In this paper, the principle and structure of switching power supply are studied first. Based on the study, a LCD step-up converter with true shutdown and high efficiency is designed using 0.6μm 30V BCD technology.
本论文首先对开关电源的基本原理和架构做了研究,并在此基础上采用0.6μm 30VBCD工艺设计了一款真关断高效率的LCD升压变换器。
参考来源 - 真关断高效率的LCD升压变换器设计·2,447,543篇论文数据,部分数据来源于NoteExpress
研究了直流升压变换器动态响应特性。
The dynamic response characteristics of DC Boost converter were researched.
由于寄生参数的影响,DC - DC升压变换器的输出电压和功率传递效率受到限制。
Because of the effect of parasitic elements the output voltage and power transfer efficiency of DC-DC converters are limited.
而该跟踪升压变换器级又包括输入扼流圈(10)、升压二极管(16)和大电容器(17)。
The boost converter stage in turn comprises an input choke (10), a boost diode (16) and a bulk capacitor (17).
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