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  • I was browsing last night to see what warrantys are offered on the units supplied complete.

    if they come with bms Lvd etc etc then there really should be nothing a customer can do to them to damaged them unless they leave them flat for a very long time. So suppliers should be able to give a good warranty, trouble is there would be no service dealer near where i live. So they would likely charge to travel.

    I didnt spend a lot of time on it but did find this gem.


    WHY USE LITHIUM
    It’s simple it lasts much longer the SFK 1000AHA
    battery can charge and discharge up to 1100 times
    at 50% depth of discharge at one cycle a day that’s
    a 27 Year life span
    That’s more than twice that of a top quality gel-cell
    and up to FIVE times that of a cheap wet cell or AGM
    battery

    Comment


    • <<< WHY USE LITHIUM
      It’s simple it lasts much longer the SFK 1000AHA
      battery can charge and discharge up to 1100 times
      at 50% depth of discharge at one cycle a day that’s
      a 27 Year life span
      That’s more than twice that of a top quality gel-cell
      and up to FIVE times that of a cheap wet cell or AGM
      battery >>>

      What planet has a year made up of only 40 days?

      1100 cycles / 365 days = 3 years life expectancy at 50% DOD

      Are you sure this is not a 2.7 year life span here on planet earth?

      Comment


      • Originally posted by dax View Post
        Let me point out a few facts you probably won't understand, after reading just a few of your posts. Been a master builder for almost 40 years, did my first off grid solar install in 1982, using exide 2 volt 500amp batteries in rural NSW and since have done many over the years

        Five years ago my company began installing lifepo4 instead of lead acid, after a year of experimentation and testing, to work out from all the garbage about them by so called experts, as to how they operated and the best voltage parameters for long service life. We installed our 2000th lifepo4 unit in August this year.

        Currently we are doing 2-3 installs a week, which consist of new systems and replacing lead acid with lifepo4 and are in negotiations to take an entire town off grid next year. Once the logistics and permissions are in place and the economics are worked out, it should go ahead. It will be a pretty easy thing to do as the town happens to be at the end of the grid. There are a couple of logistical sticking points, but we are confident they can be overcome easily.

        I'm not going to address your attempt at insulting me, or your silly claims of us over charging or discharging our cells as the problem with winston cells. Having not read many of your posts, will leave it to others to determine your veracity, but you have made some claims which I find rather insulting and shows your lack of working knowledge and experience of this chemistry.

        You have claimed there are no dedicated lifepo4 solar charge controllers, except one very expensive low capacity piece of junk. For the last 3 years, we have been having manufactured dedicated lifepo4 solar charge controllers, of 40 and 60 amp and this year have begun offering them to the general public. Our 40ah charger retails for around $500, 60amp, $700, they are used in parallel up to 10 units and any number of banks. If you know how to use them properly, there is no need for bms or cell balancers. However our customer installs all have active balancers and bms, early next year we will have a dedicated solar charger which will have no need for any form of balancers or bms, as it will charge individual cell lines to their set capacity. They are single stage bulk chargers, which are designed to reduce cycling as much as possible so and extend life, without losing capacity.

        Our experience has allowed us to work out the best approach for off grid systems and with 5 years actual working experience, we have it under control and are able to install economically sensible system for people. We have spent years getting to what we feel is a safe reliable and economic system, way different to others and it works properly.

        I'm not an qualified electrician, but have 5 in my employ and a number of apprentices, all have qualifications in AC and DC, plus two electronics. This is because we no longer put in low voltage lifepo4 systems, they are all AC 240v, driven by 12v PSW inverters, using 24v panels. That enables us to walk in to AC established premises and change it over quickly and cheaply, utilising existing wiring. All that needs to be done basically is change the light globes to LED and teach the customer how to use their system.
        Are you saying that your company has 1000s of LIFEPO systems that have been working for 5 years and have undergone 1825 cycles and are still going strong? Can you give more specifics about where these batteries came from and how much they cost? Can you identify your company? Do they advertise these batteries and your success rate, because what you report sounds quite sensational.

