โJan-27-2023 08:41 PM
โFeb-09-2023 06:26 AM
mbloof wrote:StirCrazy wrote:
As for Catl cells, they would be a third choice for me but they use the same outter casing for simular capacities, what you have to look at is the weight
Why not CATL? They are (or were) one of the top 3 suppliers of LFP batteries in the world.
I bought a set a few years ago - works for me.
- Mark0.
โFeb-08-2023 09:07 PM
โFeb-08-2023 08:19 PM
โFeb-08-2023 08:40 AM
StirCrazy wrote:
As for Catl cells, they would be a third choice for me but they use the same outter casing for simular capacities, what you have to look at is the weight
โFeb-08-2023 06:35 AM
mbloof wrote:
Honestly you have to take ANY "reviews" on Amazon with a LARGE PORTION of SALT - %99 of them have no idea what they actually have or how to test/review it!
However, let us talk about Batteries specifically shall we?
How many consumers have AH meters? Programmable power supply? Load testers? Current meters? Even a DVM? (are any of the above even calibrated?)
Lets face it, the average Joe/Jane consumer has nether the expertise or the equipment to properly test/review a battery.
While it MAY be different for LFP batteries, the seemingly endless flood of useless/overrated consumer Lithium replacement batteries from China is what I'm basing my opinion on.
Well then again there is the popular CATL 280AH LFP battery cells which I see listed having anywhere from 240-340AH on Amazon (for the SAME cells).
(keep in mind much like FLA's, (while the number is growing) there are a limited number of Lithium and LFP OEM's in the world.
- Mark0.
โFeb-07-2023 04:44 PM
otrfun wrote:
Well I can see from both of your posts you're the eternal optimist--lol!
If you reread my post, you'll notice I merely expressed an opinion, based on some of my experience building/using/testing several lifepo4s using most of the test equipment you mentioned. I also included the opinions/reviews of Will Prowse and a thousand or more consumers who purchased lifepo4's on Amazon.
I just read your post and it contains *only* your opinion . . . and nothing more.
I might add, it's the general consumer that directly or indirectly determines whether the vast majority of us keep our jobs or not. They ultimately decide what works and what doesn't work, by purchasing, or not purchasing, any given product or service.
Not even the most skilled marketing department and/or talented electrical/mechanical engineer has the power to make the general public purchase something they don't want . . . at least in the good ole USA, where we have the freedom to choose.
โFeb-07-2023 02:51 PM
mbloof wrote:Well I can see from both of your posts you're the eternal optimist--lol!
Honestly you have to take ANY "reviews" on Amazon with a LARGE PORTION of SALT - %99 of them have no idea what they actually have or how to test/review it!
However, let us talk about Batteries specifically shall we?
How many consumers have AH meters? Programmable power supply? Load testers? Current meters? Even a DVM? (are any of the above even calibrated?)
Lets face it, the average Joe/Jane consumer has nether the expertise or the equipment to properly test/review a battery.
While it MAY be different for LFP batteries, the seemingly endless flood of useless/overrated consumer Lithium replacement batteries from China is what I'm basing my opinion on.
Well then again there is the popular CATL 280AH LFP battery cells which I see listed having anywhere from 240-340AH on Amazon (for the SAME cells).
(keep in mind much like FLA's, (while the number is growing) there are a limited number of Lithium and LFP OEM's in the world.
- Mark0.
โFeb-07-2023 01:58 PM
otrfun wrote:mbloof wrote:Will Prowse has tested and torn-down scores of no-name, cheap lifepo4 batteries over the years. The vast majority have met ah specs. Actually I've yet to see him test one that hasn't met ah specs; but, odds are I may have missed one or two of his reviews where they didn't.
Its a battery that the cells are likely sourced in China (if not the entire unit). Which means:
- The 3 items of interest (cost, AH and cycles) are lied about.
Many/most 'offbrand' and even 'brandnameish' producers will often inflate the AH and/or the cycles using much less expensive cells to achieve a much less expensive price point for their products. (the same could be said of Solar panels where I've seen 40W panels being advertised as 400W!!)
- Due to the large ramp up in EV's LFP batteries (and factories) is on the rise.
The market is being flooded with products however questionable many of those products actual performance might be.
