In this research, a 148W DC brushless motor and a 370W DC brushless motor were used to substitute the 40 c.c. two-cycle engine of a sprayer, and we dismounted the engine and designed a fixed board which is based on the location of screw holes for the replacement from engines to motors. If the motor does not exceed the restriction of space, it can be replaced quickly and it can help the engine sprayer electrification. We use 24V lithium battery as power source of the electrical sprayer. In order to increase the efficiency of electrical sprayer, we design a set of constant voltage / constant current mode charger to reduce the charging time and we also study density method、terminal voltage method and the internal resistance method in capacity estimation, expecting to estimate the residual capacity of batteries. The result of study, comparing with engine sprayer, the working noise of the electrical sprayer has dropped to 92 dB. The cost of the engine is NT$15.3 per hour, and the cost of the electrical sprayer is NT$0.6 per hour. The engine sprayer weight 11.7 kg, whilethe electric sprayer weight 12.1 kg. The difference of weight is about 0.4 kg. We used 2SA1941 PNP Power Amplifier as the control device of constant current charger and charged batteries with CC/CV mode. Charging batteries with high charging current can reduce the charging time, but charging efficiency decreased by increasing the charging current. In general, charging current for lead-acid batteries is 3A and lithium batteries is lower than 2A. The open-circuit-voltage method for residual capacity estimation was thought to be accurate, but the internal resistance method has to be used to determine the batteries ageing.