Inverter distance questions

**Mike90250** · 03-26-2014, 06:35 PM

use your highest voltage, for the long distance runs. Since I don't know what your PV voltage is, I can't advise.

**mschulz** · 03-26-2014, 08:22 PM

Originally posted by Mike90250

use your highest voltage, for the long distance runs. Since I don't know what your PV voltage is, I can't advise.

Highest volts and lowest amps right?

example : 120volts AC at 10 amps would be better than running 150volts DC at 40 amps right?

**Naptown** · 03-26-2014, 08:28 PM

Originally posted by Mike90250

use your highest voltage, for the long distance runs. Since I don't know what your PV voltage is, I can't advise.

This is the question and without the answer as to what you have on the roof and what kind of controller you are using it is hard to tell what is best.
I have run Arrays up to 700 feet from the inverter by sticking with DC and running high voltage.

Your scheme will work with the exception that at night if you want to turn off the inverter to save the standby losses you have to go out to the shed.

During the winter if you are there it would be better and more capacity in the batteries to keep them nice and warm in the cabin with you.

**mschulz** · 03-26-2014, 09:09 PM

Originally posted by Naptown

This is the question and without the answer as to what you have on the roof and what kind of controller you are using it is hard to tell what is best.
I have run Arrays up to 700 feet from the inverter by sticking with DC and running high voltage.

Your scheme will work with the exception that at night if you want to turn off the inverter to save the standby losses you have to go out to the shed.

During the winter if you are there it would be better and more capacity in the batteries to keep them nice and warm in the cabin with you.

I haven't bought any of the part yet as I am trying to make sure I do this right the first way. My plan is to buy 250-300 watt grid tie panels and run them in series to maximize voltage and run that into a Midnight Solar Classic 150. My PV watts will be 900-1200 watts. Batteries will be around the 350-400 AMP hour in 24 volt or 225 AMP hours at 48volts. I would like to go with one of the Magnum inverters as they hook up cleaner (and safer) than a bunch of low watt inverters. Will have have the remote switch inside to turn the inverter on and off.

I would love the batteries inside to be nice and warm, but that just isn't going to happen and will be in an insulated battery box with a vent fan when charging. My first idea was to install the panels on the roof and have the batteries in a box in the breeze way and the CC, Inverter, etc on the wall, but that is messy and would be taking up space. Having it in the shed gives it a nice dry open area with lots of room along with me not having to drill holes in the roof of my house.

**Sunking** · 03-26-2014, 09:14 PM

I will give you a hint. A utility is required to supply you at a voltage of +/- 10% nominal.

So at 120 volts nominal what is the range and are you within that range?

Now for low voltage you want to keep losses under 3%. Very hard to keep low voltage losses low, easy and cheap to keep high voltage losses low. That is why utilities use very high voltages.

**mschulz** · 03-26-2014, 09:43 PM

Originally posted by Sunking

I will give you a hint. A utility is required to supply you at a voltage of +/- 10% nominal.

So at 120 volts nominal what is the range and are you within that range?

Now for low voltage you want to keep losses under 3%. Very hard to keep low voltage losses low, easy and cheap to keep high voltage losses low. That is why utilities use very high voltages.

I get the whole higher the voltage the better thing. What I do not know is if the distance from the shed at 120 volts from the inverter is going to drop to low to use. What I have found with the wire calculators is that:

10AWG, 120v at 15 amps run 75 ft would be a 2.25 volt loss or 1.88%
8AWG, 120v at 15 amps run 75 ft would be a 1.14 volt loss or 1.18%

I am asking you guys as the pros, is that acceptable or are there $$ getting lost during that 75ft run. Remember I do not need to do this as cheap as possible, but I am only going to use 1500 watt hours/ day on a very high day, most days will see 500-800 watt hours.

**Naptown** · 03-26-2014, 10:02 PM

You are well within voltage drop limits with the #10
Just remember that any motor load will increase watts to compensate. Resistive loads will decrease watts

**mapmaker** · 03-26-2014, 10:24 PM