At 25°C, you're looking at a 20 per cent capacity loss after one year. Since your working environment is likely to be less than 25°C, the reduction will you see will be a little less than that, and by making sure the battery is used regularly and evenly, you should be able to delay the point at which the battery has only 80 per cent of its starting capacity to 18 months or more.
Cycle logical: check your battery's recharge count in Mac OS X
Hot-running laptops will have the reverse effect, so if your notebook's like that, consider buying a cooling stand to help draw heat away from the machine and battery. Don't keep your laptop in a hot car cabin, or in direct sunlight.
If your laptop's going to remain unused for a long period, keep it cool. Never freeze it, but sticking the battery in the fridge, for example, will prolong its life. Battery manufacturers recommend storing batteries with a charge level of 40-50 per cent.
If you do refrigerate a battery, don't start using it as soon as you take it out again. Leave it several hours to warm up to room temperature first. Rapid warming could cause condensation, and you don't want moisture forming inside your battery pack or laptop.
If you have a spare battery pack handy, keep it cool and charged to 40-50 per cent of its maximum capacity until you're ready to take it on your travels. At that point, charge it up and use it as often as you use the other battery, so they both undergo regular charge and discharge cycles. ®
Charge Cycles Explained
Battery longevity - how long the battery lasts rather than how long it'll power a device from a full charge - is typically measured in cycles, with one cycle being a discharge from full to empty.
This doesn't need to happen all at once. A cycle is reached when 100 per cent of a battery's potential capacity has been taken, even if it's charged up in the meantime. If you drain a battery by half one day, charge it back up, take 25 per cent the next day, charge it up again then drain it by a quarter on the third day, that's one cycle: 50 per cent + 25 per cent + 25 per cent.
That might suggest the best way to eke out cycles isn't to discharge the battery too much, but don't forget, lithium-based batteries like to be used, not left on 100 per cent all the time.
Laptop makers typically say a machine's battery capacity will have declined to 80 per cent of its original capacity after 300-odd cycles.
Zen and the Art of Laptop Battery Maintenance
COMMENTS
High heat kills batteries...
...and is a particular problem if you own an Apple laptop which seem to be made for climates with an average temperate of 15C or assume that everyone will be using their laptop in a (cold) airconditioned office.
I live in the sub-tropics and given Apple's unhealthy obsession with 'thin', there is simply no way to keep their batteries cool, even with a cooling pad, a bit cooler yes, but cool, not possible. In the sub-tropics, these batteries get super-hot.
My oldish 17" Powerbook (1.33GHz G4) will quickly build up so much heat it will freeze or shut down entirely if I don't have it sitting on a cooling pad. Even with the cooling pad it killed a new battery within 6 months.
Just out of curiosity, has anyone else had this problem with this laptop model?
Apple: Time to seek treatment for anorexia nervosa.
Interesting stuff.
I have a 3 and a half year old Compaq R4000 which is a desktop replacement laptop with a full desktop Athlon 4000 cpu in it (no sexy low power mobile CPU here).
It also has the standard 6 cell battery and not the bigger capacity which is available.
I use it on power regularly but I always make sure at least once a week I use it on battery till it hits around 15-17% battery left and then charge it up the next time.
After all this time I still get around an hour battery life. Not bad for its age and power usage.
I will get a new battery some time in the future.
Since when did rapid warming cause condensation?
>Rapid warming could cause condensation, and you don't want moisture forming inside your battery pack or laptop
Since when did rapid warming cause condensation?
You're taking a cold battery from a fridge into a warm and possible humid room.
The moisture in the air will condense on the cold battery. Warming it rapidly will actually reduce the amount of condensation present as the evaporation due to heat will start sooner.
However there is no way of telling how much condensation has formed inside the battery, rapid warming or not. Leaving the battery for a few hours first gives it time to warm up to room temperature and also for the condensation to evaporate.
Now all that's needed is putting it into practice
Fascinating. My first laptop was invariably kept with the battery left in and the notebook used on mains charge. Then I took it away and tried to use it on the battery - it lasted about 5 minutes. And THEN I discovered how much Sony charged for replacement batteries.
Since then I have (i) avoided Sony notebooks (and after other experiences, nearly all Sony products) and (ii) tried to preserve the life of the battery by leaving it out of the laptop except for the occasional need to take it off the mains.
Sounds like that's as bad as leaving it in all the time :(
However, I can't help wondering whether the procedures described in the article don't come under the heading of "more trouble than they're worth." Though, I suppose we should all be doing everything we can to maximise resources, and I do hate the thought of shelling out for a new battery to keep an old laptop running.
There's also the question of how welcome a spare battery would be in the fridge ...
