1) voltage balancing
电压均衡
1.
Study on a rapid voltage balancing method for supercapacitor;
一种超级电容器快速电压均衡方法的研究
2.
A model for supercapacitor voltage balancing strategy is introduced, on this basis the authors propose a novel supercapacitor voltage balancing method, namely flying capacitor voltage balancing method, which can efficiently transfer the energy in the capacitor with the highest voltage into that with the lowest voltage, the balancing speed of the proposed method is fast.
引入了一种超级电容器电压均衡控制策略的模型,在此基础上提出了一种新颖的超级电容器电压均衡方法——飞渡电容器电压均衡法,它将电压最高的电容器的能量直接转移到电压最低的电容器中,均衡速度快且效率高。
3.
The existing voltage balancing methods were discussed.
分析了容量偏差率对串联超级电容模块储能的影响,比较了采取均压措施前后超级电容模块的储能,鉴于现有均压方法存在的问题,设计了一套简单实用的超级电容电压均衡电路,并进行了仿真分析。
2) voltage balance
电压均衡
1.
Different methods of the voltage balance and the existing problems were discussed, the active voltage balance circuit and the test result were proposed.
详尽分析了超级电容器串联应用中影响各单体电容器上电压一致性的原因,阐述了不同的电压均衡方法及存在的问题,提出了具有使用价值的有源电压均衡电路,并给出实验结果。
2.
Also put forward are issues about voltage balance and harmomic elimination.
介绍了十二脉冲逆变器的基本电路结构,论述了其控制原理,阐述了电压均衡和谐波消除问题,运用表明,该十二脉冲逆变器具有低开关频率,优良的正弦波输出,高抗干扰性等特点。
3) voltage equalization
电压均衡
1.
Cell to cell voltage imbalance of supercapacitors is one of main reasons for impeding the development of supercapacitor energy storage application,and voltage equalization can prolong the lifetime of supercapacitor,increase the amount of stored energy and improve the reliability of the energy storage system.
串联超级电容器组的电容电压不平衡是阻碍超级电容器储能应用发展的一个重要因素,实现串联超级电容器组的电压均衡可以延长超级电容器的使用寿命,增加储存能量,提高储能系统的可靠性。
4) balance voltage
均衡电压
5) active voltage balancing
动态电压均衡
6) voltage equalizer control
电压均衡控制
1.
Finally,a supercapacitor voltage equalizer control circuit for rubber tyred gantry crane energy saving system was simulated.
最后对一种适用于轮胎吊节能系统的超级电容器电压均衡控制电路进行了仿真。
补充资料:标准操作冲击电压波形(见冲击电压发生器)
标准操作冲击电压波形(见冲击电压发生器)
standard switching impulse voltage waveform
b .oozhun CooZuo ChongJld,onyo boxlng标准操作冲击电压波形(standard switchingimpulse voltage waveform)见冲击电压发生器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条