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AC/DC + DC/DC Hydrogen Production Power Supply
Performance Features
- • Wide regulation range, supporting a power range of 10%~110%;
- • High performance: Maximum converter efficiency over 98%, response speed within 100ms at fastest;
- • High reliability: Adopts water-cooling technology, with strong adaptability to high/low temperature, humidity, coastal, sand-dust and other harsh environments;
- • Grid-friendly: Excellent high-voltage and low-voltage ride-through capability, low grid-connected harmonic distortion rate, suitable for remote areas or scenarios with low system short-circuit ratio;
- • Strong power scalability: Supports multi-machine parallel operation, up to 6 units in parallel;
- • Flexible control for electrolyzers: Start-stop regulation based on electrolyzer characteristics, supports electrolyzer cluster control.
DC/DC Hydrogen Production Power Supply
Performance Features
- • High performance: Maximum converter efficiency over 99%, response speed within 100ms at fastest;
- • High reliability: Adopts water-cooling technology, with strong adaptability to high/low temperature, humidity, coastal, sand-dust and other harsh environments;
- • Strong power scalability: Supports multi-machine parallel operation, up to 6 units in parallel;
- • Designed for DC systems: Can be directly applied to hydrogen production scenarios without AC-DC conversion.
Integrated Hydrogen Production Power Supply Container
Performance Features
Integration & Maintenance
High integration: Integrated development of hydrogen production power supply, transformer, water chiller, high-voltage switch and other equipment, enabling easy installation and maintenance;
Economic Efficiency
Low LCOH (Levelized Cost of Hydrogen): Compact integrated design, small footprint, reduced installation and wiring workload, lowering upfront capital investment;
Environmental Reliability
High reliability: Adopts water-cooling technology, with strong adaptability to high/low temperature, humidity, coastal, sand-dust and other harsh environments;
System Performance
High performance: High conversion efficiency, system efficiency over 97%, response speed within 100ms at fastest;
Smart Interface
Flexible interfaces: Equipped with multiple communication interfaces, supporting CAN, RS485, Ethernet and other protocols.
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Grid-Connected Wind-Solar
Grid-Connected Wind-Solar
Power Hydrogen Production Scheme
Facilitates the accommodation of wind and solar energy through flexible operating modes. Under Hydrogen Priority, power is used for production first; under Grid Priority, dispatching instructions are fulfilled first. Our fully-controlled IGBT supplies feature low harmonics and fast response, perfectly suited for the volatility of new energy.
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Grid-Connected AC Networking
Grid-Connected AC Networking
Hydrogen Production Scheme
Tailored for large-scale projects where generation and production zones are separated. Without strong grid support, our EMS Coordinated Control manages microgrid fluctuations. We provide full-system modeling and simulation to ensure rational design and high-efficiency active/reactive power response.
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Off-Grid DC Networking
Off-Grid DC Networking
Hydrogen Production Scheme
Ideal for distributed and small-scale green power systems. Wind and PV units connect directly to the DC Bus via converters, reducing AC transformation steps. This scheme offers higher theoretical efficiency and utilizes energy storage to maintain perfect system balance and voltage stability.