Safety Precautions WARNINGS

Flexible

Safety Precautions Make 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. WANINGS : 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. WANINGS 1. isk 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.. isk 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. CAUTIONS 1. Prohibited matters at wire/cable processing. When installing a terminal joint of the highvoltage 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.. 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 degrees or less. If being lifted with a short wire and the wiring angle becomes degrees or more, the lateral pressure exerts on the drum flange and crushes the flange, resulting in product damage.

Selection Guide Types and Features of s Introduction of Products Festoon System Flexible 0V PNCT, 0V CUPNCT 0V PNCT, 0V CUPNCT 0V PNCTSB, 0V CUPNCTSB (Overall Shielded Type) 0V PNCTSB, 0V CUPNCTSB (Overall Shielded Type) 0V PNCTPSB, 0V CUPNCTPSB (Pair Shielded Type) 0V SKPNCT (Flat ) Carrier Drum System Flexible 0V CAPNCT, 0V CAPNCT 17 0V CAPNCTSX (Overall Shielded Type) 1 Torsion System Flexible 0V TOPNCT 19 eel System Flexible 0V EPNCT, 0V EPNCT (eel System) 0V E (V)PNCTF (Vertical eel System) 0V HPNCT, 0V HPNCT (Flat Type ) Optical Composite eel System Flexible V FGHPNCT, 60V FGHPNCT(Flat Type ) 60V FGEPNCT 5 Gravity Collector Basket System Spreader 0V SPDFHNCT (for quayside cranes) 6 0V SPD(Y)PNCT (for yard cranes) 7 Instrumentation Flexible KPNCT KPNCTSB (Overall Shielded Type) PVC Flexible 0V VCT9 Vibration Flexible 0V TPNCT Fluonlex Flexible (Heat esistant to 00 degrees C) 0V FFCT 1 0V FFCTB (Glass + Stainless Braided Type) 1 0V FFCTSB (Overall Shielded Type) 0V FFCTBSB (Overall Shielded Type + Glass + Stainless Braided Type) Optical Fiber Flexible FCGV, FC6GV, FCG6V, FC6G6V etc. Coaxial Chloroprene ubber ed Flexible ENCT Technical Data Ampacities Core Identification Material Data Precautions of Use Stock List Confirmation Sheet for Specifications 6 10 1 1 15 16 0 1 V HPNCT, 60V HPNCT (Flat Type HighVoltage ) 6 9 0 1 * Fluonlex is a registered trademark of Hitachi Metals, Ltd. in Japan and U.S.A. 5

Selection Guide System Application and ecommended s System Application Festoon Chain Lift Carrier Drum eel (Traveling) Hanger and clamp Messenger wire or rail Bar clamp Power receiving end (moving) Power receiving end (moving) clamp Power receiving end (moving) Carrier drum Wire rope D D Mobile Crane reel Center of traveling Type of Wire or chain clamp clamp clamp D CU PNCT Note1) SK PNCT CA PNCT TO PNCT E PNCT E(V)PNCTF H PNCT FGHPNCT FGEPNCT SPDFHNCT SPD(Y)PNCT K PNCT T PNCT FFCT FC Note1) In the case of 10 cores or more please use CAPNCT Main application May be used (Please contact the manufacturer) Please never use Classification from Structure of Flexible s Class Feature Application Crosssection Class This cable has the most basic structure consisting of flexible conductors, insulation, and sheath. There is no reinforcement under the sheath. This is the most generalpurpose lowvoltage cable and can be used for outdoors. Class Class 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, it results high resistance to impact or wear. einforcement 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. Cradle core (bedding) is arranged between cores and therefore the thickness of sheath is thicker than that of class. It results higher resistance to impact or wear than that of class. 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. einforcement Cradle core einforcement

Torsion (evolving) Gravity Collector Basket (Spreader) Moving Pulley Pendant Vertical eel Vibration Power receiving end (moving) D Power receiving end (moving) Fixed pulley Electric tool Power receiving end (moving) D Load Moving pulley Chain for suspending the operation box Operation box s for Special equirements Special equirements Flame resistance Cold resistance Main Application Examples of Suitable Types Feature Nuclear power plant, Thermal power plant efrigerated storage 0V MMPNCT and others 0V LTPNCT, 0V SKPNCT and others Flame retardancy in accordance with IEEE197 VTFT (vertical tray flame test) EP rubber insulated special chloroprene sheathed cable having cold resistance (embrittlement) of 0 degrees C. Heat resistance Heat Barrier, Slag spattering prevention Low voltage circuit (V or less) Flexibility Around furnace Steel plant For measuring instruments * Please contact us if you have any special requirements. 0V FFCT, 0V FFCTSB and others 0V PNCTB, 0V FFCTB and others KPNCT, KPNCTSB and others Heat resistant temperature of 00 degrees C Glass tape and stainless braid to be applied onto the sheath. s shall be installed by semifixing method on the equipments with low voltage (V or less) circuit. To be used in case of flexibility of cable is required. 5

Types and Features of s Main Types and Structural Features (Examples of PNCT) types(main application) Structures Feature CUPNCT (Festoon System) Filler Binder High flexibility and bending resistance. (however, not suitable for applications where cables are subjected to lateral pressure, such as carrier drum system) SKPNCT (Festoon System) Filler 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. CAPNCT (Carrier Drum System) ubber filler High resistance to lateral pressure. educed cable corkscrewing by making rubber sheath solidal structure. obust type of chloroprene is used as sheath. EPNCT (eel System) Filler Binder High resistance to lateral pressure, tension, and bending. Smallsize conductors have steel wires in addition to copper wires to increase the kink resistance and tension resistance. obust type of chloroprene is used as sheath. HPNCT (eel System) High resistance to lateral pressure and wear. obust type of chloroprene is used as sheath. TOPNCT (Torsion System) Filler Binder High torsion resistance. Improved slipping performance between cores by individually taping on each core. Product Description <Example> 0V CU PNCT SB mm cores (or pairs) x size ated Voltage Main Application Class Type Option (shield, etc.) 0V V 60V CU (Festoon system) SK (Festoon system, flat cables) CA (Carrier drum system) E (eel system) E(V) (Vertical reel system) H (eel system, flat cable) TO (Torsion system) T (Vibration resistant) SPD (Spreader) F (Composite cable) FG (Optical composite cable) K (Instrumentation cable with low voltage circuit (V or less)) (class ) (class ) (class ) PNCT (: EP rubber) (: Chloroprene) VCT (: PVC) (: PVC) FFCT (: Fluonlex) (: Fluonlex) SB PSB CSB SX B F (Overall shield) (Pair shield) (Individual core shield) (Special shield) (Glass tape and stainless braid) (einforced sheath) 6

Introduction of Products Festoon System Flexible Carrier Drum System Flexible Torsion System Flexible eel System Flexible Optical Composite eel System Flexible Gravity Collector Basket System Spreader Instrumentation Flexible PVC Flexible Vibration Flexible Fluonlex Flexible (Heat esistant to 00 degrees C) Optical Fiber Flexible Coaxial Chloroprene ubber ed Flexible 17 19 0 6 9 1 7

Festoon System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible 0V PNCT (0V CUPNCT) * 0V PNCT and 0V CUPNCT have quite the same structure. Hanger and clamp Wire or chain Messenger wire or rail Bar Standards ated Voltage ated Temperature Test Voltage Feature Application Core identification Standard Specification No. : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment : AC 0V : 0 degrees C : 0V /1 minute : High flexibility : Festoon System and Lift System * Please use CAPNCT for cable chain system (10 cores or more) and carrier drum system. : Color coding / tracer method (ref. Page 9 of the Technical Data) : SP9719001ev.1 0V PNCT, 0V CUPNCT 1 (mm ) 1 0 15 00 5.5 1 0 5.5 1 0 15 / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 19// 7// 7// 7// /0.1 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// /0.1 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 19// 7//.9.1 1 1 1 15. 16. 1.7 1..6.1.9.1 1 1 1 15..1.9.1 1 1 1 15. 16. 1.7 1. 1. 1..0.0.0.0 1. 1. 1..0.0 1. 1. 1..0.0.0.0 1.7.0.1...6.6.7.0. 1.7 1.7.0.1..6.7.9.1..9 1.7.0.1..7..0....1.. 9. 1 1 1.5 15.5 1.0 19.0 6 7 5.9 9.7 1 1 1.5 1.5 6 9 6 5 9. 1 1 1.0 15.5 1 0 6 1 6 5 9 5 55 Crosssection 0V PNCT (0V CUPNCT) core 0 0 5 515 6 790 1,00 1,10 1,5 1,7,10,90 105 15 155 0 15 95 590 9 1,190 1,0 1,10,1,90,0 115 15 10 0 0 75 1,10 1,0 1,10,10,7,790, 5, 6, EP rubber insulation Chloroprene sheath Max. (0 degrees C).5 9 0.661 5 11 9 0.19 0.156 0.16 0.099 0.00 6.6 10. 6 1. 0.919 0.61 1 9 0 0.199 6.6 10. 6 1. 0.919 0.61 1 9 0 0.199 0.161 0. 1core (0 degrees C) (MΩkm) 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Filler Binder Chloroprene sheath Permissible Bending adius 70 90 90 10 1 00 10 70 0 90 10 1 10 00 0 70 70 70 0 10 1 190 0 70