A quick look at even Amazon the price for 100AH of LFP is all over the map!
. . .
- Mark0.
Even more telling than WP's reviews, are the reviews on cheap, inexpensive, no-name lifepo4 batteries on Amazon. Some of these batteries have hundreds, if not a thousand plus reviews, and still maintain an overall 4.5+ review rating (out of a possible 5). I was hard-pressed to find any overall ratings less than 4.2 or so. Since Amazon is arguably the largest single source for lifepo4 batteries in the US, this indicates to me there are no rampant quality control problems in the lifepo4 marketplace.
As for cycle life, no doubt some lifepo4 batteries use questionable cells. New cells are typically rated for at least 2000 cycles. Even a "used" cell, with say, 500 cycles remaining, should still net the average user at least 5 years of use.
IMO, a long as one uses the same due diligence as you would for any other purchase (read reviews, purchase from a reputable source, etc.), the odds of purchasing a "bad" lifepo4 battery are very low.
โFeb-07-2023 08:48 AM
mbloof wrote:Will Prowse has tested and torn-down scores of no-name, cheap lifepo4 batteries over the years. The vast majority have met ah specs. Actually I've yet to see him test one that hasn't met ah specs; but, odds are I may have missed one or two of his reviews where they didn't.
Its a battery that the cells are likely sourced in China (if not the entire unit). Which means:
- The 3 items of interest (cost, AH and cycles) are lied about.
Many/most 'offbrand' and even 'brandnameish' producers will often inflate the AH and/or the cycles using much less expensive cells to achieve a much less expensive price point for their products. (the same could be said of Solar panels where I've seen 40W panels being advertised as 400W!!)
- Due to the large ramp up in EV's LFP batteries (and factories) is on the rise.
The market is being flooded with products however questionable many of those products actual performance might be.
A quick look at even Amazon the price for 100AH of LFP is all over the map!
. . .
- Mark0.
โFeb-07-2023 08:05 AM
StirCrazy wrote:Thanks for taking the time to focus on cell arrangement, Steve.
not better, Ill try streamline my paragraph. prismatic cells are not "cheeper" or "lower quality" the reason for the higher cost involved in say battle born is the increased labour costs to assemble the batteries and the fact they havent realy keept up to the dropping LFP prices as they nave a nich market and do a good sales job of making people think they are vastly superior to other batteries.
Battle born is a parallel/series battery where my battery is a series arangment, and in my 5th wheel I am building a series/parrallel setup , and yes if one cell goes bad in a prismatic you will notice it more, but at the same time it would take me about 5 min to replace the cell with a new one, I would be a few hours to try fix a battle born and need a lot more specialized tools
in the battle born they use 120 1AH cells to make there 100AH battery so they basicly have 30 parralel lines, so if you lose one series line, you lose 1/30th of the battery capacity so yes in that way you have more built in redundency but I was talking about the chance of there being a problem with the battery not the effect. if you notice you lost a cell are you going to sent it in for repair? well that depends I don't think the adverage person would even notice it and run a defective battery for ever. hopefully they have the BMS set up to let you know if there is an issue as that is capable of knowing right away.
does this make battle born better, maybe if your talking redundency, but I still don't think that redundency is worth the price there asking, the battle born by this time should be about 700 bucks concidering you can get thoes 120 cells for under 200 bucks.
I have been looking at them laitly and trying to decide weather to build a prismatic for the 5th wheel or try build out of cilendrical cells. its a lot cheeper for me to buy the clindrical cells, and I cam print specilized holders with my 3D printer, but I would have to buy something to spot weld them togeather and figure that out.
