Output: 15V / 1500A DC
Technology: High frequency switching
Ripple: <2%
Cooling: Air cooled
Control: Digital ±0.5% precision
Power Level: Pilot plant scale
Applications: Electrolyzer development, CO2 conversion scale-up, fuel cell testing, process demonstration
The Dedicated Electrocatalysis Power Supply is a professional high-power unit built specifically for electrocatalysis research and experimental applications. Firstly, it provides a steady 1500A 15V output to meet the high-current demands of various catalytic reactions. Furthermore, its air-cooled structure supports continuous long-hour operation without extra water cooling systems. As a result, it ensures consistent voltage and current output for accurate and repeatable test data. In addition, it supports precise parameter adjustment to fit different research scenarios. For authoritative research guidelines, you can refer to the Electrochemical Society (ECS) and the International Society of Electrochemistry (ISE).
| Parameter | Specification |
|---|---|
| Input Power | 380VAC Three-Phase, 50/60Hz |
| DC Output | 0–15V / 0–1500A |
| Current Ripple | ≤ 0.5% |
| Control Accuracy | ≤ ±0.5% |
| Control Interface | Touchscreen HMI with recipe storage |
| Cooling | High-efficiency forced air cooling |
| Protections | Overcurrent, overvoltage, overheating, short circuit, arc protection |
| Operating Temp | -10℃ ~ 45℃ |
This power supply offers a strong 1500A output to support heavy-duty electrocatalysis experiments. Specifically, it maintains ultra-low current ripple to ensure stable reaction conditions. Moreover, it allows smooth adjustment of output values to match different material and catalytic needs. Consequently, it greatly improves the accuracy and reliability of research results.
The air-cooled system enables continuous full-load operation without water pipelines. Accordingly, it simplifies installation and reduces daily maintenance in laboratory environments. Furthermore, it avoids water leakage risks and works steadily in a wide temperature range.
With high control accuracy, this unit delivers consistent and repeatable performance. Besides, it supports recipe storage and real-time data monitoring to streamline research workflows. As such, researchers can focus more on result analysis rather than equipment adjustment.
It includes multiple safety functions to protect both the device and experiments. Notably, it responds quickly to overcurrent and short-circuit risks. Additionally, it ensures safe operation even during long-time high-power running.
This unit supports core electrocatalysis studies including HER, OER, and CO₂ reduction experiments. It also provides stable power for catalyst performance evaluation. Therefore, it becomes an essential tool for material and electrochemistry research teams.
Its high-current capacity makes it ideal for scaled-up electrocatalysis tests. Importantly, it keeps stable output even under long-term full load. As a result, it helps bridge lab research and potential industrial applications.
It is widely used in water electrolysis, fuel cell, and green catalytic energy research. Likewise, it helps optimize reaction efficiency for sustainable energy development. Meanwhile, it provides reliable data for new energy technology research.
It serves as a key teaching and research device in university labs. Furthermore, it supports graduate projects and industrial R&D for catalytic materials. Thus, it improves both education quality and research efficiency.
The high-power output and stable performance meet the strict demands of modern catalysis research. Thanks to its low ripple and high precision, it ensures trustworthy experimental data.
The air-cooled design removes complex auxiliary systems and saves lab space. In practice, it is easy to install and operate for all kinds of research environments.
Unlike general power supplies, this unit is specially optimized for electrocatalysis. It provides tailored functions to improve research efficiency and result reliability.
