内阻

nèi zǔ
  • internal resistance
内阻内阻
  1. 高聚物中渗入C(60)/C(70)后内阻机理的理论分析

    Theory analysis of internal resistance mechanism for C 60 / C 70 containing high polymer

  2. AA型MH-Ni电池的内阻研究

    Study on the internal resistance of AA size Ni MH cell

  3. 浅论影响DC-DC转换效率的电源内阻问题

    The brief introduction to the problem of power source internal resistance influencing DC-DC conversion efficiency

  4. 将电池内阻与内压相联系,研究了直封MH/Ni电池在充放电过程及循环寿命测试实验中的内阻变化情况。

    The internal resistance of directly - sealed MH / Ni batteries had been investigated during charging and discharging cycle .

  5. AA型密封MH-Ni电池、Cd-Ni电池的内阻特性

    Internal resistance property of AA size sealed Ni-MH and Ni-Cd battery

  6. 基于内阻测试的PEM燃料电池湿度控制系统设计

    Design of a Humidity Control System of PEM Fuel Cell Based on Impedance Monitoring

  7. 介绍阀控铅酸(VRLA)蓄电池内阻的组成、测试原理和方法。

    It describes the composition of the battery inner resistance and its test principle and methods .

  8. 采用相对电压差异系数ξ(U)和相对内阻差异系数ξ(r)评价电池的一致性。

    Also the battery cell consistency was discussed and relative voltage difference factor ξ( U ) and relative internal resistance difference factor ξ( r ) were used as evaluation parameters .

  9. 结论:肾毒,瘀内阻是VD发展基础;

    Conclusion : Deficiency of the kidney and stagnation of phlegm and blood stasis are the basic causes of VD .

  10. 同时针对影响内阻变化的因素太多且不确定的情况,提出了实时在线的方法建立起动态新息的GM(1,1)预测模型。

    Because many uncertain factors impact the internal resistance , this paper give a real time method and establish a dynamic innovation forecast model of GM ( 1,1 ) .

  11. 通过对蓄电池的工作原理以及影响SOC的研究,得出SOC的数学模型,并提出计算蓄电池内阻的公式。

    Via researching work principle of batteries and influence SOC , We put forward mathematics model for SOC , and formula for calculating inner resistance of batteries .

  12. 研究结果表明:与Cd-Ni电池相比,AA型MH-Ni电池在放电后内阻变化甚小或有所下降。

    The results show that compared with Ni Cd cell , the internal resistance of AA size Ni MH cell change slightly or even decrease after discharge .

  13. 研究了AA型密封MH-Ni电池在充放电过程及循环寿命测试实验中的内阻及内压变化情况。

    The variation of the internal resistance and inner pressure of AA size sealed Ni MH batteries were investigated in the charge / discharge and cycle life test .

  14. 阀控式密封铅蓄电池(VRLA)电流放电初期出现的电压降主要是由电池欧姆内阻引起的。

    The voltage drop occurring at the beginning of discharging for VRLA batteries is mainly caused by ohmic internal resistance of the batteries .

  15. 中医证型与BMI分布有相关性(P0.05),痰湿内阻型BMI升高最明显。

    The distribution of TCM syndrome types and BMI have obvious correlation ( P0.05 ): The people who belongs to phlegm stagnation type , BMI increased most obviously . 8 .

  16. 与没有添加PTFE乳液相比,负极添加1%PTFE乳液的电池有较好的循环寿命、电压平台、内阻等性能。

    The batteries after the addition of 1 % PTFE in negative electrodes have preferably cycle life , voltage plateau decaying , internal resistance decaying with respect to no PTFE .

  17. 相关研究表明,在Hp感染相关胃病中,以脾胃湿热证占比例最多,肝胃不和、瘀血内阻等以实证为主要类型亦为重要。

    Research shows that splenogastric hygropyrexia syndrome account for a large proportion in H. pylori-associated gastropathy , and liver-stomach disharmony syndrome and blood stagnant syndrome as the main type of excess syndrome are also important .

