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 <<O>>  Difference Topic BatteryPacks (r1.3 - 25 Mar 2002 - MarcusWolschon)
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Commercially Available

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stores

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  • Homebrew
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Homebrew


 <<O>>  Difference Topic BatteryPacks (r1.2 - 01 Feb 2002 - RickJones)
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Batteries can be connected in series to increase their voltage. For example, two 1.25V NiCd batteries in series can provide 2.5V.

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  • Commercially Available
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With difficulty, batteries can be put in parallel to increase their current rating. For example, two 1200 mAHr batteries in parallel can provide 2400 mAHr.

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Rule number one: Never connect batteries in parallel unless the batteries are new and the pack is going to stay in that configuration forever. If you do not follow this rule, the batteries will not be charged evenly, and the pack will quickly die a gruesome death.

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Paralleling batteries cannot go on indefinitely. Most packs that I've seen parallel no more than two cells. The primary problem is charging, since when in parallel, there's no way to control which batteries get how much current. You can easily fry a single battery by pushing too much current through it, where its neighbour isn't getting charged because it's getting no current.

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If you connect one charged and one discharged battery in parallel, they will have uncontrolled amounts of current flowing between them. It's roughly equivalent to shorting out a battery, and you will quickly set yourself on fire that way.

Don't charge batteries when they're hot. Hot batteries cause the liquid inside to turn to vapour. The vapour is vented outside the battery, never to return. Therefore, you just lost some of your battery capacity.

One workaround is to treat each battery module separately and isolate them from each other with diodes. Diodes will allow current to flow in only one direction, and in this case, only out from the battery. You will still have to charge each battery module separately. This is what most folks using camcorder batteries use.

The circuit diagram might look something like this: 

       +|----|>|---------*-----|+
Battery1|               /      | Power Input to Device
       -|--------------/---*---|-
                      /   /
       +|----|>|-----/   /
Battery2|               /
       -|--------------/

Key: 
Diode: --|>|--

Diodes allow electricity to flow in one direction only, but it comes at a cost. Standard diodes reduce the voltage by 0.7?? volts. Shottky diodes only reduce the voltage by 0.3?? volts, and are thus much more desirable. Be sure to get diodes that can handle at least twice your maximum rated current, otherwise the diodes will burn out, sometimes spectacularly.

-- KevinWang - 01 Feb 2002


 <<O>>  Difference Topic BatteryPacks (r1.1 - 01 Feb 2002 - KevinWang)
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%META:TOPICINFO{author="KevinWang" date="1012555515" format="1.0" version="1.1"}% %META:TOPICPARENT{name="PowerManagement"}% Batteries can be connected in series to increase their voltage. For example, two 1.25V NiCd batteries in series can provide 2.5V.

With difficulty, batteries can be put in parallel to increase their current rating. For example, two 1200 mAHr batteries in parallel can provide 2400 mAHr.

Rule number one: Never connect batteries in parallel unless the batteries are new and the pack is going to stay in that configuration forever. If you do not follow this rule, the batteries will not be charged evenly, and the pack will quickly die a gruesome death.

Paralleling batteries cannot go on indefinitely. Most packs that I've seen parallel no more than two cells. The primary problem is charging, since when in parallel, there's no way to control which batteries get how much current. You can easily fry a single battery by pushing too much current through it, where its neighbour isn't getting charged because it's getting no current.

If you connect one charged and one discharged battery in parallel, they will have uncontrolled amounts of current flowing between them. It's roughly equivalent to shorting out a battery, and you will quickly set yourself on fire that way.

Don't charge batteries when they're hot. Hot batteries cause the liquid inside to turn to vapour. The vapour is vented outside the battery, never to return. Therefore, you just lost some of your battery capacity.

One workaround is to treat each battery module separately and isolate them from each other with diodes. Diodes will allow current to flow in only one direction, and in this case, only out from the battery. You will still have to charge each battery module separately. This is what most folks using camcorder batteries use.

The circuit diagram might look something like this: 

       +|----|>|---------*-----|+
Battery1|               /      | Power Input to Device
       -|--------------/---*---|-
                      /   /
       +|----|>|-----/   /
Battery2|               /
       -|--------------/

Key: 
Diode: --|>|--

Diodes allow electricity to flow in one direction only, but it comes at a cost. Standard diodes reduce the voltage by 0.7?? volts. Shottky diodes only reduce the voltage by 0.3?? volts, and are thus much more desirable. Be sure to get diodes that can handle at least twice your maximum rated current, otherwise the diodes will burn out, sometimes spectacularly.

-- KevinWang - 01 Feb 2002


Topic BatteryPacks . { View | Diffs | r1.3 | > | r1.2 | > | r1.1 | More }
Revision r1.1 - 01 Feb 2002 - 09:25 GMT - KevinWang
Revision r1.3 - 25 Mar 2002 - 16:21 GMT - MarcusWolschon 		Copyright © 2002 by the contributing authors. All material on this collaboration tool is the property of the contributing authors.
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