Demand for electronic control in the hydrogen energy industry chain
The scheduling of the hydrogen power system is complex, involving the close coordination of multiple energy sources, and requires a unified scheduling interface
Scheduling of wind-solar-hydrogen-storage integrated system
Large-scale wind farms and photovoltaic renewable energy power control, green power hydrogen production and energy storage
Control system integration (domain control)
Integrated design of energy/power management and inverter/converter control
Silicon carbide based high frequency electric control
Air compressor controller, DCDC converter design
Power electronic new energy grid-connected control
Frequency support, power control, reactive power support
Fuel Cell System Integration
Air-cooled and water-cooled, 100-kilowatt to megawatt-level multi-agent hydrogen power generation system
Fuel Cell System Control
High-performance fuel cell system control and model-based control algorithm development
Software and hardware design of single-stack and multi-stack FCU integrated control
Fuel cell engine control system, stationary power generation system
Electronic control design of integrated hydrogen production hydrogen system
Real-time control and energy management from monomer to system level, including green electricity hydrogen production, hydrogen energy power generation, and grid-side hydrogen-lithium hybrid storage
Rapid iterative upgrade of control software
Cloud platform monitoring, OTA
Ruoyu Architecture Development Kit
Module package
Configure and package the application modules according to the software architecture
Ensure code generation and execution efficiency
SEEEx Base Library: Common Modules
SEEEx Extend Library: extended algorithm module
SEEEx Simulation Library: System Simulation Model
Development tools
Secondary development tools, rapid model development
Rapid development aids: standard naming, module unification, interface inheritance...
Quick check tools: model metric checks, development specification checks...
File configuration tools: data dictionary, model configuration...
Development Platform
Virtual hydrogen power system development platform
MIL, HIL simulation model construction
Development and testing of virtual hydrogen power system, rapid verification strategy
Closed-loop debugging test of the whole system domain, the accuracy of core indicators is within 2.5%
Flexible scalability
Integrated electronic controller
Flexible assembly of modules such as FCU, DCU, ACU, EIS, etc
Air cooled parallel electric control
One drag multiple air-cooled parallel machines, split parallel machines
Integrated solution for reactor control
Support for highly forward integration schemes
External expansion
Bluetooth module, data acquisition card, TBox, touch screen
Ruoyu's core advantages of electronic control architecture
In-depth self-development of software and hardware, bottom-up reconstruction of hydrogen power system architecture
Kernel-level task coordination, cross-core resource scheduling, and parallel execution of algorithms, far exceeding the execution efficiency of a single thread
Relying on the software framework of the full time scale, realize the high and low frequency power electronic composite control technology
Eliminate software redundancy and fully release chip computing power
Rich ecological chain tools, covering software service packages, hardware carriers, system carriers, etc.
Ruoyu Hydrogen Electric Architecture Platform
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