1·But like Sir Howard, they faced strong internal resistance to change.
但与霍华德一样,他们面临着对变革的强大内部阻力。
2·The same principle of low internal resistance also apply to milliammeters.
低内阻原理也同样适用于毫安表。
3·The same principles of low internal resistance also apply to milliammeters.
低内阻的原理也同样适用于毫安表。
4·All voltage sources have internal resistance, so all voltage sources develop Johnson noise.
所有的电压源都具有内阻,所以所有的电压源都会产生约翰逊噪声。
5·The power output of the thermal battery is most dependent on the battery internal resistance.
热电池的内阻大小直接影响着电池的负载能力。
6·The paper introduces the composing and test theory of VRLA storage battery internal resistance.
介绍阀控铅酸(VRLA)蓄电池内阻的组成、测试原理和方法。
7·The battery internal resistance is an important reference parameter to evaluate the health of battery.
电池的内阻是评价电池性能的一个重要的参考性指标。
8·The end results of this process are reduced internal resistance, increased voltage output, and more power.
最终结果,这一过程是减少内部阻力,增加输出电压,以及更多的权力。
9·All real voltage and current sources contain an internal resistance; therefore, they exhibit Johnson noise.
所有真实的电压源和电流源都具有内阻,所以它们都表现出约翰逊噪声。
10·The components of internal resistance of VRLA battery and its measurement principle and method were analyzed.
分析了阀控式密封铅蓄电池内阻的组成及其测试原理和方法。
1·Online measurement of battery internal resistance of each monomer, analysis of the consistency of the battery, battery health degree of real-time monitoring.
在线测量蓄电池组中各个单体的内阻,分析蓄电池组的一致性,实现蓄电池组健康度的实时监测。
2·All voltage sources have internal resistance, so all voltage sources develop Johnson noise.
所有的电压源都具有内阻,所以所有的电压源都会产生约翰逊噪声。
3·Power, test time, record period, voltage lower limit, voltage upper limit, lead internal resistance, operation model, data and time parameter can be set with keyboard.
通过键盘可设置:功率、测试时长、记录周期、电压下限、电压上限、导线内阻、操作模式、日期、时间等参数。
4·Otherwise, the current drawn from the cell electrodes will cause a voltage drop across the internal resistance of the electrode and may polarize the cell.
否则,从电池电极吸取的电流将会在电极的内阻上产生电压降并可能使电池极化。
5·Surveying the internal resistance of a sensitive electric current meter is a rather difficult and complicated electromagnetic experiment which is hard to get a high precision.
灵敏检流计内阻测量实验是电磁学实验中一个比较复杂有相当难度的实验,难就难在如何提高测量精度。