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400A Copper Busbar Chamber - 3-Phase + Neutral  (3P+N)

400A Copper Busbar Chamber - 3-Phase + Neutral (3P+N)

GH₵1,500.00 GH₵1,750.00

Overview:
This high-performance 3P+N Copper Busbar Chamber offers a robust, reliable solution for distributing power in industrial and commercial settings. Featuring premium-grade copper busbars supported by heavy-duty porcelain insulators, this product ensures excellent electrical performance and long-term durability.

Key Features:

  • Triple-Pole + Neutral Configuration: Designed for three-phase systems with integrated neutral—ideal for balanced and safe power distribution. 

  • High Conductivity Copper Busbars: Copper offers superior electrical conductivity, improved heat tolerance, and enhanced corrosion resistance compared to alternatives like aluminum. 

  • Secure Enclosure: Constructed from corrosion-resistant CRCA sheet steel, treated through phosphating and powder coating for longevity. 

  • Built-In Supports: Heavy-duty porcelain insulators ensure proper alignment and insulation of live parts. 

  • Easy Installation: Removable top/bottom knockout plates and conduit provisions streamline mounting and wiring. 

  • Varied Current Ratings: Available in multiple capacities ranging from 32A up to 400A at 415V—suitable for diverse power needs. 

Applications:
Perfect for electrical switchgear, control panels, distribution boards, and enclosures where enhanced conductivity and resiliency are essential.

Specifications:

Specification Details
Poles 3 Phase + Neutral (3P+N)
Material High-conductivity copper busbars
Enclosure Material CRCA sheet steel, powder-coated
Insulation Porcelain supports
Current Ratings From 32 A to 400 A (at 415 V)
Mounting Options Flush or surface mountable
Installation Features Removable knockouts, conduit access

 

Why Choose Our Busbar Chamber?
Using copper dramatically reduces energy loss and heat buildup, leading to longer operational life and lower maintenance costs. Rugged construction and thoughtful design ensure safe, efficient power distribution in demanding environments.

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