9 Max. (0 degrees C) Permissible Bending adius 5 6 7 10 1 16 0.0.1....0..1..5.7.1...6.0...0.1...7.1.0.1..0.0.1..1...1......7..6...6.7.0.7..1 175 0 65 590 910 1,90 1,0,90,90,5, 5,90 7,00,00 1 10 55 5 5 70 1,1 1,10,90,00 15 5 5 55 675 65 1,,1 15 5 5 5 10 615 5 95 75 5 0 5 5 15 5 705 1,00 5 70 1,0 0 10 1,0 1,610 715 965 1, 1,9 00 00 00 00 00 00 00 70 70 0 90 10 190 10 0 70 70 0 0 10 1 190 10 0 90 90 10 10 0 90 90 10 10 10 10 10 1 1 1 10 00 10 10 /0.1 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 19// 7// /0.1 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// /0.1 7/0.6 5/ 70/ / / 7/0/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/.1.9.1 1 1 1 15. 16. 1.7.1.9.1.1.9 1 1 1 1.0 1 1.5 1 9 5 5 61 1 1 1.0 15.5 1.5 1 5 1 5 1.0 1 1.5 1 0 7 1.0 1.5 15.5 1.0 1.0 15.5 1 19.5 16.5 1.0 19.5 1 1.5 0 1.5 1 6 1 5 9 5 7 7 9 6.6 10. 6 1. 0.919 0.61 1 9 0 0.199 0.161 0. 6.6 10. 6 1. 0.919 0.61 1 6.6 10. 6 1. 0.919 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. 5.5 1 0 15 5.5 1 5.5 1 1. 1. 1..0.0.0.0 1. 1. 1. 1. (mm ) (0 degrees C) (MΩkm)

Festoon System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible 0V PNCT/0V CUPNCT Hanger and clamp Wire or chain Messenger wire or rail Bar Standards ated Voltage ated Temperature Test Voltage Feature Application Core identification Standard Specification No. : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment : AC 0V : 0 degrees C : 0V / 1 minute : High flexibility and impact resistance : Festoon System and Lift System * Please use CAPNCT for cable chain system (10 cores or more) and carrier drum system. : Color coding / tracer method (ref. Page 9 of the Technical Data) : SP9719006ev.1 Crosssection 0V PNCT Crosssection 0V CUPNCT core einforcement (sailcloth)* core einforcement (embedded yarn braid)* 1core Filler Binder einforcement (sailcloth)* 1core Filler Binder einforcement (embedded yarn braid)* * Embedded yarn braid of reinforcement has higher flexibility than that of sailcloth. 10

11 0V PNCT, 0V CUPNCT of einforcement Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius (mm ) 1 5 10 1 16 0.9.1 1 1 1 15. 16. 1.7.1.9.1 1 1 1 15..1.9.1 1 1 1 15..1.9.1 1 1.1.6.7.9.0.0....6..9.9.0..6.9...6...9.0.1..9.0..5. 5.0.9.0.1...9.1..6..0.1...6..6...0.9..1. 1 1.0 1 1.0 19.0 5 7 1 15.0 1 1.0 19.5 0 6 17.5 19.0 1 5 1 6 5 9 5 1 19.0 1 7 7 0 6 9 1.5 1 7 6 1 9 15 95 5 6 15 955 1,10 1,0 1,10,00 0 10 75 1,10 1,0 1,690,,590,0,90 95 90 90 5 900 1,0 1,770,090,7,,1,9 65 590 7 1, 1,790,10,6,0, 0 565 70 790 1,00 70 1, 1,00 1, 1, 1, 1,5,00 1,, 00 00 00 00 00 0 90 10 190 00 90 10 10 00 10 0 0 10 1 190 10 0 70 10 1 10 0 0 10 1 10 00 10 10 10 0 0 70 1 0 15 5.5 1 0 5.5 1 0 5.5 1 5.5 / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 19// 7// 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 7/0.6 5/ 70/ / / 7/0/ 7/7/ 7// 19/16/ 19/0/ 7/0.6 5/ 70/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/.5 9 0.661 5 11 9 0.19 0.156 0.16 10. 6 1. 0.919 0.61 1 9 0 0.199 10. 6 1. 0.919 0.61 1 9 0 0.199 10. 6 1. 0.919 0.61 1 9 10. 6 10. 10. 10. 10. 10. 10. 1. 1..1.1.1.1.7.7 1. 1. 1. 1. 1..1.1.1.1 1. 1. 1. 1. 1..1.1.1.1 1. 1. 1. 1. 1..1.1 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. * There is no difference in the specified values of the above table between PNCT and CUPNCT.

Festoon System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible (Overall Shielded Type) 0V PNCTSB (0V CUPNCTSB) * 0V PNCTSB and 0V CUPNCTSB have quite the same structure. Standards : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : High flexibility Application : Festoon System and Lift System * Please use CAPNCTSX for cable chain system (10 cores or more) and carrier drum system. Core identification : 1. Concentric lay cable Color coding / tracer method (ref. Page 9 of the Technical Data). Twisted pair cable Core identification (black x white) Pair identification (numbering of the tape onto each pair) Crosssection Hanger and clamp Wire or chain Messenger wire or rail Bar 0V PNCTSB (0V CUPNCTSB) Concentric lay cable 1 5 For twisted pair cable 0core Filler Binder Shield braid Standard Specification No. : SP971900ev. (concentric lay cable) SP019001ev.1 (twisted pair cable) Twisted pair cable 6pair Filler Binder Shield braid 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. 0V PNCTSB, 0V CUPNCTSB (Concentric Lay ) 5 (mm ) /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ of Shield Braid.0.0.0.1.0.0. 1 1.0 1.0 1.5 1 1 1 15.0 1 1 1.5 16.5 1 1.5 15.5 17.5 1 155 15 5 15 15 95 175 15 00 55 5 Max. (0 degrees C) 6.6 10. 6.6 10. 6.6 10. 6.6 10. (0 degrees C) (MΩkm) Permissible Bending adius 70 0 0 90 70 0 90 90 0 90 90 90 90 1

1 0V PNCTSB, 0V CUPNCTSB (Concentric Lay ) of Shield Braid Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius (mm ) 6 10 1 16 0.0.1.1........6...7..7.9.7..1.6..9. 1.5 15.5 16.5 19.0 17.5 19.0 1 1.0 19.5 1 5 19.5 7 6 7 5 5 5 95 55 510 55 5 5 5 95 95 75 60 00 1,190 595 770 975 1, 695 90 1, 1,70 15 1,00 1,,070 90 10 10 1 10 1 10 1 10 00 10 10 /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ /0.1 7/0.6 5/ 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. 6.6 10. P () P (6) P () 5P (10) 6P (1) 7P (1) P (16) Pairs () of Shield Braid Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius (mm )...6..7.6..6.7.0.7.9.1.9.0..0. 19.5 1 5 1 6 5 9 5 7 7 7 5 1 0.65 70 0 65 5 5 7 55 6 90 6 790 1,10 7 90 1, 90 1,00 1, 1,010 1, 1,00 10 1 1 1 10 00 10 10 10 00 00 10 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 10. 10. 10. 10. 10. 10. 10. 0V PNCTSB, 0V CUPNCTSB (Twisted Pair )

Festoon System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible (Overall Shielded Type) 0V PNCTSB/0V CUPNCTSB Hanger and clamp Wire or chain Messenger wire or rail Bar Standards ated Voltage ated Temperature Test Voltage Feature Application Core identification Standard Specification No. : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment : AC 0V : 0 degrees C : 0V / 1 minute : High flexibility and impact resistance : Festoon System and Lift System * Please use CAPNCTSX (special shielded type) for cable chain system (10 cores or more) and carrier drum system. : Color coding / tracer method (ref. Page 9 of the Technical Data) : SP1119009 Crosssection 0V PNCTSB Crosssection 0V CUPNCTSB Filler Binder Shield braid Binder einforcement (sailcloth)* Filler Binder Shield braid Binder einforcement (embedded yarn braid)* 0V PNCTSB, 0V CUPNCTSB (mm ) 7/0.6 1. of Shield Braid of einforcement.9 * Embedded yarn braid of reinforcement has higher flexibility than that of sailcloth. 17.5 15 Max. (0 degrees C) 10. Permissible (0 degrees C) Bending adius (MΩkm) 7/0.6 1..9 1.0 10. 7/0.6 1..0 19.5 0 10. 10 5 7/0.6 1..1 1 90 10. 1 6 7/0.6 1.. 565 10. 10 7/0.6 1. 900 10. 0 7/0.6 1.. 5 1,0 10. 10 7/0.6 1..1 0 1,970 10. 0 * There is no difference in the specified values of above table between 0V PNCTSB and 0V CUPNCTSB. 1

