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2587 Views 22 Replies 5 Participants Last post by  huntinghawk
With a battery & proper voltage & power inverter you can about power anything.
Most think small scale like powering lights, TV, fan, etc. But you can go larger like to power a frig or chest freezer.
Even larger you can go 240VAC inverter to power a well pump. And that is a big deal.

If you take one battery & one inverter & look at each as a individual circuit its easier to figure things out. IE: One battery & inverter to power lights & a TV. One battery & inverter for the frig. One battery & inverter for well pump.

And then there's charging the batteries. Backup system for charging the batteries would be using a generator. Solar panels will be your friend. About the only maintenance for solar panels is to keep the face of them clean but even dirty/dusty they will work, just not as efficiently.

Even if you have plenty of fuel for a generator you still don't want to run it all night long. That's when you run off the battery for atleast some lights.

And starting out on a budget you can start by using 12VDC lights & have a 12VDC TV to stay abreast of weather & such.

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Think landscaping LED light, low draw and if the grid is down the output of the LEDs will be more than enough light to see your environment. A small solar panel, landscaping lights and lawn tractor battery will provide "moving around the house light".
I am actually looking into the Harbor Freight 45 Watt kit. I can get it down to $149 with a coupon. Is it a decent starter?
Great price on that kit as its three 15watt panels. Basically allows for about 3amps.

You might want to purchase this charge controller. It will handle 100watts in panels.

As far as inverters go, buy bigger then what you think you need. That will ensure alittle extra power draw. If you need to run some extra lights or fans going larger will allow you to do it.

Inverters are rated in watts. To figure the amperage divide the wattage by the output voltage (120).
400watt inverter would be 3.3amp.
2000watt inverter would be 16.7amps.

And if you have the amps & want to figure what wattage inverter you need multiply the amps times 120.
6amp motor would require 720watt inverter.

That is based on requiring 120VAC. If something is 240VAC just use 240 instead of 120 in the formulas.

A couple of notes on batteries:

"Deep cycle" batteries are marketing hype. Any battery gets damaged internally every time you discharge it beyond about 50%. Regular car batteries just get damaged faster. Never discharge your batteries below 50% if you want them to last.

West Marine got with a battery manufacturer and did a lot of testing on this...

Also, to minimize run time if you are using a generator to recharge, charge the batteries up to about 85% and shut down. That's where the battery charges fastest and most efficiently, it takes a LONG time to get that last 15% to get the battery all the way back to 100% charge. If you are on solar of course, this doesn't apply because if ya got sun ya got charge. MCORPS1

So to get the most life out of your battery bank and generator (and fuel supply) you really need to size the battery bank about 3x larger in amp hours capacity than you think you will need. This lets you operate the battery bank within that 85%-50%-85% envelope and still meet your needs. It gets expensive to buy that many batteries, but in the long run it is much cheaper than burning up batteries and having to replace them more often because they are dead. Or having your battery bank wear out and go dead when the SHTF and you can't get more batteries...

Also, for those of you that live in areas where it gets cold, remember that lead acid batteries lose a large part of their amp-hour capacity when they get cold. Gel cell batteries are much better in the cold, they keep most all of their capacity. I think this also applies to AGM batteries, but I'm not sure.

If you have a way to keep your battery bank warm, that's even better. But of course warmth takes energy, and that energy has to come from somewhere, so you could end up going in circles with that one. GI8
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I know with electric golf carts they say batteries will last longer if you don't run them below 50%. And the better golf carts come with what is known as a "smart" charger. The amount of power it sends to charge batteries is determined by the voltage detected.

Any size solar panels are probably the most efficient way to top off a battery charge.

All true, and since you mention it, 6V golf cart batteries are usually one of the best buys for a battery bank. They are rugged, have high amp-hour ratings, and are usually quite a bit cheaper (per amp hour) than the 12V deep cycle batteries. Just cable them up in a series-parallel circuit to get the 12V or 24V as needed for your system.

Which brings up another note, 24V systems are much more efficient than 12V systems. The higher voltage lets you run smaller wire sizes with less loss. Low-loss wiring for a 12V system takes big wires and lots of expense... GI8

It takes a little more shopping to find 24V equipment though, chargers, inverters, appliances like lights etc. 24V is becoming more popular in the boating world because it is so much more efficient and lots of weight can be saved on the smaller wiring.

Re: "smart chargers," absolutely. A smart charger will be labeled as such, should say something about "3 stage charger" or better, and be microprocessor controlled. A good one will also have a selector switch for lead acid, gel, or AGM battery types since they operate at different voltages. The old fashioned single-stage "dumb chargers," the kind that come in a sheet metal box, from Wal-Mart or Kragen Auto, cost $12, and buzz when you connect them to the battery... bad news. I call them "battery boilers." They will burn out a battery in no time flat.

For solar charging, the same applies. Any panel array bigger than one of the little "trickle charge" dashboard panels needs a "smart," 3-stage solar charge controller to properly charge and condition the battery bank without burning them out.
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As per myself, to have stored power I much rather have a pair of 6v cart batteries then a 12v deep cycle.
Infact, my plan is I will have two 6v batteries behind my storm shelter plus another eight 6v batteries in my cart.

