Rechargeable: Difference between revisions

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==Cell voltages==
==Cell voltages==


A lot of confusion exists about battery voltage. Ordinary alkalines are rated to 1.5v, but typically are down to 1.2v when 50% used, and rapidly fall thereafter. This is why devices using alkalines often become less responsive over time (or dimmer with flashlights). Rechargeable NiCad or NiMH batteries are rated to 1.2v (starting at 1.4v at first) but will hold 1.2v until right at the end. You tend therefore to get a more consistent performance from rechargeable batteries. '''This improved consistency of voltage, is a major reason to prefer rechargeables for torch applications'''.
A lot of confusion exists about battery voltage. Ordinary alkalines are rated to 1.5V, but typically are down to 1.2V when 50% used, and rapidly fall thereafter. This is why devices using alkalines often become less responsive over time (or dimmer with flashlights). Rechargeable NiCad or NiMH batteries are rated to 1.2v (starting at 1.4V at first) but will hold 1.2V until right at the end. You tend therefore to get a more consistent performance from rechargeable batteries. '''This improved consistency of voltage, is a major reason to prefer rechargeables for torch applications'''.


==Torch circuitry==
==Torch circuitry==


Three cells seem to work better in many flashlights. This is because most LEDs are designed to operate in the 3-4v range. 3 cells * 1.2 = 3.6v. No conversion circuitry is therefore required in 3 cell torches or if there is a circuit, it will work more efficiently. The bulb can be powered directly off the battery cells.
Three cells seem to work better in many flashlights. This is because most LEDs are designed to operate in the 3-4V range. 3 cells * 1.2 = 3.6V. No conversion circuitry is therefore required in 3 cell torches or if there is a circuit, it will work more efficiently. The bulb can be powered directly off the battery cells.


==Chargers==
==Chargers==


A good charger will use an appropriate charging rate (15 minutes is not appropriate), charge each battery individually, and will cut off when the battery is full rather than just after some period of time. It is very hard to find such a charger in stores. See [[Chargers]] for more information.
A good NiMH charger will use an appropriate charging rate (15 minutes is not appropriate), charge each battery individually, and will cut off when the battery is full rather than just after some period of time. It is very hard to find such a charger in stores. See [[Chargers]] for more information.


==Battery types==
==Battery types==
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===Nickel-Zinc (NiZn) - 1.6V/cell===
===Nickel-Zinc (NiZn) - 1.6V/cell===


Introduced in 2008, Nickel-Zinc cells have already disappeared from the market. They require a special charger due to the higher nominal voltage of NiZn cells. They are 1.6V nominal, but are charged to 1.8V to 1.9V and are recharged at 1.5V. PowerGenix and Quantaray made the batteries and chargers, claiming 2500 mWh of capacity (not mAh, see [[battery capacity]]). The higher voltage may make some flashlights brighter than on NiMH or Alkaline cells, but could also damage devices, especially if they use a number of AA cells in series. NiZn cells are advertised as capable of 200 full charging cycles, which is less than LSD NiMH cells. Some people found the performance of the cells to be inconsistent, while others saw good performance. In February of 2011, Powergenix said they would no longer make AA batteries and chargers and instead focus on industrial uses of larger NiZn batteries.
Introduced in 2008, Nickel-Zinc cells have mostly disappeared from the market. They require a special charger due to the higher nominal voltage of NiZn cells. They are 1.6V nominal, but are charged to 1.8V to 1.9V and are recharged at 1.5V. PowerGenix and Quantaray made the batteries and chargers, claiming 2500 mWh of capacity (not mAh, see [[battery capacity]]). The higher voltage may make some flashlights brighter than on NiMH or Alkaline cells, but could also damage devices, especially if they use a number of AA cells in series. NiZn cells are advertised as capable of 200 full charging cycles, which is less than LSD NiMH cells. Some people found the performance of the cells to be inconsistent, while others saw good performance. In February of 2011, Powergenix said they would no longer make AA batteries and chargers and instead focus on industrial uses of larger NiZn batteries.


===Lithium Ion (Li-ion) - 3.7V/cell===
===Lithium Ion (Li-ion) - 3.7V/cell===
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'''Important:''' ''***These are not the same as [[Primaries#Lithium|disposable lithium batteries]] sold by Energizer (Energizer e2 or Ultimate Lithium), Saft (who make it more confusing by selling 3.6V lithium cells that are not rechargeable), and other companies since those can not be recharged and will explode if you try it ([http://www.candlepowerforums.com/vb/showthread.php?t=250219 example]).***''
'''Important:''' ''***These are not the same as [[Primaries#Lithium|disposable lithium batteries]] sold by Energizer (Energizer e2 or Ultimate Lithium), Saft (who make it more confusing by selling 3.6V lithium cells that are not rechargeable), and other companies since those can not be recharged and will explode if you try it ([http://www.candlepowerforums.com/vb/showthread.php?t=250219 example]).***''


Though there are other lithium ion chemistries (listed below), but usually when people talk about lithium ion batteries they are talking about lithium cobalt, '''LiCoO<sub>2</sub>''', after the chemistry of the battery cathode (these batteries are also sometimes called LiCo, LCR, or ICR). They are available in a wide variety of sizes including CR123A, AA, and AAA. However, because of the higher voltage, Li-ion cells can only be swapped for NiMH or alkalines if the device manufacturer recommends it. Be careful! A fully charged li-ion battery has 3 times the voltage of a NiMH cell. Some flashlights that use two CR123A batteries can take a single 18650 battery (though this battery is wider than CR123A cells and 18650's will not fit in some [[SureFire]] and [[4Sevens|Quark]] lights) which offers substantially more capacity than the two smaller cells together.
Though there are other lithium ion chemistries (listed below), usually when people talk about lithium ion batteries they are talking about lithium cobalt, '''LiCoO<sub>2</sub>''', after the chemistry of the battery cathode (these batteries are also sometimes called LiCo, LCR, or ICR). They are available in a wide variety of sizes including CR123A, AA, and AAA. However, because of the higher voltage, Li-ion cells can only be swapped for NiMH or alkalines if the device manufacturer recommends it. Be careful! A fully charged li-ion battery has 3 times the voltage of a NiMH cell. Some flashlights that use two CR123A batteries can take a single 18650 battery (though the 18650 battery is wider than CR123A cells and 18650's will not fit in some [[SureFire]] and [[4Sevens|Quark]] lights; 17650 or even 16650 batteries are available) which offers substantially more capacity than the two smaller cells together.


