Buss bar use?

Re: Buss bar use?

Lobo wrote: »

720 watts of panels
My inverter is 1000 watts cont. and 2000 watts surge
No other DC loads
I have 8 105 ah batteries

In the first post you said you have two parallel strings of batteries. Here you say you have eight 105 Amp hour batteries. That makes four per string, or 3 Volts each to get 12 Volts. Something's not right ...

720 Watts of panel on a 12 Volt system about 46 Amps peak charging. Not a problem for current, but again doesn't jibe with the batteries.

Otherwise the most that inverter would draw is <200 Amps (maximum surge output and minimum battery Voltage) so bus bars rated for 400 would have not trouble.

Re: Buss bar use?

Lobo wrote: »

Please excuse my lack of correct terminology. I have 8 batteries, due to space they are situated 4 side by side and then another 4 along side the first.

What Voltage are they?
Standard battery Voltages go in 2 Volt increments: 2, 4, 6, 8 and then 12. If you divide 12 Volts by 8 you get 1.5, and if you divide it by 4 you get 3 et cetera. I can't figure a combination where 8 batteries adds up to 12 Volts and two strings.

I can envision a couple of nightmares where there are eight 6 Volt batteries wired up for 12 Volts by four parallel strings and an even worse case where all the batteries are 12 Volt and are wired in two 'ladders' of four parallel each and then paralleled again. The possibility of keeping current shared evenly through such a configuration is about zero.

Re: Buss bar use?

Lobo wrote: »

They are all 12 volt batteries. All the negative terminals are connected together going to a 400 amp buss bar and all the positive are connected going to a seperate buss bar.

That describes eight batteries in parallel. This is not a good situation to have. The only chance for them to share current equally is with each connected to the bus bars separate, and every battery's wire length (positive and negative wire lengths added together) equal. Even then it is doubtful it will work out. The differing resistances in the batteries themselves will cause problems. This will be amplified by the wire and connection resistance, and if anything is a bit 'off' the effect on a 12 Volt system is significant.

But if the 12 Volt batteries are what you've already got, you use them and accept the fact they probably won't last as long as you'd like and that there may be function problems in the meantime. Keep an eye on them. Get a clamp-on DC Ammeter and periodically check current to/from each battery. Watch out for corrosion and loose connections.

Then when they fail you can replace them with higher capacity individual batteries (two of those 12 Volts in parallel is like two 6 Volt golf cart batteries in series).

The other issue here is: you've got 840 Amp hours @ 12 Volts to recharge. That will require a lot of panel (about 1250 Watts) and a maxed out FM80 or MidNite Classic charge controller. If you really need that much stored capacity (4.8 kW hours), you should consider a higher system Voltage.