        Comment


        • <<< WHY USE LITHIUM
          It’s simple it lasts much longer the SFK 1000AHA
          battery can charge and discharge up to 1100 times
          at 50% depth of discharge at one cycle a day that’s
          a 27 Year life span
          That’s more than twice that of a top quality gel-cell
          and up to FIVE times that of a cheap wet cell or AGM
          battery >>>

          What planet has a year made up of only 40 days?

          1100 cycles / 365 days = 3 years life expectancy at 50% DOD

          Are you sure this is not a 2.7 year life span here on planet earth?
          couldnt get reply with quote to work, but the info I posted is a direct cut and paste from the online brochure.

          Comment


          • Originally posted by Bala View Post
            couldnt get reply with quote to work, but the info I posted is a direct cut and paste from the online brochure.
            Quote did not work for me either. So, how did they come up with 27 years?

            Comment


            • Originally posted by lkruper View Post
              Quote did not work for me either. So, how did they come up with 27 years?
              No idea, it states they use outback controllers that have a 5 year warranty but no mention of battery warranty. Also say they make there own bms.

              Would be good if mods would allow dax to Id his company if he wishes to.

              It is of genuine interest to me, as my batteries are almost ten years old.

              Comment


              • Originally posted by lkruper View Post
                Quote did not work for me either. So, how did they come up with 27 years?
                When Reply with Quote does not work, you can still access the quote formatting using the button with the speech balloon on the formatting bar.
                It puts "[QUOT]" and [/QUOT] tags around the selected text (or opens an empty tag pair and you can put your text in between the tags. You can also type the tags in manually. (Note that to keep the tags from being executed, I left the final E off of QUOTE.)
                All that will be missing is the name of the quoted party, which you can also put in. In the above text the string "=lkruper" is added right after "QUOTE" in the opening tag, followed by ";178476" the internal reference number of the quoted post. (As in http://www.solarpaneltalk.com/newreply.php?do=newreply&p=178476)
                Last edited by inetdog; 10-09-2015, 07:03 PM.
                SunnyBoy 3000 US, 18 BP Solar 175B panels.

                Comment


                • Originally posted by dax View Post
                  The brand of the 100amp cells, we tried were winston, none lasted more than 3 years, whilst our no brand chinese industrial grade cells, are still going after nearly 6 years and none of our installs using these 40-50amp cells have had a problem, other than wiring and small electronic failures. There have been a few bad cells, most get discovered before installing as we always run a pack for a week before it goes in.
                  Uh oh. Usually this indicates that the Winston was abused, or the infrastucture (high-resistance connections) and so forth, or an initial "sanity check" was never done on the factory balance. Failed "bleeder boards", new-old-stock, shipping damage can be an issue, and the biggest one is this:

                  "Old" Winston (and the old Thundersky) docs had people charging up to 4.2v back in the 2008 or so timeframe. That document was misinterpreted as the proper normal method-of-procedure, and failed cells were the result. Hopefully you weren't following that old documentation. You can even find it today in some distributor archives or egads - older balancing circuits.

                  This is the disqualifier for me: recommending "no brand chinese industrial grade cells," -- game over.

                  This is the tactic used by el cheapo battery manufacturers that stuff their cases with whoever is the lowest bidder, and the consumer has no idea what the quality of the cells are inside.

                  Don't take this personally - seeing that, I would never be interested in your systems and run away as fast as I could. As it stands now, the systems you have are just very large version of cheap cellphone chargers taken to the bigger scale.

                  Comment


                  • Originally posted by lkruper View Post
                    Are you saying that your company has 1000s of LIFEPO systems that have been working for 5 years and have undergone 1825 cycles and are still going strong? Can you give more specifics about where these batteries came from and how much they cost? Can you identify your company? Do they advertise these batteries and your success rate, because what you report sounds quite sensational.
                    Yes it would be a sensational claim, one we can't claim. Was referring to our first 120amp pack in time lines and cycles, it has only been in the last 2 years we have been flat out installing these systems in off grid residential. The majority of our work is rural, remote, outback and marine installs, for stand alone communications and support infrastructure. We do a lot of government work, including site preparation and infrastructure construction, so our experience is very varied and we work around the country and some overseas jobs.

                    The longest lifepo4 residential installations, except for our own homes, have been operating for more than 4 years and now we are doing about 3 a week. Many people don't realise how many off grid connections there are in this country, or solar connect. Off grid, well over 300000 and there are millions of grid connect. Many grid connect are looking at going off grid storage and that's were our growing market is, so we use a variety of different size and configured charge controllers and inverters for these.

