漏电感对正激和反激式开关电源的影响及设计方法。
The influence and design methods of leakage inductance on forward and flyback switching power supply...
D1和VR1的钳尖端的电压尖峰惹起的变压器漏电感。
D1 and VR1 clamp leading-edge voltage spikes caused by transformer leakage inductance.
在内部故障的情况下,绕组变形将会导致漏电感参数发生变化;
The winding deformation can result in the change of the parameters of leakage inductance during internal fault.
在变压器模型回路方程的基础上,应用等效瞬时漏电感,提出了一种新型变压器保护原理。
A novel principle of transformer protection using equivalent instantaneous leakage inductance, based on the transformer model loop equation, is proposed.
最终得到了电流离散化后增加的漏电感,从而给出实际电感与电流均匀分布时电感的差别。
According to the results, the leakage inductance of the current with discrete distribution is computed and then the distinction between the practical inductance and the perfect one is presented.
该方法不依赖于变压器铭牌上的短路电抗等参数,能实时监测变压器各侧漏电感的变化情况。
The principle is independent of short-circuit reactance and leakage inductance of each side can be effectively monitored in real time.
该原理通过消去变压器回路方程中直接体现主磁通的非线性项,构造了仅含漏电感和绕组电阻的二端网络。
On basis of transformer loop equation, a novel principle of transformer protection using equivalent instantaneous leakage inductance is presented.
该原理通过消去变压器回路方程中直接体现主磁通的非线性项,构造了仅含漏电感和绕组电阻的二端网络。
On basis of transformer loop equation, a novel principle of transformer protection using equivalent instantaneous leakage inductance is presented.
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