大多数镍氢电池可以接受3倍于自身容量的放电速率。高放电速率会导致释放更少的电量。
Most NiMH batteries can accept discharge rate up to 3 times its capacity. A higher discharge rate will yield lower capacity.
大多数镍氢电池可以接受3倍于自身容量的放电速率。
Most NiMH batteries can accept discharge rate up to 3 times its capacity.
利用暂态技术电流阶跃法对镍氢电池的正负极在放电过程中的电化学极化、浓差极化及欧姆极化进行了研究。
For identifying various electrode polarization during discharge of nickel metal hydride battery, a transient technique current step method was employed.
本产品为我公司刚研制出的新的产品,同一般的镍氢电池比较。如果是同容量的电池比较,同种仪器放电,放电时间绝对高于镍氢。
If is the co-content battery comparison, the homogeneous instrument electric discharge, the discharge time is higher than the nickel hydrogen absolutely.
本产品为我公司刚研制出的新的产品,同一般的镍氢电池比较。如果是同容量的电池比较,同种仪器放电,放电时间绝对高于镍氢。
If is the co-content battery comparison, the homogeneous instrument electric discharge, the discharge time is higher than the nickel hydrogen absolutely.
应用推荐