System Flexible Cable
600V CAR-2PNCT/600V CAR-3PNCTEP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V CAR-2PNCT
Cross-section
600V CAR-3PNCT
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplication
Core identification
Standard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V / 1 minute: Lateral pressure resistance: Traversing carrier roller system of overhead cranes and cable chain systems.
: Color coding / tracer method (ref. Page 39 of the Technical Data)
: SP99-31-1048 SP08-31-9001
600V CAR-2PNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)
4
6
3
101216202430
3.7
4.9
7.0
8.1
9.1
11.6
9.1
2.5
3.7
4.9
7.0
2.5
2.5
2.5
2.5
2.5
2.5
17.0
20
26
28
31
38
34
17.0
22
27
34
23
24
26
29
32
36
2.1
2.3
2.7
2.8
3.0
3.4
3.2
2.1
2.4
2.7
3.1
2.5
2.5
2.7
2.8
3.0
3.2
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/20/0.45
7/34/0.45
45/0.32
50/0.45
88/0.45
7/20/0.45
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
475
730
1,180
1,470
1,790
2,790
2,280
465
890
1,390
2,220
790
815
1,080
1,330
1,630
2,080
2.52
1.43
0.919
0.681
0.541
0.339
0.541
5.54
2.52
1.43
0.919
5.54
5.54
5.54
5.54
5.54
5.54
400
300
300
300
200
200
200
400
400
300
300
400
400
400
400
400
400
110
120
160
170
190
230
210
110
140
170
210
140
150
160
180
200
220
8
14
22
30
38
60
38
3.5
8
14
22
3.5
3.5
3.5
3.5
3.5
3.5
1.0
1.0
1.2
1.2
1.2
1.5
1.2
0.8
1.0
1.0
1.2
0.8
0.8
0.8
0.8
0.8
0.8
Size(mm2)
OuterDiameter
(mm)
600V CAR-3PNCTNo. ofCores
InsulationThickness
(mm)
Thickness ofReinforcement
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
46
3
162024
1012
30
3.7
4.9
7.0
8.1
9.1
11.6
9.1
2.5
3.7
2.5
2.5
2.5
2.5
2.5
2.5
3.1
3.3
3.7
3.9
4.0
4.5
4.2
3.2
3.4
3.6
3.6
3.8
4.0
4.2
4.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
0.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/20/0.45
7/34/0.45
45/0.32
50/0.45
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
21
25
31
34
36
45
40
23
27
30
31
34
37
41
46
620
920
1,470
1,810
2,150
3,330
2,680
690
1,100
1,210
1,220
1,560
1,940
2,340
3,000
2.52
1.43
0.919
0.681
0.541
0.339
0.541
5.54
2.52
5.54
5.54
5.54
5.54
5.54
5.54
400
400
300
300
300
300
300
500
400
500
500
500
500
500
500
Min. PermissibleBending Radius
(mm)130
150
190
210
220
270
240
140
170
180
190
210
230
250
280
8
14
22
30
38
60
38
3.5
8
3.5
3.5
3.5
3.5
3.5
3.5
1.2
1.2
1.6
1.6
1.6
2.1
1.6
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
Size(mm2)
OuterDiameter
(mm)
Structural Features- Restrained movement of cores and reduced cable corkscrewing by making rubber sheath solidal structure.
- Robust type of chloroprene is used as sheath for 2PNCT cables.
18
Carrier Drum System Flexible Cable
600V CAR-2PNCT-SXClass 2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Overall Shielded Type)
Cross-section
600V CAR-2PNCT-SX
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
Standard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: Lateral pressure resistance: Traversing carrier roller system of overhead cranes and cable chain system.: Please refer to the figures below. By counting the position from tracer core (red core-main tracer, green core-subtracer) in each layer. Black core is the drain wire (to be grounded at one end).: SP07-31-9001
600V CAR-2PNCT-SXNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
10
12
16
20
24
30
2.5
2.5
2.5
2.5
2.5
2.5
27
27
30
31
36
39
1,060
1,270
1,460
1,570
2,260
2,650
2.7
2.7
2.9
3.0
3.2
3.4
5.54
5.54
5.54
5.54
5.54
5.54
170
170
180
200
220
240
3.5
3.5
3.5
3.5
3.5
3.5
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
400
400
400
400
400
400
0.8
0.8
0.8
0.8
0.8
0.8
Structural Features - Restrained movement of cores and reduced cable corkscrewing because of rubber sheath solidal structure.
- Conductive rubber is used as shielding layer, and the drain wire (black core) is laid up at the outermost layer.
- Better lateral pressure resistance compared with that of braided shield type.
30-core
Black Red
Red
Green
Green
White
White
White
WhiteWhite
White
White
White
White
WhiteWhite
WhiteWhiteWhite
White
WhiteWhite White White
White
White
WhiteWhiteWhite
White
White
10-core
BlackWhite
White
White
WhiteWhite White
White
White
Green
Red
12-core
BlackRed
WhiteWhite
WhiteWhite
RedGreen
WhiteGreen
WhiteWhite
White
16-core
BlackRed
RedGreen
Green
White
WhiteWhite
White
White White
White
White
White
White
White
White
20-core
Black Red
Red
Green
Green
WhiteWhite
WhiteWhite
White
White
White White
White
White
White
WhiteWhiteWhite
White
White
24-core
Black Red
RedGreen
Green
White
White WhiteWhite
White
White
WhiteWhite
White
White
White
White
White
WhiteWhiteWhite
White
White
White
White
Drain wire
Conductive rubber
Conductor
Separator
EP rubber insulation
Rubber fillerConductive rubbershielded layerBinder
Chloroprene sheath
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receivingend (moving)
Wire ropeCarrier drum
Power supplyend (fixed)
Conductor
Separator
EP rubber insulation
Tape
Filler
Binder
Chloroprene sheath
Power supplyend (fixed)
Power receivingend (moving)
Cable
19
Torsion System Flexible Cable
600V TOR-2PNCTClass 2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V TOR-2PNCT
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationStandard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: High torsion resistance: Suitable to the revolving parts of rotary cranes. For small torsion angle, 600V CUR-2PNCT can also be used.
: Color coding / tracer method (ref. Page. 39 of the Technical Data): SP11-31-9010
600V TOR-2PNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
30242016121064
3
3.7
4.9
7.0
8.1
9.1
11.6
9.1
2.5
3.7
2.5
2.5
2.5
2.5
2.5
2.5
17.0
20
26
28
31
38
34
17.0
22
24
24
27
30
33
35
475
725
1,170
1,460
1,780
2,780
2,280
460
875
770
875
1,110
1,380
1,660
1,990
2.1
2.3
2.7
2.8
3.0
3.4
3.2
2.1
2.4
2.5
2.6
2.7
2.9
3.1
3.2
2.52
1.43
0.919
0.681
0.541
0.339
0.541
5.54
2.52
5.54
5.54
5.54
5.54
5.54
5.54
110
120
160
170
190
230
210
110
140
150
150
170
180
200
210
8
14
22
30
38
60
38
3.5
8
3.5
3.5
3.5
3.5
3.5
3.5
50/0.45
88/0.45
7/20/0.45
7/27/0.45
7/34/0.45
19/20/0.45
7/34/0.45
45/0.32
50/0.45
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
45/0.32
400
300
300
300
200
200
200
400
400
400
400
400
400
400
400
1.0
1.0
1.2
1.2
1.2
1.5
1.2
0.8
1.0
0.8
0.8
0.8
0.8
0.8
0.8
Structural Features- Improved slipping performance between cores by individually taping on each core.
20
Reel System Flexible Cable
600V RE-2PNCT/600V RE-3PNCTEP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V RE-2PNCT
Cross-section
600V RE-3PNCT
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationPermissible Tension
Permissible Lateral PressureStandard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V / 1 minute: High resistance to lateral pressure and bending: Suitable for the reel systems (manually wound) for crane travel, etc.
: Color coding / tracer method (ref. Page 39 of the Technical Data): Conductor (3/0.32 steel wire included): 161 x [No. of cores] (N) or less. Conductor (no steel wire included): 39 x [total cross-section of conductor (mm2)] (N) or less. (However, setting this to 1/3 of the normal tension is recommended for safety when repeatedly winding.)
: Class 2: 2.9kN/m or less., Class 3: 4.9kN/m or less.
: SP97-31-9003
600V RE-3PNCTNo. ofCores
InsulationThickness
(mm)
Thickness ofReinforcement
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
46
3
1620
1012
2430
3.8
4.9
7.0
8.1
9.1
11.6
9.1
2.6
3.8
2.6
2.6
2.6
2.6
2.6
2.6
3.1
3.3
3.7
3.9
4.0
4.5
4.2
3.2
3.5
3.7
3.7
3.9
4.1
4.4
4.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
0.5
0.5
1.0
1.0
1.0
1.0
1.0
1.0
3/0.32TST+50/0.45TA
88/0.45TA
7/20/0.45TA
7/27/0.45TA
7/34/0.45TA
19/20/0.45TA
7/34/0.45TA
3/0.32TST+45/0.32TA
3/0.32TST+50/0.45TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
22
26
32
35
37
45
40
24
28
32
33
36
40
44
46
665
940
1,490
1,830
2,170
3,360
2,720
730
1,180
1,190
1,320
1,650
2,000
2,400
2,830
2.52
1.43
0.919
0.681
0.541
0.339
0.541
5.54
2.52
5.54
5.54
5.54
5.54
5.54
5.54
400
400
300
300
300
300
300
500
400
500
500
500
500
500
500
Min. PermissibleBending Radius
(mm)220
260
330
350
380
460
410
240
280
320
330
360
400
440
460
8
14
22
30
38
60
38
3.5
8
3.5
3.5
3.5
3.5
3.5
3.5
1.2
1.2
1.6
1.6
1.6
2.1
1.6
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
Size(mm2)
OuterDiameter
(mm)
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
46
3
1620
1012
2430
3.8
4.9
7.0
8.1
9.1
11.6
9.1
2.6
3.8
2.6
2.6
2.6
2.6
2.6
2.6
2.2
2.3
2.7
2.8
3.0
3.4
3.1
2.2
2.5
2.6
2.6
2.8
3.0
3.1
3.3
3/0.32TST+50/0.45TA
88/0.45TA
7/20/0.45TA
7/27/0.45TA
7/34/0.45TA
19/20/0.45TA
7/34/0.45TA
3/0.32TST+45/0.32TA
3/0.32TST+50/0.45TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
18
21
26
29
31
39
34
18
24
24
25
28
31
34
37
515
650
1,030
1,300
1,580
2,440
2,070
505
950
820
925
1,200
1,480
1,760
2,130
2.52
1.43
0.919
0.681
0.541
0.339
0.541
5.54
2.52
5.54
5.54
5.54
5.54
5.54
5.54
400
300
300
300
200
200
200
400
400
400
400
400
400
400
400
Min. PermissibleBending Radius
(mm)180
210
260
290
310
390
340
180
240
240
250
280
310
340
370
8
14
22
30
38
60
38
3.5
8
3.5
3.5
3.5
3.5
3.5
3.5
1.0
1.0
1.2
1.2
1.2
1.5
1.2
0.8
1.0
0.8
0.8
0.8
0.8
0.8
0.8
Size(mm2)
OuterDiameter
(mm)
600V RE-2PNCT
Structural Features- As for conductors of 8 mm2 or less, steel wires are stranded together to increase the tension resistance.
