Customized development of electronic control technology for specific scenarios
High quality electronic control solutions empower the entire new energy industry chain
Development of electronic control for hydrogen fuel cells
PEMFC
High temperature working environment, heat-resistant and anti-interference design
Energy management and intelligent fault diagnosis algorithms
Optimized control strategy to further extend the service life of the exchange membrane
Suitable for open/sealed cathode stack types
high temperature PEMFC
High temperature working environment, heat-resistant and anti-interference design
Optimized control strategy to further extend the service life of the exchange membrane
Intelligent fault diagnosis algorithm
Energy management, fast implementation of operating environment
Solid Oxide Fuel Cell
Stable current and voltage control system ensures long-term operation of the battery system
Safety alarm device, timely alarm and self handling in case of abnormal situations
Optimize heat management and recovery to enhance overall efficiency
Hydrogen production electronic control development
The unique integrated hydrogen electric system control architecture of Suyu Technology relies on a unique research and development design concept and a highly self-developed integrated algorithm architecture platform, which has advantages such as high flexibility and strong scalability,
Provide the development of electronic control software and hardware functions, including temperature control, gas control, liquid level control, current control, fault detection and handling, and safety monitoring, to ensure precise control and real-time monitoring of the system at high temperatures. Realize efficient, safe, and stable hydrogen production.
Based on efficient power electronic converters and utilizing pulse width modulation technology,
Adjust the input voltage and current of the electrolytic cell to broaden the input power range of the electrolytic cell
Dynamic response and source efficiency optimization to ensure stable system operation
Based on abnormal event management, advanced control algorithms and abnormal events are utilized
Manage monitoring strategies, improve the system’s self checking capability, and ensure the safe and stable operation of the system
Mechanical, power and electronic control development
High speed and ultra high speed motor/air compressor control
The power module designed with full SiC provides higher efficiency, stronger adaptability and reliability, optimized electromagnetic compatibility, and faster dynamic response. Dynamically adjust the carrier frequency through a variable carrier frequency control strategy to optimize the operational efficiency and electromagnetic compatibility of the equipment.
High efficiency DCDC power supply
The compact design meets multi scenario applications, significantly reducing energy loss, providing a wide voltage range, and achieving optimal performance and efficiency through the use of silicon carbide based power switches, resonant topologies, and optimized control of converters.
Electronic control products
Water cooled programmable integrated electronic controller
Integrated control architecture, fully self-developed fuel cell system development platform
Air cooled programmable integrated electronic controller
Supports multiple platform voltage outputs, with small size, lightweight, high efficiency, safety and reliability, and wide adaptability.
