Snubber circuit of switching power supply.
开关电源的缓冲电路。
RCD snubber circuit is designed to solve the IGBT switching loss problem.
RCD缓冲电路的设计降低了IGBT的开关损耗。
The use of the snubber CIRCUIT is usually recommended for unity gain configurations.
单位增益配置时通常推荐使用缓冲器电路。
This paper presents a novel passive snubber circuit suitable for inverter bridge leg modules.
提出一种适用于逆变桥臂模块的吸收电路。
The model for general snubber circuits is presented by means of analyzing the snubber circuit of a chopper.
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。
See ill. 13-14. The following components are mounted on the Snubber Circuit Board which is attached to each SCR module.
下列将要描述的元件是装在缓冲器线路板上,与可控硅模块相连的元件。
Both performance of thyristor and parameters of snubber circuit significantly affect voltage distribution in HVDC thyristor valve.
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。
An 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。
The performance of thyristors and the parameters of snubber circuit can significantly affect the voltage distribution in converter valves.
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。
Briefly discuss about IGBT modules in snubber circuit and introduce application of capacitor modules of American CDE Co. in snubber circuit.
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。
This paper introduces an advanced ZVT BOOST circuit. In order to enhance the efficiency, a lossless snubber circuit is added for auxiliary switching.
介绍一种改进型ZVTBOOST电路,辅助管增加了无损吸电路,进一步提高了软开关电路的效率。
This paper briefly discusses about IGBT modules snubber circuit and introduces application of capacitor modules of American CDE Co. in snubber circuit.
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。
In this paper, a new type of snubber circuit, which overcomes the above-mentioned shortcomings, is proposed, and relevant experimental results are given.
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。
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.
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。
Parameters of main power devices which include diode, IGBT, capacitor, inductance and buffer snubber circuit have been calculated in main circuit in the article.
本文还对主电路主要功率器件进行了参数计算,包括二极管、IGBT、电容、电感、缓冲吸收电路参数等。
This paper introduces the experimental results of two snubber circuits for the full bridge switch circuit constituted by MOSFETs in case of the inductive load and large current operation.
介绍由MOSFET管构成的全桥开关电路在感性负载下大电流工作时两种吸收回路的实验研究结果。
The parameters of the model were provided for an IGBT of FF300R12ME3 as an example. The model was used in analysis of switching characteristics, snubber circuit, and paralleled operation of the IGBT.
以FF 300r 12me3型IGBT为例给出了模型参数,并将模型应用于IGBT的开关特性分析、缓冲吸收电路设计以及IGBT的并联运行分析。
The operation mode of the circuit is analyzed and the condition of how to achieve soft switch is discussed, how to design the parameters of the snubber is presented as well.
对电路进行了工作模态分析,对于软开关的实现条件进行了讨论,给出了无源无损软开关环节参数的设计原则。
With the technique, a reset circuit of automatic discharge for energy captured in the turn-off snubber capacitor is also presented.
结合此技术,还提出了关断缓冲电容器能量的自动放电复位电路。
This paper puts forward a soft switching circuit of snubber type with a mutual inductance. The analysis result and parameter design method of the circuit are given.
提出了一种采用互感元件构成的缓冲式软开关电路的拓扑,同时给出了电路的分析结果和参数设计方法。
This paper introduces the circuit topology of portable inverter arc welder with soft snubber, mainly power circuit is a double switch forward converter with assistant resonant circuit.
主电路采用具有无源辅助谐振网络的双管正激变换器,与普通双管正激变换器相比,功率管开关状态得到较好的改善,同时并没有增加电路的复杂性。
This paper introduces the circuit topology of portable inverter arc welder with soft snubber, mainly power circuit is a double switch forward converter with assistant resonant circuit.
主电路采用具有无源辅助谐振网络的双管正激变换器,与普通双管正激变换器相比,功率管开关状态得到较好的改善,同时并没有增加电路的复杂性。
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