HV Cable Termination 17.5kV Heat Shrink Kits 1 Core 120-240sqmm SPS 1TIS-12P-B
17.5kV cable termination kits using heat shrink technology are suitable for terminating medium/high voltage (MV-HV) single core paper insulated lead covered cables (PILC) into switchgear, substations and cable termination boxes – outdoor cable terminations also available.
SPS 1TIS-12P-B cable termination kit suits 15kV 17.5kV cables with 120sqmm, 150sqmm, 185sqmm, 240sqmm 1 core conductors.
15kV 17.5kV Cable Termination
HV High Voltage – indoor
- Cable Termination Type – Heat Shrink
- Termination Location – Indoor (Cable Box, Substation, Switchgear, Transformer, Motor)
- Number of Cores – 1 Core
- Conductors – 120sqmm, 150sqmm, 185sqmm, 240sqmm
- Cable Type – PILC (Paper Insulated Lead Covered)
- Heat Shrink Standard Tail Length – 410mm
- Termination Kit Order Code – SPS 1TIS-12P-B
➡ High Voltage Cable Termination 17.5kV Kit List
Also Terminations : 3 Core Indoor 17.5kV PILC | 3 Core Outdoor 17.5kV PILC
Single Core PILC 15kV Terminations
15KV 17.5KV indoor CABLE TERMINATION KITS
The following enables the termination kit selection for 17.5kV 1 core indoor cables:
15kV/17.5kV Cable Termination Indoor | PILC Cable Termination Kit Range | 15kV/17.5kV Cable Termination Outdoor |
1TIS-12P-A | Single Core 50-95sqmm | 1TES-12P-A |
1TIS-12P-B | Single Core 120-240sqmm | 1TES-12P-B |
1TIS-12P-C | Single Core 300-400sqmm | 1TES-12P-C |
1TIS-12P-D | Single Core 500-800sqmm | 1TES-12P-D |
HV Terminatons For Paper Cables
Thorne & Derrick can supply cable joints, terminations and connectors for the connection of paper insulated cables into 11kV/33kV medium and high voltage switchgear and substations.
11kV Paper Insulated Lead Covered Steel Wire Armoured (PILCSWA)
A. Aluminium or copper conductors – stranded sector | rounded circular
B. Layers of paper insulation impregnated with mineral oil compound
C. Figs. 1 & 2 show additional (paper belt) insulation layer on HV cable
D. Lead sheath, covered with bitumen coated paper and hessian layers, as a bedding for the steel armour wires
E. Steel wire armours (SWA)
F. Bitumen coated hessian tape serving (oversheath)
G. Fig 3. Shows an HV screened cable with a conductive layer applied over each core
33kV Paper Insulated Lead Covered Cables
A. Copper or aluminium conductors
B. Layers of paper insulation impregnated with mineral oil compound
C. Conductive layer on each core – insulation screening
D. Lead sheath with bitumen coating
E. PVC oversheath
F. Bitumen coated paper and hessian bedding layers
G. Steel wire armours (SWA)
H. Bitumen coated hessian tape serving (oversheath)
I. Separate lead sheath around each core, on 3 core HSL cable