                    We don't use batteries, we use cells and purchase in container loads. They are not junk as those with little experience and enslaved to rip off commercial brand retailers who have redundancies built in to their systems, try to claim. Bit like people who claim windows is a good operating system, when it is last century junk and way past it's use by date. We use military and industrial standard cells, which are way above what is available retail, stronger cases, more robust in design and a lot cheaper, as we buy in bulk. Which is no different to most industries, where industrial components are far superior to retail and that goes for just about every life endeavor. It's the same with cell capacity sizes, retailers and those with little or no experience beyond AAA, or a small nominal voltage pack claim large capacity branded cells are the best. You will find military, industrial and real EV constructors use small capacity cells in large packs for a number of reasons. Which would take a couple of pages to explain and I don't have the time for that, or the negative ignorance that would follow it.

                    As for being available to the public, that is something which will come in the near future, from many sources as the dumbo's stuck in the past wake up to the reality of how lifepo4 operates. So we are redesigning them for residential customer use and expect our first shipment to arrive in the next month or so, at decent prices. Presently we are negotiating a new price and supplier for our residential components. Which will not have redundancy built in and will be available in a sealed system, or separately. They will come in 12-24-48-96v configurations, depending on customer requirements and their afford ability.

                    When we have a retail release, will come back here and provide a link to them. If you keep your lifepo4 charge discharge cell regimes at 3.5v upper, 3v lower and restart charging at 3.4v and if your cells have been constructed and balance properly before use, keep a load on them you should have no trouble with them at all and no need for balances or BMS. Charge and load from the 4 points of the pack and they will stay stable.

                    One interesting thing we have learnt, is in very low temperatures, lifepo4 struggle to provide large current demands, as in staring engines and for a long life should not be allowed to get to cold. In some remote installs, we had to put cell packs into heavy insulation and and in below zero installs, the cell packs were placed in living areas to keep warm. You can't do that with lead acid for a number of reasons. That's another benefit of lifepo4, you can put them anywhere so they can be placed very close to the charge source or humans without any safety concerns. Hope that helps you understand them more.

                    Comment


                    • Originally posted by dax View Post
                      Bit like people who claim windows is a good operating system, when it is last century junk and way past it's use by date.
                      Ok:
                      Linux desktop 3.16.0-4-amd64 #1 SMP Debian 3.16.7-ckt11-1+deb8u4 (2015-09-19) x86_64 GNU/Linux

                      Sometimes OpenBSD too.

                      We use military and industrial standard cells, which are way above what is available retail, stronger cases, more robust in design and a lot cheaper, as we buy in bulk.
                      And those are what? When I buy a lead-acid battery, and expect and pay for Rolls-Surrette, I want to know in case the original manufacturer's identifiers are missing. Or am I getting something else? Oh, OUR batteries are just as good, trust us. I expect the same consumer knowledge of what's inside when I go LFP.

                      It's the same with cell capacity sizes, retailers and those with little or no experience beyond AAA, or a small nominal voltage pack claim large capacity branded cells are the best.
                      Kind of like Expecting Panasonic / Sanyo Eneloops, but with the wrappings removed, and after testing find out the cells you really have were Tenergy, counterfeit fakes, or cells that are manufacturer rejects which got waylaid out the back door on the way to the recycler. Even a modest consumer can get hold of a Maha MH-C9000 for quick testing.

                      Or expecting Sanyo NCR18650B's only to discover that what's really inside are SmokeFire 3000's half filled with flour. How about used cells from laptop-pulls? Here, a CellPro Powerlab PL8 can help identify these differences for the interested consumer.

                      You will find military, industrial and real EV constructors use small capacity cells in large packs for a number of reasons. Which would take a couple of pages to explain and I don't have the time for that, or the negative ignorance that would follow it.
                      You should follow us on Candlepower forums for the smaller stuff. Especially op HKJ and his extensive testing for both performance, and thermal IR imaging.

