Geschirmte Hochspannungskabel
A wide range of shielded cable types for voltages up to 320kVDC.
Many cable types are furnished with semiconductive layers. These layers are smoothing the electrical field, lowering the field strength and provide low partial discharge levels enabling AC operation.
Silicone, PE and EPR dielectrics are standard - miscellaneous dielectrics on request.
UL recognized appliance wiring material - AWM style 3239 and other UL styles.
hivolt.de is able to provide modified standard types or full custom designed cable for applications where special cable types are required.
Not yet in the catalog
HRG213-20-B-2
50kVDC coaxial, 3.1mm2 high voltage cable with PE dielectric and PUR jacket. Suitable to replace standard 50Ω RG213 coaxial cable in high voltage applications.
Halogen free, flame retardant, low smoke (LSZH). RoHS / REACH compliant.
The jacket is resistant against oil, hydrolysis and microbes.
HRG213-20-C-2
50kVDC coaxial, 3.1mm2 high voltage cable with PE dielectric and PVC jacket. Suitable to replace standard 50Ω RG213 coaxial cable in high voltage applications.
RoHS / REACH compliant. The jacket is resistant against oil.
HRG213-50-B-0
50kVDC coaxial, 3.1mm2 high voltage cable with PE dielectric and PUR jacket. Suitable to replace standard 50Ω RG213 coaxial cable in high voltage applications.
Halogen free, flame retardant, low smoke (LSZH). RoHS / REACH compliant.
The jacket is resistant against oil, hydrolysis and microbes.
HSC-120-1E1SAC-2
120kVDC / 40kVAC coaxial, 6mm2 high voltage cable optimized for low partial discharge, robustness and flexibility. Halogen free design with EPR dielectric and a robust flame retardant EVA jacket. Semiconductive layers around the center conductor and the dielectric assure excellent PD behavior. The outer semiconductive layer is cold strippable.
This cable is intended and designed for measurement applications. It is not suitable for permanently powered AC medium-voltage applications. Insulation wall thickness and test voltage are not in line with common standards requirements for medium-voltage cable. Special care and attention is necessary when using the cable.
HRG58-20-2
Shielded PE-X Dielectric High Voltage Cable.
20kVDC coaxial high voltage cable suitable to replace the standard 50Ω RG58 coaxial cable in high voltage applications.
It is fully compatible with SHV, MHV and Kings® type coaxial connectors.
Halogen free, flame retardant, low smoke (LSZH/FRNC). RoHS/REACH compliant.
The jacket is resistant against oil, hydrolysis and microbes.
HRG303-40-U-A-2
Shielded FEP Dielectric High Voltage Cable.
40kVDC coaxial high voltage cable with a solid silver plated copper conductor and a braid of silver plated copper wires. Suitable to replace standard 50Ω RG58 type coaxial cable in high voltage applications. Core dimensions similar to RG58.
It is compatible with SHV, MHV, HC51, HC52 and Kings® type coaxial connectors.
UL recognized AWM Style 3239 (40kV, 150°C, horizontal flame and VW-1 flame, internal use). RoHS/REACH compliant.
Using FEP dielectric and an FEP jacket, the cable can be operated at temperatures of -65 to +200°C. The UL recognition covers operating temperatures up to 150°C. It shows excellent chemical and abrasion resistance properties.
HRG316-10-B-2
Shielded FEP Dielectric High Voltage Cable.
10kVDC coaxial high voltage cable suitable to replace standard 50Ω RG316 type coaxial cable in high voltage applications.
Very flexible due to a small diameter of 2.45mm only and thus ideal for applications in limited space. The dimensions are identical to standard RG316.
It is compatible with our HC55P-316 SHV type coaxial connector.
Solid silver plated copper conductor and a braid of silver plated copper wires. Using FEP dielectric and an FEP jacket, the cable can be operated at temperatures of -65 to +200°C. It shows excellent chemical and abrasion resistance.
HSC-50-1S1SUA-0
50kVDC / 15kVAC shielded high voltage cable optimized for low partial discharge, robustness and high flexibility even at low ambient temperatures. Semiconductive layers around the conductor and the inner dielectric assure excellent PD behavior.
