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I never realized just how much power is lost when using an inverter.
I thought for a while my 12v 240ah deep cycle golf cart batteries might not be delivering their rated amperage.
I can burn a couple 120v 15w CFL's outside on a back yard lamp post overnight (About 9hrs) through my inverter and it takes two sunny days for my panels delivering 6.8ah to replace what the inverter + the CFL's consume.
Using a killa-watt meter, the two lamps on the post consume only 0.42ah @120v.
To test the batteries I connected a single 50W 12v incandescent bulb directly on my batteries. The lamp drew about 4ah tested on my meter.
I started with a full battery @ 12.76V.
I left the single bulb on for 9hrs
The battery tested 12.27v afterward.
(The battery tested unloaded after "resting" unloaded for several hours)
Hmm. This seems to me what I'd expect from my batteries, and is about what I was getting using the two CFL's and inverter.
So why do the CFL's drain about the same as wasteful incandescent?
One reason I figure is inverter loss.
For example I calculate my inverter loss to be 12.6% under the CFL load.
My CFL's draw 0.42ah but the ah draw between my inverter and battery is 3.35ah. Wow, what a difference between inverter input and output. It's close to the incandescent draw!
I am considering buying some 12v CFL's to avoid the loss. Two bulbs would consume around 2.2ah which is about 1ah less than the 120v ones through the inverter.
It may be a good consideration.
When my project is all done I hope to end up with two yard posts containing 3 bulbs each, and maybe two more single bulbs one on the shed and another on the remote car port.
That would be about 18ah consumption using 12v or about 27ah with 120v CFL's per hour.
In other words,
162ah consumption using 12v for 9hrs of night lighting
243ah consumption using 120v for the same duty.
Choosing between 162ah vs 243ah should be a simple choice, but I know that DC and wire impedance may be an issue with a 12v system.
The first yard post is about 150 feet from the batteries, second post on the string about 200 feet from the batteries, the single shed CFL is around 250 feet from the batteries and the final light under the port is around 300 feet.
For anyone familiar with my project, you'll know (and I know) my current solar project won't support that kind of consumption. But I hope to eventually expand to 8 panels delivering about 60ah for maybe 240-300ah of power on a good day. I also plan to expand my battery capacity to a total of 720ah, for a practical usage capacity of 360ah.
I realize the lights may not come on every night.
I hope I didn't make this post too confusing. That is one thing I'm very good at. If this is a dumb plan I know you will tell me.
I thought for a while my 12v 240ah deep cycle golf cart batteries might not be delivering their rated amperage.
I can burn a couple 120v 15w CFL's outside on a back yard lamp post overnight (About 9hrs) through my inverter and it takes two sunny days for my panels delivering 6.8ah to replace what the inverter + the CFL's consume.
Using a killa-watt meter, the two lamps on the post consume only 0.42ah @120v.
To test the batteries I connected a single 50W 12v incandescent bulb directly on my batteries. The lamp drew about 4ah tested on my meter.
I started with a full battery @ 12.76V.
I left the single bulb on for 9hrs
The battery tested 12.27v afterward.
(The battery tested unloaded after "resting" unloaded for several hours)
Hmm. This seems to me what I'd expect from my batteries, and is about what I was getting using the two CFL's and inverter.
So why do the CFL's drain about the same as wasteful incandescent?
One reason I figure is inverter loss.
For example I calculate my inverter loss to be 12.6% under the CFL load.
My CFL's draw 0.42ah but the ah draw between my inverter and battery is 3.35ah. Wow, what a difference between inverter input and output. It's close to the incandescent draw!
I am considering buying some 12v CFL's to avoid the loss. Two bulbs would consume around 2.2ah which is about 1ah less than the 120v ones through the inverter.
It may be a good consideration.
When my project is all done I hope to end up with two yard posts containing 3 bulbs each, and maybe two more single bulbs one on the shed and another on the remote car port.
That would be about 18ah consumption using 12v or about 27ah with 120v CFL's per hour.
In other words,
162ah consumption using 12v for 9hrs of night lighting
243ah consumption using 120v for the same duty.
Choosing between 162ah vs 243ah should be a simple choice, but I know that DC and wire impedance may be an issue with a 12v system.
The first yard post is about 150 feet from the batteries, second post on the string about 200 feet from the batteries, the single shed CFL is around 250 feet from the batteries and the final light under the port is around 300 feet.
For anyone familiar with my project, you'll know (and I know) my current solar project won't support that kind of consumption. But I hope to eventually expand to 8 panels delivering about 60ah for maybe 240-300ah of power on a good day. I also plan to expand my battery capacity to a total of 720ah, for a practical usage capacity of 360ah.
I realize the lights may not come on every night.
I hope I didn't make this post too confusing. That is one thing I'm very good at. If this is a dumb plan I know you will tell me.
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