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Should I charge my phone when it has like 0.5% battery left always, or can I charge whenever it gets a little low, like 30-40%?
Also, can I leave my phone plugged into the charger overnight? Will that drain the battery?
I leave mine in the charger every night. And I'll put it in charge at work, too, or whenever a charging opportunity arises. With this kind of battery, it really doesn't matter.
Here is a very good article that discusses Lithium Ion batteries:
http://batteryuniversity.com/learn/article/charging_lithium_ion_batteries
I don't get the article.
Does 4.2V mean 100% battery life?
If you want to charge it to 4.0 V, does that mean its like 90% battery life?
convolution said:
I don't get the article.
Does 4.2V mean 100% battery life?
If you want to charge it to 4.0 V, does that mean its like 90% battery life?
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Click to collapse
Not certain, but it seems the charger and/or battery on the Vision is designed so that it does not keep the voltage at 100% when its charging and full. I've noticed the battery meter periodically drop to 99% when still on the charger, then back up to "F" (full). While I know the battery meter is not really accurate enough to read to 1% increments; what this seems to indicate is that once a full charge is achieved, the system is going to let the charge drop below a certain threshold, then top off again, rather than keep the voltage at 100% constantly.
The table below is a little more easily digestible (not overly technical). It says you can keep the battery on the charger.
It also says not to let the battery discharge below 20%. Overdischarge of Li ion batteries can result in your battery no longer accepting a charge, on the off chance the safety circuit does not trip properly. The safety circuit is designed to prevent over discharge of the battery, but this has been known to fail, at least on other phones. And there is no benefit to letting the battery discharge below 20%.
http://batteryuniversity.com/learn/article/do_and_dont_battery_table
convolution said:
I don't get the article.
Does 4.2V mean 100% battery life?
If you want to charge it to 4.0 V, does that mean its like 90% battery life?
Click to expand...
Click to collapse
There are two terms you need to understand when it comes to batteries: volts and amps.
Volts is "static" for a battery, meaning it doesn't change. You have a 1.5V battery, it will always be a 1.5V battery. Now the capacity of the battery is measured in amps. A 1Amp battery has more capacity than a 500mAh battery. At 100% fully charged, you'd have 1000mAh (or 1A). At 90%, you'd have 900mAh.
What that article tells you is that your phone is charged to (or close to) 100% using a specified voltage (probably whatever the battery is rated at...3.7V?). Now batteries and chargers of the past had what's called a "trickle" effect, in which it still chargers the battery when it is (or close to) 100%, but at a much lower voltage. If you phone was to stop charging after it hit 100%, it would start to discharge. When you unplugged it (assuming you charge it over night) in the morning, you would have less than 100%. The trickle is so that your battery will still have 100% when you unplug it.
Think about if you filled up your gas tank and left your car running over night. When you woke up, you wouldn't have a full tank anymore. But if you left the gas nozzle in the tank while it was running, it would continually "top it off". That or gas leak everywhere and your car would burst into flames...therefore canceling the point that you wouldn't a full tank...
Anyways...Li-Ion batteries charge and behave differently that batteries of yore. It's bad to let it go down to almost 0%. It's also bad to let it continually sit on the charger. I personally charge mine every other day but I used to charge my Vibrant and HD2 every night.
The batteries in these phones have protection circuits to prevent over charging as well as over discharge. It is perfectly safe to charge over night as well as discharge until empty. What the display shows as 0% does not mean the battery has actually reached 0%. It is just were the protection circuit deems safe. It is possible to over discharge a Li-ion/LiPo battery which may cause it to no longer charge but there are ways to bring it back for the willing. Our phones, however, will not do this due to the protection circuit unless that fails. If that happens you need a new battery because Li-ion/Lipo batteries are very dangerous if over or under charged.
Also, the voltage is static in theory but in real life the the voltage does drop as the battery is discharged. The drop is not large however. A 3.7v Li-ion/LiPo cell will read around 4.2v at full charge and lowers to just over 3.7v at full SAFE discharge. If the battery falls below 3.7v, you will likely have damaged the cell. Again, our phone batteries have a protection circuit to prevent this.
ihateusernames said:
The batteries in these phones have protection circuits to prevent over charging as well as over discharge. It is perfectly safe to charge over night as well as discharge until empty. What the display shows as 0% does not mean the battery has actually reached 0%. It is just were the protection circuit deems safe. It is possible to over discharge a Li-ion/LiPo battery which may cause it to no longer charge but there are ways to bring it back for the willing.