- Robust type of chloroprene is used as sheath for 2PNCT cables.
TA: Tinned annealed copper TST: Tinned steel
TA: Tinned annealed copper TST: Tinned steel
Tape
Chloroprenesheath
Reinforcement
Conductor
SeparatorEP rubberinsulation
Tape
Chloroprenesheath
ConductorSeparatorEP rubberinsulation
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
Rubber filler
Chloroprene sheath
Reinforcement
ConductorSeparator
EP rubber insulation
21
Vertical Reel System Flexible Cable
600V RE (V) -2PNCT-RFEP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V RE (V) -2PNCT-RF
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
Permissible Tension
Permissible Lateral PressureStandard Specification No.
: Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V / 1 minute: High flexibility and lateral pressure resistance: Vertical reel system used in landfills, etc.: Color coding / tracer method (ref. Page 39 of the Technical Data)
: Conductor (3/0.32 steel wire included): 161 x [No. of cores] (N) or less. Conductor (no steel wire included): 39 x [total cross-section of conductor (mm2)] (N) or less. (However, setting this to 1/3 of the normal tension is recommended for safety when repeatedly winding.)
: 4.9kN/m or less.
: SP03-31-1020Rev.1
600V RE(V)-2PNCT-RFNo. ofCores
InsulationThickness
(mm)
Thickness ofReinforcement
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
10
7
13
3.5
5.5
3.5
5.5
3.5
5.5
2.6
3.2
2.6
3.2
2.6
3.2
0.8
1.0
0.8
1.0
0.8
1.0
0.5
0.5
1.0
1.0
1.0
1.0
3.1
3.4
3.4
3.7
3.7
4.0
22
26
27
32
32
38
5.54
3.56
5.54
3.56
5.54
3.56
400
400
400
400
400
400
220
260
270
320
320
380
670
990
1,010
1,480
1,370
2,020
3/0.32TST+45/0.32TA
3/0.32TST+70/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+70/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+70/0.32TA
Min. PermissibleBending Radius
(mm)Size
(mm2) Outer
Diameter(mm)
Structural Features- Robust type of chloroprene is used as the sheath to which the reinforcement is further applied to increase the lateral pressure resistance.
- Steel wires are twisted together in the conductors to increase the tension resistance.
Precautions for Use- If the cables are twisted at reeling, please apply grease onto the cable surface before operation.
* The sheath thickness of 600V RE(V)-2PNCT-RF corresponds to that of the Class 3 cables.
TA: Tinned annealed copper TST: Tinned steel
22
Reel System Flexible Cable
600V H-2PNCT/600V H-3PNCTEP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Flat Type)
Cross-section
600V H-2PNCT
Cross-section
600V H-3PNCT
Standards
Rated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
Permissible Tension
Permissible Lateral PressureStandard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment
: AC 600V: 80 degrees C: 3000V / 1 minute: High resistance to lateral pressure and bending: Reel system (Traveling): For power or control core unit3-core (black, white, and red)4-core (black, white, red, and green)Control coresColor coding / tracer method (ref. Page 39 of the Technical Data)
: Conductor (3/0.32 steel wire included): 161 x [No. of cores] (N) or less. Conductor (no steel wire included): 39 x [total cross-section of conductor (mm2)] (N) or less. (However, setting this to 1/3 of the normal tension is recommended for safety when repeatedly winding.)
: Class 2: 2.9kN/m or less., Class 3: 4.9kN/m or less.
: SP97-31-9004Rev.1
600V H-3PNCTNo. ofCores
InsulationThickness
(mm)
Thickness ofReinforecement
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
3
7.0
8.1
9.1
10.4
11.6
13.5
15.2
16.9
18.7
21.2
23.6
3.6
3.7
3.8
4.2
4.3
4.5
4.7
5.1
5.3
5.8
6.2
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
7/20/0.45
7/27/0.45
7/34/0.45
19/16/0.45
19/20/0.45
19/27/0.45
19/34/0.45
19/42/0.45
27/34/0.45
37/34/0.45
37/42/0.45
1,640
1,960
2,290
2,970
3,440
4,290
5,100
6,360
7,110
9,590
11,500
0.892
0.661
0.525
0.411
0.329
0.243
0.193
0.156
0.136
0.0993
0.0803
300
300
300
300
300
300
200
200
200
200
200
Min. PermissibleBending Radius
(mm)240
260
270
320
330
350
380
420
440
500
540
22
30
38
50
60
80
100
125
150
200
250
1.6
1.6
1.6
2.1
2.1
2.1
2.1
2.7
2.7
3.3
3.3
Size(mm2)
OuterDiameter
(mm)
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
3
9121518212430
7.0
8.1
9.1
10.4
11.6
13.5
15.2
16.9
18.7
21.2
23.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.7
2.8
3.1
3.2
3.6
3.8
4.0
4.2
4.7
5.1
2.7
2.9
3.0
3.2
3.4
3.5
3.9
7/20/0.45TA
7/27/0.45TA
7/34/0.45TA
19/16/0.45TA
19/20/0.45TA
19/27/0.45TA
19/34/0.45TA
19/42/0.45TA
27/34/0.45TA
37/34/0.45TA
37/42/0.45TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
3/0.32TST+45/0.32TA
1,140
1,420
1,710
2,220
2,640
3,630
4,400
5,260
5,960
8,190
9,950
1,060
1,300
1,570
1,880
2,190
2,510
3,310
0.892
0.661
0.525
0.411
0.329
0.243
0.193
0.156
0.136
0.0993
0.0803
5.54
5.54
5.54
5.54
5.54
5.54
5.54
300
300
200
200
200
300
200
200
200
200
200
400
400
400
400
400
400
400
Min. PermissibleBending Radius
(mm)
180
200
210
240
260
300
330
350
380
440
470
200
210
230
260
270
290
340
22
30
38
50
60
80
100
125
150
200
250
3.5
3.5
3.5
3.5
3.5
3.5
3.5
1.2
1.2
1.2
1.5
1.5
2.0
2.0
2.0
2.0
2.5
2.5
0.8
0.8
0.8
0.8
0.8
0.8
0.8
Size(mm2)
OuterDiameter
(mm)
600V H-2PNCT
Structural Features- As for conductors of 8 mm2 or less, steel wires are stranded together to increase the tension resistance.
- Robust type of chloroprene is used as sheath.
20X49
21X52
22X55
26X63
27X66
29X72
31X77
35X86
36X90
41X104
45X113
15.0X34
16.0X38
17.5X41
20 X47
21 X51
25 X60
27 X65
29 X70
31 X74
36 X87
39 X96
16.5X38
17.5X41
19.0X45
21 X49
23 X53
24 X57
28 X66
* Above value of sheath thickness includes both inner and outer sheath layers.
TA: Tinned annealed copper TST: Tinned steel
ConductorEP rubberinsulationTapeChloroprenesheath
H-2PNCT (for power)
ConductorEP rubberinsulationRubber fillerTapeChloroprenesheath
H-2PNCT (for control)
ConductorEP rubberinsulation
TapeInnerchloroprenesheath
Outer chloroprenesheath
Reinforcement
H-3PNCT
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
Conductor
EP rubber insulation
Reinforcement
Outer semiconductivelayerShield braid
Chloroprene sheath
Inner semiconductivelayer
23
Reel System Flexible Cable
3300V H-3PNCT / 6600V H-3PNCTHigh-voltage EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Flat Type)
Cross-section
3300V H-3PNCT / 6600V H-3PNCT
StandardsRated VoltageRated TemperatureTest Voltage
FeatureApplicationCore identification
Permissible Tension
Permissible Lateral PressureStandard Specification No.
: Japan’s Technical Standards for Electrical Equipment: AC 3300V, AC 6600V: 80 degrees C: 3300V rated: 9000V / 10 minutes 6600V rated: 17000V / 10 minutes: High resistance to lateral pressure and bending: Reel system (Traveling) : 3-core (blue, white, and red) 4-core (white, red, blue, and green): Conductor (3/0.32 steel wire included): 161 x [No. of cores] (N) or less. Conductor (no steel wire included): 39 x [total cross-section of conductor (mm2)] (N) or less. (However, setting this to 1/3 of the normal tension is recommended for safety when repeatedly winding.)
: 4.9kN/m or less.
: SP97-31-9005Rev.2
6600V H-3PNCTNo. ofCores
InsulationThickness
(mm)
Thickness ofShield Braid
(mm)
Thickness ofReinforcement
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
4
3
22
38
60
100
22
38
60
100
7.0
9.1
11.6
15.2
7.0
9.1
11.6
15.2
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
5.4
5.7
6.0
6.4
6.1
6.4
6.8
7.4
3,350
4,200
5,330
7,260
4,540
5,680
7,240
9,910
0.892
0.525
0.329
0.193
0.892
0.525
0.329
0.193
500
500
500
500
500
500
500
500
500
550
600
660
530
560
630
690
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.45
7/20/0.45
7/34/0.45
19/20/0.45
19/34/0.45
7/20/0.45
7/34/0.45
19/20/0.45
19/34/0.45
Min. PermissibleBending Radius
(mm)Size
(mm2) Outer
Diameter(mm)
Structural Features- Robust type of chloroprene is used as sheath.
31X72
34X78
37X86
41X97
33X93
35X102
39X112
43X127
3300V H-3PNCTNo. ofCores
InsulationThickness
(mm)
Thickness ofShield Braid
(mm)
Thickness ofReinforcement
(mm)
SheathThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
4
3
22
38
60
100
22
38
60
100
7.0
9.1
11.6
15.2
7.0
9.1
11.6
15.2
3.0
3.0
3.5
3.5
3.0
3.0
3.5
3.5
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
4.8
5.1
5.6
6.0
5.3
5.7
6.3
6.9
2,340
3,190
4,500
6,320
3,150
4,300
6,080
8,600
0.892
0.525
0.329
0.193
0.892
0.525
0.329
0.193
500
500
400
400
500
500
400
400
420
470
530
600
440
480
560
630
0.3
0.45
0.45
0.45
0.3
0.45
0.45
0.45
7/20/0.45
7/34/0.45
19/20/0.45
19/34/0.45
7/20/0.45
7/34/0.45
19/20/0.45
19/34/0.45
Min. PermissibleBending Radius
(mm)Size
(mm2) Outer
Diameter(mm)
26X58
29X65
33X76
37X87
27X75
30X85
35X99
39X114
Conductor
Conductor
EP rubber insulation
EP rubber insulation
Grounding conductor
Reinforcement
ReinforcementInner sheathOptical fiber cordTension member (center)
Outer semiconductive layerShield braid
Chloroprene sheath
Inner semiconductive layer
Optical fiber cord
Optical fiberSilicon buffer layerPFA coveringHigh tensile fiberETFE covering (outer diameter: approx. 2.8mm)
24
* The structures indicated above are typical examples. Please contact us for any other conductor sizes or combinations possible with optical fiber.
Optical Composite Reel System Flexible Cable
3300V FG-H-3PNCT/6600V FG-H-3PNCTOptical Composite High-voltage EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Flat Type)
Cross-section
3300V FG-H-3PNCT/6600V FG-H-3PNCT
StandardsRated VoltageRated TemperatureTest Voltage
FeatureApplicationStandard core identificationOptical Characteristic
Permissible Tension
Permissible Lateral Pressure
: Japan’s Technical Standards for Electrical Equipment: AC 3300V, AC 6600V: 80 degrees C: 3300V rated: 9000V / 10 minutes 6600V rated: 17000V / 10 minutes: High resistance to lateral pressure and bending: Reel system (Traveling): Metal cores: white, green, red (optical), and blue Optical cores: blue, yellow, green, red, purple, and white: (on completed cable)
: Conductor (3/0.32 steel wire included): 161 x [No. of cores] (N) or less. Conductor (no steel wire included): 39 x [total cross-section of conductor (mm2)] (N) or less.
