Project Overview
This equipment is applied in a new outdoor distribution cabin project for a large industrial park, successfully overcoming extreme harsh environments including high temperature (60℃), high humidity (95%), and severe sandstorms.
Featuring a compact integrated tap voltage regulator (rated capacity 160kVA), high-precision step regulation (stabilization accuracy ±0.8%), and IP65 triple-protection enclosure (waterproof, sand-proof, dust-proof), the system achieves zero-failure operation and provides stable power supply for outdoor auxiliary equipment such as water pumps, fans, and monitoring systems.
Excellent Engineering & Durability
The compact integrated unit combines voltage regulation, intelligent control, communication, and protection modules in one body. Its lightweight design allows direct embedding into new distribution cabins without modifying the original structure.Tap voltage regulation technology delivers gradual and smooth adjustment without voltage surges or power interruptions, automatically adapting to fluctuating loads of outdoor equipment.Built-in high-precision sensors and standard communication protocols (Modbus, IEC 104) enable real-time data collection and seamless connection to the park’s intelligent distribution platform.With IP65 protection and a wide operating temperature range (-40℃ to 60℃), the unit operates reliably in harsh outdoor environments without additional protection devices, and its mechanical service life reaches 8,000 cycles.
Driving Infrastructure Development
As a benchmark solution natively adapted for new outdoor power distribution scenarios in China, Rockwill intelligent remote tap voltage regulation solution is widely used in new industrial parks, remote distributed power supply sites, and outdoor distribution nodes in Northwest and North China.
Adhering to the “Technology + Scenario” innovation philosophy, we provide compact, intelligent, and highly resilient voltage regulation solutions to support the safe, efficient, and digital transformation of new power distribution infrastructure worldwide.
