Bidirectional DC/DC Dedicated to Flow Battery Energy Storage System - Shanghai Wenlida Power Electronics

Efficient Heat Dissipation
A combination of multiple heat dissipation methods such as heat sinks, air cooling, or liquid cooling is adopted. It can be adjusted intelligently according to the actual working conditions and ambient temperature to ensure the stable performance of the equipment during long - term operation, and guarantee the continuous and stable operation of the flow battery system.

Intelligent Control
It has intelligent control functions and can automatically adjust working parameters according to the actual situation, ensuring stable and reliable power support for the flow battery and downstream equipment.

High - quality Materials and Processes
High - quality electronic components, insulating materials, heat - dissipating materials, etc. are selected during the manufacturing process. Precise welding processes, automated assembly lines, and strict quality inspection procedures are adopted to improve the product quality and lifespan and reduce the failure rate.

Efficient Conversion
Power semiconductor devices such as IGBTs and MOSFETs are used to achieve efficient DC voltage conversion, reducing energy losses during the conversion process. At the same time, the energy - storage functions of inductors and capacitors are utilized to make the voltage conversion process smoother and more efficient.

Soft - start Function
It can achieve soft - start. By gradually increasing the output voltage and current at the initial stage of startup, the device can enter the working state smoothly, reducing the impact on the flow battery and the load, and lowering the electromagnetic interference during startup.

Real - time Monitoring
It can monitor parameters such as the voltage, current, temperature, and liquid level of the flow battery in real - time. When an abnormal situation is detected, protective measures such as cutting off the circuit and sending out an alarm will be taken. The data can also be transmitted to the remote monitoring center for convenient remote management and maintenance.

Strong Environmental Adaptability
In terms of hardware, electronic components and materials with good high - temperature resistance, low - temperature resistance, moisture - proof, and mildew - proof performance are used. In the structural design, protective measures such as sealed design and heat - dissipation optimization are adopted. In the software, the control algorithm has an adaptive function and can automatically adjust the working state and parameters according to changes in environmental parameters.

Good Electromagnetic Compatibility
Electromagnetic compatibility design techniques such as reasonable circuit layout, shielding measures, and filtering technologies are used to reduce interference to surrounding equipment, enabling harmonious co - existence with surrounding electronic devices and improving the stability and reliability of the entire power system.

Remote Monitoring and Management
It supports remote monitoring and management. Users can remotely access the monitoring system through the Internet using terminals such as mobile phones and computers, obtain real - time equipment operation parameters, and perform remote control operations, improving management efficiency and reducing operation and maintenance costs.