Thank you Dave, The alternator output is wired to a battery isolator box which is feeding power to the three banks evenly. There is no Both switch on my boat!
You may want to rethink the battery isolator if it is a diode based isolator. The diodes induce a voltage drop and depending on where the regulator is measuring voltage it is chronically under charging the batteries. There is more detail on this on MaineSail's website, www.marinehowto.com. Well worth the time spent on the website.
Thank you John for responding. The issue was as to which battery bank to get the power for the windlass. The factory has wired it to the starting battery but is very easy for me to switch it to the house bank. As for the isolator, how else would I get the alternator output to three different banks without a both or all switch...which I do not want to have. The small voltage drop by the isolator only affects the charging by the alternator. The windlass, thruster, etc are wired directly to the motors and not going through the battery isolator.
Some isolators are diode based as dlochner was referring to. Those introduce a voltage drop that’s hard on the batteries. Newer isolators are not diode based and don’t introduce a voltage drop.
Thanks for the photo. While the box says "voltage drop free" that is not exactly accurate according to their website. The website says the voltage drop is less than .4v at 100amps. Better than diode based isolators.
info.waytekwire.com
I just got my first boat with an electric windlass and I've been worrying about that very thing, so I did and estimate and you're right, it's much less drain than I expected. For a 5/16 G4 chain lifting a 10 kg anchor from 100 m at 80 percent efficiency it's less than 3 A.h for a 12 V battery. I expected something at least in the double digits.
The motor on our windlass (Maxwell VWC 1500) will draw up to 200 amps at normal working loads. The chain retrieval rate is 56' per minute. With 112 feet of chain out, it will run for 2 minutes, which (if I did the math correctly) works out to 6.7 ah.
The voltage drop is caused by the diodes that do the splitting/isolation. These diodes will cause a drop of between 0.4v to 1.3v depending on the type and current being pushed. I have had one on my boat for the past 24-years and it does not affect my charging because I also have an external regulated alternator. The regulator voltage sense is connected directly to the house battery, so it adjusts the voltage at the alternator to be higher by the amount of the drop in the diodes. I set the regulator at 14.2v at the battery but if I check it at the alternator, it will be over 15v.
The OP’s isolator, like mine, is FET based rather than diode based. Diodes introduce a relatively high constant drop (around 0.7 V). FETs introduce a lower drop that is variable with current flow. As battery charge increases and current flow decreases the drop becomes negligible.
