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Charging 3 105 AH batteries with SSG

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  • John_Koorn
    replied
    Originally posted by Faraday88 View Post
    John/Aaron,

    Just wondering, Should not an increase in Capacity (by SG) every cycle also increase the time taken to charge the same battery when the same charge rate current is used?(Primary ) or does it work counter intuitive fashion?
    Rgds,
    Faraday88.
    Hi Faraday,

    I've only seen the charge time decrease on perfectly good battery that is repeatedly putting out it's maximum capacity (i.e fully rejuvenated). Bedini always said that once the battery gets used to being radiantly charged the time to charge it does decrease.

    John K.

    Leave a comment:


  • Faraday88
    replied
    Originally posted by John_Koorn View Post
    Hi Aaron,

    Yes, 15.8v comes from the Battery Bible. In reality I don't think I've ever seen a deep cycle flooded lead acid top out at that voltage. Low 15's is what I generally see too. Sorry if I implied that 15.8v was mandatory.

    I have a 100Ah deep cycle that I'm rejuvenating (Century N70T) that I picked up at the local dump. After the first charge I only got 6Ah out of it on a 1A discharge and when charging it would top out at around 13.5v. After 27 cycles I'm up to 67Ah on a 3.3A discharge. It tops out at around 14.6v but each cycle gets just a little bit higher.

    I'm still using my CBA II after all these years. It's the most used tool I own. That dip in voltage when charging is critical, especially for rejuvenating batteries. It's also a great indicator that your charger is capable of fully charging the battery.

    John K.
    John/Aaron,

    Just wondering, Should not an increase in Capacity (by SG) every cycle also increase the time taken to charge the same battery when the same charge rate current is used?(Primary ) or does it work counter intuitive fashion?
    Rgds,
    Faraday88.

    Leave a comment:


  • Faraday88
    replied
    Originally posted by Aaron Murakami View Post
    Ok, I get what you're saying. I've never seen that happen.

    When the CBA-IV is connected to a battery, the battery is such a low impedance path for the radiant that the battery just sucks it up like a sponge and it doesn't make it to the cba or other meter - from what I've experienced.

    This is the same reason that a 2A12 cap dump or even a spike charger on a car battery that is still hooked up to the cables on a car will not damage the car computer and other electronics. The battery sucks it up and it will never make it elsewhere. I won't guarantee that so if anyone fries their care computer, etc. it's their own responsibility - I'm just saying I've never seen those problems.
    Sure you are correct..just that Murrphy's law lurks every where lol!!
    Rgds,
    Faraday88.

    Leave a comment:


  • Aaron Murakami
    replied
    Originally posted by Faraday88 View Post
    Hi Aaron,
    Thanks for that little briefings.In fact I too saw this happening.Generally we consider 80% of the manufacturer's rating but with several cycles im getting it close to the this rating and eventually may stabilize like what you said. (>100%).
    About the CBA VI the radiant can kill the FET inside it depending on the state of the battery connected across it. (you never know if you are connecting an Open cell battery across it in which case the Radiant is right across the connected CBA IV).
    Rgds,
    Faraday88.
    Ok, I get what you're saying. I've never seen that happen.

    When the CBA-IV is connected to a battery, the battery is such a low impedance path for the radiant that the battery just sucks it up like a sponge and it doesn't make it to the cba or other meter - from what I've experienced.

    This is the same reason that a 2A12 cap dump or even a spike charger on a car battery that is still hooked up to the cables on a car will not damage the car computer and other electronics. The battery sucks it up and it will never make it elsewhere. I won't guarantee that so if anyone fries their care computer, etc. it's their own responsibility - I'm just saying I've never seen those problems.

    Leave a comment:


  • Faraday88
    replied
    Originally posted by Aaron Murakami View Post
    I think the 15.8v comes from the Battery Bible. The chart that shows the topping voltage dip is based on a hair over 2.6 volts per cell. At Bedini's around 2004 or so when Peter worked there for a year, they did a lot of non-stop charging/discharging tests and found that the low 15's is where that topping voltage dip happens on the charging graph - I don't think they ever needed to go above 15.3 volts.

