对IGBT缓冲电路设计进行了分析。
开关电源的缓冲电路。
该缓冲电路可以减少电网对变频器的上电冲击。
The cushion circuit can reduce the electrification impact of the power network to the transducer.
RCD缓冲电路的设计降低了IGBT的开关损耗。
RCD snubber circuit is designed to solve the IGBT switching loss problem.
输出缓冲电路可以削减读出电路中所产生的波形尖峰。
The output buffer circuit can reduce spikes of waveforms in the readout circuit.
另外还确定了IGBT的缓冲电路参数、死区时间参数等。
In addition, the appropriate parameters of snubber circuits and dead-times for IGBT were worked out.
一种灯管驱动电路,此灯管驱动电路包括变压器与缓冲电路。
A lamp tube driving circuit includes transformer and buffer circuit.
晶闸管器件性能和缓冲电路参数会影响换流阀内电压分布特性。
The performance of thyristors and the parameters of snubber circuit can significantly affect the voltage distribution in converter valves.
磁滞添加电路(75)连接到缓冲电路的所述至少一个输出端。
A hysteresis adding circuit (75) is coupled to the at least one output of the buffer circuit.
功率器件的电压过冲和电压变化率可以通过缓冲电路来进行抑制。
The voltage overshoot across the power electronics and the voltage variation could be suppressed by snubber.
其中包括地址缓冲、译码器、存储单元、灵敏放大器和输出缓冲电路。
The crucial path includes address buffer, decoder, memory unit, sense amplifier and output buffer.
通过对斩波器中缓冲电路工作过程的分析,提出了一般缓冲电路的模型。
The model for general snubber circuits is presented by means of analyzing the snubber circuit of a chopper.
换流阀内可控硅端电压分布特性取决于可控硅器件性能和相应的缓冲电路参数。
Both performance of thyristor and parameters of snubber circuit significantly affect voltage distribution in HVDC thyristor valve.
同时缓冲电路本身并不消耗能量,而是将能量返回到系统中,提高了整机效率。
Meanwhile, the snub circuit will return the energy to the system instead of consuming it thus to improve the system efficiency.
本文提出了一种新型的缓冲电路,克服了上述两点不足,并给出了相关实验结果。
In this paper, a new type of snubber circuit, which overcomes the above-mentioned shortcomings, is proposed, and relevant experimental results are given.
每一级正相和负 相信号输出端分别与各输出缓冲电路的正相和负相输入端相连。
The input ends of positive phase and negative phase of the first time-delay unit are respectively connected with the output ends of positive phase and negative phase of the last time-delay unit.
实验结果证明,增加缓冲电路和滤波器后,一体化电机系统的传导干扰强度明显减弱。
The experimental(results) show that the EMI level of the integrated motor system has an obvious attenuation after adding snubber and filter.
作为改进,输入缓冲电路组成的阶段拉一拉期间的输出低的条件差分放大器的输出电压略高。
As improved, input buffer circuitry comprises a pull up stage to pull up the voltage of the differential amplifier output slightly higher during an output low condition.
针对TFT - LCD驱动芯片的电荷泵,设计了一个带密勒补偿和一条前馈通路的缓冲电路。
A buffer with Miller compensation and feed-forward path for charge pump of TFT-LCD driver IC was designed.
介绍一种带缓冲电路的新型零电压过渡pwm (ZVT- PWM)软开关boost变换器。
It introduces a new zero voltage transition PWM (ZVT - PWM) soft switching BOOST converter with a snub circuit.
通过拉动输出,输入缓冲电路享有改进的余地,能够可靠信号,低功耗条件,即便当两个输入都很低。
By pulling up the output, the input buffer circuit enjoys improved margin, and is able to reliably signal a low power condition even when both inputs are low.
文章简要讨论了IGBT模块缓冲电路的有关问题,并介绍了美CDE电容模块在缓冲电路中的应用。
This paper briefly discusses about IGBT modules snubber circuit and introduces application of capacitor modules of American CDE Co. in snubber circuit.
单刀双掷模拟开关电路的设计包括四个模块:MOS开关电路、驱动电路、缓冲电路和ESD保护电路。
Four modules are included in the SPDT analog switch, for example, MOS switch circuit, driver circuit, buffer circuit, and ESD protection circuit.
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。
An introduction to a type of lossless snubber circuit applicable to flyback converter was given, and its working principles were analyzed.
简要讨论了IGBT模块缓冲电路的有关问题,并介绍了美国CDE公司的电容模块在缓冲电路中的应用。
Briefly discuss about IGBT modules in snubber circuit and introduce application of capacitor modules of American CDE Co. in snubber circuit.
电视机电源要求非常低的纹波电压,过去电视机所采用的是大的无源rc缓冲电路,使电视机的电源效率比较低下。
The television power supply demands low ripple voltage, and the passive rc buffer circuit used in television before, decreased the power effect.
在分析中小屏幕TFT - LCD驱动芯片的负荷特性的基础上,提出了一种新型的驱动电压输出缓冲电路结构。
Based on the detailed analysis of the loading properties of a medium or small size TFT-LCD driver IC, a novel output buffer circuit of driving voltages is proposed.
仿真和使用结果证明了该缓冲电路具有良好的软开关效果,对于主开关管的电压尖峰和电流尖峰具有较强的抑制作用。
The results of simulation and practical application prove that the snubber circuits have fine soft-switch effect and strong restraint function to the spikes.
为了降低开关管应力,提高变换器的效率,设计了变形rcd缓冲电路,详细分析了其工作原理并计算了主要元件参数。
In order to decrease the switching loss and increase the efficiency of the converter, a improved RCD snubber is presented. Then its working modes are analyzed.
由于采用了一种新型的低损耗无源缓冲电路,开关管和主二极管的电流电压应力较小,并降低了能量损耗,提高了工作效率。
Since the novel low-loss passive snubber circuit is used, the low current and voltage stress, low energy loss and high efficiency properties are achieved.
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