1、introduction to a type of lossless snubber circuit applicable to flyback converter was given, and its working principles were analyzed.───介绍了一种反激式变换器零电压关断缓冲电路,同时分析了其工作原理。最后简要地介绍一下其设计方法。
2、The P- curve of photovoltaic cells at same V temperature and different light Interleaved flyback circuit───相同温度、不同光照下光伏电池的P-曲线
3、A simple flyback circuit without parasitic elements───不考虑寄生元件时的简单反激电路
4、design of flyback switching transformer and feedback control loop and the improvement of the circuit for considering electromagnetic compatibility are the critical technologies.───激式开关变压器和反馈控制回路设计,以及考虑电磁兼容性对电路的改进,是其关键技术。
5、design, to produce circuit TL494 as a PWM output control signals, control of the on-switch situation, the half-bridge flyback output on the basis of the power of multi-output.───在设计中,以TL 494作为PWM产生电路输出控制信号,控制开关管的导通状况,在半桥反激式输出的基础上实现了电源的多路输出。
flyback circuit(意思翻译)
回扫电路
flyback circuit(相似词语短语)
1、doubler circuit───二倍器电路,倍加电路
2、novation circuit───更新电路
3、circuit city───电路城;电器产品;环城百货
4、multiplier circuit───乘法器电路
5、circuit boards───电路板;线路板;n.(实验用)电路板( circuit board的名词复数 )
6、circuit───n.[电子]电路,回路;巡回;一圈;环道;vt.绕回…环行;vi.环行
7、parallel circuit───[电]并联电路,平行电路
8、complicated circuit───复杂电路
9、memory circuit───[计][电子]存储电路;存储电路,记忆电路;[电子]记忆电路
flyback circuit(双语使用场景)
1、introduction to a type of lossless snubber circuit applicable to flyback converter was given, and its working principles were analyzed.───介绍了一种反激式变换器零电压关断缓冲电路,同时分析了其工作原理。最后简要地介绍一下其设计方法。
2、The P- curve of photovoltaic cells at same V temperature and different light Interleaved flyback circuit───相同温度、不同光照下光伏电池的P-曲线
3、A simple flyback circuit without parasitic elements───不考虑寄生元件时的简单反激电路
4、design of flyback switching transformer and feedback control loop and the improvement of the circuit for considering electromagnetic compatibility are the critical technologies.───激式开关变压器和反馈控制回路设计,以及考虑电磁兼容性对电路的改进,是其关键技术。
5、design, to produce circuit TL494 as a PWM output control signals, control of the on-switch situation, the half-bridge flyback output on the basis of the power of multi-output.───在设计中,以TL 494作为PWM产生电路输出控制信号,控制开关管的导通状况,在半桥反激式输出的基础上实现了电源的多路输出。