                      As for being available to the public, that is something which will come in the near future, from many sources as the dumbo's stuck in the past wake up to the reality of how lifepo4 operates.
                      This is the real reason I'm being so caustic. The industry as a whole suffers damage from cells of unknown origin and pedigree. Thing is, we don't know if YOU are getting ripped off and inadvertently passing bad cells on to the consumer, unless you do your own capacity and IR checks on each and every cell. Far from practical and spot checks with cells of unknown origin are a bad practice.

                      Going with established brands and KNOWN reputable manufacturers would put my mind at ease.

                      When I cut one open, I'm not going to find questionable A123 pouches missing / modified tabs, damaged zipper-fuses, cells from commercial "special projects" that should have been destroyed / recycled, old stock, homebrew internal connectors with dissimilar metals and so forth am I?

                      You should be proud to reveal your cell sources and models. So what are they?

                      Comment


                      • Originally posted by dax View Post
                        Yes it would be a sensational claim, one we can't claim. Was referring to our first 120amp pack in time lines and cycles, it has only been in the last 2 years we have been flat out installing these systems in off grid residential. The majority of our work is rural, remote, outback and marine installs, for stand alone communications and support infrastructure. We do a lot of government work, including site preparation and infrastructure construction, so our experience is very varied and we work around the country and some overseas jobs.

                        The longest lifepo4 residential installations, except for our own homes, have been operating for more than 4 years and now we are doing about 3 a week. Many people don't realise how many off grid connections there are in this country, or solar connect. Off grid, well over 300000 and there are millions of grid connect. Many grid connect are looking at going off grid storage and that's were our growing market is, so we use a variety of different size and configured charge controllers and inverters for these.

                        We don't use batteries, we use cells and purchase in container loads. They are not junk as those with little experience and enslaved to rip off commercial brand retailers who have redundancies built in to their systems, try to claim. Bit like people who claim windows is a good operating system, when it is last century junk and way past it's use by date. We use military and industrial standard cells, which are way above what is available retail, stronger cases, more robust in design and a lot cheaper, as we buy in bulk. Which is no different to most industries, where industrial components are far superior to retail and that goes for just about every life endeavor. It's the same with cell capacity sizes, retailers and those with little or no experience beyond AAA, or a small nominal voltage pack claim large capacity branded cells are the best. You will find military, industrial and real EV constructors use small capacity cells in large packs for a number of reasons. Which would take a couple of pages to explain and I don't have the time for that, or the negative ignorance that would follow it.

                        As for being available to the public, that is something which will come in the near future, from many sources as the dumbo's stuck in the past wake up to the reality of how lifepo4 operates. So we are redesigning them for residential customer use and expect our first shipment to arrive in the next month or so, at decent prices. Presently we are negotiating a new price and supplier for our residential components. Which will not have redundancy built in and will be available in a sealed system, or separately. They will come in 12-24-48-96v configurations, depending on customer requirements and their afford ability.

                        When we have a retail release, will come back here and provide a link to them. If you keep your lifepo4 charge discharge cell regimes at 3.5v upper, 3v lower and restart charging at 3.4v and if your cells have been constructed and balance properly before use, keep a load on them you should have no trouble with them at all and no need for balances or BMS. Charge and load from the 4 points of the pack and they will stay stable.

                        One interesting thing we have learnt, is in very low temperatures, lifepo4 struggle to provide large current demands, as in staring engines and for a long life should not be allowed to get to cold. In some remote installs, we had to put cell packs into heavy insulation and and in below zero installs, the cell packs were placed in living areas to keep warm. You can't do that with lead acid for a number of reasons. That's another benefit of lifepo4, you can put them anywhere so they can be placed very close to the charge source or humans without any safety concerns. Hope that helps you understand them more.
                        There seems to be a lack of real verifiable information regarding claims for LIFEPO, something that your anonymous post doesn't change. I look forward to that future time, to which you allude, when information will be made public.

                        Comment


                        • Originally posted by PNjunction View Post
                          Ok:
                          Linux desktop 3.16.0-4-amd64 #1 SMP Debian 3.16.7-ckt11-1+deb8u4 (2015-09-19) x86_64 GNU/Linux

                          Sometimes OpenBSD too.



                          And those are what? When I buy a lead-acid battery, and expect and pay for Rolls-Surrette, I want to know in case the original manufacturer's identifiers are missing. Or am I getting something else? Oh, OUR batteries are just as good, trust us. I expect the same consumer knowledge of what's inside when I go LFP.