Silicone dielectric and a robust TPE-U / Polyurethane jacket.
This cable can be terminated with our HC7 connector series.
For other cable types please refer to the table below.
Shielded Cable Type Overview
| RATED VOLTAGE |
TYPE |
CONDUCTOR SIZE |
DIELECTRIC MATERIAL |
JACKET MATERIAL |
OUTER DIA |
NOTES |
STA- TUS |
[kVDC] | [kVAC] | [AWG] | [mm²] | [mm] | *1 |
|---|---|---|---|---|---|---|---|---|---|
| 8 | 3 | HSL‑8S‑0.75‑B‑2 | 18 | 0.75 | SILICONE | SILICONE | 4.9 | P | |
| 8 | 3 | HSL‑8S‑1.5‑A‑2 | 16 | 1.5 | SILICONE | SILICONE | 6.7 | P | |
| 10 | 2232 | 6 | 13.6 | LDHMW PE | TPR | 12.7 | S | ||
| 10 | 1 | HRG316‑10‑B‑2 | 0.18 | FEP | FEP | 2.45 | P | ||
| 10 | 3 | HSL‑10S‑0.5‑A‑2 | 0.5 | SILICONE | SILICONE | 4.9 | P | ||
| 10 | HSL‑10S‑1.5‑U‑A‑2 | 16 | 1.5 | SILICONE | SILICONE | 6.9 | Y | ||
| 10 | HSUS‑1022‑19‑2 | 22 | 0.38 | SILICONE | SILICONE | 5.6 | Series *2 |
P | |
| 15 | 5 | 2075S | 12 | 3.1 | SILICONE | 7.1 | S | ||
| 15 | 5 | 2075SVJ | 12 | 3.1 | SILICONE | PVC | 9.7 | S | |
| 15 | HSL‑15S‑3.9‑A‑2 | 12 | 3.9 | SILICONE | SILICONE | 8.9 | P | ||
| 15 | 6 | HSL‑15S‑6‑A‑9 | 10 | 6.0 | SILICONE | SILICONE | 11.6 | P | |
| 20 | HRG58‑20‑2 | 0.50 | PE-X | TPE-U (PUR) |
4.95 | P | |||
| 20 | HRG58‑20‑XV‑U‑2 | 0.50 | PE-X | PVC | 5.1 | Y | |||
| 20 | 6.6 | HSL‑20‑0.38‑SS‑D‑0 | 22 | 0.38 | SILICONE | SILICONE | 7.3 | P | |
| 20 | 6.6 | HSL‑20‑0.38‑SS‑F1‑0 | 22 | 0.38 | SILICONE | SPECIAL SILICONE |
7.5 | E | |
| 20 | 6.6 | HSL‑20‑0.38‑SS‑P1‑0 | 22 | 0.38 | SILICONE | SPECIAL SILICONE |
7.5 | E | |
| 20 | RG213‑020 | 3.1 | PE | PVC | 10.3 | P | |||
| 30 | 130660 | 22 | 0.36 | HDFRPE | PVC | 5.5 | P | ||
| 30 | HPW‑30S‑0.34‑A‑2 | 22 | 0.34 | PE-X | PE-X | 5.45 | P | ||
| 30 | 9 | HSL‑30‑0.38‑SS‑C‑0 | 22 | 0.38 | SILICONE | SILICONE | 11.1 | E | |
| 30 | 10 | HSL‑30‑6‑SU‑A‑x | 10 | 6.0 | SILICONE | TPE-U | 12.3 | S | |
| 30 | HTV‑30S‑22‑0 | 22 | 0.36 | PE-X | PVC | 5.45 | P | ||
| 30 | HTV‑30S‑22‑2 | 22 | 0.36 | PE-X | PVC | 5.45 | P | ||
| 40 | 15 | 2012S | 18 | 0.97 | SILICONE | 7.1 | S | ||
| 40 | 15 | 2012STJ | 18 | 0.97 | SILICONE | TPR | 10.2 | S | |
| 40 | HPW‑40S‑0.5‑A‑2 | 20 | 0.5 | PE-X | PUR | 6.6 | S | ||
| 40 | 1.4 | HRG303‑40‑B‑2 | 0.69 | FEP | FEP | 4.30 | P | ||
| 50 | 15 | 2032S | 16 | 1.2 | SILICONE | 8.3 | S | ||
| 50 | 15 | 2032STJ | 16 | 1.2 | SILICONE | TPR | 10.7 | S | |
| 50 | 6 | HPW‑50S‑0.34‑A‑2 | 22 | 0.34 | PE-X | PVC | 7.28 | S | |
