这些误差来源包括偏置电压、噪声和共模电流以及反向误差。
These error sources include offset voltages, noise and common-mode current, and reversal errors.
详细分析了系统在不同接地情况下的共模电流的流向及其防护。
The flow direction and protection of common currents under different grounding method were analyzed in detail.
其测试诊断步骤依序为:传导发射测试、辐射辐射测试、共模电流测量和机箱泄漏检查。
The testing processes are testing of conductive transmit and radiant transmit, testing of common-mode current and detecting divulgation in turn.
现在,共模电流(ICM)流过r2,产生了一个电压降。这个电压降与被测的电压相加。
Now, the common-mode current (ICM) flows through R2, developing a voltage drop, which is added to the voltage to be measured.
可能出现的共模电流(ICM)从电压表的输入低端流到仪器的机箱公共端,经过大地再流到电压源的地。
Any common-mode current (ICM) that may be present flows from the voltmeter input lo to instrument chassis common, through earth ground to voltage source ground.
本文根据电磁兼容优势效应理论,推导出双绞线传导干扰主要由差模电流引起,辐射干扰主要由共模电流引起。
Basing on dominant effect theory in EMC, conducted emi and radiated emissions of twisted-pair wires are mostly respectively due to differential-mode currents and common-mode currents.
为此根据电磁兼容优势效应理论,推导出双绞线传导干扰主要由差模电流引起,辐射干扰主要由共模电流引起。
Based on dominant effect theory in EMC, the conducted emi and radiated emissions of twisted-pair wires are mainly due to differential-mode currents and common-mode currents, respectively.
从图3- 12可以看出,共模电流(ICM)是从电源线经过电源变压器通过电容耦合(CCOUPLING)而产生的。
As shown in Figure 3-12, common - mode current (ICM) is caused by capacitive coupling (CCOUPLING) from the power line through the power transformer.
由三相pwm逆变器产生的共模和差模电压可以在电机驱动中产生足够大的共模和差模电流。
The common and differential mode voltage produced by the PWM inverter can generate large common and differential current in the motor driving system.
再者,所用的放大器也要考虑在加到输入端的整个共模电压(范围内)输入偏置电流转换保持平滑。
Again, consider using AMPLIFIERs that exhibit a smooth input bias current transition throughout the applied input common-mode voltage.
该算法产量低共模电压和电流,在可接受哒PWM输入纹波 和输出哒逆变器,并没有过电压 提问题不要像AZSPWM1。
The algorithm yields low common mode voltage and current, acceptable PWM ripple at the input and output of the inverter, and has no overvoltage problems unlike AZSPWM1.
高精度大电流控制器有着广泛的应用,但在高共模电压情况下输出电流的检测电路比较复杂。
The high precision and large current controller are used widely. But in the situation where there is high common-mode voltage, the detection circuit of the output current is very complex.
对象马达控制、电源电流监视、电池电压监视之类的应用,必须把一个存在于高共模电压的小差分电压提取出来。
In applications such as motor CONTROL, POWER-supply current monitoring, and BATTERY cell-voltage monitoring, a small differential voltage must be sensed in the presence of a high common-mode voltage.
对变频输出共模电压及轴承电流的形成机理进行了研究,分析了其对潜油电泵轴承寿命的危害。
By the transmission line theory, the generation mechanism of common-mode voltage and the bearing current was discussed.
为了在监视电动机和螺线管电流时也能获得卓越的准确度,LT1999在100khz时保证具有超过80db的共模抑制。
To maintain outstanding accuracy, even when monitoring motor and solenoid current, the LT1999 guarantees more than 80db of common-mode rejection at 100khz.
为了在监视电动机和螺线管电流时也能获得卓越的准确度,LT1999在100khz时保证具有超过80db的共模抑制。
To maintain outstanding accuracy, even when monitoring motor and solenoid current, the LT1999 guarantees more than 80db of common-mode rejection at 100khz.
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