  18. IL2引起乳头肌心肌细胞空间常数和时间常数增加,细胞内阻降低。

    IL 2 increased the membrane space and time constants , and decreased internal longitudinal resistance .

  19. 结果表明,对于AA型MH/Ni电池,当添加的电解液量>30g或<26g时,会导致电池内阻增大和放电容量、放电电压平台的降低,同时电解液过多会导致电池漏液。

    The experiments results demonstrated that the internal resistance increased as well as the discharge capacity , discharge voltage plateau decreased when the amount of electrolyte was more than 3.0g or less than 2.6g .

  20. 以玻璃电极作传感器的电位测量法是应用最广泛的一种工业上测量溶液pH值的方法。影响这种方法测量准确性的因素主要有三个方面:溶液温度、玻璃电极高内阻和电极偏差。

    Potential measurement method based on the sensor with glass electrode is the most widely used way of measuring PH value , and the veracity is mainly affected by three factors : solution temperature , high resistance of glass electrode and electrode deviation .

  21. 发现聚合物锂离子电池有机电解液中加VC以后,降低了电池的内阻,提高了循环性能与高低温放电性能。

    It was found that the internal resistance of battery was reduced and the cycle performance and discharge performance at higher and lower temperature was improved after VC was added into organic electrolyte of polymer lithium ion battery .

  22. 运用MATLAB的Simulink仿真工具对PEMFC建立仿真模型,通过所建立的电堆参数模型,就能够研究主要运行参变量对电堆动态输出性能和电堆非线性内阻产生的影响。

    A parametric model of a PEMFC stack has been developed with Simulink @ MATLAB to evaluate how the major operating variables affect the dynamic output performances and the nonlinear internal resistance of a stack .

  23. NC-1型内阻测定仪

    Model NC-1 Measuring Instrument for Internal Resistance

  24. SOFC工作时阳极和阴极的损失较小,极化损失主要集中在电解质的内阻上。

    In SOFCs , the polarization of anode and cathode parts is smaller , and the loss of the polarization mainly is due to the ohm loss of electrolyte .

  25. 结果表明,该pH传感器内阻低、响应快、测量范围宽(pH1~13)、测量精度高、重现性好,响应斜率为(56±1.0)mV/pH,温度系数为-0.782mV/℃。

    The sensor has lower inner resistance , rapid response , wide measure range ( pH 1-13 ), high measure precision and good repeat , and its response slope is ( 56 ± 1.0 ) mV / pH , temperature coefficient is-0.782 mV / ℃ .

  26. 利用BS-9365二次电池性能检测仪、BS-GF电池内阻测试仪研究了正极纳米添加剂对MH/Ni电池各方面性能的改善。

    The improvement of overall characteristics of sealed MH / Ni batteries were investigated by BS-9365 rechargeable batteries and BS-GF internal-resistance testing instrument .

  27. 研究比较常用的电池模型,确立线性电池模型作为电池SOC估算的数学模型,同时线性电池模型的内阻运用递推最小二乘法实现在线辨识。

    Through compare and research the commonly used battery model , establishing linear cell battery model to estimate battery SOC , the resistance of linear cell model uses the recursive least square method to realize the online identification .

  28. NC-1型内阻测定仪根据方波电流法原理制成,可用于测量大容量电池、起动电池和其他电池的内阻。

    The Model NC-1 Measuring Instrument for Internal Resistance based on the square wave current method .

  29. 采用多种内阻测量方法和热电偶法,研究了AA型MH-Ni电池在充电、过充电及高倍率放电时电池内阻与电池工作性能的关系。

    The relationship of operating performance of AA size Ni MH cell with its internal resistance during charge , over charge , and high rate discharge are studied using thermocouple method and several other internal resistance measuring methods .

  30. 研究了蓄电池SOC的几种预测方法后,提出利用电池端电压与内阻联合来预测蓄电池SOC的方法,该方法可以提高预测的精度。

    After having studied the accumulator cell SOC several forecast technique , proposed that using the battery terminal voltage and the interface resistance union forecast accumulator cell SOC the method , this method may enhance the forecast the precision .