Festoon System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible (Pair Shielded Type) 0V PNCTPSB (0V CUPNCTPSB) * 0V PNCTPSB and 0V CUPNCTPSB have quite the same structure. Hanger and clamp Wire or chain Messenger wire or rail Bar Standards : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : High flexibility Effective against static and electromagnetic induction can be expected because of pair shielded structure. Application : Festoon System and Lift System Core identification : Core identification (black x white) Pair identification (numbering of the tape onto each pair) Crosssection 0V PNCTPSB (0V CUPNCTPSB) 1 5 For twisted pair cable 6pair Shield braid Filler Binder Standard Specification No. : SP955ev.1 * Please contact us when insulation between pair shields is necessary. 0V PNCTPSB, 0V CUPNCTPSB Pairs () P () P (6) P () 5P (10) 6P (1) 7P (1) P (16) 9P (1) 10P (0) 1P () (mm ) 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ of Shield Braid...6..7.6..7..0..9..0.1..1..6.......9 0 5 7 6 9 6 9 1 6 1 9 6 7 9 5 7 0 6 1 0 615 65 555 765 575 65 9 705 0 1, 5 1,000 1,0 95 1,10 1,6 1, 1,70 1,90 1,10 1,5,00 1, 1,670,0 1,570 1,70, Max. (0 degrees C) 10. 10. 10. 10. 10. 10. 10. 10. 10. 10. (0 degrees C) (MΩkm) Permissible Bending adius 10 1 10 1 00 10 190 0 190 10 0 10 0 0 70 0 0 90 15

Festoon System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible (Flat Type) 0V SKPNCT Hanger and clamp Wire or chain Messenger wire or rail Bar Standards : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : 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. Application : Festoon System and Lift System Core identification : 1. Unit : by the color of tapes on the unit. Core : color coding / tracer method (ref. Page 9 of the Technical Data) Standard : SP065ev.1 Specification No. Crosssection 0V SKPNCT Core arrangement (core) (core) Power core Control core Filler (0core) (core) (56core) (6core) (7core) (0core) 0V SKPNCT (mm ) Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius 7/0/ 1..6 15.5X5 1,1 9 7// 19/0/ 1 1..9. 1.0X X5 1,7,700 5 9 00 00 19// 15..0.9 X66, 0.19 00.9 1.0X 1,. 19.0X55 1, 10 0 19.5X6 1,90 10.9 1.0X, 56.9 1.0X10,7 6. 19.0X109,00 10 7.9 1.0X16,90 0 19.5X15,9 10 * Please contact us in case of using counter weight to the cable. 16

Carrier Drum System Flexible EP ubber Insulated Chloroprene ubber ed Flexible 0V CAPNCT/0V CAPNCT Power receiving end (moving) D clamp Wire rope clamp clamp D Carrier drum Standards ated Voltage ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : Lateral pressure resistance Application : Traversing carrier roller system of overhead cranes and cable chain systems. Core identification : Color coding / tracer method (ref. Page 9 of the Technical Data) Standard Specification No. : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment : AC 0V : SP99 SP019001 Crosssection 0V CAPNCT ubber filler Crosssection 0V CAPNCT ubber filler einforcement Structural Features estrained movement of cores and reduced cable corkscrewing by making rubber sheath solidal structure. obust type of chloroprene is used as sheath for PNCT cables. 0V CAPNCT 6 10 1 16 0 (mm ) 1 1 / / 7/0/ 7/7/ 7// 19/0/ 7// 5/ / / 7/0/ 5/ 5/ 5/ 5/ 5/ 5/.9.1 1.9 1. 1. 1. 1. 1..1..7..0...1..7.1.7..0. 1 0 6 1 1 7 6 9 6 75 7 1,10 1,70 1,790,790,0 65 90 1,90,0 790 15 1,00 1, 1,6,00 Max. (0 degrees C) 1. 0.919 0.61 1 9 1 1. 0.919 (0 degrees C) (MΩkm) 00 00 00 Permissible Bending adius 10 1 190 10 10 1 10 00 0 0V CAPNCT 6 10 1 16 0 (mm ) 1 / / 7/0/ 7/7/ 7// 19/0/ 7// 5/ / 5/ 5/ 5/ 5/ 5/ 5/.9.1 1 1. 1..1 1. 1. 1. 1. 1. 1. 1. 1. of einforcement.1..9.0.5....6.6..0..5 1 5 1 6 5 0 7 1 7 1 6 90 1,70 1,10,,, 690 1, 1,10 1,0 1,5 1,90,0,000 Max. (0 degrees C) 1. 0.919 0.61 1 9 1 (0 degrees C) (MΩkm) Permissible Bending adius 1 190 10 0 70 0 10 190 10 0 17

Carrier Drum System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible (Overall Shielded Type) 0V CAPNCTSX Power receiving end (moving) D clamp Wire rope clamp clamp D Carrier drum Standards : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : Lateral pressure resistance Application : Traversing carrier roller system of overhead cranes and cable chain system. Core identification : Please refer to the figures below. By counting the position from tracer core (red coremain tracer, green coresubtracer) in each layer. core is the drain wire (to be grounded at one end). Standard : SP0719001 Specification No. 10core ed ed ed 1core ed 16core ed Crosssection 0V CAPNCTSX Drain wire Conductive rubber ed 0core ed ed ed core ed ed core Structural Features estrained 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. ubber filler Conductive rubber shielded layer Binder Better lateral pressure resistance compared with that of braided shield type. 0V CAPNCTSX (mm ) Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius 10 5/.7 7 1,0 1 5/.7 7 1,70 16 5/.9 1, 10 0 5/.0 1 1,570 00 5/. 6, 0 5/. 9,6 0 1

Torsion System Flexible Class EP ubber Insulated Chloroprene ubber ed Flexible 0V TOPNCT Power receiving end (moving) Standards : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : High torsion resistance Application : Suitable to the revolving parts of rotary cranes. For small torsion angle, 0V CUPNCT can also be used. Core identification : Color coding / tracer method (ref. Page. 9 of the Technical Data) Standard : SP1119010 Specification No. Crosssection 0V TOPNCT Filler Binder Structural Features Improved slipping performance between cores by individually taping on each core. 0V TOPNCT 6 10 1 16 0 (mm ) 1 / / 7/0/ 7/7/ 7// 19/0/ 7// 5/ / 5/ 5/ 5/ 5/ 5/ 5/.9.1 1 1. 1. 1. 1..1..7..0...1..6.7.9.1. 1 0 6 1 1 7 5 75 75 1, 1, 1,70,70,0 75 770 75 1, 1,0 1,6 1,990 Max. (0 degrees C) 1. 0.919 0.61 1 9 1 (0 degrees C) (MΩkm) 00 00 00 Permissible Bending adius 10 1 190 10 10 00 10 19

eel System Flexible EP ubber Insulated Chloroprene ubber ed Flexible 0V EPNCT/0V EPNCT D Mobile Crane reel Center of traveling Standards ated Voltage : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment : AC 0V Crosssection 0V EPNCT Crosssection 0V EPNCT ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : High resistance to lateral pressure and bending Application : Suitable for the reel systems (manually wound) for crane travel, etc. EP rubber Core identification : Color coding / tracer method (ref. Page 9 of the Technical Data) EP rubber insulation insulation Permissible : (/ steel wire included): 161 x [ cores] (N) or less. einforcement Tension (no steel wire included): 9 x [total crosssection of Chloroprene Chloroprene conductor (mm )] (N) or less. (However, setting this to 1/ of sheath sheath the normal tension is recommended for safety when repeatedly winding.) Permissible Lateral : Class :.9kN/m or less., Class :.9kN/m or less. Pressure Standard Specification No. : SP971900 Structural Features As for conductors of mm or less, steel wires are stranded together to increase the tension resistance. obust type of chloroprene is used as sheath for PNCT cables. 0V EPNCT 6 10 1 16 0 0V EPNCT 6 10 1 16 0 (mm ) 1 (mm ) 1 /TST+/TA /TA 7/0/TA 7/7/TA 7//TA 19/0/TA 7//TA /TST+5/TA /TST+/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+/TA /TA 7/0/TA 7/7/TA 7//TA 19/0/TA 7//TA /TST+5/TA /TST+/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA..9.1 1.6..6.6.6.6.6.6..9.1 1.6..6.6.6.6.6.6 1. 1. 1. 1. 1. 1..1 1. 1. 1. 1. 1. 1. 1. 1....7..0..1..6.6..0.1. of einforcement 1 1 6 9 1 9 1 5 1 7.1..9.0.5...9.1..5 6 5 7 5 0 6 0 6 515 6 1,0 1, 1,,0,070 5 9 0 95 1,00 1,0 1,7,1 665 90 1,90 1,,,,70 7 1,10 1,190 1, 1,6,000,, TA: Tinned annealed copper Max. (0 degrees C) 1. 0.919 0.61 1 9 1 Max. (0 degrees C) 1. 0.919 0.61 1 9 1 (0 degrees C) (MΩkm) 00 00 00 TA: Tinned annealed copper (0 degrees C) (MΩkm) TST: Tinned steel Permissible Bending adius 10 10 90 10 90 0 10 0 0 0 10 0 70 TST: Tinned steel Permissible Bending adius 0 0 10 0 0 0 0

