Re-Charging Ni-mh
bambino
Posts: 789
I have an app that could benifit from re-chargeables. ie; six AAA batteries.
To gain a little insight into this I hooked a meter up to a store bought charger to see if it was similiar to chargeing lead acid batteries.
The charger charges two AAA's in series.
The low batteries started out at 2.220 volts and charged up pretty quick to around 2.8 volts, then slowly climbed up to 2.975 before the charge light went out.
All this seems similiar to lead acid, but this throwed me. When the charging light went out the voltage measured 12.6 volts!
I'm sure the amperage was low, and I use this charger a lot so I don't think it's malfuntioning.
If it isn't, my question is this: Is the high voltage at the end of the charge cycle neccesary to properly condition the batteries?
I have limited room in my app, and a small charge circuit will fit, but if I could do without the duel voltages it would fit a lot better.
I plan on using a Darlington pair array chip to raise and lower the amperage to the cell, but if I have to incorporate a larger voltage similiar to what I measured, then I'll have to switch the positive side, and componant count increases!
Thanks,
To gain a little insight into this I hooked a meter up to a store bought charger to see if it was similiar to chargeing lead acid batteries.
The charger charges two AAA's in series.
The low batteries started out at 2.220 volts and charged up pretty quick to around 2.8 volts, then slowly climbed up to 2.975 before the charge light went out.
All this seems similiar to lead acid, but this throwed me. When the charging light went out the voltage measured 12.6 volts!
I'm sure the amperage was low, and I use this charger a lot so I don't think it's malfuntioning.
If it isn't, my question is this: Is the high voltage at the end of the charge cycle neccesary to properly condition the batteries?
I have limited room in my app, and a small charge circuit will fit, but if I could do without the duel voltages it would fit a lot better.
I plan on using a Darlington pair array chip to raise and lower the amperage to the cell, but if I have to incorporate a larger voltage similiar to what I measured, then I'll have to switch the positive side, and componant count increases!
Thanks,
Comments
There is a lot of good info on the Energizer site. Here is their app note on NiMH
data.energizer.com/PDFs/nickelmetalhydride_appman.pdf
It talks about the different charging strategies. Other articles in their technical database cover other battery chemistries.
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Tracy Allen
www.emesystems.com
The store bought charger, charges two ni-mh(in this case) AAA batteries. Normally rated at 1.2 volts each, but it charges them in series.
I placed a meter on the neg of one battery and the pos of the other. The discharged batteries started a charge that rated 2.2 volts, and charged up to around 2.95 before leveling out. the charge terminated at 2.975 then the charge light went out and the meter read 12 volts.
The six battery pack is what I intend to build,...... the store bought charger just handles 2 at a time!
Thanks for the link!
Edited ...
The 1/10 capacity charge rate cannot be used indefinitely. It can be used to charge a NiMH battery with unknown initial charge for a fixed time (like overnight). You really need to use a more complex fast-charge algorithm that uses voltage sensing as described in the application note if you want to maximize battery life and capacity.
Post Edited (Mike Green) : 9/14/2008 7:16:21 PM GMT
I was planning on using a stamp with the chip array and a temp sensor to charge the six batteries at once. typically a 7.2 cell!
Ps, Tracy the batteries were cool during the charge. I have two more I plan on testing later!
But the main thing is that all the Ni batteries are recharged by current regulation. Lead acid batteries seems to be more rough and ready about abuse. I have seen auto batteries take a charge while boiling. I guess the internal resistance is adequate for the job. So you may just hook up a set voltage and don't concern yourself as much with the charge current.
Lithium batteries are very touchy. They will pre-charge at a trickle to first get them ready, then to a high charge rate, and then switch to maintain charge rate at a safe voltage. This makes a lot of sense as the store more energy in the mass and if you upset the chemistry you get a ball of fire.
Temperature is always a good indicator of a safe charge rate. But Ni-mh batteries can actually be damaged by extremely slow charge rates, like 1/50th their amp-hour rating. Look at 'The Art of Electronics' for more info. The third wire on Lithium batteries is supposedly a thermistor that tells the charger to shut down if the batteries is getting too hot.
The new AAA Ni-mh have almost as much capacity as the AA batteries of five years ago. They are a very good choice for micro-controller projects. The AAs still seem to be the best $$$ value in rechargables and the best for optimal capacity. The 9v rechargables have very small capacity.
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It's sunny and warm here. It is always sunny and warm here.... (unless a typhoon blows through).
Tropically, G. Herzog [noparse][[/noparse] 黃鶴 ] in Taiwan
Post Edited (Kramer) : 9/14/2008 7:32:54 PM GMT
That link recommended 1C up to 90% charge,terminated by Temp sensor.
Then slow charged up to 100% at .1C terminated by timer.
Then Trickle charged at .025C to eliminate self discharging.
If I am using 900mAh cells in my battery Pack(6 AAA batts in series), do 1C, .1C, and .025C corelate to 9, .9, and .225 mA?
@Kramer
I have steered away from Lithium for the reasons you mention. I would that I could stick with Lead Acid, but they would not handle the vibrations.
I'm just hopeing ni-mh is docile enough to accept my engineering skills!
-- 1C is 900mA, until the cell temperature rises about 5 degrees above ambient or until the cell voltage passes the "hump". The temperature has to be detected inside the battery pack or at least in very good contact with it.
-- 0.1C is 90 mA, for an additional 1 to 2 hours
-- 0.025C is 22 mA, trickle charge thereafter.
Provided by a regulated current source. I'm not sure how you planned to do it with the Darlington array chip, and where the primary charging power will come from, but it does have to have means to regulate the current. (In contrast, Pb acid chargers usually work in terms of regulated voltages).
Why do you state that sealed Pb-acid wouldn't handle vibrations? I hadn't heard that.
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Tracy Allen
www.emesystems.com
The acid in the battery sloshing around would be a dynamic influence on my accelorometer sensors. Everything in my device has to be static weight to get accurate readings.
I was planning on using a R2R ladder on the chip array, opening one or more darlingtons on the chip would change the current flow. And by swithing the ground eliminate the need for fet's and fet drivers. Just a high current regulator on the pos side and hopefully keep componant count down. The link said nothing about the trickle charge having to be of higher pressure, I think the one voltage source should work!
For current regulation, an op-amp and one transistor run with PWM might not take up more space than the R2R and the darlingtons. It will be important to have accurate current regulation.
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Tracy Allen
www.emesystems.com
If I go with an external charger circuit(which I have to admit is a better idea), then I will have more room to manipulate the positive input side.
I have really poor luck with transistors, I would probably use a mosfet. "less burned fingers and exploding dies that way" Everytime I screw up a fet circuit, it just doesn't work no more.
You may be right about the slosh in those batteries, but the crew has already black balled the idea of using them.
May be a good topic for another thread "Other peaple's use of my creation's : and how I lothe them"
Anyway, It's good to know you guys are here! I hope to start on the charger next month! "sooner if I can clean my plate"
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It's sunny and warm here. It is always sunny and warm here.... (unless a typhoon blows through).
Tropically, G. Herzog [noparse][[/noparse] 黃鶴 ] in Taiwan
I imagine I'll be looking at a lot of circuits to do this with now before I start!
Thanks!