Driven by global carbon neutrality goals, hydrogen energy—as a zero-carbon energy carrier—is accelerating its transition from industrial deployment to large-scale application. Among these developments, hydrogen inverters, serving as the “heart” of hydrogen fuel cell power generation systems, have become a critical link for integrating hydrogen energy into various sectors.
Efficient DC-to-AC conversion technology allows for seamless integration into the power grid, transportation, and industrial sectors. Recently, significant breakthroughs in hydrogen inverter technology have further propelled the clean energy transition forward, ensuring stability and efficiency in green energy utilization.
| Parameter Item | Specifications (BZP-100KW) | |
|---|---|---|
| Model | BZP-100KW | |
| Isolation mode | Low Frequency Transformer | |
| DC Input | Rated voltage (Vdc) | 600V |
| Rated current (A) | 166A | |
| AC Output | Rated output power | 100KW |
| Output waveform | Pure Sine Wave | |
| Rated Voltage | 380VAC ±3% | |
| Phases | 3 phase 4 wire | |
| Frequency | 50Hz or 60Hz | |
| Power Factor (PF) | 1 | |
| Overload Ability | 150%, 5 seconds | |
| Efficiency | >92% | |
| Waveform distortion (THD) | <3% (Linear load) | |
| Dynamic Response | 5%, ≤50ms (0 to 100% load) | |
| Protection | Input reverse polarity, under voltage, overvoltage, output over-current, short circuit, overheating etc. | |
| Environment | Working temperature | -25~+55℃ |
| Degree of protection | IP20 (Indoor) | |
| Relative humidity | 0~90%, non-condensing | |