Huawei 1600 W DC Power Distribution Box

Huawei 1600 W DC Power Distribution Box. A 1600 W DC power distribution box is C3 type and provides short-circuit protection and overload protection functions.

Functional Role and Target Users in DC Power Systems
The Huawei 1600 W DC Power Distribution Box serves as a crucial component for enterprises requiring efficient DC power distribution with fault protection. Primarily intended for network operators, system integrators, and facility managers, this device manages dual DC input sources and distributes power through eight outputs controlled by four circuit breakers. Its integrated short-circuit and overload protection mechanisms ensure connected equipment remains safeguarded, supporting critical infrastructure stability. The product targets applications needing dependable DC power with redundancy, such as telecom branch rooms and small data centers, where precise power management and safety are paramount.

Technical Specifications Ensuring Reliable and Stable Performance
Built to operate over a broad voltage range from -38.4 V to -72 V DC, the Huawei 1600 W DC Power Distribution Box supports rated voltages of -48 V and -60 V DC, suitable for diverse system configurations. It features dual DC inputs and four circuit breakers controlling eight outputs rated at 40 A each to handle up to 1600 W continuous power, peaking at 2000 W. The box’s rugged design tolerates operating temperatures between -25°C and +55°C and withstands relative humidity up to 95%, making it suitable for various environmental conditions. Compact and rack-mount compatible within 19-inch or 21-inch configurations, its physical design facilitates seamless installation in standard telecom or network racks.

Industry Applications Highlighting Operational Value and Integration
The Huawei 1600 W DC Power Distribution Box is engineered for deployment in telecom infrastructures such as small 5G base stations and branch network rooms where reliable DC power is essential. It supports powering multiple monitoring devices and network switches with protected outputs, ensuring operational continuity during fluctuating power conditions. Its dual-input capability facilitates redundancy, allowing seamless switching between power sources to maintain uptime. This distribution box integrates effectively into existing network environments, delivering controlled and balanced power distribution critical for safeguarding sensitive equipment and minimizing downtime, thereby improving overall network resilience and operational efficiency.


Product Advantages

Design and System Architecture Enhancing Integration and Protection
The structural design of the Huawei 1600 W DC Power Distribution Box incorporates a modular approach with dual DC inputs enabling flexible input configurations, including separate or shared power source options. Its compact dimensions and compatibility with 19-inch and 21-inch racks simplify physical integration within established telecom or data center infrastructure. The inclusion of four 40 A circuit breakers to control eight outputs ensures segmented power distribution with selective fault isolation, thereby reducing system-wide outages. Integrated short-circuit and overload protection paired with manual reset mechanisms maintain system integrity and facilitate maintenance while minimizing operational risks.

Operational Efficiency and User-Centric Functional Benefits
This distribution box provides high reliability with support for rated input voltages -48 V DC and -60 V DC across a wide tolerance range, ensuring steady output voltage performance amidst variable input conditions. Users benefit from effective overcurrent protection that instantly responds to faults, coupled with the ease of manual restoration to resume normal operation. The device’s robust environmental tolerance expands its usability in challenging field locations, while compact rack-mount design supports efficient space utilization. These features collectively enable improved operational uptime, straightforward maintenance, and seamless integration into diverse power management ecosystems.