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Click to collapse
It would require a special charger with a "boost" function, which most people do not have access to.
From the previously linked battery University page:
In spite of these preventive measures, over-discharge does occur. Advanced battery analyzers (Cadex C7000 series) feature a 'boost' function that provides a gentle charge current to activate the safety circuit and re-energize the cells if discharged too deeply.
Most of us let our battery drain low on accident from time to time. But it makes not sense to do it intentionally or make a habit of it, as it yields no benefit (some people think they are "conditioning" or "calibrating" the battery, which does not apply to Li ion batteries), and actually hurts battery life. Also from Battery University: "Do charge the battery often. The battery lasts longer with partial rather than full discharges."
There have been pretty occasional cases on the Touch Pro 2 forums of people over-discharging the battery, and rendering it useless. So it does happen. Some have claimed that the Android OS, or the Vision phone itself handles the battery better to avoid over discharge. Maybe so. But do you really want to test that theory, if it can most usually be avoided?
redpoint73 said:
It would require a special charger with a "boost" function, which most people do not have access to.
From the previously linked battery University page:
In spite of these preventive measures, over-discharge does occur. Advanced battery analyzers (Cadex C7000 series) feature a 'boost' function that provides a gentle charge current to activate the safety circuit and re-energize the cells if discharged too deeply.
Most of us let our battery drain low on accident from time to time. But it makes not sense to do it intentionally or make a habit of it, as it yields no benefit (some people think they are "conditioning" or "calibrating" the battery, which does not apply to Li ion batteries), and actually hurts battery life. Also from Battery University: "Do charge the battery often. The battery lasts longer with partial rather than full discharges."
There have been pretty occasional cases on the Touch Pro 2 forums of people over-discharging the battery, and rendering it useless. So it does happen. Some have claimed that the Android OS, or the Vision phone itself handles the battery better to avoid over discharge. Maybe so. But do you really want to test that theory, if it can most usually be avoided?
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Click to collapse
I agree that it can happen which is why I stated that the prevention circuit can fail though I do believe it to be a rare case that this happens. I charge when ever I am near a charger as I don't like to run low but I also don't freak out if I am close to dead. I also charge over night every night and have for years. I just don't believe that it is necessary to worry that my phone has been on the charger too long or that I am running close to 0% as there is redundant protection in place and for the most part, this protection works very well. Hell, your phone COULD burst into flames while holding it next to your ear due to the volatility of the Lithium Ion chemistry if exposed to air but that also very rarely happens.
I believe it is probably worse on the battery to watch movies on the phone while overclocked with the battery getting too hot than to discharge to 0% occasionally.
I do agree that it is pointless to try conditioning lithium batteries as they have no memory effect.
Reviving an over discharged Lithium battery should not be attempted by most. I fly RC Helis and my electrics use 3 or 6 cell LiPo's. On the very rare occasion I kill a cell, I isolate the bad cell and trickle charge until it matches the others and then resume balance charging. The batteries in our phones can be revived in the same manner. It requires low current and constant observation and should not be done by the inexperienced.
At the office I leave my phone in a cradle. When I get calls I remove the phone to answer and then return it to the cradle when done. My battery goes from 100% down to somewhere in the 90's then charges back to 100% in the cradle. Does this repeated process harm the battery in any way? I've read that these batteries don't suffer from the memory effect, but I'm still not sure if this counts as a charging cycle.
Sent from my Desire HD using XDA App
You should always let the battery run down completely some times maybe once a week.
Really? I've read on this forum that there is no need to do that with the new Lithium Ion batteries. I've even read that this could have a negative effect and you should try not to let the battery drain completly.
I don't understand why there isn't a proper battery care section in the manual. Its as if its some kind of voodoo science.
Perhaps not Once a week. But Once a "while"
The reason is that, Phone software uses approximation to calculate the charge left in the Battery. So over time, battery ages and software may not be calibrated to match with the battery's storage capacity. So draining the battery entirely and charging them fully gives the phone's software to assess the battery's health and recalibrate.
It's a lithium battery mate. The only way you can really damage it is by a complete discharge. So long as you don't switch the phone back on once it switches itself off due to low battery you needn't worry about anything else.