โFeb-06-2023 10:08 AM
โFeb-06-2023 06:13 AM
โFeb-06-2023 06:08 AM
otrfun wrote:StirCrazy wrote:We've been down this road before where I begin to have a difficult time following you.otrfun wrote:your talking about the noticable effect not the potential, and I did say that I believe. in a battle born if a solder joint comes lose it or a cell goes bad depending where it is you might not realy notice it or you may notice it a fair bit depending on the failur. in a prismatic if one goes bad you know it, which I concider a good thing and ease of changing out a cell in a prismatic system is by far more easy. I would argue also that prismatic may or may not be less expensive. the actual physical cell the celindrical cell is much cheper to produce on automated lines so to buy the cells them self the 120 cells in a 100AH battle born are cheeper than four 100AH prismatic cells untill recently.... the manufactuing process for prismatic has been altered and ramped up which is bring the cost down on prismatic quite significantly. you have less conections inside a prismatic battery so less chance for a factory defect, which also translates for lower labour costs. because you have 12 to 20 conections over 10 posts in a prismatic compared to the 240+ in a celinderical set up so the labour to wire/conect the cells is much less. the new production savings and increase in amounts of prismatic cells is making them more populer in automotive aplication which is bringing the price of automotive battery down. tesla is now doing all there chinese cars with LFP prismatic cells.StirCrazy wrote:I would argue there is less potential.
. . . I would argue there is more potential for something to go wring in a battle born with over 100 cells soldered in as aposed to a prismatic type with only 8 battery conections, but it will be easier to detect on the prismatic . . .
The 100ah Battleborn (BB) battery cost more for a very good reason---better redundancy. BB uses 100+ cylindrical cells spot-welded in a parallel/series configuration (vs. series connected prismatic cells). Configured this way, a few cells can loose capacity or become unbalanced and have very little effect on the battery's overall output.
99% of the 100ah lifepo4 batteries on Amazon, etc., use prismatic cells. Typically 4 in series. If *any* of these 4 cells loose capacity or become unbalanced it directly and immediately degrades the overall output of the battery---potentially to the point the battery becomes almost unusable, all because of one cell.
BB could have easily chosen to use less expensive prismatic cells, but they didn't in order to provide a more stable, robust battery.
Steve
You're making general statements about various costs, faulty/excessive connections, manufacturing processes, the ease of changing cells, faulty solder connections, popularity, etc. You've made it clear that you feel batteries that use prismatic cells are "better", I get that.
However, my previous post compared the *PARALLEL* and series cell arrangement used in the 100ah BB batteries to the *SERIES* ONLY cell arrangement used in 100ah batteries that use prismatic cells. Unless, you're willing to discuss this in some fashion, then I'm sorry, I have nothing further to add.
โFeb-05-2023 05:35 PM
StirCrazy wrote:We've been down this road before where I begin to have a difficult time following you.otrfun wrote:your talking about the noticable effect not the potential, and I did say that I believe. in a battle born if a solder joint comes lose it or a cell goes bad depending where it is you might not realy notice it or you may notice it a fair bit depending on the failur. in a prismatic if one goes bad you know it, which I concider a good thing and ease of changing out a cell in a prismatic system is by far more easy. I would argue also that prismatic may or may not be less expensive. the actual physical cell the celindrical cell is much cheper to produce on automated lines so to buy the cells them self the 120 cells in a 100AH battle born are cheeper than four 100AH prismatic cells untill recently.... the manufactuing process for prismatic has been altered and ramped up which is bring the cost down on prismatic quite significantly. you have less conections inside a prismatic battery so less chance for a factory defect, which also translates for lower labour costs. because you have 12 to 20 conections over 10 posts in a prismatic compared to the 240+ in a celinderical set up so the labour to wire/conect the cells is much less. the new production savings and increase in amounts of prismatic cells is making them more populer in automotive aplication which is bringing the price of automotive battery down. tesla is now doing all there chinese cars with LFP prismatic cells.StirCrazy wrote:I would argue there is less potential.
. . . I would argue there is more potential for something to go wring in a battle born with over 100 cells soldered in as aposed to a prismatic type with only 8 battery conections, but it will be easier to detect on the prismatic . . .
The 100ah Battleborn (BB) battery cost more for a very good reason---better redundancy. BB uses 100+ cylindrical cells spot-welded in a parallel/series configuration (vs. series connected prismatic cells). Configured this way, a few cells can loose capacity or become unbalanced and have very little effect on the battery's overall output.
99% of the 100ah lifepo4 batteries on Amazon, etc., use prismatic cells. Typically 4 in series. If *any* of these 4 cells loose capacity or become unbalanced it directly and immediately degrades the overall output of the battery---potentially to the point the battery becomes almost unusable, all because of one cell.
BB could have easily chosen to use less expensive prismatic cells, but they didn't in order to provide a more stable, robust battery.
Steve