0被编码为“低电压-高电压”的跳变波形,而1则是“高电压-低电压”的跳变波形。
Then, 0 is encoded as a low-high transition and a 1 as a high-low transition.
实验结果表明该方法能正确地检测电压跌落的幅值、持续时间和相位跳变的信息。
The simulation result indicates that this method can accurately detect the magnitude, duration and phase jump information of voltage sags.
在环境温度发生一个跳变之后,电压偏置的变化可能会比较大。其变化量可能会超过公布的仪器技术指标。
After a step change in the ambient temperature, the voltage offset may change by a relatively large amount, possibly exceeding the published specifications.
对于电压凹陷的三大特征量幅值、持续时间和相位跳变的准确检测是电压质量评估与抑制干扰首先要解决的重要课题。
The correct detection of the voltage sag characteristics (its magnitude, duration and phase Angle jump) is of great importance for the power quality evaluation and its mitigation.
该方法可以实现对单相电压凹陷幅值、起止时刻和相位跳变等特征量的动态检测。
It could dynamically detect voltage sag characteristics including sag amplitude, sag duration and phase jump.
即使待测器件(DUT)从待机状态(低电流)到射频发射状态(高电流)进行快速跳变,它们也能够提供稳定的电压输出。
Even though the device (DUT) is rapidly varying from standby mode (low current) to the RF transmit state (high current), they are also capable of providing stable voltage output.
即使待测器件(DUT)从待机状态(低电流)到射频发射状态(高电流)进行快速跳变,它们也能够提供稳定的电压输出。
Even though the device (DUT) is rapidly varying from standby mode (low current) to the RF transmit state (high current), they are also capable of providing stable voltage output.
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