Also in theory the lithium batteries have a lifespan of say about a 1000 charges for example and everytime you charge it has one charging less left. This ofcourse isn't exactly how it is in practice but charging the battery alot wears it down. It isn't good either to keep it in the charger for a longer time after it's reached a 100%.
Hi,
this is only partly correct:
Suppose the battery can make 1000 (which I don't believe) charge cycles,
it means that you can charge 1000 times from empty to full.
If you just charge 1000 times from 50% empty to full it counts for 500 cycles!
So,
don't worry, let it stay in the cradle if you like
There are 500 opinions about that but believe, as I wrote is correct.
Theo
Yes, what I said wasn't exact science and I used 1000 cycles as an example, but from what I've read it is better to let the battery drain to less than 50% and then charge it full rather than charge 5% at a time. My previous post was meant to illustrate this.
Sent from my Leedroid powered pocketsized supercomputer using XDA App
geenome said:
You should always let the battery run down completely some times maybe once a week.
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Click to collapse
That's a load of crap, no offense... Lithium batteries have no memory effect and have absolutely no need to be completely discharged, that's a ancient thing from the time of nickel-metal hybrid batteries. The only actual reason for full charge cycles is to calibrate the device for that exact battery.
Keeping a lithium-ion battery in a charger most of the time will wear the battery down faster than getting it drain more and then charging it. Keeping the battery almost fully loaded/in a constant loading state wears the battery capacity by approximately 20% a year (can't recall the source/study just now)(EDIT: and my personal experience is that the battery capacity will wear that much anyway, no matter how you use it). The life-cycle of phones these days are roughly two years nowadays so IMO you can keep it in a cradle with no worries, if you wish. And lets face it, a new battery after a year of usage won't be that big an investment after all.
To add to the above post, running down a lithium battery completely does more damage than benefit. This is almost impossible though with normal use as the phone shuts down long before the battery is completely empty
We all know that the One (and many other modern cellphones) have a Lithium Ion battery. While these batteries have no traditional 'memory effect' the way NiMH did, it seems that different chemistries for the electrolyte would suggest different strategies for recharging.
For example, after looking at the Wikipedia entry for Lithium batteries, it would seem that we should be mindful about 'topping off' the battery, because charging deteriorates the lifespan, implying that running down the battery might be a more advisable practice than plugging in to fully charge every night.
Wondering if any of you experts out there can comment and discuss, given that we One users no longer have replacable cells.
Good question, I too would be very interested in hearing from some of the posters that are knowledgeable in this area.
Sent from my HTC EVO 3D X515m using xda premium
This is pretty well established knowledge right now. I'll list everything pertinent about lithium ion batteries and charging smartphones:
Edit: Note that I mention Lithium Ion in this post, but the HTC One uses Lithium Polymer. They are for all intents and purposes equal in terms of their usability, except for slightly less charge cycles
Edit 2: Hello Reddit! No idea this would have taken off. I'm "coolmatty" on reddit. This is an overall generalization, and there are plenty of resources that go into more detail. Places like Battery University are great sites to start.
1. Charging is what reduces the life of a lithium ion battery. Batteries are usually rated between 700-1000 charge cycles while keeping 90% of their capacity.
2. Charging 0-100% counts as one cycle. Charging 80-100% 5 times counts as one cycle.
3. Leaving your phone on the charger after it is charged has the potential to reduce battery life, although this is less of a problem with newer devices as they often disconnect the charging circuit until the battery drops below ~95%. Generally only an issue if you leave it on the charger for 24+ hours.
4. Lithium ion batteries do not require any conditioning.
5. Most lithium ion devices arrive with ~40-50% battery life remaining, because this is the optimal charge level to store a lithium battery for long periods (such as sitting on a store shelf for months).
6. Slower charging maintains the battery's overall lifetime capacity better than fast charging. This is likely why the HTC One does not have Qualcomm's Quick Charge enabled. It's debateable whether you'd notice the effects over the typical lifetime of a smartphone, however (2 years).
7. Not exactly related to lithium but just in general: smartphones (and tablets, etc) have charging circuits that only draw a certain amount of amps regardless of the number of amps the charger provides. Using a 3.1 amp (tablet-level) charger is not going to significantly increase the speed at which your phone charges. Most phones only use between 0.8 - 1.2 amps. Anything over that is overkill.
8. Storing a lithium ion battery at 0% is really bad for its lifetime capacity. Running it to 0% generally isn't recommended all the time, but a few instances won't hurt it.
