All batteries get a charge at the same time, yet no battery bank is in parallel with another. The alternator, via a battery isolator, would then charge its respective starter battery and the house bank. If you have two engines (two alternators), two starter batteries and a house battery bank then you could put a battery isolator on each alternator’s positive output. No one battery bank will share its voltage with another battery bank, thereby avoiding nuisance tripping of the fuses. Each individual battery will never “see” another battery and therefore the maximum current going into the battery is limited to the size of the alternator. If you have a single engine (one alternator), a starter battery, a house battery and a thruster battery then a battery isolator is perfect device. In this scenario, the alternator is not that big and neither are the battery banks, which makes a battery combiner well suited for the applicationīattery Isolator Scenarios. A battery combiner is perfect for a boat with an outboard or two small, similarly sized battery banks (one starter, one house). A popular FET battery isolators is the Victron ArgoFET.īattery Combiner Scenarios. This high efficiency makes FET battery isolators very popular and a common tool in PYS electrical designs. Modern FET battery isolators offer all the benefits of diode combiner but without any significant loss. The challenge with a diode battery isolator is that the diode causes a voltage drop of. This is how a battery charger can recharge two or three battery banks simultaneously. For instance, most battery chargers have isolators. By using diodes or Field-Effect Transistors (FETs) to only allow current to flow in one direction, a fully charged battery cannot pass current to a partially charged battery. Think of them like a gate valve, allowing the current to flow from the alternator to two or three battery banks without any of the battery banks “seeing” one another. Popular models include the Blue sea Automatic Combiner, BEP Voltage Sense Relay, and the Xantrex Digital Echo Charge.īattery Isolators also allow one charging source, such as an alternator, to charge multiple battery banks. This is why we choose to install battery combiners for battery banks that are generally similar in size and also won’t be uneven or unbalanced to avoid nuisance tripping of the fuses protecting the battery combiners. What makes this all challenging for a marine electrical system is how do you know when the fuse has been tripped or blown? Especially if you don’t know what to look for. Furthermore, the fuses installed to protect the battery combiner will trip/blow. This inrush of current from one full battery bank to an empty bank can easily exceed the maximum current rating of the battery combiner. When two battery banks are in parallel (joined together), they will instinctively want to even themselves out and the higher voltage battery will want to lift the lower battery bank’s voltage. The challenge with battery combiners is uneven battery banks, specifically when one battery bank is discharged heavily and another battery bank is full. disconnect when voltage gets to 12.8 VDC). parallel at 13.3 VDC) but isolated when discharging (i.e. Battery combiners operate based on a specific voltage so the batteries are parallel when charging (i.e. Battery combiners will put two battery banks in parallel when there is charging voltage but leave the batteries isolated during discharge. connected together) automatically when there is a charging voltage and separately when there is no charging voltage. Let’s look at what they do and how they are different?īattery combiners, also called Automatic Charging Relays (ACRs) or Voltage Sensitive Relays (VSRs) are designed to put two battery banks in parallel (i.e. Battery combiners and battery isolators serve similar purposes but achieve sharing a charge differently. In this month's Tech Talk we are going to look at some charging scenarios using battery combiners and battery isolators to automate and simplify the charging process of multiple battery banks with only one charging source. However, many boats only have one charging source, such as an alternator or inverter/charger, so marine electrical designers are forced to share one charging source to recharge more then one battery bank. In an ideal electrical world, engine and house battery banks would always be separate and have their own charging source. Keep Charged - Charging Scenarios Using Battery Combiners and Battery IsolatorsĪ 12VDC marine electrical system typically relies on one battery to start the engine and another battery to power the “house” loads, such as refrigeration, lights or an inverter.
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