0361 TQ
EPR/CSP 0361 TQ H0FR Welding Cable Single Core EPR Insulated CSP sheathed to BS 638 Part4 85 Deg 100V
CONSTRUCTION :
Conductor: Extra Flexible Class6 Tinned/Plain Copper to BS6360. Flexible Class 5 for 120 mm sq and above
Separator: Crepe Paper /PETP Tape
Insulation: Ethylene Propylene Rubber (E.P.R.) to BS 7655
Sheath: Chlorosulphonated Polythylene (C.S.P.) H.O.F.R. ( Heat and Fire Retardant ) to BS 7655
Sheath Color: Orange ( Tinned conductors ) Black ( Plain conductors )
Flexible aluminium conductors available upon request.
APPLICATION :
This range of Cables are designed as highly flexible voltage leads, primarily for the secondary (high current) connection to automatic or hand held metal arc welding electrodes .
May also be used for non welding applications such as earthing return leads, flexible tails on power supply. Busbar connections.
TECHNICAL DATA :
Voltage: 100V (If used in an environment where they are not liable to sustain mechanical damage these Cables may be used at 450/700V in the control panels, switchgears etc.
Temperature Rating: -20 to +85°C
Bending Radius: 6 x Overall Diameter
RATING FACTORS :
The current ratings given are based on an ambient temperature of 25 Deg.
Rating factors for higher temperatures are: Ambient Temp: 30 Deg 35 Deg 40 Deg 45 Deg
Rating Factor: 0.96 0.91 0.87 0.82
Where total cable lengths in excess of 15m are involved, it may be necessary to use cable of larger cross section to ensure that the voltage drop is not excessive and welding currents are maintained at adequate levels.
DUTY CYCLE :
The duty cycle is defined as the time for which the current flows expressed as a percentage of the complete cycle, which is taken as 5 minutes. Since the length of time for which current flows during a welding operation varies, occasional to continuous, the duty cycle can vary from as little as 20% to a maximum of 100% on automatic operation.
Automatic Welding up to 100%.
Semi Automatic Welding 30-85%.
Manual Welding 30-60%.
Intermittent or Occasional Welding up to 20%.
Size
MM |
Stranding
Class |
Stranding
MM |
Thickness of Sheath mm |
Nominal
O/Dia MM |
Weight
Kg / Km |
Max
Duty Cycle
100% |
Max
Duty
Cycle
60% |
Max
Duty
Cycle
30% |
16 |
6 |
513 / 0.20 |
2.0 |
10.9 |
212 |
135 |
175 |
245 |
25 |
6 |
783 / 0.20 |
2.0 |
12.5 |
300 |
180 |
230 |
330 |
35 |
6 |
1107 / 0.20 |
2.0 |
14 |
403 |
225 |
290 |
410 |
50 |
6 |
1566 / 0.20 |
2.2 |
16 |
560 |
285 |
370 |
520 |
70 |
6 |
2214 / 0.20 |
2.4 |
18.6 |
776 |
355 |
460 |
650 |
95 |
6 |
2997 / 0.20 |
2.6 |
21.2 |
1035 |
430 |
560 |
790 |
120 |
5 |
608 / 0.50 |
2.8 |
23.1 |
1300 |
500 |
650 |
910 |
185 |
5 |
925/0.50 |
3.2 |
29.0 |
2050 |
660 |
850 |
1200 |
Electrical Characteristics |
Loading Current Values (amperes)
Nominal Cross Sectional Area mm2 |
Loading Current in Amps for the Following Duty Cycles |
mm2 |
100% |
85% |
60% |
30% |
16 |
135 |
145 |
175 |
245 |
25 |
180 |
195 |
230 |
330 |
35 |
225 |
245 |
290 |
410 |
50 |
285 |
310 |
370 |
520 |
70 |
355 |
385 |
460 |
650 |
95 |
430 |
470 |
560 |
790 |
120 |
500 |
540 |
650 |
910 |
185 |
660 |
715 |
850 |
1200 |
Correction Factors
Cable operating temperature also varies according to the prevailing ambient temperature. These cables are designed to give optimum performance up to an operating temperature of 85°C at an ambient temperature of 25°C.
The reduction factors for increased ambient temperature are:
Ambient Temperature |
30°C |
35°C |
40°C |
45°C |
50°C |
55°C |
Correction Factor |
0.96 |
0.91 |
0.87 |
0.82 |
0.76 |
0.79 |
Conductor Resistance (ohms per kilometre) and Voltage Drop
Nominal Cross Sectional Area |
Maximum Resistance at 20°C Tinned |
Voltage Drop (For Guidance Only) |
Volts Per 100 Amp Per 10 Metres
DC Current * |
20°C |
60°C |
85°C |
mm2 |
ohms/Km |
V |
V |
V |
16 |
1.240 |
1.240 |
1.430 |
1.560 |
25 |
0.795 |
0.795 |
0.920 |
0.998 |
35 |
0.565 |
0.565 |
0.654 |
0.709 |
50 |
0.393 |
0.393 |
0.455 |
0.493 |
70 |
0.277 |
0.277 |
0.321 |
0.348 |
95 |
0.210 |
0.210 |
0.246 |
0.264 |
120 |
0.164 |
0.164 |
0.190 |
0.206 |
185 |
0.108 |
0.108 |
0.125 |
0.136 |
*Note: |
The values for AC Current may be much higher, depending on the configuration of the cables. |
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