Product Introduction
Precision power distribution cabinets provide high-precision measurement data for terminal energy monitoring systems, reflecting real-time power quality data through display units. The data is then uploaded to the backend environmental control system via digital communication. This achieves real-time monitoring of the entire power distribution system and effective management of operational quality. It helps users optimize network data centers, enhance energy consumption management, improve the operational efficiency of server racks, and provide reliable assurance for a comprehensive green data center. The cabinets offer power distribution, protection, metering, and management for computer grounding services for important equipment such as servers, and are used in fields that require high reliability of power supply and uninterrupted power supply.
Main Function
- Comprehensive Monitoring System
- Measure complete electrical information to provide effective management and risk warning for the power supply system. Provide complete information such as current, energy, and harmonics for the main power input and each branch circuit operation. Precision power distribution cabinets can be combined with a leakage collection unit to achieve online leakage monitoring functions, and at the same time, work with temperature sensor accessories to monitor the temperature inside the cabinet in real time, enhancing the safety of the computer room power supply system.
- High Precision, Wide Range
- Provide precise measurement data while meeting various needs.
- Meet the monitoring requirements for rack-mounted and blade servers' power supply, with a variety of feeder CT ranges to minimize measurement errors. The branch circuit supports up to 100A for circuit measurement requirements.
- Intelligent System Monitoring
- Make operations and energy management more efficient. Allow users to be promptly informed about the operating conditions of the load, multi-level alarm settings prevent potential power supply faults, making it easier for users to detect safety hazards early and avoid distribution risks. The alarms are comprehensive, achieving precise power distribution, reducing the risk of local power outages caused by user misoperation. Precision power distribution cabinets can store 3000 historical records and fault information, data collection has strong timeliness, providing key data analysis, facilitating user analysis of fault causes.
- Advanced Alarm Functions
- Multi-level alarm settings can prevent potential faults to ensure that preemptive measures are taken in response.
- Set up multi-level alarms for parameters such as overload in the return circuit, overvoltage, undervoltage, three-phase imbalance, excessive temperature of isolation transformers, and failure of lightning protection. Through display units or professional gateways, the alarm information can be conveyed to the managers in the first place through display, audio-visual alarms, SMS, and email.
- High Performance, High Integration
- The excellent performance and highly integrated product ensure equipment operation is more stable and secure.
- By processing branch measurements in a centralized manner, the product's high integration significantly enhances the installation capacity within the cabinet and overall operational stability, making it more convenient for users to maintain in the later stages.
Technical Specification Sheet
Inlet circuit:
Real-time monitoring data includes: phase voltage, line voltage, current, temperature.
Through calculations, the following can be detected:
zero-to-ground voltage, current imbalance, active power, reactive power, apparent power, power factor, frequency, bidirectional active and reactive energy, total harmonic distortion of voltage/current (THD) and individual harmonic content (2nd to 63rd), circuit breaker status, lightning arrester status, circuit breaker contact temperature, etc.
Outgoing circuit:
1. Real-time monitoring data includes: voltage, current, circuit breaker contact temperature, micro-circuit breaker on-off status, etc.
2. Through calculations, the following can be detected: power, electrical energy, demand, peak values, harmonics, etc.