(However, setting this to 1/3 of the normal tension is recommended for safety when repeatedly winding.)
: 4.9kN/m or less.
6600V FG-H-3PNCTNo. ofCores
Thickness ofReinforcement
(mm)
InsulationThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. InsulationResistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
3x38 + 1x22+ 6 optical fiber cores
3x50 + 1x30+ 6 optical fiber cores
3x60 + 1x30+ 6 optical fiber cores
9.1
7.0
10.4
8.1
11.6
8.1
1.0
1.0
1.0
SheathThickness
(mm)
6.3
6.5
6.7
35x103
37x109
38x112
5.0
1.6
5.0
1.6
5.0
1.6
5,660
6,430
7,100
500
300
500
300
500
300
560
600
610
38
22
50
30
60
30
7/34/0.45
7/20/0.45
19/16/0.45
7/27/0.45
19/20/0.45
7/27/0.45
0.525
0.892
0.411
0.611
0.329
0.611
3300V FG-H-3PNCTNo. ofCores
Thickness ofReinforcement
(mm)
InsulationThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. InsulationResistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
3x38 + 1x22+ 6 optical fiber cores
3x50 + 1x30+ 6 optical fiber cores
3x60 + 1x30+ 6 optical fiber cores
9.1
7.0
10.4
8.1
11.6
8.1
1.0
1.0
1.0
SheathThickness
(mm)
5.8
6.1
6.3
30x90
33x99
35x102
3.0
1.6
3.5
1.6
3.5
1.6
4,530
5,510
6,140
500
300
500
300
500
300
480
530
560
38
22
50
30
60
30
7/34/0.45
7/20/0.45
19/16/0.45
7/27/0.45
19/20/0.45
7/27/0.45
0.525
0.892
0.411
0.611
0.329
0.611
Optical FiberTransmission
Bandwidth at 0.85μm (MHz-km)
TransmissionLoss at 0.85μm
(dB/km)
4.0 or less
4.0 or less
Gl 50 / 125
Gl 62.5 / 125
200 or over
160 or over
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
Optical fiber cord
Optical fiber
Conductor(grounding conductor)
SeparatorEP rubber insulation
ConductorInner semiconductive layerEP rubber insulation
Tension member
Optical fiber cord
Inner sheath
Tape
Outer semiconductive layerShield braidTapeReinforcementChloroprene sheath
Silicon buffer layerPFA coveringHigh tensile fiberETFE covering (outer diameter: approx. 2.0mm)
Optical FiberTransmission
Bandwidth at 0.85μm (MHz-km)
TransmissionLoss at 0.85μm
(dB/km)
4.0 or less
4.0 or less
Gl 50 / 125
Gl 62.5 / 125
200 or over
160 or over
Power supplyend (fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
25
* The structures indicated above are typical examples. Please contact us for any other conductor sizes or combinations possible with optical fiber.
Optical Composite Reel System Flexible Cable
6600V FG-RE-3PNCTOptical Composite High-voltage EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable (Round Type)
Cross-section
6600V FG-RE-3PNCT
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplicationStandard core identificationOptical Characteristic
Permissible Tension
Permissible Lateral Pressure
: Japan’s Technical Standards for Electrical Equipment: AC 6600V: 80 degrees C: 17000V / 10 minutes: High resistance to lateral pressure and bending: Reel system (Traveling): Metal cores: blue, white, and red (grounding conductor: green) Optical cores: blue, yellow, green, red, purple, and white: (on completed cable)
: Conductor (3/0.32 steel wire included): 161 x [No. of cores] (N) or less. Conductor (no steel wire included): 39 x [total cross-section of conductor (mm2)] (N) or less.
(However, setting this to 1/3 of the normal tension is recommended for safety when repeatedly winding.)
: 4.9kN/m or less.
6600V FG-RE-3PNCTNo. ofCores
Thickness ofReinforcement
(mm)
InsulationThickness
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. InsulationResistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius
(mm)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
3x38 + 1x22+ 6 optical fiber cores
3x50 + 1x30+ 6 optical fiber cores
3x60 + 1x30+ 6 optical fiber cores
SheathThickness
(mm)
9.1
7.0
10.4
8.1
11.6
8.1
1.0
1.0
1.0
5.7
5.9
6.0
59
62
64
5.0
1.6
5.0
1.6
5.0
1.6
4,390
5,070
5,640
500
300
500
300
500
300
890
930
960
38
22
50
30
60
30
7/34/0.45
7/20/0.45
19/16/0.45
7/27/0.45
19/20/0.45
7/27/0.45
0.525
0.892
0.411
0.611
0.329
0.611
BlackBlack
Black
Black Green
Red
White
26
Gravity Collector Basket System Spreader Cable
600V SPD-FHNCTSpreader Cable (for quayside cranes)
Cross-section
600V SPD-FHNCT
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
: Hitachi Metals Original Design: AC 600V : 80 degrees C: 3000V / 1 minute: Stable collecting performance into the basket, and high lateral pressure resistance.: Suitable for gravity collector basket system of the container crane at harbors (for Quayside cranes).: Please refer to the figure below.
600V SPD-FHNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx. OverallDiameter
(mm)Approx. Mass
(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. InsulationResistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
30
36
42
2.5
2.5
2.5
6.0
7.0
7.0
42
46
50
2,710
3,090
3,820
400
400
400
3.5
3.5
3.5
45/0.32
45/0.32
45/0.32
5.54
5.54
5.54
0.4
0.4
0.4
Installation Instructions - Use basket of 1.4m or more in diameter and the one not having a cone. - Cable must be laid into the basket in clockwise view from the top of the crane. - Apply grease on the cable surface before installation.
Black
BlackRed
Red White
White
Conductor
Chloroprene sheath
Tension member
Tape
Filler
ETFE insulation
Power supplyend (fixed)
Cable
Power receivingend (moving)
Standard Specification No.
: SP02-31-9002
Conductor
Binder
FillerTapeEP rubber insulation
Separator
Chloroprene sheath
Power supplyend (fixed)
Cable
Power receivingend (moving)
27
Gravity Collector Basket System Spreader Cable
600V SPD (Y)-2PNCTSpreader Cable (for yard cranes)
Cross-section
600V SPD (Y) -2PNCT
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
: Japan’s Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: Stable collecting performance into the basket, high bending resistance, and superior mechanical characteristics for torsion.: Suitable for the gravity collector basket system of yard crane (RTG, etc.) at harbors.: Please refer to the figures below.
Standard Specification No.
: SP11-31-9008
600V SPD (Y)-2PNCTNo. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx. OverallDiameter
(mm)Approx. Mass
(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min. InsulationResistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)Size
(mm2) Outer
Diameter(mm)
3/0.32TST
+
45/0.32TA
3/0.32TST
+
45/0.32TA
3/0.32TST
+
45/0.32TA
30
36
42
2.6
2.6
2.6
3.3
3.5
3.7
37
40
43
2,130
2,520
2,930
400
400
400
3.5
3.5
3.5
5.54
5.54
5.54
0.8
0.8
0.8
Precautions for Use - It is recommended to use a basket with large diameter as much as possible. - Cable must be laid into the basket in clockwise view from the top of the crane. - Hoisting stroke: 30m or less. Hoisting speed: 100m / minute or less.
TA: Tinned annealed copper TST: Tinned steel
30-core
17
7
3
18
84
1
5
1530
1429
1328
1227
2611
25 109
24 23 2221
20
19
16
6
2
36-core
42-core
25
11
3
26
12
4
27
2813
1415
29
30
3132
18
7
65
1617
333435
18
23
9
42
2241
2140
20
19
36
37
38
39
24
10
2
22
23
24
25
34
33
32
31
21
26
35
30
1016
9
11
17
153
12
27
1
7
19
14
29
36
18
6
5
20
8
2
13
28
4
28
Instrumentation Flexible Cable
K-PNCT/K-PNCT-SB (Overall Shielded Type)
EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
K-PNCT-SB
Cross-section
K-PNCT
StandardsRated VoltageRated TemperatureFeatureApplicationCore identificationStandard Specification No.
: Hitachi Metals Original Design: Low voltage circuit (60V or less) or low-current circuit.: 80 degrees C: High flexibility, weather resistance, and sealing performance.: For civil engineering measurements: Color coding / tracer method (ref. Page 39 of the Technical Data): SP11-31-9011 SP11-31-9012
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx.Overall Diameter
(mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
4
1.2
1.3
65
85
500
500
12/0.18
20/0.18
0.7
1.0
6.8
7.7
66.3
39.8
0.3
0.5
0.5
0.5
Size(mm2)
OuterDiameter
(mm)
K-PNCT
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx.Overall Diameter
(mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
4
1.1
1.2
75
95
500
500
12/0.18
20/0.18
0.7
1.0
7.6
8.5
66.3
39.8
0.3
0.5
0.5
0.5
Thickness ofShield Braid
(mm)
0.3
0.3
Size(mm2)
OuterDiameter
(mm)
K-PNCT-SB
Chloroprene sheath
ConductorSeparator
EP rubber insulation
ConductorSeparatorEP rubber insulationFillerTapeShield braidTapeChloroprene sheath
29
600V VCTPVC Flexible Cable
Cross-section
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
Standard Specification No.
: JIS C 3312, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 60 degrees C: 3000V / 1 minute: Light and easy-handling: Lead wires for various mobile electrical equipments.: 2-core (black and white) 3-core (black, white, and red) 4-core (black, white, red, and green): SP11-31-9001Rev.1
PVC Flexible Cable
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx.Overall Diameter
(mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
2
3
4
1.7
1.7
1.8
1.8
2.0
2.1
2.3
1.7
1.7
1.8
1.9
2.0
2.2
2.4
1.7
1.8
1.8
2.0
2.1
2.3
2.5
95
120
145
205
300
405
630
110
135
170
250
365
505
790
130
170
210
315
455
630
995
50
50
50
40
40
40
40
50
50
50
40
40
40
40
50
50
50
40
40
40
40
30/0.18
50/0.18
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
30/0.18
50/0.18
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
30/0.18
50/0.18
37/0.26
45/0.32
70/0.32
50/0.45
88/0.45
1.1
1.5
1.8
2.5
3.1
3.7
4.9
1.1
1.5
1.8
2.5
3.1
3.7
4.9
1.1
1.5
1.8
2.5
3.1
3.7
4.9
8.8
9.6
10.5
12.0
14.5
16.5
20
9.3
10.5
11.0
13.0
15.0
18.0
22
9.9
11.5
12.0
14.0
16.5
19.5
24
25.1
15.1
9.79
5.24
3.37
2.39
1.36
25.1
15.1
9.79
5.24
3.37
2.39
1.36
25.1
15.1
9.79
5.24
3.37
2.39
1.36
0.75
1.25
2
3.5
5.5
8
14
0.75
1.25
2
3.5
5.5
8
14
0.75
1.25
2
3.5
5.5
8
14
0.8
0.8
0.8
0.8
1.0
1.2
1.4
0.8
0.8
0.8
0.8
1.0
1.2
1.4
0.8
0.8
0.8
0.8
1.0
1.2
1.4
Size(mm2)
OuterDiameter
(mm)
600V VCT
* 600V O-VCT for oil resistance and 600V VCT-SB (shielded) are also available.