    What I found with new deep cycles is that I get very close to 100% of the manufacturer's rating based on a 20 hour discharge. When I put a 2A12 on the battery then discharge after a full charge when it is new, I have gotten 110% of the manufacturer's rating. That was with 1 single charge cycle after discharging it.

    How will an "opening" of the SG damage the CBA IV? If the CBA IV is clamped to the battery getting charged, disconnecting the output of the SG may hurt the transistors if the neon bulbs don't protect them but nothing will happen to the CBA IV. At least, I don't see how it will be damaged.
    Hi Aaron,
    Thanks for that little briefings.In fact I too saw this happening.Generally we consider 80% of the manufacturer's rating but with several cycles im getting it close to the this rating and eventually may stabilize like what you said. (>100%).
    About the CBA VI the radiant can kill the FET inside it depending on the state of the battery connected across it. (you never know if you are connecting an Open cell battery across it in which case the Radiant is right across the connected CBA IV).
    Rgds,
    Faraday88.

    Leave a comment:


  • John_Koorn
    replied
    Originally posted by Aaron Murakami View Post
    I think the 15.8v comes from the Battery Bible. The chart that shows the topping voltage dip is based on a hair over 2.6 volts per cell. At Bedini's around 2004 or so when Peter worked there for a year, they did a lot of non-stop charging/discharging tests and found that the low 15's is where that topping voltage dip happens on the charging graph - I don't think they ever needed to go above 15.3 volts.

    What I found with new deep cycles is that I get very close to 100% of the manufacturer's rating based on a 20 hour discharge. When I put a 2A12 on the battery then discharge after a full charge when it is new, I have gotten 110% of the manufacturer's rating. That was with 1 single charge cycle after discharging it.

    How will an "opening" of the SG damage the CBA IV? If the CBA IV is clamped to the battery getting charged, disconnecting the output of the SG may hurt the transistors if the neon bulbs don't protect them but nothing will happen to the CBA IV. At least, I don't see how it will be damaged.
    Hi Aaron,

    Yes, 15.8v comes from the Battery Bible. In reality I don't think I've ever seen a deep cycle flooded lead acid top out at that voltage. Low 15's is what I generally see too. Sorry if I implied that 15.8v was mandatory.

    I have a 100Ah deep cycle that I'm rejuvenating (Century N70T) that I picked up at the local dump. After the first charge I only got 6Ah out of it on a 1A discharge and when charging it would top out at around 13.5v. After 27 cycles I'm up to 67Ah on a 3.3A discharge. It tops out at around 14.6v but each cycle gets just a little bit higher.

    I'm still using my CBA II after all these years. It's the most used tool I own. That dip in voltage when charging is critical, especially for rejuvenating batteries. It's also a great indicator that your charger is capable of fully charging the battery.

    John K.

    Leave a comment:


  • Aaron Murakami
    replied
    Originally posted by Faraday88 View Post
    Hi Aaron,
    Yes i guess we should first estimate what a battery gives out first(base quality) of the given Battery and the time it takes to charge it up to that 'Cold-boiling' regime(15.8V for true deep cycle, 14.5 for agm/SLA ect) and this you do by first Discharging a Standard mode charged battery and then from the next cycle on wards use the SG to start the cycle test. no given battery is even 80% of its factory rated Capacity in my guess. The battery servos to the given load over cycles and indeed shows improvement in COP as well! The CBAIV is a very important tool undoubtedly! However im a bit skeptical of using it for Charging monitoring purpose as you can have an accidental opening of the SG out put that can definitely kill the CBAIV.
    Rgds,
    Faraday88.
    I think the 15.8v comes from the Battery Bible. The chart that shows the topping voltage dip is based on a hair over 2.6 volts per cell. At Bedini's around 2004 or so when Peter worked there for a year, they did a lot of non-stop charging/discharging tests and found that the low 15's is where that topping voltage dip happens on the charging graph - I don't think they ever needed to go above 15.3 volts.