Vertical eel System Flexible EP ubber Insulated Chloroprene ubber ed Flexible 0V E V PNCTF Standards : Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : High flexibility and lateral pressure resistance Application : Vertical reel system used in landfills, etc. Core identification : Color coding / tracer method (ref. Page 9 of the Technical Data) Permissible : (/ steel wire included): 161 x [ cores] Tension (N) or less. (no steel wire included): 9 x [total crosssection of conductor (mm )] (N) or less. (However, setting this to 1/ of the normal tension is recommended for safety when repeatedly winding.) Crosssection 0V E V PNCTF Permissible Lateral Pressure Standard Specification No. :.9kN/m or less. : SP01ev.1 ubber filler einforcement Structural Features obust 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. 0V E(V)PNCTF TA: Tinned annealed copper TST: Tinned steel (mm ) of einforcement Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius 7 5.5 /TST+5/TA /TST+70/TA.6..1. 6 670 990 6 0 10 5.5 /TST+5/TA /TST+70/TA.6.. 7 1,010 1,0 6 70 1 5.5 /TST+5/TA /TST+70/TA.6..0 1,70,00 6 0 * The sheath thickness of 0V E(V)PNCTF corresponds to that of the Class cables. 1

eel System Flexible EP ubber Insulated Chloroprene ubber ed Flexible (Flat Type) 0V HPNCT/0V HPNCT D Mobile Crane reel Center of traveling Standards ated Voltage ated Temperature Test Voltage Feature Application Core identification Permissible Tension Permissible Lateral Pressure Standard Specification No. 0V HPNCT 9 1 15 1 1 (mm ) 0 15 00 : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment : AC 0V : 0 degrees C : 0V / 1 minute : High resistance to lateral pressure and bending : eel system (Traveling) : For power or control core unit core (black, white, and red) core (black, white, red, and green) Control cores Color coding / tracer method (ref. Page 9 of the Technical Data) : (/ steel wire included): 161 x [ cores] (N) or less. (no steel wire included): 9 x [total crosssection of conductor (mm )] (N) or less. (However, setting this to 1/ of the normal tension is recommended for safety when repeatedly winding.) : Class :.9kN/m or less., Class :.9kN/m or less. : SP971900ev.1 7/0/TA 7/7/TA 7//TA 19/16/TA 19/0/TA 19/7/TA 19//TA 19//TA 7//TA 7//TA 7//TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA /TST+5/TA.1 1 1 1 15. 16.9 1.7 1..6.6.6.6.6.6.6.6 1. 1. 1..0.0.0.0.6.7..1..6..0..7 5.1.7.9.0...9 Crosssection 0V HPNCT HPNCT (for power) HPNCT (for control) 1, 1,0 1,710,0,60,6, 5, 5,9,190 9,9 1,0 1, 1,570 1,0,190,510,10 Crosssection Max. (0 degrees C) 9 0.661 5 11 9 0.19 0.156 0.16 0.099 0.00 0V HPNCT Structural Features As for conductors of mm or less, steel wires are stranded together to increase the tension resistance. obust type of chloroprene is used as sheath. 15.0X X 17.5X1 0 X7 1 X51 5 X 7 X65 9 X70 1 X7 6 X7 9 X96 16.5X 17.5X1 19.0X5 1 X9 X5 X57 X66 EP rubber insulation Chloroprene sheath EP rubber insulation ubber filler Chloroprene sheath HPNCT TA: Tinned annealed copper (0 degrees C) (MΩkm) 00 00 00 00 00 00 00 00 EP rubber insulation Inner chloroprene sheath einforcement chloroprene sheath TST: Tinned steel Permissible Bending adius 10 00 10 0 0 0 70 00 10 70 90 0 0V HPNCT (mm ) 0 15 00 7/0/ 7/7/ 7// 19/16/ 19/0/ 19/7/ 19// 19// 7// 7// 7//.1 1 1 1 15. 16.9 1.7 1..6.1.1.1.1.7.7.. of einforecement.6....5.7 5.1 5. 5. 6. 0X9 1X5 X55 6X6 7X66 9X7 1X77 5X6 6X90 1X10 5X11 1,60 1,9,90,970,0,90 5, 6, 7, 9,590 11, Max. (0 degrees C) 9 0.661 5 11 9 0.19 0.156 0.16 0.099 0.00 (0 degrees C) (MΩkm) 00 00 00 00 00 Permissible Bending adius 0 70 0 0 0 * Above value of sheath thickness includes both inner and outer sheath layers.

eel System Flexible Highvoltage EP ubber Insulated Chloroprene ubber ed Flexible (Flat Type) V HPNCT / 60V HPNCT Mobile Crane reel Center of traveling D Standards : Japan s Technical Standards for Electrical Equipment ated Voltage : AC V, AC 60V ated Temperature : 0 degrees C Test Voltage : V rated: 9000V / 10 minutes 60V rated: 00V / 10 minutes Feature : High resistance to lateral pressure and bending Application : eel system (Traveling) Core identification : core (blue, white, and red) core (white, red, blue, and green) Permissible : (/ steel wire included): 161 x [ cores] Tension (N) or less. (no steel wire included): 9 x [total crosssection of conductor (mm )] (N) or less. (However, setting this to 1/ of the normal tension is recommended for safety when repeatedly winding.) Permissible Lateral :.9kN/m or less. Pressure Standard : SP9719005ev. Specification No. Crosssection V HPNCT / 60V HPNCT Inner semiconductive layer semiconductive layer Shield braid einforcement Structural Features obust type of chloroprene is used as sheath. V HPNCT (mm ) of Shield Braid of einforcement Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius 7/0/.0. 6X5,0 9 0 7// 19/0/ 1.0 5.1 5.6 9X65 X76,190, 5 9 70 5 19// 15. 6.0 7X7 6, 0.19 0 7/0/.0 5. 7X75, 9 0 7// 19/0/ 1.0 5.7 6. X5 5X99, 6,00 5 9 0 5 19// 15. 6.9 9X11,0 0.19 6 60V HPNCT (mm ) of Shield Braid of einforcement Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius 7/0/ 5.0 5. 1X7, 9 7// 19/0/ 1 5.0 5.0 5.7 6.0 X7 7X6,00 5, 5 9 5 0 19// 15. 5.0 6. 1X97 7, 0.19 6 7/0/ 5.0 6.1 X9, 9 5 7// 19/0/ 1 5.0 5.0 6. 6. 5X10 9X11 5, 7,0 5 9 5 6 19// 15. 5.0 7. X17 9,910 0.19 690

Optical Composite eel System Flexible Optical Composite Highvoltage EP ubber Insulated Chloroprene ubber ed Flexible (Flat Type) V FGHPNCT/60V FGHPNCT D Mobile Crane reel Center of traveling Standards : Japan s Technical Standards for Electrical Equipment ated Voltage : AC V, AC 60V ated Temperature : 0 degrees C Test Voltage : V rated: 9000V / 10 minutes 60V rated: 00V / 10 minutes Feature : High resistance to lateral pressure and bending Application : eel system (Traveling) Standard core : Metal cores: white, green, red (optical), and blue identification Optical cores: blue, yellow, green, red, purple, and white Optical : (on completed cable) Characteristic Crosssection V FGHPNCT/60V FGHPNCT Permissible Tension Optical Fiber Gl / 15 Gl 6 / 15 Permissible Lateral :.9kN/m or less. Pressure Transmission Loss at 5μm (db/km).0 or less.0 or less Transmission Bandwidth at 5μm (MHzkm) 00 or over 1 or over : (/ steel wire included): 161 x [ cores] (N) or less. (no steel wire included): 9 x [total crosssection of conductor (mm )] (N) or less. (However, setting this to 1/ of the normal tension is recommended for safety when repeatedly winding.) Grounding conductor Inner semiconductive layer semiconductive layer Shield braid einforcement Tension member (center) Optical fiber cord Inner sheath einforcement Optical fiber cord Optical fiber Silicon buffer layer PFA covering High tensile fiber ETFE covering (outer diameter: approx..mm) V FGHPNCT x + 1x + 6 optical fiber cores x + 1x + 6 optical fiber cores x + 1x + 6 optical fiber cores (mm ) 7// 7/0/ 19/16/ 7/7/ 19/0/ 7/7/ 1.1 1.1.0 of einforcement 5. 6.1 6. x90 x99 5x10,5 5,510 6, Max. (0 degrees C) 5 9 11 0.611 9 0.611 (0 degrees C) (MΩkm) Permissible Bending adius 0 5 5 60V FGHPNCT x + 1x + 6 optical fiber cores x + 1x + 6 optical fiber cores x + 1x + 6 optical fiber cores (mm ) 7// 7/0/ 19/16/ 7/7/ 19/0/ 7/7/ 1.1 1.1 5.0 5.0 5.0 of einforcement * The structures indicated above are typical examples. Please contact us for any other conductor sizes or combinations possible with optical fiber. 6. 6.5 6.7 5x10 7x109 x11 5,6 6, 7, Max. (0 degrees C) 5 9 11 0.611 9 0.611 (0 degrees C) (MΩkm) Permissible Bending adius 5 0 610