600V VCT
PVC sheath
Conductor
PVC insulation
30
Electric tool
Vibration Resistance Flexible Cable
600V T-2PNCTEP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable
Cross-section
600V T-2PNCT
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplicationCore identification
Standard Specification No.
: JIS C 3327, Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment: AC 600V: 80 degrees C: 3000V / 1 minute: High vibration resistance: Suitable for lead wires of electrical equipments such as electric tool.: 2-core (black and white) 3-core (black, white, and red) 4-core (black, white, red, and green): SP11-31-9013 (600V T-2PNCT)
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx.Overall Diameter
(mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
ConductorConstruction
(No./mm)
2
3
4
1.7
1.7
1.8
1.9
1.7
1.8
1.8
1.9
1.8
1.8
1.9
2.0
105
125
155
225
120
150
185
270
140
180
225
335
500
500
500
400
500
500
500
400
500
500
500
400
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
30/0.18
50/0.18
37/0.26
45/0.32
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
1.1
1.5
1.8
2.5
8.9
9.7
10.5
12.5
9.3
10.5
11.0
13.0
10.5
11.5
12.5
14.0
29.4
17.7
11.3
6.13
29.4
17.7
11.3
6.13
29.4
17.7
11.3
6.13
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.75
1.25
2
3.5
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
Size(mm2)
OuterDiameter
(mm)
600V T-2PNCT
Chloroprene sheath
ConductorSeparator
EP rubber insulation
Tape
ConductorSeparatorFluonlex insulation
Fluonlex sheath
Tape
ConductorSeparatorFluonlex insulation
Fluonlex sheathGlass tapeStainless braid
31
Fluonlex Flexible Cable (Heat Resistant to 200 degrees C)
600V FFCT/600V FFCTB (Glass Tape + Stainless Braided Type)
Fluonlex Flexible Cable (Heat Resistant to 200 degrees C)
Cross-section
600V FFCTB
Cross-section
600V FFCT
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationAmpacitiesStandard Specification No.
: Hitachi Metals Original Design: AC 600V: 200 degrees C: 3000V / 1 minute: High heat resistivity (200 degrees C), flexibility, chemical resistance, cold resistance, and flame resistance (grade VW-1).: For appliance inside wiring requiring high heat resistivity and flexibility. (This cable must be used as inside wiring because the cable is outside the category of Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment.)
: Color coding / tracer method (ref. Page 39 of the Technical Data): Please refer to the structure tables below (single cable installation in air, ambient temperature: 40 degrees C).: SP98-31-1008 (600V FFCT) SP98-31-1010Rev.1 (600V FFCTB)
Structural Features - Fluonlex is a fluoroplastic that has excellent flexibility, mechanical strength, and handling.
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx.Overall Diameter
(mm)Approx. Mass
(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Ampacities(A)
ConductorConstruction
(No./mm)
1
2 3
46102030
2.42.83.21.71.81.71.81.81.91.92.12.42.6
1,2302,2703,660
140205165245200300290480825
1,190
600500500
1,5001,5001,5001,5001,5001,5001,5001,5001,5001,500
560855
1,15037543246294225201613
19/37/0.4537/34/0.4537/55/0.45
37/0.2645/0.3237/0.2645/0.3237/0.2645/0.3237/0.2637/0.2637/0.2637/0.26
15.2 21.2 27.0 1.8 2.5 1.8 2.5 1.8 2.5 1.8 1.8 1.8 1.8
22 29 36 9.5 11.5 10.0 12.0 11.0 13.0 13.0 16.5 22 25
0.193 0.0993 0.0614 10.2 5.54 10.2 5.54 10.2 5.54 10.2 10.2 10.2 10.2
100 200 325 2 3.5 2 3.5 2 3.5 2 2 2 2
1.01.21.30.40.40.40.40.40.40.40.40.40.4
Size(mm2)
OuterDiameter
(mm)
600V FFCT
No. ofCores
InsulationThickness
(mm)
Thickness of Glass Tape
(mm)Approx. OverallDiameter (mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Ampacities(A)
ConductorConstruction
(No./mm)
1
2 3
46102030
2.42.83.21.71.81.71.81.81.91.92.12.42.6
Stainless Braid (mm)
1.61.61.61.61.61.61.61.61.61.61.61.61.6
SheathThickness
(mm)0.80.80.80.80.80.80.80.80.80.80.80.80.8
1,5602,7104,180
310395340445390515505760
1,1901,610
600500
1,5001,5001,5001,5001,5001,5001,5001,5001,5001,5001,500
50074098036523146284325201513
19/37/0.4537/34/0.4537/55/0.45
37/0.2645/0.3237/0.2645/0.3237/0.2645/0.3237/0.2637/0.2637/0.2637/0.26
15.2 21.2 27.0 1.8 2.5 1.8 2.5 1.8 2.5 1.8 1.8 1.8 1.8
27 34 40 14.5 16.0 15.0 16.5 16.0 18.0 18.0 22 27 31
0.193 0.0993 0.0614 10.2 5.54 10.2 5.54 10.2 5.54 10.2 10.2 10.2 10.2
100 200 325 2 3.5 2 3.5 2 3.5 2 2 2 2
1.01.21.30.40.40.40.40.40.40.40.40.40.4
Size(mm2)
OuterDiameter
(mm)
600V FFCTB
ConductorSeparator
Fluonlex sheath
Fluonlex insulationTape
Tape
TapeFiller
Shield braid
32
Fluonlex Flexible Cable (Heat Resistant to 200 degrees C)
600V FFCT-SB (Overall Shielded Type)/600V FFCTB-SB (Overall Shield + Glass Tape + Stainless Braided Type)
Fluonlex Flexible Cable (Heat Shielded to 200 degrees C)
Cross-section
600V FFCTB-SB
Cross-section
600V FFCT-SB
StandardsRated VoltageRated TemperatureTest VoltageFeatureApplication
Core identificationAmpacitiesStandard Specification No.
: Hitachi Metals Original: AC 600V: 200 degrees C: 3000V / 1 minute: High heat resistivity (200 degrees C), flexibility, chemical resistance, cold resistance, and flame resistance (grade VW-1).: For appliance inside wiring requiring high heat resistivity and flexibility. (This cable must be used as inside wiring because the cable is outside the category of Japan’s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment.)
: Color coding / tracer method (ref. Page 39 of the Technical Data): Please refer to the structure tables below (single cable installation in air, ambient temperature: 40 degrees C).: SP98-31-1009 (FFCT-SB) SP11-31-0039 (FFCTB-SB)
Structural Features - Fluonlex is a fluoroplastic that has excellent flexibility, mechanical strength, and handling.
ConductorSeparatorFluonlex insulationTapeFillerTapeShield braidTapeFluonlex sheathGlass tapeStainless braid
No. ofCores
InsulationThickness
(mm)
SheathThickness
(mm)
Approx.Overall Diameter
(mm)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Ampacities(A)
ConductorConstruction
(No./mm)
2
3
46102030
Thickness ofBraid Layer
(mm)Approx. Mass
(kg/km)
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
11.0
12.5
11.5
13.0
12.0
14.0
14.0
17.5
23
27
175
245
205
290
240
355
340
540
935
1,310
1,500
1,500
1,500
1,500
1,500
1,500
1,500
1,500
1,500
1,500
37
54
32
46
29
42
25
20
16
13
37/0.26
45/0.32
37/0.26
45/0.32
37/0.26
45/0.32
37/0.26
37/0.26
37/0.26
37/0.26
1.8
2.5
1.8
2.5
1.8
2.5
1.8
1.8
1.8
1.8
1.8
1.9
1.8
1.9
1.8
2.0
2.0
2.2
2.5
2.7
10.2
5.54
10.2
5.54
10.2
5.54
10.2
10.2
10.2
10.2
2
3.5
2
3.5
2
3.5
2
2
2
2
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
Size(mm2)
OuterDiameter
(mm)
600V FFCT-SB
No. ofCores
InsulationThickness
(mm)
Thickness ofBraid Layer
(mm)
Approx.Overall Diameter
(mm)
Approx. Mass(kg/km)
Max. ConductorResistance
(20 degrees C) (Ω/km)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Ampacities(A)
ConductorConstruction
(No./mm)
2346102030
SheathThickness
(mm)
Stainless Braid(mm)
Thickness of Glass Tape
(mm)0.3
0.3
0.3
0.3
0.3
0.3
0.3
1.8
1.8
1.8
2.0
2.2
2.5
2.7
0.8
0.8
0.8
0.8
0.8
0.8
0.8
1.6
1.6
1.6
1.6
1.6
1.6
1.6
360
390
440
570
815
1,280
1,700
1,500
1,500
1,500
1,500
1,500
1,500
1,500
36
31
28
25
20
15
13
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
37/0.26
1.8
1.8
1.8
1.8
1.8
1.8
1.8
15.5
16.0
17.0
19.0
23
28
31
10.2
10.2
10.2
10.2
10.2
10.2
10.2
2
2
2
2
2
2
2
0.4
0.4
0.4
0.4
0.4
0.4
0.4
Size(mm2)
OuterDiameter
(mm)
600V FFCTB-SB
Optical FiberTransmission
Bandwidth at 0.85μm (MHz-km)
TransmissionLoss at 0.85μm
(dB/km)
3.0 or less
3.5 or less
Gl 50 / 125
Gl 62.5 / 125
200 or over
160 or over
Single-core optical fiber cord
Optical fiber
Single-core optical fiber cord
Tension member
Filler
PVC sheath
Silicon buffer layerNylon coveringHigh tensile fiberPVC covering (outer diameter: approx. 2.8mm)
Optical Fiber Flexible Cable
33
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
RFRC-4G5032-V,FRC-6G5032-V/FRC-4G6242-V,FRC-6G6242-V etc.Optical Fiber Flexible Cable
Cross-section
FRC-4G5032-V
Standards
Feature
Application
Core identificationOptical Standard Specification No.
: Hitachi Metals Original Design JIS C 6830 (Optical fiber cord): High flexibility Possible to be delivered with mounted optical connectors.: For the mobile parts of various machines. - Festoon system wiring - Cable chain system wiring - Revolving parts: Numbering (ref. Page 39 of the Technical Data): (on completed cable): SP31-90060C
No. ofCores Type Core Diameter
(μm)Approx.
Diameter ofPVC Covering
(mm)
Approx.Overall
Diameter (mm)
Approx.Mass
(kg/km)
PermissibleTension
(N)
Min. PermissibleBending Radius
(mm)
2
4
6
8
2
4
6
8
50
62.5
Clad Diameter (μm)
125
125
Approx.Wire Diameter
(mm)
2.4
2.4
2.4
2.4
2.4
2.4
2.4
2.4
Approx.Cord Diameter
(mm)
2.8
2.8
15
15
15
17
15
15
15
17
490
490
490
490
490
490
490
490
150
150
150
170
150
150
150
170
3.2
3.2
3.2
4.6
3.2
3.2
3.2
4.6
220
220
220
260
220
220
220
260
FRC-2G5032-V
FRC-4G5032-V
FRC-6G5032-V
FRC-8G5032-V
FRC-2G6242-V
FRC-4G6242-V
FRC-6G6242-V
FRC-8G6242-V
GI
Product Name Optical Fiber Cord Tension Member
FRC-4G5032-V, FRC-6G5032-V, FRC-4G6242-V, FRC-6G6242-V etc.
