1) constant current cycling
直流恒流充放电
2) constant charge-discharge
恒流充放电
1.
The double layer capacitors(EDLC)were tested by constant charge-discharge and cyclic voltammetry in 1mol/L KOH and 7mol/L KOH.
采用自行制备的 KMnO_4热解产物 MnO_2(M) 及其与市售高比表面积椰壳基活性炭(YK)复合分别作电极材料,以1和7mol/L KOH 为电解液,分别组装成双电层电容器,采用恒流充放电法、循环伏安测试法和交流阻抗法考察其电容性能,结果显示,当 YK 与 M 以质量比1:1混合均匀作电极材料时,其比容量和功率特性均显示最佳值,尤其在高浓度 KOH 溶液中性能更好,在电流密度为50mA/g 时,比电容量达到309。
3) DC charge and discharge
直流充放电
1.
The data acquisition circuit is based on periodic DC charge and discharge by MCU, and then the suitable digital signal method is processed to obtain the angle signal and vibration signal.
即采用基于单片机的周期性直流充放电电路采集数据,利用一定的数字滤波算法分离数据得出角度信号和振动信号,给出了完整的基于微变电容的角度振动传感器的设计方案。
4) galvanostatic charge-discharge
恒电流充放电
5) constant current charge/discharge
恒流充放
1.
The electrochemical properties were tested by cyclic voltammetry and constant current charge/discharge.
循环伏安结果表明该材料具有良好的电容性能,用恒流充放电测得在1mA条件下,放电比电容可达290。
2.
The electrochemical properties were tested by cyclic voltammetry,AC impedance and constant current charge/discharge in threeelectrode system.
按m(MnO2)∶m(石墨)∶m(乙炔黑)∶m(羧甲基纤维素)∶m(聚四氟乙烯)=75∶10∶10∶3∶2制备电极材料,在电解液为c〔(NH4)2SO4〕=2mol/L的三电极体系中,通过循环伏安、交流阻抗和恒流充放电对其超级电容性能进行了考察。
6) constant current source charging and discharging
恒流源充放电
1.
On being designed, comparator is regarded as a key circuit, meanwhile, the method of constant current source charging and discharging is used.
以比较器为核心电路,并采用恒流源充放电技术,设计了一种基于1。
补充资料:流充
1.流配。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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