Some brands of 10440, 14500, and 16340 cells are longer than their AAA, AA, and CR123 counterparts, so make sure you are getting cells that are not too long and that your light can deal with the size variance by reading the forums and reviews of the batteries and/or lights. Just because a cell is sold as an 18650 does not mean it is exactly 65 mm long: some are 68 mm long.
Some brands of 10440, 14500, and 16340 cells are longer than their AAA, AA, and CR123 counterparts, so make sure you are getting cells that are not too long and that your light can deal with the size variance by reading the forums and reviews of the batteries and/or lights. Just because a cell is sold as an 18650 does not mean it is exactly 65 mm long: some are 68 mm long.
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Li-ion cells have fairly low self-discharge, but in order to prolong the life of the battery, should be stored partially discharged.
Li-ion cells have fairly low self-discharge, but in order to prolong the life of the battery, should be stored partially discharged.


'''Recommended batteries:''' There are a number of sources of batteries and quality varies widely. Some are outright frauds with brand name labels pasted over recycled cells or worse (one battery was hollow and contained a small Li-po battery inside). eBay is a notoriously bad place to buy lithium ion batteries, with fake brand name batteries and false claims regarding capacity and battery protection. '''Good:''' Trustfire has a line of li-ion batteries with flames on the label that are a decent budget choice in nominal capacities of 2400 or 3000 mAh though actual capacity will be less (roughly 2100 and 2600 mAh), however it is hard to find genuine ones even at DealExtreme which has been a reliable source in the past. '''Better:''' Sanyo 2600mAh and 28000 mAh cells are available from [http://www.fasttech.com/category/1420/batteries FastTech], XTAR, and others and are better quality than Trustfires. Hi Max cells are also good and use 2600 mAh Samsung cells. '''Best:''' Many CPF members recommend AW (available through some online dealers and directly from AW via [http://www.cpfmarketplace.com/mp/forumdisplay.php?f=13 CPF Marketplace/Dealers] under the latest AW's LiIon Batteries Sales Thread) or Redilast cells (also on CPF) which use high quality cells and have their own protection circuits that may perform better than cheaper cells, but are very expensive ($12 each and up). Both of those brands use Panasonic NCR18650, NCR18650A, and NCR18650B cells of 2900, 3100, and 3400 mAh capacity (the NCR18650PD cell with 2900mAh capacity is designed for higher drain devices). The same cells, with and without protection, are available from other sellers (FastTech has very good prices), but may not have the same level of protection.
'''Recommended batteries:''' There are a number of sources of batteries and quality varies widely. Some are outright frauds with brand name labels pasted over recycled cells or worse (one battery was hollow and contained a small Li-po battery inside). eBay is a notoriously bad place to buy lithium ion batteries, with fake brand name batteries and false claims regarding capacity and battery protection. '''Good:''' Trustfire has a line of li-ion batteries with flames on the label that are a decent budget choice in nominal capacities of 2400 or 3000 mAh for 18650 size though actual capacity will be less (roughly 2100 and 2600 mAh), however it is hard to find genuine ones even at DealExtreme which has been a reliable source in the past. Trustfire flames are also available in 14500 and 26650 sizes. '''Better:''' Sanyo 2600mAh and 2800 mAh cells are available from [http://www.fasttech.com/category/1420/batteries FastTech], XTAR, and others and are better quality than Trustfires. Hi Max cells are also good and use 2600 mAh Samsung cells. '''Best:''' Many CPF members recommend AW (available through some online dealers and directly from AW via [http://www.cpfmarketplace.com/mp/forumdisplay.php?f=13 CPF Marketplace/Dealers] under the latest AW's LiIon Batteries Sales Thread) or Redilast cells (also on CPF) which use high quality cells and have their own protection circuits that may perform better than cheaper cells, but are very expensive ($12 each and up). Both of those brands use Panasonic NCR18650, NCR18650A, and NCR18650B cells of 2900, 3100, and 3400 mAh capacity (the NCR18650PD cell with 2900mAh capacity is designed for higher drain devices). The same cells, with and without protection, are available from other sellers (FastTech has very good prices), but may not have the same level of protection.


'''Reviews:''' Here is [http://lygte-info.dk/review/batteries2012/Common18650comparator.php HKJ's comparison tool] of a large number of li-ion 18650 battery brands that lets you compare two different batteries at various discharge rates, based on HKJ's extensive testing of batteries. There is also this older [http://lux.yi.org/batt/ comparison by DrJones] of budget brands. Here's [http://budgetlightforum.com/node/2581 Mitro's group of discharge graphs] of different brands at different currents.
'''Reviews:''' Here is [http://lygte-info.dk/review/batteries2012/Common18650comparator.php HKJ's comparison tool] of a large number of li-ion 18650 battery brands that lets you compare two different batteries at various discharge rates, based on HKJ's extensive testing of batteries. There is also this older [http://lux.yi.org/batt/ comparison by DrJones] of budget brands. Here's [http://budgetlightforum.com/node/2581 Mitro's group of discharge graphs] of different brands at different currents.
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