* Please contact us for any other information about number of cores or optical fibers.
Structural Features- Tension-proof specification by arranging a tension member at the center.- The optical fiber cord consists of high tensile fiber on the core wire longitudinally and overall PVC covering. It ensures easy handling and connector mounting.
34
Coaxial Chloroprene Rubber Sheathed Flexible Cable
ENCTCoaxial Chloroprene Rubber Sheathed Flexible Cable
Cross-section
ENCT
StandardsTest VoltageFeature
ApplicationCore identificationExample of Product NameStandard Specification No.
: Hitachi Metals Original Design: AC 1000V / 1 minute: Coaxial cable with flexible conductors. Corresponding to general products with characteristic impedance of Zo=75Ω: Festoon System and Cable chain System : Color coding / tracer method (ref. Page 39 of the Technical Data): ENCT 3X (5C-2E)
: SP03-31-9001Rev.1
3-core
Inner conductor
Outer conductor
Polyethylene insulation
Inner sheath (polyethylene)
Filler
Binder
Chloroprene sheath
Inner conductor
Outer conductor
Single-core
Polyethylene insulation
Binder
Chloroprene sheath
No. ofCores
Outer Diameterof Insulation
(mm)
Thickness ofOuter Conductor
(mm)Approx. Mass
(kg/km)
CharacteristicImpedance
(Ω)
Max. ConductorResistance
(20 degrees C)(mm)
Min.Insulation Resistance
(20 degrees C)(MΩ・km)
Min. PermissibleBending Radius(20 degrees C)
(mm)
Inner ConductorConstruction
(No./mm)
1
2
3
4
1
2
3
4
0.35
0.35
0.35
0.35
0.45
0.45
0.45
0.45
Thickness ofInner Sheath
(mm)
-
0.5
0.5
0.5
-
0.5
0.5
0.5
Outer Diameter(mm)
10.5
20
22
24
13.0
25
27
30
Thickness(mm)
1.8
2.3
2.4
2.5
1.9
2.6
2.7
2.9
75
75
75
75
75
75
75
75
1,000
1,000
1,000
1,000
1,000
1,000
1,000
1,000
70
120
140
150
80
150
170
180
19/0.18
19/0.18
19/0.18
19/0.18
33/0.18
33/0.18
33/0.18
33/0.18
0.9
0.9
0.9
0.9
1.21
1.21
1.21
1.21
130
370
450
550
190
570
700
875
40.1
41.2
41.2
41.2
24.7
25.4
25.4
25.4
5.6
5.6
5.6
5.6
7.6
7.6
7.6
7.6
Nomenclatureof
Coaxial CableOuter
Diameter(mm)
ENCT
* Be aware that the outer diameter shall be a bit larger than that of normal coaxial cables.
Chloroprene Sheath
Equivalentto
5C-2E
Equivalentto
7C-2E
35
Technical DataAmpacitiesCore IdentificationMaterial DataPrecautions of UseStock ListConfirmation Sheet for Specifications
………………………………………………………………36
…………………………………………………39
……………………………………………………………40
…………………………………………………41
…………………………………………………………………44
…………………45
Ampacities
●AmpacitiesStandard ampacities of the cable can be calculated using the tables below.Please make a modification with the related correction factor when using the cable under different conditions, such as ambient temperature, multiple installation, reeling, or number of cable cores, etc.
① 600V 2PNCT, 3PNCT(Low-voltage Round Flexible Cable)③ 600V H-2PNCT, 600V H-3PNCT, 3300V H-3PNCT, 6600V H-3PNCT (Flat Flexible Cable)
④ 600V VCT(PVC Round Flexible Cable)
② 3300V, 6600V 3PNCT(High-voltage Round Flexible Cable)
* Cable structure is based on SP97-31-9001Rev.1 (JISC3327).* Indicated values are based on the ambient temperature of 30 degrees C, max. rated conductor temperature of 80 degrees C, and single cable installed in air.* Values for 6 or more cores can be obtained by multiplying the above indicated ampacity for the single-core cable by the correction factor of the actual multi-core cable.* For the reeling system, please calculate by multiplying the correction factor of the reeling system.
* Cable structure is based on the Hitachi Metals standards.* Indicated values are based on the ambient temperature of 30 degrees C, max. rated conductor temperature of 80 degrees C, and single cable installed in air.* For the reeling system, please calculate by multiplying the correction factor of the reeling system.
* Cable structure is based on the Hitachi Metals standards.* Indicated values are based on the ambient temperature of 30 degrees C and max. rated conductor temperature of 80 degrees C.* If values of the ambient temperature are different, please calculate by multiplying the correction factor of the actual ambient temperature.* Indicated ampacities are for the mono-spiral reeling system.
* Cable structure is based on SP11-31-9001Rev.1 (JISC3312).* Indicated values are based on the ambient temperature of 30 degrees C, max. rated conductor temperature of 60 degrees C, and single cable installed in air.* Values for 5 or more cores can be obtained by multiplying the above indicated ampacity for the single-core cable by the correction factor of the actual multi-core cable.
NominalCross-Section
(mm2)Ampacities (A)
Single-core 2-cores 3-cores 4-cores 5-cores0.751.252 3.5 5.5 8
14 22 30 38 50 60 80
100 125 150 200 250
NominalCross-Section
(mm2)
14223038506080
100125150200250
192532476277
109149180209245281340393449493592675
15.521 27 39 51 63 89
121 145 166 194 221 268 311
- - - -
13.518 23 33 44 54 76
103 123 142 165 188 231 269 306 338 411 469
12.516.521 30 40 49 69 93
111 128 149 171 211 244
- - - -
11.515.519 28 37 46 64 86
103 118 140 161 198 229
- - - -
Ampacities (A)
Single-core 3-cores114150179205239273327375427464567649
80105126146171195235271308336
- -
NominalCross-Section
(mm2)Ampacities (A)
3-cores, 4-cores14223038506080
100125150200250
628399
114133151181208238259315360
NominalCross-Section
(mm2)Ampacities (A)
Single-core 2-cores 3-cores 4-cores0.751.252 3.5 5.5 8
14 22 30 38 50 60 80
100
14192537496288
115140165195225270319
12162232415171- - - - - - -
10141928364462- - - - - - -
9131725323955- - - - - - -
36 37
Ampacities
●AmpacitiesStandard ampacities of the cable can be calculated using the tables below.Please make a modification with the related correction factor when using the cable under different conditions, such as ambient temperature, multiple installation, reeling, or number of cable cores, etc.
① 600V 2PNCT, 3PNCT(Low-voltage Round Flexible Cable)③ 600V H-2PNCT, 600V H-3PNCT, 3300V H-3PNCT, 6600V H-3PNCT (Flat Flexible Cable)
④ 600V VCT(PVC Round Flexible Cable)
② 3300V, 6600V 3PNCT(High-voltage Round Flexible Cable)
* Cable structure is based on SP97-31-9001Rev.1 (JISC3327).* Indicated values are based on the ambient temperature of 30 degrees C, max. rated conductor temperature of 80 degrees C, and single cable installed in air.* Values for 6 or more cores can be obtained by multiplying the above indicated ampacity for the single-core cable by the correction factor of the actual multi-core cable.* For the reeling system, please calculate by multiplying the correction factor of the reeling system.
* Cable structure is based on the Hitachi Metals standards.* Indicated values are based on the ambient temperature of 30 degrees C, max. rated conductor temperature of 80 degrees C, and single cable installed in air.* For the reeling system, please calculate by multiplying the correction factor of the reeling system.
* Cable structure is based on the Hitachi Metals standards.* Indicated values are based on the ambient temperature of 30 degrees C and max. rated conductor temperature of 80 degrees C.* If values of the ambient temperature are different, please calculate by multiplying the correction factor of the actual ambient temperature.* Indicated ampacities are for the mono-spiral reeling system.
* Cable structure is based on SP11-31-9001Rev.1 (JISC3312).* Indicated values are based on the ambient temperature of 30 degrees C, max. rated conductor temperature of 60 degrees C, and single cable installed in air.* Values for 5 or more cores can be obtained by multiplying the above indicated ampacity for the single-core cable by the correction factor of the actual multi-core cable.
NominalCross-Section
(mm2)Ampacities (A)
Single-core 2-cores 3-cores 4-cores 5-cores0.751.252 3.5 5.5 8
14 22 30 38 50 60 80
100 125 150 200 250
NominalCross-Section
(mm2)
14223038506080
100125150200250
192532476277
109149180209245281340393449493592675
15.521 27 39 51 63 89
121 145 166 194 221 268 311
- - - -
13.518 23 33 44 54 76
103 123 142 165 188 231 269 306 338 411 469
12.516.521 30 40 49 69 93
111 128 149 171 211 244
- - - -
11.515.519 28 37 46 64 86
103 118 140 161 198 229
- - - -
Ampacities (A)
Single-core 3-cores114150179205239273327375427464567649
80105126146171195235271308336
- -
NominalCross-Section
(mm2)Ampacities (A)
3-cores, 4-cores14223038506080
100125150200250
628399
114133151181208238259315360
NominalCross-Section
(mm2)Ampacities (A)
Single-core 2-cores 3-cores 4-cores0.751.252 3.5 5.5 8
14 22 30 38 50 60 80
100
14192537496288
115140165195225270319
12162232415171- - - - - - -
10141928364462- - - - - - -
9131725323955- - - - - - -
36 37
38
d
S S S S S S S S S S
S
S
S
SS
S SS
S
SS
SS S S
●Correction Factors for Ampacities
●Ampacities at Short-CircuitApproximate ampacity at short-circuit can be obtained by the following formula.
Ampacities
① Correction Factors for Multi-core Cables
② Correction Factors( ) at Different Ambient Temperatures
③ Correction Factors for Reel System
④ Correction Factors for Multiple Installation in Air(1) 1~12 Cables
(2) For other installation
S: Distance between centers of the adjacent cables. d: Cable Diameter * Excerpt from the JCS 0168-1 'Ampacities of Power Cables for Rated Voltages up to 33KV' of Japanese Cable Maker’s Association Standard.
* Excerpt from the JCS 0168-1 'Ampacities of Power Cables for Rated Voltages up to 33KV' of Japanese Cable Maker’s Association Standard.
S: Distance between centers of the adjacent cables. d: Cable Diameter
No. of Cores 4 5 6 7 8 9 10 11 12
0.65 0.59 0.55 0.51 0.49 0.46 0.44 0.43 0.42Correctionfactors
No. of Cores 13 14 15 16 17 18 19 20 21
0.41 0.40 0.39 0.38 0.37 0.36 0.36 0.35 0.34Correctionfactors
Correctionfactors
No. of Cores 22
20 25 30 35 40 45 50 55 60 65 701.10 1.05 1.00 0.95 0.89 0.84 0.77 0.71 0.63 0.55 0.451.16 1.09 1.00 0.91 0.82
10.85
20.65
30.45
40.35
50.31
80.28
100.26
0.71 0.58 0.41 - - -
23 24 25 26 27 28 29 30
0.33
PNCTVCT
0.33 0.32 0.32 0.31 0.30 0.30 0.29 0.29Correctionfactors
Ambient Temperature (゜C)
Rated temperature - Actual ambient temperatureRated temperature - Given ambient temperature for given ampacity=
Cable Type Flat Type Round TypeNo. of Turns
Arrangement
S=dS=2d
S=dS=2d
S=3d
Correction FactorMono-spiral Reeling
0.70Mono-spiral Reeling
0.85
No. of Cables 1 2 3 6 4 6 8 9 12
0.951.001.00
0.85
0.800.70
-0.60
0.730.56
0.720.53
0.710.51
0.700.50
-0.48
-0.41
0.680.37
0.660.34
0.650.32
0.650.31
0.640.30
0.630.30
0.620.30
0.610.30
0.600.30
0.951.00
0.800.900.95
0.700.900.95
0.700.900.95
0.600.850.90
-0.800.85
-0.800.85
-
Distance betweencenters of the
adjacent cablesLevel (n)Row (m)
17~20
26
387654 2016~1913~1511~129~1037 8~2054
Ampacities at Short-Circuit = K × /S TConstant No. (copper conductor + EP rubber insulation: 139)(copper conductor + PVC insulation: 95)
Cross-section of conductor (mm2) Duration of short-circuit current (sec.)
