With the HV 1000 C series, SAB Bröckskes, one of the world's leading manufacturers of special cables, has developed new highly robust single-core (SC) and multi-core (MC) cables for high-voltage wiring in construction, agricultural, and special vehicles.
The HV single-core, available in eight standard dimensions with nominal cross-sections from 6 mm2 to 95 mm2, meets the special requirements for safety and reliability in electrically or hybrid-driven utility vehicles.
The multi-core version is available in dimensions from 2 x 2.50 mm² to 5 x 6.00 mm². Due to its high mechanical strength and resistance to environmental influences as well as its very good oil and temperature resistance, the HV single core solution designed for nominal voltages of up to 1,000 V AC/DC is suitable, for example, for the electrical connection of inverters and electric motors.
The HV multi-core cable is used, for example, as a connecting cable to the cabin heater, the e-compressor or the HV heat pump in electric and hybrid vehicles. The double EMC-shielded high-voltage cables with bare copper stranding and orange-colored TPE-U sheathing have a low-temperature resistance down to -50°C according to DIN EN 60811-506 and withstand temperatures of up to +125°C for a operating time of up to 2,000 hours.
The extremely tensile, abrasion and shear resistant outer sheath allows tight bending radii and, in many cases, eliminates the need for installation with additional protective tubing. Other quality and safety features include flame-retardant and self-extinguishing material properties in accordance with IEC 60332-1-2 as well as standardized high resistance to mud, UV, ozone, and salt water. All materials are free of harmful substances and meet RoHS criteria.
In addition to the standard designs, SAB Bröckskes also offers intermediate cross-sections of e.g. 8 mm2 as well as sheaths in other color variants on request.
The exact cable specifications you can find here:
High-voltage single conductor: HV 1000 C - SC
High-voltage multi conductor: HV 1000 C - MC