    What I found with new deep cycles is that I get very close to 100% of the manufacturer's rating based on a 20 hour discharge. When I put a 2A12 on the battery then discharge after a full charge when it is new, I have gotten 110% of the manufacturer's rating. That was with 1 single charge cycle after discharging it.

    How will an "opening" of the SG damage the CBA IV? If the CBA IV is clamped to the battery getting charged, disconnecting the output of the SG may hurt the transistors if the neon bulbs don't protect them but nothing will happen to the CBA IV. At least, I don't see how it will be damaged.

    Leave a comment:


  • Faraday88
    replied
    Originally posted by Aaron Murakami View Post
    Yes, you did mention 15.8 volts - that sounds a bit hot to me but maybe not.

    However, something like the CBA IV - Pro or non-Pro by West Mountain Radio: http://www.westmountainradio.com/pro...oducts_id=cba4

    Everyone experimenting with charging/discharging batteries should have one.

    When you see the charge graph ramp up then you see the dip showing the impedance dropped from the final layers of sulfation dissolving into solution, then you know you have reversed the chemistry on the battery. I think most lead acid batteries are in the low 15's and amg/gel is around 14.8 or so. 15.8 again sounds a little hot to me, but if anyone looks at the charts, the dip in the voltage at the end will tell you where that optimum topping voltage is for THAT particular battery and they will definitely vary a bit.

    That Computerized Battery Analyzer is not just good for monitoring charging curves, it has a constant current discharge mode so you can monitor what you actually got out of the battery.
    Hi Aaron,
    Yes i guess we should first estimate what a battery gives out first(base quality) of the given Battery and the time it takes to charge it up to that 'Cold-boiling' regime(15.8V for true deep cycle, 14.5 for agm/SLA ect) and this you do by first Discharging a Standard mode charged battery and then from the next cycle on wards use the SG to start the cycle test. no given battery is even 80% of its factory rated Capacity in my guess. The battery servos to the given load over cycles and indeed shows improvement in COP as well! The CBAIV is a very important tool undoubtedly! However im a bit skeptical of using it for Charging monitoring purpose as you can have an accidental opening of the SG out put that can definitely kill the CBAIV.
    Rgds,
    Faraday88.
    Last edited by Faraday88; 12-18-2018, 12:43 AM.

    Leave a comment:


  • Aaron Murakami
    replied
    Originally posted by John_Koorn View Post
    Yes Aaron, 20W is in the ball park for a 7-8 strand coil. So I'd expect it to charge a 20Ah battery well, probably no bigger than a 25Ah. As I said, it's a guide. There's a lot of variables - Mode 1, generator mode, 3 battery switch, rotored SG, SS SG, etc.

    You really need to push the battery to the top of the charge curve for effective de-sulfation.

    John K.
    Yes, you did mention 15.8 volts - that sounds a bit hot to me but maybe not.

    However, something like the CBA IV - Pro or non-Pro by West Mountain Radio: http://www.westmountainradio.com/pro...oducts_id=cba4

    Everyone experimenting with charging/discharging batteries should have one.

    When you see the charge graph ramp up then you see the dip showing the impedance dropped from the final layers of sulfation dissolving into solution, then you know you have reversed the chemistry on the battery. I think most lead acid batteries are in the low 15's and amg/gel is around 14.8 or so. 15.8 again sounds a little hot to me, but if anyone looks at the charts, the dip in the voltage at the end will tell you where that optimum topping voltage is for THAT particular battery and they will definitely vary a bit.

    That Computerized Battery Analyzer is not just good for monitoring charging curves, it has a constant current discharge mode so you can monitor what you actually got out of the battery.

    Leave a comment:


  • John_Koorn
    replied
    Originally posted by Aaron Murakami View Post
    I find that a typical coil with 7-8 power windings will draw a ballpark of about 20 watts - so it would take a 5 coiler ideally for the 100 ah battery bank. Would you say that matches what you've seen?