Not all manufacturers date their batteries the same way. But not unusual to find by the negative post a letter followed by a number. Example C9. That battery was manufactured in March 2009. But then too, it may have been 1999. LOL

More info

OK I did check with the local ezgo cart place here I have done business with them before and know the owners they quoted me some batts.
new wet trojan 12 v cart batt $180.00 each
new crown 8 v (337 amp hrs) $ 110.00 wet each
new crown 6v (232 amp hrs) $ 110.00 wet each
all there batts are wet and charged ready to drop in cart and go. from what I have learned it is best to go 4 batts 6v cart/rv type each at least 200 amp hrs x4 = 800 amp hrs put them 2 in parallel = 1 set and 2sets = 1series = 12v output to inverter.
a energy star rated appliance that is rated for 1000kwh per year = 25 amp hrs a day= 16 days use with no recharge maximum.most batts like trojans are good for 300 to 750 cycles so average to 500 cycles or 7 to 10 years max. so 500 cycles at 50% time or 8 days =4000 days divided by 365 days =10 plus years! so usage =time if properly maintained.I am a dummy and not the expert like some here "HH" and others so always ask them nicely for intel and they will lead you straight. I hope this helps put it into laymans terms for all to benefit.



"All gave some but some gave ALL"
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go 4 batts 6v cart/rv type each at least 200 amp hrs x4 = 800 amp hrs put them 2 in parallel = 1 set and 2sets = 1series = 12v output to inverter.
I'm pretty sure that when you put two 6V batteries in series to make a 12V bank, the volatge doubles but the amp-hour capacity doesn't. So two 232 A/H 6V batteries in series makes a 232 A/H 12V battery bank...

Also I have heard that some of the big-box places like Costco carry golf cart batteries and occasionally have them on sale. If you find Trojan cart batteries on sale at Costco, you might want to take the biggest truck you can get your hands on and buy them all...
More info

thanks in advance so please for all of us here me included explain why 2 6v batts in parallel are better than 1 12v of same capacity? also if weight like in boat or airplane or whatever was part of equasion would 1 12v be better than 2 6v in lbs. for same output?



"All gave some but some gave ALL"
Old Ohm's Law saying is:
When you PE you SI.

Connect batteries in parallel(P) the voltage is the same & the amperage increases(added).
When you connect batteries in series(I) the voltage is increases & the amperage stays the same.

Flashlights the batteries are connected in series to get a higher voltage.

It's a cost thing.

First, you plan out how large a battery bank (in amp-hours) you need to meet your needs.

Then you go out shopping for the batteries. Since amps is amps and volts is volts, it doesn't matter what batteries you use, as long as you are comparing the same high-quality deep cycle type batteries. They just need to add up to your total amp-hour requirement.

If you shop around, you can usually find 6v golf cart batteries so much cheaper than the 12v RV/marine deep cycles that they are a better buy.

A typical example would be (and I'm making up these numbers based on experience, not referring to a bunch of catalogs here)... Say you wanted a 220 A/H battery bank. You might find 6v golf cart batteries rated at 220 A/H for $100 each. Two of them would meet your needs and cost $200.

You might also find 12v deep cycle batteries rated at 110 A/H, for $150 each. Two of those would also meet your needs, but would cost $300 total.

When pricing batteries, think in terms of "dollars per amp-hour." And make sure you are comparing batteries of equal quality, with an equivalent rating for life in charging cycles. Golf cart batteries, because of the way they are made, usually also have a very long life in charging cycles.

So when you compare all the specs and prices, golf cart batteries are usually the best deal overall in price, amp-hours, and total life.

You mention 12V golf cart batteries at EZGo, I am not familiar with the 12V version of a golf cart battery, it might be the best of both worlds, I don't know.

But for sure, I would recommend getting out of the specialist shops like a golf cart shop or a boating store, and get to a place like Costco and see what the difference in price is.

I have never really tried to compare the total weights of these different approaches, the usual rule is just that amp-hours are heavy and you can't really get around that. If weight is important though, I believe that gel cells and especially AGMs are slightly lighter than the standard wet cell lead acid, but they are also more expensive. I was just looking at West Marine and they have a new type of battery called a compact AGM, they are much lighter and smaller per amp-hour than any other deep cycle... but they are also like $624 per battery. GI8
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Looking at a 232A/H battery most people would be best off getting a 12V battery for backup power.

But I am going with a 48V electric cart with eight 6V batteries. A 12V battery for the storm shelter would not give me a spare battery for the cart but two 6V batteries would.
Plus I would have the power option with the storm shelter to tap two of the cart batteries at a time.

OK, going with my 48V cart. I can set it up to use four 12V batteries & will run fine. But I will decrease my run time by about 50% versus using the eight 6V batteries.

BTW, most consider Trojan batteries the best. But most consider Crown the best for the money.
BTW, most consider Trojan batteries the best. But most consider Crown the best for the money.
Rolls and Surrette are also considered top-quality brands. MCORPS1
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