39
BlackWhite
RedGreen
Black
BlackGreen
GreenRed
RedWhite
WhiteBlack
Black
Black
Black
BlackBlack
Black
Black Black
Black
Black Black
Black Black
Black BlackBlack Black
Core Identification
●Color Coding / Tracer Method
●Numbering Method
● ‘Black, white, red, and green’ shall be used for core identification.● If the number of cores in each layer is 5 or more, the core identification is by the color coding
of ‘black, white, red, green, black………black’ and they are identified by counting the position of the cores.
● Please refer to the table below for the details of core number.
No. of Cores Layer
No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
2345678910
12
16
20
24
30
1st layer1st layer1st layer1st layer1st layer1st layer1st layer1st layer1st layer2nd layer1st layer2nd layer1st layer2nd layer1st layer2nd layer1st layer2nd layer1st layer2nd layer3rd layer
BlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlackBlack
BlackBlackBlackBlackBlack
Black
BlackBlackBlackBlackBlackBlackBlack
BlackBlack
BlackBlackBlackBlack
Black
Black
BlackBlackBlackBlackBlack
BlackBlack
BlackBlackBlack
Black
Black
BlackBlackBlackBlackBlack
BlackBlack
BlackBlack
Black
Black
Black
BlackBlackBlack
BlackBlack
Black
Black
Black
BlackBlackBlack
BlackBlack
Black
Black
Black
BlackBlack
Black
Black
Black
Black
Black
Black
Black
Black
Black
Black
Black
Black
Black
Black
Black
RedRedRedRedRedRedRed
RedRedRedRedRedRedRedRedRedRedRedRed
GreenGreenGreenGreenGreenGreen
Green
GreenGreenGreenGreenGreenGreenGreenGreenGreenGreen
WhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhiteWhite
Flexible Cable for Carrier Drum System (600V CAR-2PNCT)Core arrangement of 10-core and 30-core cable is different from that of general cables above.
* For the core identification of 600V CAR-2PNCT-SX, please refer to Page 18.
6-core 24-core
●Figures of Identification
1
2
7
3
6
59
8
410 1
8 9201019
1118
1217
1316
27
36
45
1415
1
5
15
6
9
14
11
7
8
13
123
10
23
2 19427
29 17
25 21
30 16
24 22
28 18
26 20
10-core
20-core30-core
No. of Cores Layer
No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
1st layer1st layer2nd layer
BlackBlackBlack
BlackBlackBlack
BlackBlackBlack
BlackBlackBlack
BlackBlackBlack
BlackBlackBlack
BlackBlackBlack
GreenGreenGreen
RedRedRed
BlackBlack
BlackBlack
Black
Black
Black
Black
Black
Black
WhiteWhiteWhite
1030
This is suitable mainly for multi-core plastic cable, such as vinyl and polyethylene.
40
Material Data
●Material PropertiesGeneral properties of each material are shown as below.
Type
CodeItem
PolyvinylChloride
Ethylenepropylene
rubber
Ethyleneand
tetrafluoroethylene
Chloroprenerubber Fluonlex
PVC
1.25~1.40
20~35
1012~15
6~8
4~12
15~25
100~400
-
○
60℃
-15℃
◎
◎
◇
◇
0.86
37~48
1016
3
5 or less
8.8~15
200~1,000
◇
X
80℃
-50℃
◎
X
◇
1.7
20~35
>1016
2.6
0.2
59~69
200~300
-
◎
150℃
-100℃
◎
◎
◎
1.15~1.23
15~25
107~12
7~10
15 or less
~20
300~1,000
◎
◎
75℃
-35℃
◎
◇
◇
△
1.7
20~30
1016
3.8
-
7.8~18
350
◎
◎
200℃
-55℃
◎
◎
◎
◎
EPR ETFE CR -
Specific Gravity
Elec
tric
al p
rope
rtie
sM
echa
nica
lpr
oper
ty
Voltage withstand (kV/mm)
Volume resistivity (Ω•cm)
Dielectric constant
Dielectric loss tangent (%)
Tensile strength (MPa)
Elongation (%)
Wear resistance
Flame retardancy
Heat resistance(max. rated temperature)
Cold resistance(brittle temperature)
Weather resistance
Ozone resistance
Oil resistance
Water resistanceThe above table shows only typical values since individual property depends on compound. * 1. Special compound additionally provided with flame resistance is also available. * 2. For mobile use, it is recommended to use the cable at -20 degrees C or over.
Special compound with improved cold resistance (brittle temperature) is also available.
* 2
* 1
Quite Excellent◎ Excellent○ Very good
◇ Good△ Fair× Poor
Cable clamp
Cable clamp
Power supplyend (fixed)
Power receivingend (moving)
RCable
Multiple grouping Little clearance
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
(Bad example)
(Bad example)
(Good example)
(Good example)
41
System Application Precautions
1. Festoon System
2. Cable Chain System
(1) Permissible bending radius (R) of the cable shall be as follows.However, if specified in the individual specification, prioritize the indicated value.
Please attach a bar to each hanger in order to secure the min. bending radius of the cable when gathering the system.
(2) Cable hangers (the first hanger to be connected to the structure) shall be connected with a wire rope or chain as a tension member and do not apply tension to the cables.(The length of the wire rope or chain shall be less than 0.9 time of the cable length.)
(3) Cable hanger must be fixed so that it cannot be rotated.(4) Do not unfold the system while cables remain twisted.(5) For multiple installation, please clamp all conductors securely so that the cable becomes flat-shaped.(6) Fixed cable ends shall be installed by winding them around a drum or hanger with permissible bending
radii or more so that any concentrative stress by bending or tension, etc. is not applied to the fixed ends when the cable is moved.
(7) Hangers shall be in a rotatable state when cables are suspended spirally. In this case, cables shall be twisted when being pulled out. Therefore, the torsional direction of the cable must be in the direction where the twisting of cable cores becomes tight, and the torsional angle must be 70 degrees/m max. (recommended value: 35 degrees/m max).
(1) Permissible bending radius (R) of the cable shall be as follows.However, if specified in the individual specification, prioritize the indicated value.
(2) It is recommended to use the caterpillar system, which can support the cables so that their centers are located at the center of the tracks. In this case, the hole diameter for supports must be large enough to enable cables to move loosely within considerable clearance to prevent the cables from being subjected to unreasonable bending or force when the tracks are bent.
(3) Only one cable must be routed into each support hole and no multiple cables shall be routed into one hole.
(4) When using a box-type guide, make sure that the cables shall not be overlapped inside the box. Please use dividers if necessary to prevent interference between cables.
(5) Make sure to fix the supply and receiving ends of the cable securely to prevent the internal cores from moving. It is recommended to fix them using a split clamp with a width of 100 mm or more (contact length to the cables).Targeted deformation ratio of the cable is approx. 15% for the low-voltage type cables and approx. 5% for the high-voltage type cables.Insufficient clamping may cause corkscrewing or kink to the cables, which may result in short-circuit.
(6) The length of the straight-line portion from the fixed end to the radius curve end of the cable must be secured to the longest possible extent (targeted length: 20 times or more than the cable diameter).
Type Low-voltageCable
High-voltageCable Remarks
Round Cable
Flat Cable
R≧6d
R≧6d
R≧8d
R≧8d
d : Cable diameter
Type Low-voltageCable
High-voltageCable Remarks
Round Cable R≧6d R≧8d d : Cable diameter
d : Cable diameter
Targeted clearance amount: 10% or more of max. diameter of the cable (Min. of 2 mm)
Cable
Power receivingend (moving)
Power supplyend (fixed)
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receivingend (moving)
Wire rope
Carrier drum
Power supplyend (fixed)
Power supplyend (fixed)
Cable
Mobile equipment
Cable reel
Center of traveling
D
Power supplyend (fixed)
Power receivingend (moving)
Cable
Power supplyend (fixed)
Cable
Power receivingend (moving)
Power supplyend (fixed)
D
D
Cable Cable
Cable
Fixed reel
Moving pulley
Load
Power receivingend (moving)
R R
Chain for suspendingthe operation box
Cable
Operationbox
Precautions of Use Precautions of UseSystem Application Precautions
3. Lift SystemSystem Application Precautions6. Torsion System
(Revolving System)
8. Moving Pulley System
9. Pendant System
10. Vertical Reel System
11. Other Common Safety Instructions
7. Gravity Collector Basket System
5. Reel System (Traveling)
4. Carrier Drum System
(1) Please remove the torsion of the cable before installation.(2) Make sure that the distance between adjacent suspensions shall be 12 times or more than the cable
diameter (for low-voltage cables).(3) For hanging multiple cables, there shall not be any interference between adjacent cables.(4) When hanging multiple cables at the same position, it is recommended to change the height of each
cable loop so that they are installed on different levels.(5) The length of straight-line portion from the fixed end to radius curve end of the cable must be secured to
the longest possible extent (targeted length: 20 times or more than the cable diameter).(6) Using the cable attached with counter weight causes lateral pressure and corkscrewing, which may
result in short-circuit. Please consult us for cable selection.(7) Please consult us when using the cable under severe conditions, such as stroke length, frequency, or
speed, etc.(8) For a normal elevator, please use the specified lift control cables.
(1) Permissible bending radii shall be 6 times or more than the cable diameter (for low-voltage cables).(2) Cable length must be secured to the longest possible extent and installed so that the torsional angle per
unit length becomes as small as possible.(Make sure that the torsional angle is 70 degrees/m max. Recommended value: ±35 degrees/m max.)
(3) For hanging multiple cables, there should not be any interference between adjacent cables. Do not bundle and fix the cables with the banding tie etc.
(4) To prevent any concentrative torsional stress to the fixed ends of the cable, make sure to secure a longer length for the straight-line portions of the cable or to create sufficient bending radii at the fixed ends when installing the cable.
(5) As the cable length varies when twisted, sufficient slack shall be obtained.(6) Please consult us when using the cable under a severe torsional condition, or for single-core or shielded
type cables.
(1) Torsion may occur when pulling up the cable in a coiled state.After being pulled up, the cable shall be installed in the direction where the twisting of the cable becomes tight (that is, S-lay laid cables shall be collected in a clockwise direction).
(2) Coiling diameter must be secured to the largest possible extent (20 times or more than the cable diameter).
(3) Please contact us for the cable selection since it depends on the basket configuration, lifting height, or lifting speed, etc.
(4) Basket must not contain any object, which may block the coiling operation such as a high corn, etc., otherwise it may result in a reversed coiling direction and cause some trouble to the cable.
