bridge control meaning in Chinese
电桥控制
Examples
- Three - phase full - bridge controlled rectifier ' s fault monitoring system based on dsp
的三相桥式全控整流电路故障监视系统 - Malfunction diagnosis of three - phase full - bridge controlled rectifier based on bp neural network
基于神经网络的三相全控桥整流电路故障诊断 - A development and updating solution for the controlling system of a high - power special pulse power supply as used in the process of potting in magnesium and aluminium ect light - alloy surface is discussed . the power supply controller adopts intel 16 bit signal chip employing the core of controller , full - bridge controlled rectifying and reversing technique in its main circuit , pulse width modulation technique is adopted in controlling circuit
控制器采用intel16位单片机80c196kc为核心,电源主电路采用全控整流技术和逆变技术,控制电路采用pwm (脉宽调制)控制方式,电源实现了双向不对称脉冲输出和在大电流、高电压工况下主要技术参数的大范围连续可调。 - Three - phase full bridge controlled rectifier , filter circuit and the common loads " mathematics models are built and analyzed . according to the rate of the transition process , the controlled rectification power supply can be classified into fast response and slow response . based on identification of the transition processes using the slope method , the different fuzzy control strategy is adopted . the control method can meet the requirements of real time control and non - error regulation . the simulation results verify its practibility . after that . the design scheme based on dsp is introduced including the design of hardware and software flow chart . emc is an important aspect which can not neglected , so the designs of emc are summarized including hardware and software
根据过渡过程的快慢将可控整流电源系统分为快响应过程和慢响应过程,本文在利用响应曲线斜率法辨以过渡过程的基础上,分别针对快响应过程和慢响应过程采取了相应的模糊控制策略,以满足快响应过程要求实时控制,快速跟踪误差变化,慢响应过程要求精确定位,无差调节的要求,仿真结果验证了该方法的有效性,进而分析了用dsp实现该调节器的硬件电路和软件流程的设计思路。