Automatic battery charge cut-off - Automatic battery discharge cut-off circuit
(NEW) Battery processor - Automatic battery charge cut-off - Automatic battery discharge cut-off circuit
Hello, this circuit will automatically cut off the battery when it is charged and will automatically cut off the discharge in case of over discharge when the battery is in use. With this circuit, your batteries will complete the charging cycle in a healthy manner by providing service within a healthy charge and discharge range. It is very important to maintain the battery charge and discharge cycle at the correct interval for a long-lasting battery.
The manufacture of this charger requires very few components. Its design makes it possible to deliver a significant intensity depending on the choice of transformer and power components: The transformer, the diode bridge and the thyristor. The regulation system based on a very stable adjustable shunt regulator (TL431) allows the charger to be left permanently connected for floating operation. the transformer must have a secondary, no-load voltage between 15.5V and 17V.
A resistor can be inserted into the charging circuit if you want to limit the intensity as well as a voltmeter ammeter (for less than €2 at AliExpress). You will then have a charger equivalent to the best on the market.
Automatic battery charge cut-off - Automatic battery discharge cut-off circuit
(NEW) Battery processor - Automatic battery charge cut-off - Automatic battery discharge cut-off circuit
Hello, this circuit will automatically cut off the battery when it is charged and will automatically cut off the discharge in case of over discharge when the battery is in use. With this circuit, your batteries will complete the charging cycle in a healthy manner by providing service within a healthy charge and discharge range. It is very important to maintain the battery charge and discharge cycle at the correct interval for a long-lasting battery.
The manufacture of this charger requires very few components. Its design makes it possible to deliver a significant intensity depending on the choice of transformer and power components: The transformer, the diode bridge and the thyristor. The regulation system based on a very stable adjustable shunt regulator (TL431) allows the charger to be left permanently connected for floating operation. the transformer must have a secondary, no-load voltage between 15.5V and 17V.
A resistor can be inserted into the charging circuit if you want to limit the intensity as well as a voltmeter ammeter (for less than €2 at AliExpress). You will then have a charger equivalent to the best on the market.
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