电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2001年
1期
21-23
,共3页
毛永志%王宝光%燕萍%郭靖宏%潘成久%段秋生%王平
毛永誌%王寶光%燕萍%郭靖宏%潘成久%段鞦生%王平
모영지%왕보광%연평%곽정굉%반성구%단추생%왕평
MH-Ni电池%充电方法%快速充电
MH-Ni電池%充電方法%快速充電
MH-Ni전지%충전방법%쾌속충전
D型MH-Ni电池以1 C电流充电,测量电池电压和温度,计算不同充入容量下的充电接受率。结果表明充入容量为电池实际容量105%~110%时充电接受率最大,采用电池表面温度变化率dθ/dt=2℃/2 min控制电池充电终止,可使电池1 C充电时充入容量控制在此范围。此方法优于用-△V和温度控制MH-Ni电池充电终止的方法。
D型MH-Ni電池以1 C電流充電,測量電池電壓和溫度,計算不同充入容量下的充電接受率。結果錶明充入容量為電池實際容量105%~110%時充電接受率最大,採用電池錶麵溫度變化率dθ/dt=2℃/2 min控製電池充電終止,可使電池1 C充電時充入容量控製在此範圍。此方法優于用-△V和溫度控製MH-Ni電池充電終止的方法。
D형MH-Ni전지이1 C전류충전,측량전지전압화온도,계산불동충입용량하적충전접수솔。결과표명충입용량위전지실제용량105%~110%시충전접수솔최대,채용전지표면온도변화솔dθ/dt=2℃/2 min공제전지충전종지,가사전지1 C충전시충입용량공제재차범위。차방법우우용-△V화온도공제MH-Ni전지충전종지적방법。
The voltage and temperature of D size Ni-MH battery were measured and the charging acceptable ratic was calculated when it was charged at 1 C rate. The results show that the chargingacceptable ratio will be maximum when the charging capacity is 105 %~110 % of the real discharging capacity, the charging capacity can be confined in this scope when the control method of dθ/dt = 2 ℃/2 min is adopted, this method is better than the methods of -AV and temperature for Ni-MH battery.
