Battery Price

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Battery Price

Postby stuartcnz » Wed Dec 14, 2016 10:56 am

This is a reposting of this ( blog post.

Battery Price Comparison -- LiFePO4 vs AGM vs FLA

Many pople have told me that Lithium Feric Phospate (LiFePO4 or LFP) batteries are too expensive for them to consider. This is a price comparison of three posible systems for a van dweller with moderate usage, (30-40 Amp-hours per day) and the ability to go a couple of days with limited sunlight. For longer periods of no-sun, the ability to charge from a small generator is included. Prices of quality components from reputable dealers (listed below) have been gotten online without calling for better prices, finding out shipping costs, or using short-term sale prices. The generator and miscilanious wire, fuses, and crip rings are not included, but they will be about the same price for all three systems. Other than the batteries, the systems should last at least a decade with minimal upkeep. These prices can beet, especially for the AGM (Absorbtive Gas Mat variation of Lead-Acid) and FLA (flooded lead-acid) but I would not expect more than a 25% reduction without reducing system quality. In this article, where AGM and FLA have the same properties, I lump them together as "Lead-Acid".

# LiFePO4
1 four CALB CA100Fl $500
2 Morningstar SS-MPPT-15L $213
3 -
4 Morningstar UMC-1 $35
5 Meanwell RSP-500-15 $89
6 two Renogy RNG-100P $290
7 Total $1127

1 two Lifeline GPL-24T $500
2 Morningstar SS-MPPT-15L $213
3 Morningstar RTS $26
4 -
5 Progressive Dynamics PD9245-14.8 $188
6 Renogy RNG-100P RNG-150D $365
7 Total $1292

1 two Trojan T105-RE $348
2 Morningstar SS-MPPT-15L $213
3 Morningstar RTS $26
4 -
5 Progressive Dynamics PD9245-14.8 $188
6 Renogy RNG-100P RNG-150D $365
7 Total $1140

Direct data download

Batteries (row 1)

GBS, CALB, and Winston are the most reputable LiFePO4 batteries. After the demise of Balqon (due to the electric truck side of the business) Winstons are harder to get in the US. Lifeline has the best reputation for AGM, and Trojan for FLA.

Usable Watt-Hours are used for comparison between chemestries. 80% discharge at 12.8v average is used for LiFePO4, and 50% discharge at 12.2v average is figured for Lead-Acid. The peak current (in amps) is shown for each, the available power will decrease minimally on LiFePO4, some on AGM and a lot on FLA if this is exceeded significantly. The batteries will still need the full charge however. (Amp-hours is rated at the 20 hour rate on Lead-Acid, the 2 hour rate on LiFePO4.)

Solar Charge Controller (row 2)

LiFePO4 require an MPPT controller as the voltage pulses from a PWM controller can damage the battery. The same controller was specified on the Lead-Acid for ease of comparison.

Battery Temperature Probe (row 3)

Lead-Acid require higher voltage (and charge less efficiently) at lower temperatures. The probe lets the controller compensate for this fact. LiFePO4 do not want charge voltage changed with temperature, but should not be charged at a high rate below freezing. All batteries have reduced life at high temperatures.

Controller programmer (row 4)

Since none of the controller profiles match LiFePO4, set the controller to Gel and use this with a compter to reprogram the settings on install. 14.0v absorbtion voltage for 1/2 hour and 13.3v float is reasonable for this system. (Choosing this could be the subject of an entire article.) This can also be used to monitor the controller operation, and is not a bad idea to have for Lead-Acid to optimise settings.

Converter/charger (row 5)

This takes the output of the generator or shore power and charges the battery. None of the reasonably priced options here are good, and getting close to the price of the rest of the system for something used infrequently is rediculous.

The Meanwell chosen for LiFePO4 needs set to 14.0v (or 13.8v) at install, and needs to be turned off manually when full charge is reached. (After about 3 hours if the battery was discharged to 10%.) Leaving it on after full charge is reached will reduce the battery life.

The Progressive Dynamics charger chosen for FLA does not have remote voltage or temperature sensing. If used by itself on a battery discharged to 50%, it will take 6 or 8 hours to charge the battery.

Either option could be used with AGM, with the charge time of about 5 hours. (Setting the Meanwell at 15v or using the fob on the PD to get it to stay at 14.8v.) The PD has the advantage of not overcharging if left on.