                          Kind of like Expecting Panasonic / Sanyo Eneloops, but with the wrappings removed, and after testing find out the cells you really have were Tenergy, counterfeit fakes, or cells that are manufacturer rejects which got waylaid out the back door on the way to the recycler. Even a modest consumer can get hold of a Maha MH-C9000 for quick testing.

                          Or expecting Sanyo NCR18650B's only to discover that what's really inside are SmokeFire 3000's half filled with flour. How about used cells from laptop-pulls? Here, a CellPro Powerlab PL8 can help identify these differences for the interested consumer.



                          You should follow us on Candlepower forums for the smaller stuff. Especially op HKJ and his extensive testing for both performance, and thermal IR imaging.



                          This is the real reason I'm being so caustic. The industry as a whole suffers damage from cells of unknown origin and pedigree. Thing is, we don't know if YOU are getting ripped off and inadvertently passing bad cells on to the consumer, unless you do your own capacity and IR checks on each and every cell. Far from practical and spot checks with cells of unknown origin are a bad practice.

                          Going with established brands and KNOWN reputable manufacturers would put my mind at ease.

                          When I cut one open, I'm not going to find questionable A123 pouches missing / modified tabs, damaged zipper-fuses, cells from commercial "special projects" that should have been destroyed / recycled, old stock, homebrew internal connectors with dissimilar metals and so forth am I?

                          You should be proud to reveal your cell sources and models. So what are they?
                          Mate, you're in the USA, I'm in Australia and we are not only hemispheres apart, but in understanding and use of this technology, on another planet it seems.

                          We are a multi millions dollar turn over private company, not a bunch of amateurs. Said from the start I'm a builder, not an electrician so my explanations revolve around my understanding of the technology, hands on experience and learning from our technicians. I could learn all the intricacies, but don't have the time. In the last 6 years, I've stuffed a lot of cells seeing what they can do and not do and have had my technicians very frustrated with my antics. But it is necessary to push these things to see their limits and it is I who pay for them, so they handle it and we all learn a but more.

                          We've tried just about every manufacturer of lifepo4 cells there is and decided on these cells for a number of reasons, including they are used by a number of countries for their military and lots of industry. We do our own quality testing before installation, as well as having two electricians who have spent time overseas learning manufacture and repair of cells. It may not be that long before we establish our own lifepo4 manufacturing facility here in Aus, we have the largest supply of the best quality lithium on the planet, are in contact a company experimenting with lithium graphene combinations and super capacitors. Which may be the next step in energy storage.

                          Next year as a staff exercise, we are going run a car in the solar challenge from Darwin to Adelaide, should be a buzz and hopefully will gain enough out of it to design and build a compact lifepo4 solar powered car. There is a new category called the cruiser, which is a passenger vehicle category and that's the class we intend entering. Already the frame/chassis has been built using a modified drag racing frame, most of the running and drive gear is off the shelf and proven.

                          Do you honestly think a company our size would go into this like a hobby player, if so you know nothing about the building business. If you want some technical jargon ask someone else, not me. I only stopped off here because I was a bit shocked at some of the really dumb claims being made and felt others may like to know the facts from someone who knows how they operate and how to use them. Don't think the government or corporations we install for, would be happy if we used inferior cells and equipment and we've been doing this type of work since the 1980's. How long did you say you've been installing lifepo4 systems.

                          Pretty funny, the claims of our charge controllers being like phone chargers, shows how little some really know about this industry, or the current state of the control technology. Our installed charge controllers have individual cell voltage monitors, BMS and active cell balancers which I have mentioned in a previous post and which have been completely disregarded. They are so well setup, you can use them without cell balancers or a BMS. The voltage parameters and way of connecting, are such, it's very rare for cells to go over 3.5v if there is load on them and one or two cell lines 3.6v with no load, put a load on them and bingo they balance. When we go retail, cells will have our brand as we will be doing any repairs and also offer our customers the ability to rebuild their cells when and if they expire. This will save them 25-45% off a new purchase, which gives us an advantage over retailers and branded imported cells.

