The switch convertor can work in continuous current mode(CCM) or discontinuous current mode(DCM) according to the current through the inductance.
根据电感上电流的断续情况,开关变换器可以工作在连续导电模式(CCM)和断续导电模式(DCM)。
Ultimate analysis magnetic elements' characteristic, transformer, inductance design and MOSFET switch component's shaping.
最后分析了磁性元件的特性,变压器,电感的设计和MOSFET开关器件的选型。
Considering the resistor of switch, resistor of inductance and current ripple of inductor, we could get ideal transfer function and non-ideal transfer function.
考虑开关电阻、电感电阻及纹波寄生参数的影响,推导出理想与非理想传递函数。
Based on the analysis results, I got the switch inductance from the CLR modal, designed low resonant frequency MEMS capacitive switches and wideband MEMS capacitive switches.
在此基础上,分析了开关的结构参数改变对散射参量的影响。并且提出了等效电感的计算方法,低谐振频率电容式MEMS开关和宽频段电容式MEMS开关的设计方法。
In common hard switching circuit, high voltage spike usually could be produced during switch transition process because of the effect of transformer leakage inductance and parasitic capacitor.
在常规的硬开关电路中,由于变压器漏感及寄生电容的影响,常常在开关转换瞬间会产生很高的电压尖峰。
In common hard switching circuit, high voltage spike usually could be produced during switch transition process because of the effect of transformer leakage inductance and parasitic capacitor.
在常规的硬开关电路中,由于变压器漏感及寄生电容的影响,常常在开关转换瞬间会产生很高的电压尖峰。
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