plates on a regular basis or over an extended period of time, the charging process will not be able to restore the battery to its former full potential. Time to make a costly battery replacement!
Circuit Description
The LABC1 has been designed as a dependable workhorse to charge and hold your 12 Volt lead acid batteries at their peak level, insuring a long life and maximum performance. The charging procedure used when working with a flooded ‘wet’ cell battery or one of the newer VRLA (Valve Regulated Lead Acid – ‘Gel’ or ‘AGM’) batteries is the same. The battery being charged will automatically set the LABC1 in one of two charging modes upon hookup. The circuit design takes into account the battery’s current SOC (State Of Charge) and adjusts the terminal voltage at J2 accordingly. The main charging circuit is very simple because as we discussed before, the concept of lead acid batteries has been around for centuries (give or take a few thousand years if you don’t believe in the ‘Space Alien’ theory). The real secret to correctly charging a lead acid battery system is to use a temperature compensated voltage source that automatically varies its output in accordance with the batteries SOC. ‘Frying’ your battery occurs when the charging unit fails to sense that the
Let’s take a closer look at the LABC1 schematic and see what’s happening. The power supply inlet for the LABC1 is J1. The input voltage is immediately presented to a full wave bridge rectifier consisting of diodes D1 to D4 and then filtered by C1 to reduce the voltage ripple. Using a bridge configuration on the voltage input allows the user more options to power their LABC1. The use of a 14 VAC or 20 VDC (positive tip) power supply will do nicely with any 12 Volt lead acid battery. Varying your power supplies current capacity will allow you to charge any type of lead acid battery without a problem. Most of the standard cells require a charging current of 650mA or greater. For these systems a 14 VAC (2 Amps or so) transformer will work very well. If your application is to charge very small capacity batteries with a maximum charge current of only a few hundred milliamps, using a 14 VAC @ 500mA ‘wall wart’ supply or a current limited
Moving on, VR1 is a voltage regulator that provides the precision terminal voltage we need to charge the lead acid cells. Unlike a standard voltage regulator that is designed for a fixed level output, VR1 lends itself well as a variable voltage source. With a maximum current source capability of about 1.3 amps, VR1 gives the user the flexibility to charge even very large capacity
LABC1 • 6