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High Voltage Switchgear Series
High Voltage Switchgear (HVS) refers to a centralized collection of circuit breakers, disconnectors, fuses, and switches used to control, protect, and isolate electrical equipment in high-voltage power networks (typically above 36 kV). Acting as the primary defensive shield for electrical grids, HVS ensures network stability and prevents catastrophic equipment damage. It is widely installed in power generation plants, transmission substations, and heavy industrial facilities.
This device is an indoor metal-clad withdrawable switchgear (hereinafter referred to as switchgear), designed for 3.6-12 kV three-phase AC 50Hz single busbar and single busbar sectional systems.
The HXGN66-12 type fixed metal-enclosed switchgear (hereinafter referred to as the switchgear) is a new high-voltage electrical complete set product launched by our company.
The XGN15-12 box-type fixed AC metal-enclosed switchgear (hereinafter referred to as the ring main unit) is a new type of high-voltage electrical product that we have independently designed and developed by introducing excellent foreign technology and in accordance with the requirements of domestic rural power and urban network renovation.
The KYN28-24(Z) series armored withdrawable AC metal-enclosed switchgear (hereinafter referred to as “switchgear”) is a complete set of distribution equipment for 20kV three-phase AC 50(60)Hz single busbar and single busbar sectional systems.
The KYN28-24(Z) series armored withdrawable AC metal-enclosed switchgear (hereinafter referred to as “switchgear”) is a complete set of distribution equipment for 20kV three-phase AC 50(60)Hz single busbar and single busbar sectional systems.
The TBBZ series high-voltage reactive power automatic compensation device, based on the 6kV and 10kV bus network and load conditions, uses a control system to automatically track and switch capacitor banks for power-on and power-off, achieving automatic reactive power tracking compensation with a power factor of over 0.9. It greatly optimizes power quality, reduces losses, and increases the transmission capacity of the power distribution system.