So you're saying it's impossible to charge a battery at too high an amperage? Sorry not true. Most reputable battery manufacturers have a specific not to exceed charge rate for each of their batteries.
A better example would be a bank of Trojan T-105. Lets assume they're at 12 volts or less. Lets assume they are a bank of 6, each pair in series to make 12 volts, and 3 pairs in parallel. The bank is approximately 675 AH. Trojan's not to exceed charge rate is 15%. At 12 volts, a multistage regulator will run wide open in bulk phase until it reaches target voltage, where it switches to absorption. So, instead of charging at 101 amps (15% of 675), it now charging near 30%. Not difficult to over charge (amps) an open lead acid battery with a big alternator and a multi stage regulator.I guess the simplest example I could give is a battery at Float. Hook up a 200A charger and set the voltage to 13.4V and (assuming the start battery is full as in the example given) there will be no current flow. The battery is full and it cannot accept any more current at that voltage. If you ran the voltage up to 15V then there would be current flowing into the battery, and then the battery would start gassing, and that-there is bad things happening. Run it up to 16V and you’re into Equalization mode, which is a fancy term for controlled boiling. Actually intended for FLA batteries only although a couple manufacturers (eg LifeLine) employ it in a very limited and controlled way in their AGM liline.
Great minds think alike
Oh yee.Great minds think alike
who is stupid to run alternator 15-16v. every factory made alternator maintain (13,8)14.05 up to 14.4V . with cable loss you have on battery 13,5-14,05. if alternator produce 15-16V is broken and need repair. alternator is not made to Equalization,for this go on marina and shore power and proper charger.. If you ran the voltage up to 15V then there would be current flowing into the battery, and then the battery would start gassing, and that-there is bad things happening
In a sense, the electron flow is a result of the field or current.
I think the concept is good, and there will certainly be an improvement. It would certainly have been nice to make comparisons on voltage sag. Have you determined that after the wiring change, alternator voltage will be elevating the start battery voltage? A volt or more can make a significant difference in bow thruster performance.
Ted, not disagreeing with your math. But realistically the thruster never sees 12v.
Not sure what you're trying to say.
My point was that the manufacturer likely gives a rated output based on an expected voltage of less than 12v. So a 4 kw motor may have an expected working voltage of 10v and a design draw of 400a.
I don't see where you derived 600 amps but even 366-415 amps is a fairly heavy load.
I just use a dedicated 120 volt charger for each thruster bank. I haven’t ever discharged the thruster batteries enough that I can’t wait until we are plugged into shore power to recharge them. That way I don’t have to run DC power cables for long distances.
Below is a picture of my bow thruster conversion to 24 VDC. I used a 6 amp two bank 12 volt battery charger. While there are a lot of amps driving the bow thruster, the pulses are very short. Simply, your refrigerator consumes more watts per hour than your bow thruster, unless you use it in place of your rudder. I went with 4/0 battery cable for the incredibly long runs, mostly because it was orphan cable.
One more thought - Vetus likely rates output power. Not sure what efficiency is, but that would also indicate higher current.
discoverbattery.com
That is what I did when I installed mine except I used a $500 Promariner 20 amp charger, oh well…
We’ll see how long my charger lasts. I figured it was worth a try but I won’t be surprised if I end up with a more expensive marine charger.
