![Electronic Circuits: Automatic Programmable 4.2V Battery Charge, Current up to 500mA using LTH7R IC with PCB Electronic Circuits: Automatic Programmable 4.2V Battery Charge, Current up to 500mA using LTH7R IC with PCB](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgVP0bdcPTdZSk9mddPzXupXfU5-b_huvA7fREM4-aaReEwywZXom84_raogkeptzZWWNpSZ1wg04skIM9fphNFNTiLPX7tzjdRRGRROPz0w63uspHi89xbitx68EUW9qlDy0hTPkRK-WUQqDxND_s8yY_b9a2yoT_yBUPlIWPQN7g1AcsWuOKiFmEAAw/s640/Automatic%20Programmable%204.2V%20Battery%20Charge,%20500mA%20using%20TH7R%20-%20ELC.png)
Electronic Circuits: Automatic Programmable 4.2V Battery Charge, Current up to 500mA using LTH7R IC with PCB
Engineering Electronics - Versatile Battery Charger Circuit...... This transformer-based battery charger circuit can be used to charge any battery, provided the transformer rating is higher than the battery rating. Normally, a linear
![operational amplifier - Is it possible and safe to charge a NiMH battery with this circuit? - Electrical Engineering Stack Exchange operational amplifier - Is it possible and safe to charge a NiMH battery with this circuit? - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/GjoxC.png)