9. Recharging from 0-100 doesn't make your battery run longer. It can, however, reset Android's battery level stats so that it can more accurately state the battery level.
10. Charging from ~95% to 100% takes a long time because it must do a trickle charge. Maxing out the battery like this can reduce overall lifetime capacity, but generally not enough to matter. You'll see this impact more often in larger applications of lithium batteries (like cars).
You have no idea how many people need this post (on some points, myself included). Thanks.
Vincent Law said:
2. Charging 0-100% counts as one cycle. Charging 80-100% 5 times counts as one cycle.
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Click to collapse
It does not seem to be that uniform, according to this:
http://batteryuniversity.com/learn/article/how_to_prolong_lithium_based_batteries
From what I understood from the link above in Table 2, you can get the best longevity by charging from 50% (2nd row).
jasahu said:
It does not seem to be that uniform, according to this:
http://batteryuniversity.com/learn/article/how_to_prolong_lithium_based_batteries
From what I understood from the link above in Table 2, you can get the best longevity by charging from 50% (2nd row).
Click to expand...
Click to collapse
But is it practical to charge it at 50% every time?
Doesn't the one infact have a Li-Po battery ? Would these points still apply ?
Nyxagamemnon said:
But is it practical to charge it at 50% every time?
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Click to collapse
What is a practical approach for me now, after reading this all, is to charge it every night.
This way
- I have better chances for not running out of battery during the day
- either it was at 75% (3rd row) or 50% (2nd row) I still have better longevity than charging from 0% most of the time.
Battery life will not degrade as long as you donot empty its charge for long time and donot use it while on charge... over heat on battery aged the battery...
Sent from my GT-I9082 using xda premium
Just wanted to add: li-ion and li-po batteries now-a-days have protection circuitry to prevent overcharge and over-discharge. Overcharge protection based on what is stated above, known as trickle charge. Over-discharge protection means that your phone will shut off when your battery is around 3v per cell, whereas you should refrain from force starting the phone. The only benefit you get from fully charging/discharging is battery calibration for cell mismatches. It is also good to know that partial charges are better than full charges when it comes to lithium ion (and lithium polymer) batteries.
The HTC one uses li-poly, not li-ion
Can read all about the advantages and disadvantages of each other here:
http://batteryuniversity.com/learn/article/is_lithium_ion_the_ideal_battery
li-poly
Advantages
Very low profile - batteries resembling the profile of a credit card are feasible.
Flexible form factor - manufacturers are not bound by standard cell formats. With high volume, any reasonable size can be produced economically.
Lightweight - gelled electrolytes enable simplified packaging by eliminating the metal shell.
Improved safety - more resistant to overcharge; less chance for electrolyte leakage.
Limitations
Lower energy density and decreased cycle count compared to lithium-ion.
Expensive to manufacture.
No standard sizes. Most cells are produced for high volume consumer markets.
Higher cost-to-energy ratio than lithium-ion
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Click to collapse
As far as I am concerned, li-poly is overall better for phones where you can't change the battery.
by the looks of that article it was done quite a while ago (for the tech. world) so the disadvantages might not be as much of a problem these days.....
jasahu said:
It does not seem to be that uniform, according to this:
http://batteryuniversity.com/learn/article/how_to_prolong_lithium_based_batteries
From what I understood from the link above in Table 2, you can get the best longevity by charging from 50% (2nd row).
Click to expand...
Click to collapse
I was using a simplification. It would be better not to let it go to 0, but most charge cycles are rated on this. I do mention the impact of letting the battery go to 0%.
Miketoberfest said:
Doesn't the one infact have a Li-Po battery ? Would these points still apply ?
Click to expand...
Click to collapse
A flub on my part, you are correct. There are minor differences (the only one that matters to us is slightly shorter lifetime capacity) but otherwise it works the same.
Now that i see a battery 'expert', a quick question.
Back in the dack, if you bought anything with batteries, you would have to charge them for 24h, no matter how much charged they were. But if i were to buy a phone today (Lith-Ion), Do i still have to do that?
I think not, but i'm not quite sure. Lots of people (even smartphone sellers) still recommend charging it 24h, wich i think is bull.
Bartcore3 said:
Now that i see a battery 'expert', a quick question.
Back in the dack, if you bought anything with batteries, you would have to charge them for 24h, no matter how much charged they were. But if i were to buy a phone today (Lith-Ion), Do i still have to do that?
