实验结果表明,该补偿技术能够快速有效的消除快电容瞬态电流,提高实验的操作效率和数据准确性。
The test result of the design demonstrates that the compensation technology could speed up the C-Fast transient cancellation effectively and improve the efficiency and the precision of the experiment.
电流模式控制架构,方便易于补偿设计,并确保快速响应的电压和负载瞬态逐周期电流限制。
The current-mode control architecture facilitates easy compensation design and ensures cycle-by-cycle current limit with fast response to line and load transients.
采用标准分立双极元件,对双极晶体管瞬态辐射光电流分流补偿法进行了实验验证。
Experiment using discrete bipolar transistors has been performed to verify the effect of the photocurrent compensation method.
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