                          Loved your final statement, "Going with established brands and KNOWN reputable manufacturers would put my mind at ease." Just like Volkswagen owners and the same with many branded manufacturers, most are just crap with built in redundancy for profit growth. And yet you use Linux, hated by known supposed reputable OS providers and claimed by most as terrible and only for very technically minded because its too hard. We use linux exclusively and it goes really well on raspberry Pi's, which we use in our remote monitoring setups and they never fail.

                          We tried all the BMS on the market and ended up building our own, same with charge controllers, next is cells and panels probably.

                          Comment


                          • Hi Dax,

                            Great to see some more ingenuity and the 'give it a go' attitude from Australia. Your posts are like a breath of fresh air.

                            If this forum is anything to go by it wouldn't surprise me if there are more off-grid LFP installations in Australia than the whole of the USA.

                            I am responsible for two installations in Australia, one is my own and the other is for a friend.

                            I am very interested in what you are doing. I tried to send a PM but not sure if it has got through.

                            Simon
                            Off-Grid LFP(LiFePO4) system since April 2013

                            Comment


                            • Originally posted by dax View Post
                              Mate, you're in the USA, I'm in Australia and we are not only hemispheres apart, but in understanding and use of this technology, on another planet it seems.
                              Actually, I'm next door basically and with you all the way with LFP - except for the fact that too many scams have come here trying to hawk e-bike trash cells held together with duct-tape, crash-victim Nissan Leaf cells, and other hackerish grey-market, laptop pull junk. Either that or investor-bait schemes.

                              So yeah, we're a little bit skeptical - especially if it smells like salesmanship with the red flag about avoiding large-format cells like 100ah Winstons right off the bat.

                              Put yourself in my shoes - why should I trust you when you won't reveal what you are actually using? We don't know if you are stuffing boxes full of little cylindrical cells gotten cheaply. Maybe a handful of Headway's?

                              When you installed your previous lead-acid systems, did you go in blind and order up a generic lead-acid battery, or did you want to KNOW what you were purchasing beforehand? The same consideration should be given here and have nothing to hide. But these days, the LFP players want to change the rules and keep people in the dark - or afraid that competitors or other "makers" will jump into the game and become a competitor.

                              Tell ya' what - if you can find T1 Terry in your neighborhood, give him a sample so you can have an independent evaluation without any vested interests. If you can find him - like me, we are all just too burnt out on repeating the same things 5 years or more message after message, thread after thread.

                              we have the largest supply of the best quality lithium on the planet, are in contact a company experimenting with lithium graphene combinations and super capacitors. Which may be the next step in energy storage.
                              Read this first before your techs or marketing department convince you super-capacitors are worth investing in for solar storage such as we are using:
                              http://www.solarpaneltalk.com/showth...d-of-batteries

                              Super capacitors belong to the car audio thumper crowd. Save your R/D money for something else.

                              Just keep in mind that there are guys like me out there who will purposely buy excess cells to cut open for inspection and testing to destruction before investing a lot of money in more. We're not the average consumer.

                              And yet you use Linux, hated by known supposed reputable OS providers and claimed by most as terrible and only for very technically minded because its too hard. We use linux exclusively and it goes really well on raspberry Pi's, which we use in our remote monitoring setups and they never fail.
                              Ah yes, but I go one step further. I make sure that I don't have any proprietary binary blobs, drivers, or other non-disclosed code. I don't have to guess at what is in my system. If you won't tell us what cells you are using and in what configuration internally, then I figure there is something to hide - and which may bite me in the ass in the long run. Or I could close my eyes and live in the walled-garden of vendor lock-in.

                              Just be careful with what you are proposing, or you may end up putting a wall around your products / services, and just end up all Microsoft / Apple like - just in different clothing.

                              Look - I think we are on the same side - it is just that your messages read like they are from a maker-turned-salesman. Take off that slick jacket and bring back the maker to your messages.

                              Comment


                              • It is refreshing to see new players bringing new technology to market, we really need some competition here maybe Dax's company will kick off a worldwide boom in new lithium off grid solar installs. Until then I guess a cell will still be just a cell until it's assembled into something useful for solar storage.

                                Meanwhile back in the real world, off-grid one dead cell can take your whole system down and your SOL without lot's of options built in. I guess we'll all be waiting for next years curtain call.

                                Comment

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