Optical Composite eel System Flexible Optical Composite Highvoltage EP ubber Insulated Chloroprene ubber ed Flexible (ound Type) 60V FGEPNCT D Mobile Crane reel Center of traveling Standards : Japan s Technical Standards for Electrical Equipment ated Voltage : AC 60V ated Temperature : 0 degrees C Test Voltage : 00V / 10 minutes Feature : High resistance to lateral pressure and bending Application : eel system (Traveling) Standard core : Metal cores: blue, white, and red (grounding conductor: green) identification Optical cores: blue, yellow, green, red, purple, and white Optical : (on completed cable) Characteristic Optical Fiber Gl / 15 Gl 6 / 15 Transmission Loss at 5μm (db/km).0 or less.0 or less Transmission Bandwidth at 5μm (MHzkm) 00 or over 1 or over Permissible : (/ steel wire included): 161 x [ cores] (N) or less. Tension (no steel wire included): 9 x [total crosssection of conductor (mm )] (N) or less. (However, setting this to 1/ of the normal tension is recommended for safety when repeatedly winding.) Permissible Lateral :.9kN/m or less. Pressure Crosssection 60V FGEPNCT Tension member Optical fiber cord Inner sheath Optical fiber cord (grounding conductor) Inner semiconductive layer semiconductive layer Shield braid einforcement Optical fiber Silicon buffer layer PFA covering High tensile fiber ETFE covering (outer diameter: approx..0mm) 60V FGEPNCT (mm ) of einforcement Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius x + 1x + 6 optical fiber cores 7// 5.0 5.7 59,90 5 90 7/0/ 9 x + 1x + 6 optical fiber cores 19/16/ 1 5.0 5.9 6 5,070 11 9 7/7/.1 0.611 x + 1x + 6 optical fiber cores 19/0/ 1 5.0 6.0 6 5,60 9 9 7/7/.1 0.611 * The structures indicated above are typical examples. Please contact us for any other conductor sizes or combinations possible with optical fiber. 5

Gravity Collector Basket System Spreader Spreader (for quayside cranes) 0V SPDFHNCT Power receiving end (moving) Standards : Hitachi Metals Original Design ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : Stable collecting performance into the basket, and high lateral pressure resistance. Application : Suitable for gravity collector basket system of the container crane at harbors (for Quayside cranes). Core identification : Please refer to the figure below. Crosssection 0V SPDFHNCT ed ed ed ETFE insulation Filler Tension member Standard Specification No. : SP01900 Installation Instructions Use basket of 1.m or more in diameter and the one not having a cone. must be laid into the basket in clockwise view from the top of the crane. Apply grease on the cable surface before installation. 0V SPDFHNCT (mm ) Max. (0 degrees C) (0 degrees C) (MΩkm) 5/ 6.0,710 6 5/ 6,090 5/,0 6

Gravity Collector Basket System Spreader Spreader (for yard cranes) 0V SPD (Y)PNCT Power receiving end (moving) Standards : Japan s Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : Stable collecting performance into the basket, high bending resistance, and superior mechanical characteristics for torsion. Application : Suitable for the gravity collector basket system of yard crane (TG, etc.) at harbors. Core identification : Please refer to the figures below. 15 16 9 5 17 1 6 1 1 1 7 7 19 1 6 0 11 9 10 5 1 core 5 17 16 15 1 6 1 6 5 1 9 19 7 1 1 6core 0 1 7 1 9 10 11 6 5 Crosssection 0V SPD (Y) PNCT Filler 1 0 1 9 0 7 19 7 6 1 6 17 5 9 1 5 16 5 10 6 11 7 1 1 9 1 15 1 Precautions for Use Binder It is recommended to use a basket with large diameter as much as possible. must be laid into the basket in clockwise view from the top of the crane. Hoisting stroke: m or less. Hoisting speed: m / minute or less. core Standard Specification No. : SP111900 0V SPD (Y)PNCT TA: Tinned annealed copper TST: Tinned steel (mm ) Max. (0 degrees C) (0 degrees C) (MΩkm) /TST + 5/TA.6. 7,1 6 /TST + 5/TA.6 0, /TST + 5/TA.6,9 7

Instrumentation Flexible EP ubber Insulated Chloroprene ubber ed Flexible KPNCT/KPNCTSB (Overall Shielded Type) Standards : Hitachi Metals Original Design ated Voltage : Low voltage circuit (V or less) or lowcurrent circuit. ated Temperature : 0 degrees C Feature : High flexibility, weather resistance, and sealing performance. Application : For civil engineering measurements Core identification : Color coding / tracer method (ref. Page 9 of the Technical Data) Standard : SP1119011 Specification No. SP111901 Crosssection Crosssection KPNCT KPNCTSB Filler Shield braid KPNCT (mm ) Approx. Overall Max. (0 degrees C) (0 degrees C) (MΩkm) 1/0.1 0.7 1. 6. 65 66. 0/0.1 1. 7.7 5 9. KPNCTSB (mm ) of Shield Braid Approx. Overall Max. (0 degrees C) (0 degrees C) (MΩkm) 1/0.1 0.7 7.6 75 66. 0/0.1 1..5 95 9.

PVC Flexible PVC Flexible 0V VCT Standards : JIS C 1, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : degrees C Test Voltage : 0V / 1 minute Feature : Light and easyhandling Application : Lead wires for various mobile electrical equipments. Core identification : core (black and white) core (black, white, and red) Crosssection core (black, white, red, and green) Standard : SP1119001ev.1 Specification No. 0V VCT PVC insulation PVC sheath 0V VCT (mm ) 5.5 1 5.5 1 5.5 1 /0.1 7/0.6 5/ 70/ / / /0.1 7/0.6 5/ 70/ / / /0.1 7/0.6 5/ 70/ / /.1.9.1.9.1.9 1. 1. 1. 1. 1. 1. 1.7 1.7.0.1. 1.7 1.7.0.. 1.7.0.1. Approx. Overall. 9.6 1 1.0 1.5 16.5 0 9. 1 1 1.0 15.0 1.0 9.9 1 1.0 1.0 16.5 19.5 95 10 15 05 05 6 15 65 5 790 1 10 15 55 6 995 Max. (0 degrees C) 5.1 15.1 9.79 5..7.9 1.6 5.1 15.1 9.79 5..7.9 1.6 5.1 15.1 9.79 5..7.9 1.6 (0 degrees C) (MΩkm) 0 0 0 0 0 0 0 0 0 0 0 0 * 0V OVCT for oil resistance and 0V VCTSB (shielded) are also available. 9

Vibration Flexible Electric tool EP ubber Insulated Chloroprene ubber ed Flexible 0V TPNCT Standards : JIS C 7, Japan s Electrical Appliance and Material Safety Act, Technical Standards for Electrical Equipment ated Voltage : AC 0V ated Temperature : 0 degrees C Test Voltage : 0V / 1 minute Feature : High vibration resistance Application : Suitable for lead wires of electrical equipments such as electric tool. Core identification : core (black and white) core (black, white, and red) core (black, white, red, and green) Standard : SP111901 (0V TPNCT) Specification No. Crosssection 0V TPNCT 0V TPNCT (mm ) Approx. Overall Max. (0 degrees C) (0 degrees C) (MΩkm) /0.1 1.7.9 105 9. 7/0.6 1.7 9.7 1 15 155 17.7 11. 5/ 1 5 6.1 /0.1 1.7 9. 10 9. 7/0.6 1 1 15 17.7 11. 5/ 1.0 70 6.1 /0.1 1 9. 7/0.6 1 1 10 5 17.7 11. 5/.0 1.0 5 6.1