(5) Torsion of the cable tend to collect downward, the winding diameter of the lower section of the coil becomes smaller and the upper section becomes larger than those for the initially coiled, the differences caused by which must be considered at the cable installation.
(1) Reel diameter (D) shall be 20d or more (d: cable diameter).(2) Make sure that reels can be rotated smoothly.(3) Weight and load of the moving reel shall be minimized so that the cable is not slacked, in order to
reduce the tension applied to the cable.(4) For terminal clamping at the fixed ends of the cable, they shall be clamped by two points inserting a wire
saddle between the clamps and snaking the cable. In this case, make sure that the initial grip force shall be two times more than the max. tension applied to the cable.
(5) As the cable is applied with tension, bending, and lateral pressure at the same time, be aware that it is not suitable for applications with high frequency.
(1) For the operation button, the specified chain shall be attached and the cable shall be free from tension.(2) On mounting points of the operation button, suitable protection shall be applied to prevent the cable
from partial bending.
(1) Please follow the precautions indicated in 5. Reel System (Traveling).(2) When winding up the cable, it can be twisted due to its own weight or interference between adjacent
cables. In this case, the cable surface shall be lubricated with grease to prevent it from being twisted.(3) When using the cable under severe conditions, such as lifting height, lifting speed, or tension, etc.,
normal cables (RE-2PNCT or RE-3PNCT) may be kinked and shorted. Please consult us when using the cable under such severe conditions.
(1) Permissible bending radius (R) of the cable shall be as follows.However, if specified in the individual specification, please prioritize the indicated value.
(2) Constant and instant tension applied to the cable must be less than the permissible level.(3) Lateral pressure applied to the cable shall be as follows.
However, if specified in the individual specification, please prioritize the indicated value.
(4) Do not wind up the cables when they are in a twisted state.(5) When winding a round cable in a cylindrical reel, it is recommended to apply a traverser mechanism for
array winding operation. Random winding into the reel results in the twisting of cables.(6) For applying a cable guide roller for the reel, the min. permissible bending radius must be secured.(7) Be sure that the cable is extended only in a straight line from the storage reel.
Winding and unwinding the cable in a not straight line may cause twisting to the cable.(8) During operation, make sure that reel system (reel, guide roll, side roll, and pit, etc.) shall remain in a
relative position without deviation. Especially when using a flat cable, no lateral pressure shall be ap-plied to the cable in the direction of its shorter sides.
(9) For terminal clamping at the fixed ends of the cable, they shall be clamped after winding more than one turn of the cable around the anchor drum, or clamped by two points inserting a wire saddle between the clamps and snaking the cable. In this case, make sure that the initial grip force is 2 times or more than the max. tension applied to the cable. Insufficient clamping may cause corkscrewing or kink to the cable.
(1) Permissible bending radius (R) of the cable shall be as follows.However, if specified in the individual specification, please prioritize the indicated value.
(2) When installed, the cable shall not be twisted.(3) Carrier drums shall be transferred with wire ropes. There shall be no tension applied to the cable with
enough slack.(4) Make sure to fix the supply and receiving ends of the cable securely to prevent the internal cores from
moving. It is recommended to fix them using a split clamp with a width of 100 mm or more (contact length to the cables).Targeted deformation ratio of the cables is approx. 15% for the low-voltage type cables and approx. 5% for the high-voltage type cables. Insufficient clamping causes corkscrewing or kink to the cables, which may result in short-circuit.
Type Low-voltageCable
High-voltageCable Remarks
Round Cable R≧6d R≧8d d : Cable diameter
Type Low-voltageCable
High-voltageCable Remarks
Round CableFlat Cable
R≧10dR≧12d
R≧15dR≧16d
d : Cable diameterd : Cable diameter
Class Lateral pressure (tension/bending radius)
2PNCT(Without reinforcement in the sheath) 2.9kN/m(300kgf/m) or less
4.9kN/m(500kgf/m) or less3PNCT, 4PNCT(With reinforcement in the sheath)
(1) For safety, be sure to follow the 'Safety Precautions' indicated on the back of the front cover.(2) Be aware that the insulation resistance of sheath (cable armor) being used on flexible cables has been reduced in order to prioritize its mechanical strength.(3) Insulation resistance between shields is not normally considered in case that cores or twisted pairs are electrostatically shielded. If any insulation resistance is needed
between shields, please let us know in advance.(4) Electrostatic shields shall be single-ended. Grounding both ends may result in picking up dark-current noise. It is also recommended that you actually check the respective
end (terminal) and have the more effective side grounded.(5) Cables may become harder at low temperature. Please contact us for any solution in case of using them constantly at low temperature, such as in refrigerated warehouse, etc.(6) Chloroprene rubber used as a sheath material may absorb water and swell when being used underwater for a long period. Make sure that terminals shall be completely free
from water intrusion and also measures shall be taken to prevent an electric leakage, when it is required to use the cable underwater.(7) Cable cores may have been lubricated for smoother movement inside the cable. In order to prevent any surface leakage, please clean the insulation surface with alcohol
before performing the terminal sealing.(8) When winding the cable into the figure, 8, be sure to form as big loops as possible. Please also make sure not to create small loops when unwinding the cable since there is a
risk that it may be twisted and kinked.(9) During the cold season, drum coil winding habit may remain due to cable hardening. In such case, please warm the cable indoor in prior to use.(10)Do not apply creosote treatment (preservative) to wooden cleats since the chloroprene rubber and vinyl can be negatively affected.(11)As the colored EP rubber may be discolored by sunlight or ultraviolet ray, do not expose the insulation coated on cores of PNCT to sunlight.(12)Please handle the optical fiber cord and optical connector carefully (no twisting, stretching, nor excessive bending is permitted).(13)Some cables may contain powder lubricant inside. When handling, make sure to wear protective gloves and mask, etc. as necessary to prevent particles from scattering. After
operation, please wash away any adhered particles thoroughly.(14)When performing a terminal sealing on the high-voltage (3300 V or over) flexible cables, some conductive material may remain on the EP rubber insulator after removing the
tape from the outer semiconductive tape. In such case, please clean any residue completely using sandpaper.
42 43
Cable
Power receivingend (moving)
Power supplyend (fixed)
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receivingend (moving)
Wire rope
Carrier drum
Power supplyend (fixed)
Power supplyend (fixed)
Cable
Mobile equipment
Cable reel
Center of traveling
D
Power supplyend (fixed)
Power receivingend (moving)
Cable
Power supplyend (fixed)
Cable
Power receivingend (moving)
Power supplyend (fixed)
D
D
Cable Cable
Cable
Fixed reel
Moving pulley
Load
Power receivingend (moving)
R R
Chain for suspendingthe operation box
Cable
Operationbox
Precautions of Use Precautions of UseSystem Application Precautions
3. Lift SystemSystem Application Precautions6. Torsion System
(Revolving System)
8. Moving Pulley System
9. Pendant System
10. Vertical Reel System
11. Other Common Safety Instructions
7. Gravity Collector Basket System
5. Reel System (Traveling)
4. Carrier Drum System
(1) Please remove the torsion of the cable before installation.(2) Make sure that the distance between adjacent suspensions shall be 12 times or more than the cable
diameter (for low-voltage cables).(3) For hanging multiple cables, there shall not be any interference between adjacent cables.(4) When hanging multiple cables at the same position, it is recommended to change the height of each
cable loop so that they are installed on different levels.(5) The length of straight-line portion from the fixed end to radius curve end of the cable must be secured to
the longest possible extent (targeted length: 20 times or more than the cable diameter).(6) Using the cable attached with counter weight causes lateral pressure and corkscrewing, which may
result in short-circuit. Please consult us for cable selection.(7) Please consult us when using the cable under severe conditions, such as stroke length, frequency, or
speed, etc.(8) For a normal elevator, please use the specified lift control cables.
(1) Permissible bending radii shall be 6 times or more than the cable diameter (for low-voltage cables).(2) Cable length must be secured to the longest possible extent and installed so that the torsional angle per
unit length becomes as small as possible.(Make sure that the torsional angle is 70 degrees/m max. Recommended value: ±35 degrees/m max.)
(3) For hanging multiple cables, there should not be any interference between adjacent cables. Do not bundle and fix the cables with the banding tie etc.
(4) To prevent any concentrative torsional stress to the fixed ends of the cable, make sure to secure a longer length for the straight-line portions of the cable or to create sufficient bending radii at the fixed ends when installing the cable.
(5) As the cable length varies when twisted, sufficient slack shall be obtained.(6) Please consult us when using the cable under a severe torsional condition, or for single-core or shielded
type cables.
(1) Torsion may occur when pulling up the cable in a coiled state.After being pulled up, the cable shall be installed in the direction where the twisting of the cable becomes tight (that is, S-lay laid cables shall be collected in a clockwise direction).
(2) Coiling diameter must be secured to the largest possible extent (20 times or more than the cable diameter).
(3) Please contact us for the cable selection since it depends on the basket configuration, lifting height, or lifting speed, etc.
(4) Basket must not contain any object, which may block the coiling operation such as a high corn, etc., otherwise it may result in a reversed coiling direction and cause some trouble to the cable.
(5) Torsion of the cable tend to collect downward, the winding diameter of the lower section of the coil becomes smaller and the upper section becomes larger than those for the initially coiled, the differences caused by which must be considered at the cable installation.
(1) Reel diameter (D) shall be 20d or more (d: cable diameter).(2) Make sure that reels can be rotated smoothly.(3) Weight and load of the moving reel shall be minimized so that the cable is not slacked, in order to
reduce the tension applied to the cable.(4) For terminal clamping at the fixed ends of the cable, they shall be clamped by two points inserting a wire
saddle between the clamps and snaking the cable. In this case, make sure that the initial grip force shall be two times more than the max. tension applied to the cable.
(5) As the cable is applied with tension, bending, and lateral pressure at the same time, be aware that it is not suitable for applications with high frequency.
(1) For the operation button, the specified chain shall be attached and the cable shall be free from tension.(2) On mounting points of the operation button, suitable protection shall be applied to prevent the cable
from partial bending.
(1) Please follow the precautions indicated in 5. Reel System (Traveling).(2) When winding up the cable, it can be twisted due to its own weight or interference between adjacent
cables. In this case, the cable surface shall be lubricated with grease to prevent it from being twisted.(3) When using the cable under severe conditions, such as lifting height, lifting speed, or tension, etc.,
normal cables (RE-2PNCT or RE-3PNCT) may be kinked and shorted. Please consult us when using the cable under such severe conditions.
(1) Permissible bending radius (R) of the cable shall be as follows.However, if specified in the individual specification, please prioritize the indicated value.
(2) Constant and instant tension applied to the cable must be less than the permissible level.(3) Lateral pressure applied to the cable shall be as follows.
However, if specified in the individual specification, please prioritize the indicated value.
(4) Do not wind up the cables when they are in a twisted state.(5) When winding a round cable in a cylindrical reel, it is recommended to apply a traverser mechanism for
array winding operation. Random winding into the reel results in the twisting of cables.(6) For applying a cable guide roller for the reel, the min. permissible bending radius must be secured.(7) Be sure that the cable is extended only in a straight line from the storage reel.
Winding and unwinding the cable in a not straight line may cause twisting to the cable.(8) During operation, make sure that reel system (reel, guide roll, side roll, and pit, etc.) shall remain in a
relative position without deviation. Especially when using a flat cable, no lateral pressure shall be ap-plied to the cable in the direction of its shorter sides.
