Manufacturing for KVTR has been discontinued. As an alternative, please refer to P94V.

KVTR relays are available for single or multi-shot,3-pole autoreclosing of a circuit breaker on distribution or transmission systems. They are user-friendly and flexible in their operating logic.

Automatic or manual reclosing configuration

Manufacturing for KVGC has been discontinued. As an alternative, please refer to the C264 AVR function.

The KVGC202 can be integrated into an overall protection and control system by utilising its integral serial communications, thereby providing information for day-to-day management of power systems.

MV outdoor instrument transformers insulated with Hydrophobic Cycloaliphatic Epoxy (HCEP) are available to 15 kV. HCEP and Automated Pressure Gelation technology are combined to create a superior product to older CEP technologies. This technology allows for a competitive product with higher quality and reliability.

GE Vernova offers a wide range of transformer solutions for the utility, industrial, commercial, residential and energy markets. These solutions feature flexible, reliable and robust designs to support a wide range of applications. With units operating in some of the most demanding electrical environments around the world, GE Vernova designs and delivers transformer solutions that provide among the highest level of performance and reliability to meet rigorous operating requirements. 

Manufacturing for this product has been discontinued.

GE Vernova offers a wide range of transformer solutions for the utility, industrial, commercial, residential and energy markets. These solutions feature flexible, reliable and robust designs to support a wide range of applications. With units operating in some of the most demanding electrical environments around the world, GE Vernova designs and delivers transformer solutions that provide among the highest level of performance and reliability to meet rigorous operating requirements.

Collector cable systems are a critical component of a wind plant and play a vital role in efficiently delivering power from wind turbines to the grid. When planning a wind plant, an optimal design of the collector system will minimize electrical losses, minimize cable and trenching costs, and minimize substation configuration costs maximizing the return on investment.