特别是在最大功率下,热漏对系统的稳定性没有影响。
Especially, the stability of system working in the maximum power output is independent of the heat leak.
同时由数值计算分析了热漏等循环参数对循环性能的影响,以及循环功率与效率间的关系。
The relations between power output and efficiency and the effect of heat leak and other parameters on the performance of the combined cycle were analyzed by detailed numerical examples.
定量分析了高频功率变压器的激磁电感和漏感,明确了激磁电感和漏感的影响因素。
The magnetinezing inductance and leakage inductor are analysed quantitatively and the effect elements of them are stated.
作为开关电源核心部件的功率变压器的漏感是高频开关电源的主要干扰源之一。
The leakage inductance of power transformer is one ofthe main interference sources in the circuit.
本文介绍一种高可靠的具有自动过流保护的智能高压大功率VDMOSFET,已研制出了漏源击穿电压大于200V;
A high reliability smart power VDMOSFET of high voltage with over current protection by oneself is descrital in the peper.
泄漏损失是指液体从高压处漏回低压处所造成的功率损失。
Leakage losses is the liquid from the high voltage at low drain back to the premises caused by power loss.
在低耦合系数条件下 ,通过基于初级漏感的E类功率放大器和次级漏感的补偿方法 ,提高电容充电电流和传输效率。
In order to improve both charge current and transfer efficiency via a lower coupling coefficient inductive link, class E power amplifier based on primary leakage inductance and compensat.
泄漏损失是指液体从高压处漏回低压处所造成的功率损失。
Leakage loss is refers to the liquid leakage from high pressure to low pressure place of power loss.
然而,由于漏感影响,反激变换器功率开关管关断时将引起电压尖峰,必须用钳位电路加以抑制。
However, due to leakage effects flyback converter power switch off when the voltage spike caused by the need to be inhibited by clamping circuit.
经过这样处理后的器件,漏极射频电流损失小,器件击穿电压和输出功率得以提高。
The device treated by the process is of small loss of drain radio-frequency current and increased electric breakdown strength of device as well as delivered power.
经过这样处理后的器件,漏极射频电流损失小,器件击穿电压和输出功率得以提高。
The device treated by the process is of small loss of drain radio-frequency current and increased electric breakdown strength of device as well as delivered power.
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