Fluonlex Flexible (Heat esistant to 00 degrees C) Fluonlex Flexible (Heat esistant to 00 degrees C) 0V FFCT/0V FFCTB (Glass + Stainless Braided Type) Standards : Hitachi Metals Original Design ated Voltage : AC 0V ated Temperature : 00 degrees C Test Voltage : 0V / 1 minute Feature : High heat resistivity (00 degrees C), flexibility, chemical resistance, cold resistance, and flame resistance (grade VW1). Application : 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.) Core identification : Color coding / tracer method (ref. Page 9 of the Technical Data) Ampacities : Please refer to the structure tables below (single cable installation in air, ambient temperature: 0 degrees C). Standard : SP91 (0V FFCT) SP910ev.1 (0V FFCTB) Specification No. Crosssection Crosssection 0V FFCT Fluonlex insulation Fluonlex sheath 0V FFCTB Fluonlex insulation Fluonlex sheath Glass tape Stainless braid Structural Features Fluonlex is a fluoroplastic that has excellent flexibility, mechanical strength, and handling. 0V FFCT 1 6 10 0 (mm ) 00 5 19/7/ 7// 7/55/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 7/0.6 7/0.6 7/0.6 15. 1. 1. 1.... 1.7 1.7.1..6 Approx. Overall 9 6 9.5 1 10.0 1.0 1 1.0 1.0 16.5 5 1,,70,6 05 165 5 00 90 0 5 1,190 Max. (0 degrees C) 0.19 0.099 0.061 10. 10. 10. 10. 10. 10. 10. (0 degrees C) (MΩkm) 0 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, Ampacities (A) 5 55 1, 7 5 6 9 5 0 16 1 0V FFCTB 1 6 10 0 (mm ) 00 5 19/7/ 7// 7/55/ 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 7/0.6 7/0.6 7/0.6 15. 1. 1. 1.... 1.7 1.7.1..6 of Glass Stainless Braid 7 0 1.5 15.0 16.5 1.0 1.0 7 1 1,5,710,10 10 95 0 5 90 515 5 7 1,190 1,610 Max. (0 degrees C) 0.19 0.099 0.061 10. 10. 10. 10. 10. 10. 10. (0 degrees C) (MΩkm) 0 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, Ampacities (A) 70 90 6 5 1 6 5 0 15 1 1

Fluonlex Flexible (Heat esistant to 00 degrees C) Fluonlex Flexible (Heat Shielded to 00 degrees C) 0V FFCTSB (Overall Shielded Type)/0V FFCTBSB (Overall Shield + Glass + Stainless Braided Type) Standards : Hitachi Metals Original ated Voltage : AC 0V ated Temperature : 00 degrees C Test Voltage : 0V / 1 minute Feature : High heat resistivity (00 degrees C), flexibility, chemical resistance, cold resistance, and flame resistance (grade VW1). Application : 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.) Core identification : Color coding / tracer method (ref. Page 9 of the Technical Data) Ampacities : Please refer to the structure tables below (single cable installation in air, ambient temperature: 0 degrees C). Standard : SP919 (FFCTSB) SP119 (FFCTBSB) Specification No. Crosssection 0V FFCTSB Crosssection 0V FFCTBSB Fluonlex insulation Filler Shield braid Fluonlex sheath Fluonlex insulation Filler Shield braid Fluonlex sheath Glass tape Stainless braid Structural Features Fluonlex is a fluoroplastic that has excellent flexibility, mechanical strength, and handling. 0V FFCTSB 6 10 0 (mm ) 7/0.6 5/ 7/0.6 5/ 7/0.6 5/ 7/0.6 7/0.6 7/0.6 7/0.6 of Braid Layer.0.0..7 Approx. Overall 1 1 1 1.0 1.0 1.0 1.0 17.5 7 175 5 05 90 0 55 0 95 1,10 Max. (0 degrees C) 10. 10. 10. 10. 10. 10. 10. (0 degrees C) (MΩkm) 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, Ampacities (A) 7 5 6 9 5 0 16 1 0V FFCTBSB 6 10 0 (mm ) 7/0.6 7/0.6 7/0.6 7/0.6 7/0.6 7/0.6 7/0.6 of Braid Layer.0..7 of Glass Stainless Braid Approx. Overall 15.5 1 19.0 1 90 0 570 15 1,0 1,700 Max. (0 degrees C) 10. 10. 10. 10. 10. 10. 10. (0 degrees C) (MΩkm) 1, 1, 1, 1, 1, 1, 1, Ampacities (A) 6 1 5 0 15 1

Optical Fiber Flexible Optical Fiber Flexible FCGV,FC6GV/FCG6V,FC6G6V etc. Hanger and clamp Wire or chain Messenger wire or rail Bar Standards Feature Application Core identification Optical Standard Specification No. : Hitachi Metals Original Design JIS C 6 (Optical fiber cord) : High flexibility Possible to be delivered with mounted optical connectors. : For the mobile parts of various machines. Festoon system wiring chain system wiring evolving parts : Numbering (ref. Page 9 of the Technical Data) : (on completed cable) : SP1900C Crosssection FCGV Singlecore optical fiber cord Tension member Filler PVC sheath Optical Fiber Gl / 15 Gl 6 / 15 Transmission Loss at 5μm (db/km).0 or less or less Transmission Bandwidth at 5μm (MHzkm) 00 or over 1 or over Singlecore optical fiber cord Optical fiber Silicon buffer layer Nylon covering High tensile fiber PVC covering (outer diameter: approx..mm) Structural Features Tensionproof 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. FCGV, FC6GV, FCG6V, FC6G6V etc. Product Name Type Optical Fiber Cord Core (μm) Clad (μm) Approx. Cord Tension Member Approx. Wire Approx. of PVC Covering Approx. Overall Approx. Mass Permissible Tension (N) Permissible Bending adius FCGV.. 15 0 90 FCGV.. 15 0 90 15. FC6GV 6.. 15 0 90 FCGV..6 17 90 GI FCG6V.. 15 0 90 FCG6V.. 15 0 90 6 15. FC6G6V 6.. 15 0 90 FCG6V..6 17 90 * Please contact us for any other information about number of cores or optical fibers.

Coaxial Chloroprene ubber ed Flexible Coaxial Chloroprene ubber ed Flexible ENCT Standards Test Voltage Feature Application Core identification Example of Product Name Standard Specification No. : Hitachi Metals Original Design : AC 0V / 1 minute : Coaxial cable with flexible conductors. Corresponding to general products with characteristic impedance of Zo=75Ω : Festoon System and chain System : Color coding / tracer method (ref. Page 9 of the Technical Data) : ENCT X (5CE) : SP019001ev.1 Crosssection ENCT Inner conductor Polyethylene insulation Singlecore Inner conductor Polyethylene insulation conductor Binder conductor Inner sheath (polyethylene) Filler Binder core ENCT Nomenclature of Coaxial Inner of of of Inner Chloroprene Characteristic Impedance (Ω) Max. (0 degrees C) (0 degrees C) (MΩkm) Permissible Bending adius (0 degrees C) 1 19/0.1 0.9 5.6 5 1 1 75 0.1 1,000 70 Equivalent to 5CE 19/0.1 19/0.1 0.9 0.9 5.6 5.6 5 5.. 0 70 75 75 1. 1. 1,000 1,000 10 19/0.1 0.9 5.6 5 5 75 1. 1,000 1 /0.1 7.6 1.0 190 75.7 1,000 0 Equivalent to 7CE /0.1 /0.1 7.6 7.6.6.7 5 7 570 700 75 75 5. 5. 1,000 1,000 /0.1 7.6.9 75 75 5. 1,000 10 * Be aware that the outer diameter shall be a bit larger than that of normal coaxial cables.

