Output 0-15V DC 0-1200A Adjustable
Power 18kW
Application High-Power Energy Conversion
Best For Industrial Power Systems Renewable Integration Data Centers Telecommunications
This 1200A 15V synchronous rectifier delivers advanced power conversion for demanding applications. Utilizing synchronous rectification technology, it achieves exceptional efficiency while maintaining reliable performance across various load conditions.
Parameter Specification
Input Power 380VAC Three-Phase
DC Output 0-15V DC 0-1200A
Efficiency ≥ 96.8% at 80% Load
Voltage Regulation ≤ 0.35%
Current Ripple ≤ 1%
Control Interface Touchscreen Display with Data Logging
Special Features Adaptive Switching Power Monitoring Thermal Optimization
Cooling System Air Cooling
Protections OCP OVP OTP Phase Loss Protection
Exceptional Energy Efficiency
This synchronous rectifier achieves over 96.8% efficiency. Consequently, energy costs are significantly reduced. Moreover, operational expenses decrease proportionally.
Intelligent Power Management
Adaptive switching optimizes performance. Specifically, it adjusts to varying load conditions. Thus, efficiency remains high across different operating points.
Advanced Thermal Control
The cooling system maintains optimal temperatures. Furthermore, it prevents overheating during peak loads. Therefore, component reliability improves substantially.
Reliable Power Quality
Clean DC output protects sensitive equipment. Additionally, stable voltage ensures consistent performance. Hence, system uptime increases significantly.
This synchronous rectifier serves high-power conversion applications.
In Industrial Manufacturing
The system powers heavy equipment efficiently. Importantly, high efficiency reduces energy consumption. Additionally, production costs decrease accordingly.
For Renewable Energy Systems
It interfaces with solar and wind installations. Similarly, conversion losses are minimized. Consequently, renewable energy utilization maximizes.
In Data Center Operations
The rectifier supports server power infrastructure. Ultimately, reduced heat generation lowers cooling requirements. Therefore, overall PUE improves.
For Telecommunications Networks
It provides clean power for communication equipment. Specifically, stable operation ensures network reliability. Thus, service continuity maintains.
Energy savings result from high conversion efficiency. Moreover, reduced heat output decreases cooling needs. Consequently, total operating costs decline.
System reliability improves through intelligent protection. Furthermore, adaptive features prevent component stress. Therefore, maintenance intervals extend.
Environmental impact reduces with efficient operation. Additionally, power quality minimizes harmonic distortion. Thus, electrical network compatibility ensures.
Scalability allows for system expansion. Specifically, parallel operation supports growing demands. Hence, future power needs accommodate.
In summary, this synchronous rectifier represents advanced power technology. For this reason, it serves applications where efficiency, reliability, and high-power performance are essential operational requirements.