(9) For terminal clamping at the fixed ends of the cable, they shall be clamped after winding more than one turn of the cable around the anchor drum, or clamped by two points inserting a wire saddle between the clamps and snaking the cable. In this case, make sure that the initial grip force is 2 times or more than the max. tension applied to the cable. Insufficient clamping may cause corkscrewing or kink to the cable.
(1) Permissible bending radius (R) of the cable shall be as follows.However, if specified in the individual specification, please prioritize the indicated value.
(2) When installed, the cable shall not be twisted.(3) Carrier drums shall be transferred with wire ropes. There shall be no tension applied to the cable with
enough slack.(4) Make sure to fix the supply and receiving ends of the cable securely to prevent the internal cores from
moving. It is recommended to fix them using a split clamp with a width of 100 mm or more (contact length to the cables).Targeted deformation ratio of the cables is approx. 15% for the low-voltage type cables and approx. 5% for the high-voltage type cables. Insufficient clamping causes corkscrewing or kink to the cables, which may result in short-circuit.
Type Low-voltageCable
High-voltageCable Remarks
Round Cable R≧6d R≧8d d : Cable diameter
Type Low-voltageCable
High-voltageCable Remarks
Round CableFlat Cable
R≧10dR≧12d
R≧15dR≧16d
d : Cable diameterd : Cable diameter
Class Lateral pressure (tension/bending radius)
2PNCT(Without reinforcement in the sheath) 2.9kN/m(300kgf/m) or less
4.9kN/m(500kgf/m) or less3PNCT, 4PNCT(With reinforcement in the sheath)
(1) For safety, be sure to follow the 'Safety Precautions' indicated on the back of the front cover.(2) Be aware that the insulation resistance of sheath (cable armor) being used on flexible cables has been reduced in order to prioritize its mechanical strength.(3) Insulation resistance between shields is not normally considered in case that cores or twisted pairs are electrostatically shielded. If any insulation resistance is needed
between shields, please let us know in advance.(4) Electrostatic shields shall be single-ended. Grounding both ends may result in picking up dark-current noise. It is also recommended that you actually check the respective
end (terminal) and have the more effective side grounded.(5) Cables may become harder at low temperature. Please contact us for any solution in case of using them constantly at low temperature, such as in refrigerated warehouse, etc.(6) Chloroprene rubber used as a sheath material may absorb water and swell when being used underwater for a long period. Make sure that terminals shall be completely free
from water intrusion and also measures shall be taken to prevent an electric leakage, when it is required to use the cable underwater.(7) Cable cores may have been lubricated for smoother movement inside the cable. In order to prevent any surface leakage, please clean the insulation surface with alcohol
before performing the terminal sealing.(8) When winding the cable into the figure, 8, be sure to form as big loops as possible. Please also make sure not to create small loops when unwinding the cable since there is a
risk that it may be twisted and kinked.(9) During the cold season, drum coil winding habit may remain due to cable hardening. In such case, please warm the cable indoor in prior to use.(10)Do not apply creosote treatment (preservative) to wooden cleats since the chloroprene rubber and vinyl can be negatively affected.(11)As the colored EP rubber may be discolored by sunlight or ultraviolet ray, do not expose the insulation coated on cores of PNCT to sunlight.(12)Please handle the optical fiber cord and optical connector carefully (no twisting, stretching, nor excessive bending is permitted).(13)Some cables may contain powder lubricant inside. When handling, make sure to wear protective gloves and mask, etc. as necessary to prevent particles from scattering. After
operation, please wash away any adhered particles thoroughly.(14)When performing a terminal sealing on the high-voltage (3300 V or over) flexible cables, some conductive material may remain on the EP rubber insulator after removing the
tape from the outer semiconductive tape. In such case, please clean any residue completely using sandpaper.
42 43
44
Stock List① 600V 2PNCT(Class2 EP Rubber Insulated Chloroprene Rubber Sheathed Flexible Cable) (1) Festoon System
(2) Carrier Drum System
* As for 3 x 2~14mm2 cables, the color coding of black, white, and green is also available for identification (Product Name: 600V 2PNCT (G), Standard: SP31-90041).
Product Name
SizeNo. of Cores
600V 2PNCT, 600V CUR-2PNCT (Unshielded Type)
0.75mm2
1.25mm2
2 mm2
3.5 mm2
5.5 mm2
8 mm2
14 mm2
22 mm2
30 mm2
38 mm2
50 mm2
60 mm2
100 mm2
150 mm2
1 2 3 4 5 6 7 8 10 12 16 20 24 30
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Product Name
SizeNo. of Cores
600V CAR-2PNCT
3.5 mm2
5.5 mm2
8 mm2
14 mm2
22 mm2
30 mm2
38 mm2
60 mm2
1 2 3 4 5 6 7 8 10 12 16 20 24 30
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Product Name
SizeNo. of Cores
600V 2PNCT-SB, 600V CUR-2PNCT-SB (Overall Shielded Type)
1.25mm2
2 mm2
1 2 3 4 5 6 7 8 10 12 16 20 24 30
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*
*
② 600V VCT(PVC Flexible Cable)Product Name
SizeNo. of Cores
600V VCT
2 mm2
3.5 mm2
2
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③ 600V FFCT(Fluonlex Flexible Cable (Heat Resistant, 200 degrees C))
** The delivery date is necessary for around 2 weeks about cables to which the glass tape and stainless braid are given. <Note> The stock lists may be changed without prior notice.
Product Name
SizeNo. of Cores
600V FFCT600V FFCTB**
600V FFCT-SB600V FFCTB-SB**
1.25mm2
2 mm2
3.5 mm2
2 3 4 6 10 20 2 3 4 6 10
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Unshielded Type Overall Shielded Type
45
Confirmation Sheet for SpecificationsIn order to supply products which meet your need, please confirm the specifications below and inform us.
No.
1
2
3
4
5
6
7
8
9
10
Item Details
Cable designation
Configuration and Class
Voltage
No. of Cores x Size(please also indicate multi/pair types)
(1) With / Without(2) Material(3) Type
Shield
Equipments that use cables
・Round type ・Flat type・Class 2
・With ・Without・Copper braid ・Semiconductive rubber ・( )・Individually shielded ・Overall shielded ・Pair shielded ・( )
・600V ・3300V ・6600V ・( V)
・Class 3
System Application
Detailed Information
Whether new installation or replacement(* For replacement, please also let us know of the specifications
and name of manufacturer of the existing cables.)
(1)Bending radius mm
(4)Traveling speed m/minute (5)Frequency of repeated use times/day
(3)Traveling stroke m(2)Tension N(kg)
・New installation ・Replacement
(*Others )
Cable
Power receivingend (moving)
Power supplyend (fixed) Power supply
end (fixed)
Power receivingend (moving)
Cable
Power supplyend (fixed)
Cable
Power receivingend (moving)
Cable clamp
Cable clampPower supply end(fixed)
Power receiving end(moving)
RCable
(1)Festoon System (2)Cable Chain System (3)Reel System (Traveling)
(4)Vertical Reel System (5)Carrier Drum System (6)Lift System (7)Torsion System (Revolving)
(8)Gravity Collector Basket System (9)Moving Pulley System (10)Pendant System
Cable
R R
DD
Cable clampCable clamp
Cable clampPower receivingend (moving)
Wire ropeCarrier drum
Power supply end(fixed)
Hanger and clamp Messenger wire or rail
Bar
Wire or chainCable
R
R
Power supply end(fixed)
Cable
Mobile Crane
Cable reel
Center of traveling
D
R R
Chain for suspendingthe operation box
Cable
Operationbox
Power supplyend (fixed)
D
D
Cable Cable
Cable
Fixed pulley
Moving pulley
Load
Power receivingend (moving)
Printed in Japan ’15-6(D)The speci f icat ions of products in th is catalog are subject to change without pr ior not ice. CAT.N0.KVE106BAll rights reserved
h t t p : / / w w w . h i t a c h i - m e t a l s . c o . j p / e /
Cable Materials CompanyHulic Asakusabashi Building,22-16, Asakusabashi 1-chome, Taito-ku, Tokyo 111-0053, JapanTel: +81-3-3863-2370
Hitachi Metals Europe GmbHHead Off iceImmermannstrasse 14-16, 40210 Dusseldorf, GermanyTel: +49-211-16009-0London Branch Off iceWhitebrook Park, Lower Cookham Road, Maidenhead, Berkshire, SL6 8YA, United KingdomTel: +44-1628-585534
South Germany Off ice, MunichBusiness Center Bavaria Radlkoferstrasse 281737 Munich GermanyTel: +49-(0)89-741185-114
Milano Branch Off iceVia Modigliani 45, 20090 Segrate, Milano, ItalyTel: +39-02-7530188/7532613/7533782
Hitachi Cable America Inc.2 Manhattanville Road, Suite 301, Purchase, NY 10577, U.S.A.Tel: +1-914-694-9200
San Jose Off ice1920 Zanker Road, San Jose, CA 95112, U.S.A.Tel: +1-408-467-8900
Hitachi Metals Singapore Pte. Ltd.Head Off ice12 Gul Avenue, Singapore 629656Tel: +65-6861-7711Jakarta Representative Off ice
Hanoi Representative Off ice
Phil ippine Representative Off ice
Menara BCA38th Floor JI. M.H. Thamrin No1, Jakarta 10310, IndonesiaTel: (62-21)2358-6060/61
Sun Red River Building., 5F 23 Phan Chu Trinh Street Hoan Kiem District,Hanoi, VietnamTel: +84-4-3933-3123
Unit 1006 Prime Land, Market ST., Madrigal Business Park,Ayala Alabang, Muntinlupa City, Metro Manila, PhilippinesTel: +63-2-808-8083/89
Hitachi Metals (Thailand) Ltd.Bangkok Sales Off iceUnit 13A, 13th Floor, Ploenchit Tower, 898, Ploenchit Road,Lumpini, Pathumwan, Bangkok 10330, ThailandTel: +66-2-252-9309
Hitachi Metals Hong Kong Ltd.Suites 1809-13 18/F Tower 6 The Gateway, Harbour City Tsimshatsui Kowloon Hong KongTel: +852-2724-4183
Hitachi Metals Taiwan, Ltd. Taipei Branch11F, No.9, Xiangyang Road, Zhongzheng District, Taipei City 10046, TaiwanTel: +886-2-2311-2777
Hitachi Cable (China) Trading Co., Ltd.Head Office & Sales Div. (Hitachi Metals (Shanghai) Ltd.) 11F, Chong Hing Finance Center, No. 288, NanJing Road (West),Shanghai, 200003, ChinaTel: +86-21-3366-3000Guangzhou Off iceRoom1001, Goldlion Digital Network Center, 138 Tiyu Road East, Tianhe,Guangzhou 510620, ChinaTel: +86-20-3878-0319
Hitachi Cable Trading (Dalian F.T.Z.) Co., Ltd.Room 1102, Tiancheng IFC, No.128 Jinma Road, Dalian Development Area, Dalian, China 116600Tel: +86-411-8733-2112
Hitachi Metals (India) Private Limited
Hitachi Metals America, LLCDetroit Off icePinnacle Office Center, 41800 West Eleven Mile Road, Suite 100, Novi, MI 48375, U.S.A.Tel: +1-248-465-6400
Plot No 94 & 95, Sector 8, IMT Manesar, Gurgaon-122050, Haryana, IndiaTel: +91-124-4124812