| 50 | 15 | HSC‑50‑1S1SUA‑0 | 16 | 1.33 | SILICONE | TPE-U | 11.7 | P | |
| 17 | HSC‑17‑1SSSOB‑2 | 6 | SILICONE | SILICONE / POLYESTER |
12.9 | E | |||
| 60 | 20 | 2024SVJ | 12 | 3.1 | SILICONE | PVC | 12.7 | S | |
| 60 | 2149SVJ | 18 | 0.97 | LDHMW PE | PVC | 8.6 | P | ||
| 60 | 20 | HSC‑60‑1PSUA‑2 | 18 | 0.97 | LDHMW PE | TPE-U | 7.9 | P | |
| 60 | HXC‑60‑1EA‑8 | 14 | 2.0 | EPR (black) | PVC | 11.1 | P | ||
| 100 | 30 | 2062SVJ | 8 | 8.5 | SILICONE | PVC | 20.8 | S | |
| 100 | 2124 | 16 | 1.2 | LDHMW PE | PVC | 11.2 | P | ||
| 100 | 2125 | 12 | 3.1 | LDHMW PE | PVC | 11.2 | S | ||
| 100 | 30 | HSC‑100‑1PSUB‑2 | 16 | 1.2 | LDHMW PE | TPE-U | 13.4 | E | |
| 111 | HSC‑111‑1X1SVA‑2 | 50 | XLPE | PVC | 44.0 | P | |||
| 120 | 40 | HSC‑120‑1E1SAC‑2 | 6 | EPR | EVA EM8 | 20.6 | P | ||
| 125 | 40 | 2243 | 8 | 8 | EPR | PVC | 19.7 | P | |
| 125 | 40 | HSC‑125‑1E1SAB‑2 | 10 | EPR 3GI3 | EVA EM8 | 21.3 | S | ||
| 125 | HSC‑125‑1E1SVA‑0 | 6 | 13 | EPR | PVC | 19.7 | S | ||
| 150 | 2121 | 12 | 3.1 | LDHMW PE | PVC | 15.9 | P | ||
| 150 | 60 | HSC‑150‑1E1SAB‑2 | 10 | EPR | EVA EM8 | 26.0 | S | ||
| 150 | 45 | HSC‑150‑1PSUB‑2 | 12 | 3.1 | LDHMW PE | TPE-U | 16.6 | E | |
| 200 | 2134 | 12 | 3.1 | LDHMW PE | PVC | 21.6 | S | ||
| 230 | 75 | 2042 | EPR | PVC | 31.1 | X-Ray | P | ||
| 300 | 100 | 2357S | 4 | 21.2 | EPR | 34.0 | S | ||
| 320 | 115 | 2236 | EPR | PVC | 38.2 | X-Ray | P | ||
| *1 - | The preferred cable types have status P. Please refer to the Cable Terminology page for complete list of status designators. |
| *2 - | A large variety of HSUS Series High Voltage Cables is available. Please refer to the datasheet for detailed information. |
Sample Cross Section Views
Disclaimer
The information given here is technical data, not assured product characteristics. It has been carefully checked and is believed to be accurate; however, no responsibility is assumed for inaccuracies. The user has to ensure by adequate tests that the product is suitable for his application regarding safety and technical aspects.
hivolt.de GmbH & Co. KG does not assume any liability arising out of the application or use of any product described.
Safety Advice
Design, installation and inspection of machinery and devices carrying high voltage require accordingly trained and qualified personnel. Appropriate safety rules and directives must be complied with.
Improper handling of high voltage can mean severe injuries or death and may cause serious collateral damage!