I think not, but i'm not quite sure. Lots of people (even smartphone sellers) still recommend charging it 24h, wich i think is bull.
Click to expand...
Click to collapse
I think that was only for the old Ni-MH batteries as they had to be bedded in as such. The newer ones dont need this
Vincent Law said:
This is pretty well established knowledge right now. I'll list everything pertinent about lithium ion batteries and charging smartphones:
1. Charging is what reduces the life of a lithium ion battery. Batteries are usually rated between 700-1000 charge cycles while keeping 90% of their capacity.
2. Charging 0-100% counts as one cycle. Charging 80-100% 5 times counts as one cycle.
3. Leaving your phone on the charger after it is charged has the potential to reduce battery life, although this is less of a problem with newer devices as they often disconnect the charging circuit until the battery drops below ~95%. Generally only an issue if you leave it on the charger for 24+ hours.
4. Lithium ion batteries do not require any conditioning.
5. Most lithium ion devices arrive with ~40-50% battery life remaining, because this is the optimal charge level to store a lithium battery for long periods (such as sitting on a store shelf for months).
6. Slower charging maintains the battery's overall lifetime capacity better than fast charging. This is likely why the HTC One does not have Qualcomm's Quick Charge enabled. It's debateable whether you'd notice the effects over the typical lifetime of a smartphone, however (2 years).
7. Not exactly related to lithium but just in general: smartphones (and tablets, etc) have charging circuits that only draw a certain amount of amps regardless of the number of amps the charger provides. Using a 3.1 amp (tablet-level) charger is not going to significantly increase the speed at which your phone charges. Most phones only use between 0.8 - 1.2 amps. Anything over that is overkill.
8. Storing a lithium ion battery at 0% is really bad for its lifetime capacity. Running it to 0% generally isn't recommended all the time, but a few instances won't hurt it.
9. Recharging from 0-100 doesn't make your battery run longer. It can, however, reset Android's battery level stats so that it can more accurately state the battery level.
10. Charging from ~95% to 100% takes a long time because it must do a trickle charge. Maxing out the battery like this can reduce overall lifetime capacity, but generally not enough to matter. You'll see this impact more often in larger applications of lithium batteries (like cars).
Click to expand...
Click to collapse
Thanks Vincent. Great post will certainly bear it all in mind when charging my phone.
Sent from my HTC EVO 3D X515m using xda premium
ragingredbull said:
Thanks Vincent. Great post will certainly bear it all in mind when charging my phone.
Sent from my HTC EVO 3D X515m using xda premium
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Click to collapse
I'm not sure everyone noticed one of the things he said. I know from my HD2 and Ruby that HTC phones will not continue charging after hitting 100%. The phone will indicate %100, but shortly after you disconnect the charger and start using the phone the indicated power level will drop to what it actually is - and it will be lower depending upon how long it has been sitting at "100%". Their phones have a protection circuit that kicks in. So if you really want 100% in the morning, power the phone down to charge it.
Bartcore3 said:
Now that i see a battery 'expert', a quick question.
Back in the dack, if you bought anything with batteries, you would have to charge them for 24h, no matter how much charged they were. But if i were to buy a phone today (Lith-Ion), Do i still have to do that?
I think not, but i'm not quite sure. Lots of people (even smartphone sellers) still recommend charging it 24h, wich i think is bull.
Click to expand...
Click to collapse
As I mentioned in my first post, Lithium batteries do not require conditioning. The purpose for this on old Ni-Cad batteries was to avoid the memory effect, which could result in a battery appearing to be dead long before it actually was. For instance, if you always charged it from 60%, after many instances of this, the Ni-Cad battery would suffer a voltage drop at that point, which most electronics can't handle (some can, however, and once past the short period of low voltage, they will recover and continue normally).
Charging for 24 hours is most certainly not relevant, as once the battery reaches 100%, charging has ceased anyway. There's no need to charge it to 100% anyway, other than to give you more time to play with your new toy
---------- Post added at 01:44 PM ---------- Previous post was at 01:41 PM ----------
stevedebi said:
I'm not sure everyone noticed one of the things he said. I know from my HD2 and Ruby that HTC phones will not continue charging after hitting 100%. The phone will indicate %100, but shortly after you disconnect the charger and start using the phone the indicated power level will drop to what it actually is - and it will be lower depending upon how long it has been sitting at "100%". Their phones have a protection circuit that kicks in. So if you really want 100% in the morning, power the phone down to charge it.
