Go Chargers!
Sorry, got carried away there. *666Ferroresonant Chargers use the battery charger transformer to help control charging current. This enables the manufacturer to save money on the charge control circuitry inside. They were a good idea for their time, before the modern family of integrated circuits and high power FETs were designed into charge controllers. The way they worked was the design had a limiting voltage and current. When putting out a lot of current (as into a discharged battery) the transformer (and a series resistor) dropped the output voltage, which controlled how much current went into the battery. As the battery state of charge increased, so did the voltage, and the currrent from the transformer decreased. So far, so good. Where they go wrong is once the battery reaches about 90% charge, extra electric current going into the battery is wasted as heat, and starts breaking down the battery water into oxygen and hydrogen. Usually the ferroresonant charger design didn't taper current off enough to keep this from happening. And when the battery was fully charged, often the charger had too high a float voltage, one that didn't cut off the current, instead kept heating the battery and causing the water to disassociate (gassing, making hydrogen and O2). This caused a condition called sulfation as the liquid dropped, and death to the battery. So enter the modern step charger, it uses electronics to go through the 3 main stages of charge and maintenance 0-90, 90-100% and float. The high end charger also measures the cell voltage and temperature and controls the rate of charge through that. Sometimes there is a fourth stage, called equalizing, where a deliberate overcharge is put on the battery. This is used because, if not moved or shaken, the battery acid will settle out according to is specific gravity, with water at the top and the acid at the bottom. This is bad because only that plate area in the acid will store and release charge. So a high current that causes gassing is used to "stir up" the acid/water mixture for a couple of hours. In a sailboat that rocks back and forth a bit, and thumps around, (IMHO) this fourth stage probably isn't really necessary.