Technical Data Ampacities Core Identification Material Data Precautions of Use Stock List 6 9 0 1 Confirmation Sheet for Specifications 5 5

Ampacities Ampacities Standard 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. 0V PNCT, PNCT(Lowvoltage ound Flexible ) Nominal CrossSection (mm ) 5.5 1 0 15 00 Ampacities (A) Singlecore cores cores cores 5cores 19 15.5 1 1 1 5 1 1 16.5 15.5 7 1 19 7 9 6 51 0 7 77 6 5 9 6 109 9 76 69 6 19 11 10 9 6 10 15 1 111 10 09 166 1 1 11 5 19 165 19 1 1 1 171 161 0 6 1 11 19 9 11 69 9 9 6 9 59 11 675 69 * structure is based on SP9719001ev.1 (JISC7). * Indicated values are based on the ambient temperature of degrees C, max. rated conductor temperature of 0 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 singlecore cable by the correction factor of the actual multicore cable. * For the reeling system, please calculate by multiplying the correction factor of the reeling system. V, 60V PNCT(Highvoltage ound Flexible ) Nominal CrossSection (mm ) 1 0 15 00 Singlecore 11 179 05 9 7 7 75 7 6 567 69 Ampacities (A) cores 0 105 16 16 171 195 5 71 6 * structure is based on the Hitachi Metals standards. * Indicated values are based on the ambient temperature of degrees C, max. rated conductor temperature of 0 degrees C, and single cable installed in air. * For the reeling system, please calculate by multiplying the correction factor of the reeling system. 6

0V HPNCT, 0V HPNCT, V HPNCT, 60V HPNCT (Flat Flexible ) Nominal CrossSection (mm ) 1 0 15 00 Ampacities (A) cores, cores 6 99 11 1 151 11 0 59 15 * structure is based on the Hitachi Metals standards. * Indicated values are based on the ambient temperature of degrees C and max. rated conductor temperature of 0 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 monospiral reeling system. 0V VCT(PVC ound Flexible ) Nominal CrossSection (mm ) 5.5 1 0 Ampacities (A) Singlecore cores cores cores 1 1 10 9 19 16 1 1 5 19 17 7 5 9 1 6 6 51 9 71 6 55 115 165 195 5 70 19 * structure is based on SP1119001ev.1 (JISC1). * Indicated values are based on the ambient temperature of degrees C, max. rated conductor temperature of 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 singlecore cable by the correction factor of the actual multicore cable. 7

Ampacities Correction Factors for Ampacities Correction Factors for Multicore s 5 6 7 9 10 11 1 Correction factors 0.65 9 5 1 9 6 1 1 15 16 17 1 19 0 1 Correction factors 1 0 9 7 6 6 5 Correction factors 5 6 7 9 1 0 0 0.9 0.9 Correction Factors() at Different Ambient Temperatures Ambient Temperature (C) Correction PNCT factors VCT 0 5 5 0 5 55 65 70 0 5 0 0.95 9 0.77 0.71 0.6 5 6 9 0 0.91 0.71 1 = ated temperature Actual ambient temperature ated temperature Given ambient temperature for given ampacity Correction Factors for eel System Type Flat Type ound Type Turns Monospiral eeling Monospiral eeling 1 Correction Factor 0.70 5 5 0.65 5 5 1 0. 10 0.6 Correction Factors for Multiple Installation in Air (1) 1~1 s s 1 6 6 9 1 Arrangement S=d S=d S=d 0 d S S S S S S S S 5 0.95 0 0 0.95 0 0.70 0.90 0.95 S 0.70 0.90 0.95 S S S S S S S S S 0 5 S S S S S 0 5 S: Distance between centers of the adjacent cables. d: * Excerpt from the JCS 0161 'Ampacities of Power s for ated Voltages up to KV' of Japanese Maker s Association Standard. 0. 0.90 0.95 5 0.90 S S () For other installation Distance between centers of the adjacent cables S=d S=d Level (n) ow (m) 1 7~0 0.70 0 5 6 0. 6 0.7 0.7 S: Distance between centers of the adjacent cables. d: 7 ~0 1 0 0.71 0.70 5 6 7 9~10 11~1 1~15 16~19 0 1 7 0.6 0.66 0.65 1 0.65 0 0.6 0 0.6 0 0.6 0 0.61 0 0. * Excerpt from the JCS 0161 'Ampacities of Power s for ated Voltages up to KV' of Japanese Maker s Association Standard. Ampacities at ShortCircuit Approximate ampacity at shortcircuit can be obtained by the following formula. Ampacities at ShortCircuit = K S Constant No. (copper conductor + : 19) (copper conductor + PVC insulation: 95) Crosssection of conductor (mm ) T Duration of shortcircuit current (sec.)

Core Identification Color Coding / Tracer Method, white, red, and greenshall 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, blackblackand they are identified by counting the position of the cores. Please refer to the table below for the details of core number. ed 6core ed ed core 5 6 7 9 10 1 16 0 No. Layer 1st layer 1st layer 1st layer 1st layer 1st layer 1st layer 1st layer 1st layer 1st layer nd layer 1st layer nd layer 1st layer nd layer 1st layer nd layer 1st layer nd layer 1st layer nd layer rd layer 1 5 6 7 9 10 11 1 1 1 15 16 ed ed ed ed ed ed ed ed ed ed ed ed ed ed ed ed ed ed ed Flexible for Carrier Drum System (0V CAPNCT) Core arrangement of 10core and core cable is different from that of general cables above. No. 1 5 6 7 9 10 11 1 1 1 15 16 17 1 Layer 10 1st layer ed 1st layer ed nd layer ed * For the core identification of 0V CAPNCTSX, please refer to Page 1. Numbering Method This is suitable mainly for multicore plastic cable, such as vinyl and polyethylene. Figures of Identification 0 9 10 19 1 10 1 7 9 5 1 11 6 6 17 1 5 7 16 1 15 1 10core 0core 15 16 9 5 17 1 6 1 1 1 7 7 19 1 6 0 11 9 5 10 1 core 9

Material Data Material Properties General properties of each material are shown as below. Item Type Code Polyvinyl Chloride PVC Ethylene propylene rubber Ethylene and tetrafluoro ethylene Chloroprene rubber Fluonlex EP ETFE C Specific Gravity ~1.0 6 1.7 5~1. 1.7 Electrical properties Voltage withstand (kv/mm) Volume resistivity ( cm) Dielectric constant Dielectric loss tangent (%) 0~5 10 1~15 6~ ~1 7~ 10 16 5 or less 0~5 >10 16.6 0. 15~5 10 7~1 7~10 15 or less 0~ 10 16. Mechanical property Tensile strength (MPa) Elongation (%) Wear resistance 15~5 ~.~15 00~1,000 59~69 00~ ~0 ~1,000 7.~1 Flame retardancy X * 1 Heat resistance (max. rated temperature) 0 75 00 Cold resistance (brittle temperature) 15 5 * 55 Weather resistance Ozone resistance Oil resistance X Water resistance The above table shows only typical values since individual property depends on compound. * 1. Special compound additionally provided with flame resistance is also available. *. For mobile use, it is recommended to use the cable at 0 degrees C or over. Special compound with improved cold resistance (brittle temperature) is also available. Quite Excellent Excellent Very good Good Fair Poor 0

System Application 1. Festoon System Precautions (1) Permissible bending radius () of the cable shall be as follows. However, if specified in the individual specification, prioritize the indicated value. Type Lowvoltage Highvoltage d d emarks d : diameter d : diameter ound 6d 6d Flat Hanger and clamp Wire or chain Messenger wire or rail Bar Please attach a bar to each hanger in order to secure the min. bending radius of the cable when gathering the system. () 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.) () hanger must be fixed so that it cannot be rotated. () Do not unfold the system while cables remain twisted. (5) For multiple installation, please clamp all conductors securely so that the cable becomes flatshaped. (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: 5 degrees/m max).. Chain System (1) Permissible bending radius () of the cable shall be as follows. However, if specified in the individual specification, prioritize the indicated value. Type Lowvoltage Highvoltage emarks ound 6d d d : diameter () 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. Targeted clearance amount: 10% or more of max. diameter of the cable ( of mm) () Only one cable must be routed into each support hole and no multiple cables shall be routed into one hole. (Good example) (Bad example) clamp Power receiving end (moving) clamp Multiple grouping Little clearance () When using a boxtype guide, make sure that the cables shall not be overlapped inside the box. Please use dividers if necessary to prevent interference between cables. (Good example) (Bad example) (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 mm or more (contact length to the cables). Targeted deformation ratio of the cable is approx. 15% for the lowvoltage type cables and approx. 5% for the highvoltage type cables. Insufficient clamping may cause corkscrewing or kink to the cables, which may result in shortcircuit. (6) The length of the straightline portion from the fixed end to the radius curve end of the cable must be secured to the longest possible extent (targeted length: 0 times or more than the cable diameter). 1

Precautions of Use Power receiving end (moving) D System Application. Lift System clamp Wire rope D Power receiving end (moving). Carrier Drum System Carrier drum clamp clamp 5. eel System (Traveling) Precautions (1)Please remove the torsion of the cable before installation. ()Make sure that the distance between adjacent suspensions shall be 1 times or more than the cable diameter (for lowvoltage cables). () For hanging multiple cables, there shall not be any interference between adjacent cables. ()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 straightline portion from the fixed end to radius curve end of the cable must be secured to the longest possible extent (targeted length: 0 times or more than the cable diameter). (6)Using the cable attached with counter weight causes lateral pressure and corkscrewing, which may result in shortcircuit. 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. () For a normal elevator, please use the specified lift control cables. (1) Permissible bending radius () of the cable shall be as follows. However, if specified in the individual specification, please prioritize the indicated value. Type Lowvoltage Highvoltage emarks ound 6d d d : diameter () When installed, the cable shall not be twisted. () Carrier drums shall be transferred with wire ropes. There shall be no tension applied to the cable with enough slack. () 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 mm or more (contact length to the cables). Targeted deformation ratio of the cables is approx. 15% for the lowvoltage type cables and approx. 5% for the highvoltage type cables. Insufficient clamping causes corkscrewing or kink to the cables, which may result in shortcircuit. (1) Permissible bending radius () of the cable shall be as follows. However, if specified in the individual specification, please prioritize the indicated value. Type ound Flat Lowvoltage 10d 1d Highvoltage 15d 16d emarks d : diameter d : diameter () Constant and instant tension applied to the cable must be less than the permissible level. () Lateral pressure applied to the cable shall be as follows. However, if specified in the individual specification, please prioritize the indicated value. Class Lateral pressure (tension/bending radius) PNCT (Without reinforcement in the sheath).9kn/m(kgf/m) or less D Mobile equipment reel Center of traveling PNCT, PNCT (With reinforcement in the sheath).9kn/m(kgf/m) or less () 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. andom 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. () 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 applied 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 times or more than the max. tension applied to the cable. Insufficient clamping may cause corkscrewing or kink to the cable.

