This article concerns about the design for commutating circuit, controlling circuit, and feedback circuit of controllable silicon.
本文所涉及的是可控硅的整流电路、控制电路及反馈电路的设计方法。
Thereby the work principle of this commutating circuit is understood clearly, and an overall and correct foundation for engineering design of the inverter is found.
从而全面、正确地把握了这种电路的工作原理,为晶闸管弧焊逆变器的工程设计找到了正确的依据。
And the law of the commutating current of the breaker is presented with analysis, it will be used for selecting the breaker and confirming the commutating circuit parameters.
并且分析了它们在换流过程中的规律,为电路的开关选择和电流换流回路参数的确定提供依据。
It's possible to control the industry powerful constant circuit of commutating circuit through controlling the guide circuit Angle of controllable silicon by feedback pressure.
通过反馈电压控制可控硅的导通角来实现对工业大功率整流电路的恒流控制。
It's possible to control the industry powerful constant circuit of commutating circuit through controlling the guide circuit Angle of controllable silicon by feedback pressure.
通过反馈电压控制可控硅的导通角来实现对工业大功率整流电路的恒流控制。
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