The best way to determine charge state when charging is via the battery current, but that is not an option on any converter/charger I know of.

Solar Panels (row 6)

With an MPPT controller, house panels are cheapest if they can be obtained localy and you have the space for the larger panel. Freight costs can easily exceed any cost savings, so smaller panels are specified here.

Since the Lead-Acid batteries are less efficient, require more charge time, and should be kept as close to fully chaged as possible, 250W of panels compares well to 200W of panels on LiFePO4. 250W of panels can produce more power than the specified Solar Controller can use, but with non-tilted panels that will only be on days where the panels produce more power than the batteries can handle anyway.

Total Price (row 7)

Total system price being cheapest on LiFePO4 surprised me. AGM not being cost-effective did not, but Lifeline GPL-4CT are cheaper per Watt-hour than the GPL-24T. True deep-cycle FLA not being available in smaller sizes and specifying the RE varient of the Trojan T-105 (which may not be cost-effective) upped the price of the FLA. If the roof space is available, some cost saving by using 300W of panels and a PWM controler on the Lead-Acid. Shopping around can reduce the cost, more so on the Lead-Acid than the LiFePO4.

No Cell Ballence Boards or BMS

Cell Ballence Boards are frequenty recomended for LiFePO4, but anacdotal evidence shows they may cause as many failures as they prevent on low-voltage (less than 36 volt) low current (less than 50A for a 100Ah) system. Cell ballencing is only an issue near full charge or full discharge, conditions that should be avoided for long life of an LiFePO4 battery anyway. Lead-acid batteries have been shipped for over 100 years without even the ability to easily monitor cell ballence, and it is an issue with them as well.

A BMS (Battery Management System) with monitoring, high voltage cutoff (for failed charger), low voltage cutoff (for excessive use) and out of balance cutoff (for mismached cell charge levels) would be nice, but is not cost effective on a small system like this.


FLA require checking acid levels and refilling if needed. Monthly is recommended. FLA require a vented compartment with easy access to the top for this checking.

AGM recomend a vented compartment.

The Meanwell power supply is not designed as a battery charger, and needs manual intervention to shut off. Since this is only done when on a generator or shore power, rarely with this hypothetical situation, it may not be much of an issue.

LiFePO4 should be installed with pressure plates to avoid capcity loss due to cell distortion. This is mostly an issue high temperatures or high charge or discharge rates. Terminal up mouting is recomended on most brands, and large side down should be avoided.

LiFePO4 are about 1/2 the size and 1/3 the weight of Lead-Acid.


LiFePO4 systems are comparable in total price to an AGM or FLA system for a fulltime boondocker. When you add the longer expected life (2000-4000 cycles rather than 500-1000) the life-cycle cost winds up much cheaper. FLA can be cheaper to set up, but only significantly if lower cost options are used throughout reducing system reliability and costing more in the long run.

Part Sources used for prices

Best Converter
Electric Car Parts ... s_c_1.html
Northern Arizona Wind and Sun
Renogy Challenging the way you think. (TLS connections only)

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Re: Battery Price

Postby somewhereinusa » Thu Dec 15, 2016 2:21 am

Thanks for the write up Stuart. Looks like you put a lot of work into that. I'll have to digest it a bit. I'm not ready for solar yet, but it seems I'll have to do a lot of studying.

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Re: Battery Price

Postby Stealth Camper » Thu Dec 15, 2016 11:25 am

Great! That is good info that I have been wondering about. I will probably go lead acid for the first project - a small backup system just to run heater and refrigerator during short term power outages like snowstorms.

Am also looking at larger system for new place. I am planning to expand the search to include the Tesla Powerwall. They are changing rapidly so by the time I am ready, it may be mature enough and cost effective enough to make sense. I very much like the module they make - size and mounting methods.

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Re: Battery Price

Postby stuartcnz » Thu Dec 15, 2016 8:21 pm

Not my write up! I copied it off a guy who is a Linux software developer. The link takes you to his blog. Just thought it was good stuff, done in a considered way. And there is not much in the way of good info on lithium battery technology, used in this manner yet.

Off topic, I didn't get any email notification for the replies on this thread, so maybe email notification isn't set up properly yet? may need to investigate. Challenging the way you think. (TLS connections only)

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