本文对强流脉冲电子加速器的充电过程进行了分析,并推导出电压传输系数的解析表达式。
The detailed analysis of charging process in the pulsed intense-electron-beamaccelerator is presented. And the expression of voltage-transition coefficient isdeduced as well.
充电电压和放电反峰系数的增大使发热和介质内应力加剧,可以使寿命缩短90%以上。
The increase of charge voltage and discharge inverse peak factor make the life of MLC over 90% shorter by enhancing both heat production and internal stress of the dielectric.
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.
结果表明:充电和放电时交换电流及扩散系数变化不同。
The result shows that the change of the exchange current and lithium-ion diffusion coefficient is different in the charge and discharge process.
失谐系数较小时,可能在充电的初始时刻就发生变压器击穿。
With slight circuit mismatch, the transformer is likely to break down at the initial stage of charging.
失谐系数较小时,可能在充电的初始时刻就发生变压器击穿。
With slight circuit mismatch, the transformer is likely to break down at the initial stage of charging.
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