HIGH VOLTAGE

Brand Owner (click to sort) Address Description
PADMISER G & W ELECTRIC COMPANY 305 W. Crossroads Parkway Bolingbrook IL 60440 High Voltage, Insulated Switches;
PHENIX Doble Engineering Company 123 Felton Street Marlborough MA 01752 high voltage, high current and high power test systems and components, namely, megohm meters, transformer test equipment, high voltage transformers, direct current and alternating current motor test equipment, core loss testers, alternating current dielectric and resonant test equipment, direct current insulation test equipment and power supplies, high current test equipment for testing thermal and magnetic overloads, ratioing current transformers and testing high current breakers, equipment to test heat cycles of power cables, voltage and current regulators and stabilizers;PHOENIX;
PHENIX Phenix Technologies 75 Speicher Drive Accident MD 21520 high voltage, high current and high power test systems and components, namely, megohm meters, transformer test equipment, high voltage transformers, direct current and alternating current motor test equipment, core loss testers, alternating current dielectric and resonant test equipment, direct current insulation test equipment and power supplies, high current test equipment for testing thermal and magnetic overloads, ratioing current transformers and testing high current breakers, equipment to test heat cycles of power cables, voltage and current regulators and stabilizers;PHOENIX;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A mandrel, useful in high voltage cable splicing and termination operations, having a tapered surface and longitudinal ribs for assembly onto a high-voltage cable to be connected to a premolded or extruded high-voltage component. As the premolded high-voltage component is passed over the mandrel, the mandrel expands the internal cavity of the high-voltage component and may further reduce the loss of lubrication within the internal cavity of the high-voltage component thereby allowing for the high voltage component to be easily installed onto the high-voltage cable. After the high voltage component passes over the apparatus, the high-voltage component may return to a lesser-expanded shape providing a snug fit around the cable member. The high-voltage component may then compress around the cable, with a uniform layer of lubricant remaining in between interior cavity of the high-voltage component and the outer layer of the cable.