摘要
针对特殊环境、密闭空间条件下燃料电池提供动力的需求,以输出功率和电堆性能为主要参考量,研究设计了纯氢纯氧燃料电池电源系统。完成整体结构设计后,基于Moto Tron快速原型开发平台,在Simulink/Stateflow环境下进行控制策略开发,通过自动代码生成和下载,实现控制策略在产品级控制器上的验证。试验结果表明,所设计系统输出功率稳定、电堆工作性能良好;同时,快速原型技术能明显缩短研发周期,并提高仿真和试验的灵活度和可靠性。
To satisfy the power demand for special environment and confined space, a hydrogen-oxygen fuel cell power system was designed, which took output power and stack performance as the main reference conditions.When the design of structure was completed, a control strategy was developed in Simulink/Stateflow environment based on Moto Tron rapid prototyping platform. The control strategy was verified on product level controller by auto code generation. The experiment results show that the power system works well,operates stably. In addition,the development period was shorten,and the flexibility and reliability of the simulation and experiment were enhanced by using rapid prototyping technology.
出处
《电源技术》
CAS
CSCD
北大核心
2016年第2期305-308,共4页
Chinese Journal of Power Sources
基金
高等学校创新引智计划(B08019)
上海市重点学科项目(B303)
关键词
纯氢纯氧燃料电池
快速原型开发
代码生成
hydrogen-oxygen fuel cell
rapid prototype development
auto code generation