Precautions of Use System Application 6. Torsion System (evolving System) Power receiving end (moving) D D Load Fixed reel Moving pulley Power receiving end (moving) 7. Gravity Collector Basket System. Moving Pulley System Power receiving end (moving) 9. Pendant System Precautions (1) Permissible bending radii shall be 6 times or more than the cable diameter (for lowvoltage cables). () 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. ecommended value: 5 degrees/m max.) () 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. () To prevent any concentrative torsional stress to the fixed ends of the cable, make sure to secure a longer length for the straightline 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 singlecore 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, Slay laid cables shall be collected in a clockwise direction). () Coiling diameter must be secured to the largest possible extent (0 times or more than the cable diameter). () Please contact us for the cable selection since it depends on the basket configuration, lifting height, or lifting speed, etc. () 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) eel diameter (D) shall be 0d or more (d: cable diameter). () Make sure that reels can be rotated smoothly. () 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. () 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. () On mounting points of the operation button, suitable protection shall be applied to prevent the cable from partial bending. Chain for suspending the operation box Operation box 10. Vertical eel System (1) Please follow the precautions indicated in 5. eel System (Traveling). () 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. () When using the cable under severe conditions, such as lifting height, lifting speed, or tension, etc., normal cables (EPNCT or EPNCT) may be kinked and shorted. Please consult us when using the cable under such severe conditions. 11. Other Common Safety Instructions (1) For safety, be sure to follow the 'Safety Precautions' indicated on the back of the front cover. () 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. () 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. () Electrostatic shields shall be singleended. Grounding both ends may result in picking up darkcurrent noise. It is also recommended that you actually check the respective end (terminal) and have the more effective side grounded. (5) s 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) 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. () When winding the cable into the figure,, 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. (1)Please handle the optical fiber cord and optical connector carefully (no twisting, stretching, nor excessive bending is permitted). (1)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. (1)When performing a terminal sealing on the highvoltage ( 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.

Stock List 0V PNCT(Class EP ubber Insulated Chloroprene ubber ed Flexible ) (1) Festoon System () Carrier Drum System * As for x ~1mm cables, the color coding of black, white, and green is also available for identification (Product Name: 0V PNCT (G), Standard: SP19001). Product Name 0V PNCT, 0V CUPNCT (Unshielded Type) mm mm mm mm 5.5 mm mm 1 mm mm mm mm mm mm mm mm 1 5 6 7 10 1 16 0 Product Name 0V CAPNCT mm 5.5 mm mm 1 mm mm mm mm mm 1 5 6 7 10 1 16 0 Product Name 0V PNCTSB, 0V CUPNCTSB (Overall Shielded Type) mm mm 1 5 6 7 10 1 16 0 * * 0V VCT(PVC Flexible ) Product Name 0V VCT mm mm 0V FFCT(Fluonlex Flexible (Heat esistant, 00 degrees C)) ** The delivery date is necessary for around 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 0V FFCT 0V FFCTB** 0V FFCTSB 0V FFCTBSB** mm mm mm 6 10 0 6 10 Unshielded Type Overall Shielded Type

Confirmation Sheet for Specifications In order to supply products which meet your need, please confirm the specifications below and inform us. No. Item Details 1 designation Configuration and Class ound type Class Flat type Class Voltage 0V V 60V ( V) 5 6 x (please also indicate multi/pair types) Shield (1) With / Without () Material () Type Equipments that use cables With Without Copper braid Semiconductive rubber ( ) Individually shielded Overall shielded Pair shielded ( ) System Application (1)Festoon System () Chain System ()eel System (Traveling) Hanger and clamp Messenger wire or rail Mobile Crane Bar clamp Power receiving end (moving) reel Center of traveling Wire or chain clamp end (fixed) D end (fixed) ()Vertical eel System (5)Carrier Drum System (6)Lift System (7)Torsion System (evolving) Power receiving end (moving) clamp Wire rope Carrier drum Power receiving end (moving) 7 D D Power receiving end (moving) clamp clamp end (fixed) ()Gravity Collector Basket System (9)Moving Pulley System (10)Pendant System D Fixed pulley Power receiving end (moving) Power receiving end (moving) D Moving pulley Chain for suspending the operation box Operation box Load (*Others ) Detailed Information 9 (1)Bending radius mm ()Tension N(kg) ()Traveling stroke ()Traveling speed m/minute (5)Frequency of repeated use times/day m 10 Whether new installation or replacement (* For replacement, please also let us know of the specifications and name of manufacturer of the existing cables.) New installation eplacement 5

MEMO

MEMO

Materials Company Hulic Asakusabashi Building, 16, Asakusabashi 1chome, Taitoku, Tokyo 115, Japan Tel: +1670 Hitachi Metals Europe GmbH Head Office Immermannstrasse 116, 010 Dusseldorf, Germany Tel: +9190 London Branch Office brook Park, Lower Cookham oad, Maidenhead, Berkshire, SL6 YA, United Kingdom Tel: +16555 South Germany Office, Munich Business Center Bavaria adlkoferstrasse 177 Munich Germany Tel: +9(0)9711511 Milano Branch Office Via Modigliani 5, 0090 Segrate, Milano, Italy Tel: +90751/7561/757 Hitachi Metals America, LLC Detroit Office Pinnacle Office Center, West Eleven Mile oad, Suite, Novi, MI 75, U.S.A. Tel: +1656 San Jose Office 190 Zanker oad, San Jose, CA 9511, U.S.A. Tel: +67900 Hitachi America Inc. Manhattanville oad, Suite 1, Purchase, NY 10577, U.S.A. Tel: +19169900 Hitachi Metals Singapore Pte. Ltd. Head Office 1 Gul Avenue, Singapore 69656 Tel: +656617711 Jakarta epresentative Office Menara BCA th Floor JI. M.H. Thamrin No1, Jakarta 1010, Indonesia Tel: (61)5/61 Hanoi epresentative Office Sun ed iver Building., 5F Phan Chu Trinh Street Hoan Kiem District, Hanoi, Vietnam Tel: +91 Philippine epresentative Office Unit 6 Prime Land, Market ST., Madrigal Business Park, Ayala Alabang, Muntinlupa City, Metro Manila, Philippines Tel: +0/9 Hitachi Metals (Thailand) Ltd. Bangkok Sales Office Unit 1A, 1 th Floor, Ploenchit Tower, 9, Ploenchit oad, Lumpini, Pathumwan, Bangkok 10, Thailand Tel: +66599 Hitachi Metals (India) Private Limited Plot No 9 & 95, Sector, IMT Manesar, Gurgaon10, Haryana, India Tel: +91111 Hitachi Metals Hong Kong Ltd. Suites 1091 1/F Tower 6 The Gateway, Harbour City Tsimshatsui Kowloon Hong Kong Tel: +571 Hitachi Metals Taiwan, Ltd. Taipei Branch 11F, No.9, Xiangyang oad, Zhongzheng District, Taipei City 6, Taiwan Tel: +611777 Hitachi (China) Trading Co., Ltd. Head Office & Sales Div. (Hitachi Metals (Shanghai) Ltd.) 11F, Chong Hing Finance Center, No., NanJing oad (West), Shanghai, 0000, China Tel: +616 Guangzhou Office oom1, Goldlion Digital Network Center, 1 Tiyu oad East, Tianhe, Guangzhou 510, China Tel: +7019 Hitachi Trading (Dalian F.T.Z.) Co., Ltd. oom, Tiancheng IFC, No.1 Jinma oad, Dalian Development Area, Dalian, China 1160 Tel: +611711 http://www.hitachimetals. co.jp/e/ The specifications of products in this catalog are subject to change without prior notice.