    A single coil with 7 power windings for example can barely push a 35 amp hour battery into the 14 volt range.
    Yes Aaron, 20W is in the ball park for a 7-8 strand coil. So I'd expect it to charge a 20Ah battery well, probably no bigger than a 25Ah. As I said, it's a guide. There's a lot of variables - Mode 1, generator mode, 3 battery switch, rotored SG, SS SG, etc.

    You really need to push the battery to the top of the charge curve for effective de-sulfation.

    John K.

    Leave a comment:


  • Gary Hammond
    replied
    Hi John and Aaron,

    Thanks for the feedback. What you are saying sounds about right. In the normal single battery supply my 7 strand SSG will charge a 13AH lawn battery to well over 16 volts. It does it very quickly in generator mode and a little slower in radiant mode. And it will push a 30AH car battery well over 15 volts in generator mode. It's definitely too small for the 100AH batteries I'm playing with now. I may add more coils to it at a later date. In the meantime, I'm just topping them off with my 10A12 charger to keep them in reasonably good condition.

    What I'm experimenting with is comparing normal charging to the "three battery supply" rotation in a "split the negative" arrangement with radiant spikes added to the battery under charge. It takes about an hour to pull them back up to 14 volts using this method, which I thought was pretty good for this size of batteries. It won't top them off, so after I've cycled them all a couple of times I finish charging each one individually to 15 volts on the 10A12.

    I think raising each battery to 24 volts would also make a big improvement, as well as switching to faster diodes to collect the radiant. Or I could invest in some 30 AH batteries and leave it the way it is for now. But first, I need to finish up a couple of other projects that are higher on my priority list.

    Leave a comment:


  • Aaron Murakami
    replied
    Originally posted by John_Koorn View Post
    Hi Gary,

    A good rule of thumb I use is about 1 watt of input power for 1 amp hour of battery you're charging. When I set my SS SG to this I get about a C20 rate of charge. So for a 100AH battery you'll need an SG that takes about 100W to run.

    John K.
    I find that a typical coil with 7-8 power windings will draw a ballpark of about 20 watts - so it would take a 5 coiler ideally for the 100 ah battery bank. Would you say that matches what you've seen?

    A single coil with 7 power windings for example can barely push a 35 amp hour battery into the 14 volt range.

    Leave a comment:


  • John_Koorn
    replied
    Hi Gary,

    A good rule of thumb I use is about 1 watt of input power for 1 amp hour of battery you're charging. When I set my SS SG to this I get about a C20 rate of charge. So for a 100AH battery you'll need an SG that takes about 100W to run.

    John K.

    Leave a comment:


  • Gary Hammond
    replied
    Hi,

    Shortly after my last post in this thread, I rewired the five strand coil to run on three strands and collect the radiant on two strands. This didn't really make much difference in the way it performed, as it still ran about the same speed and charged at the same rate. The batteries were still losing charge over time. So I stopped working on it until this past week.

    I decided to try splitting the negative and using my better SSG with seven strands running in conventional radiant mode. This is the SSG I showed in my first post of this thread. I discovered that by rearranging the battery locations in the 3 battery supply (using a common positive and taking power between the negatives) I could apply the radiant directly to the battery being charged from the regular SSG output. The charging looked pretty good, so I had my grandson help me rewire the circuit breakers last Thursday so I could easily rotate the batteries.

    I've just started testing this new set up and don't have any meaningful results yet. It does, however, bring the charge battery up a little faster and a little higher than the other SSG and "split the positive" did. Will post some photos and data results after I've ran it some more. This one is double pulsing and running at 206 RPM. I want to get the speed up and into single pulsing if I can by readjusting all the parameters.

    Leave a comment:


  • John_Koorn
    replied
    Hi Gary,

    Yes. I was going to suggest that the batteries are too big for that SSG. You need to be able to take them up to ~15.8V otherwise you'll slowly kill them.

    John K.

    Leave a comment:

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