Click to expand...
Click to collapse
You'll see this in most devices nowadays. It's especially noticeable on laptops, which typically won't lie to you about the charge. It depends on the models, but I know Macbooks for instance will happily sit at 95% charge as "fully charged". This is by design and other than turning off the device, you shouldn't try to "top it off". Any other method (such as unplugging and plugging it back in) hurts the overall lifetime of the battery.
Vincent Law said:
...
You'll see this in most devices nowadays. It's especially noticeable on laptops, which typically won't lie to you about the charge. It depends on the models, but I know Macbooks for instance will happily sit at 95% charge as "fully charged". This is by design and other than turning off the device, you shouldn't try to "top it off". Any other method (such as unplugging and plugging it back in) hurts the overall lifetime of the battery.
Click to expand...
Click to collapse
Most of the modern laptops allow you to turn on or off the battery saving feature. For those who use the laptop while plugged in most of the time, it will stop charging at 80%. For those who will be using it off the plug, the option is there to get it to 100%.
I often see posts from people (in various forums) asking why their laptop will only charge to 80%...
stevedebi said:
Most of the modern laptops allow you to turn on or off the battery saving feature. For those who use the laptop while plugged in most of the time, it will stop charging at 80%. For those who will be using it off the plug, the option is there to get it to 100%.
I often see posts from people (in various forums) asking why their laptop will only charge to 80%...
Click to expand...
Click to collapse
I've never heard of this, and I don't recall seeing it on any Windows or Mac laptop I've used recently. Sounds like some proprietary crap one of the manufacturers came up with. Stopping the charge at 80% doesn't make much sense, since you'll still have the issue of constantly recharging the battery (as soon as it drops below 80%).
Edit: I will say that it is marginally better than keeping it at 100%, but that said, there's steps you can take on your own that are much better.
The ideal way to use a laptop that will be plugged in for most of its lifetime is to discharge it to about 45%, and then remove the battery entirely. At that point, the battery can maintain its capacity for months without major issue. Just make sure to recharge it once every 3 months or so, as the battery will discharge (slowly) even while unplugged, but at a far slower rate than it would be inside the laptop.
Vincent Law said:
I've never heard of this, and I don't recall seeing it on any Windows or Mac laptop I've used recently. Sounds like some proprietary crap one of the manufacturers came up with. Stopping the charge at 80% doesn't make much sense, since you'll still have the issue of constantly recharging the battery (as soon as it drops below 80%).
Edit: I will say that it is marginally better than keeping it at 100%, but that said, there's steps you can take on your own that are much better.
The ideal way to use a laptop that will be plugged in for most of its lifetime is to discharge it to about 45%, and then remove the battery entirely. At that point, the battery can maintain its capacity for months without major issue. Just make sure to recharge it once every 3 months or so, as the battery will discharge (slowly) even while unplugged, but at a far slower rate than it would be inside the laptop.
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Click to collapse
The latest research from the Auto manufacturers is that Li-Ion technology works longest if the battery level is between 50 and 80%.
My Toshiba U925 ultra portable uses the optional 80% max. If you use the laptop almost exclusively while plugged in, it will help provide battery longevity, or so I understand.
Many laptops won't work unless the battery is in place. It depends on how they built the power circuits.
Hey guys, I recieve my s7 edge today, whats the best way to condition the new phones battery? Some use what it has until its low to recharge until 100 others leave phone off and charge to 100 at start, whats the best result for a good healthy battery?,
Thanks
Lithium ion batteries have come a long way. There is no "memory effect" and conditioning is probably not really all that necessary. If I were you I'd just give it a charge to 100 and use as normal. Might have high drain for the first few days/charge cycles.
Remember that with Li-Ion batteries a "charge cycle" is one complete cycle from 0% to 100%. So by charging when it's at 50% you're only using up one half of a "rated charge cycle" - Battery conditioning shouldn't really be required with modern lithium ion batteries.
Battery conditioning isn't necessary but charging fully and depleting fully will help the phones software learn the battery capacity and give the most accurate percentage remaining reading. I'd say do this a couple times after you first get the phone
gaff15 said:
Battery conditioning isn't necessary but charging fully and depleting fully will help the phones software learn the battery capacity and give the most accurate percentage remaining reading. I'd say do this a couple times after you first get the phone
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Click to collapse
This makes sense I guess. But wouldn't the battery percentage remaining be based on the voltage in the battery at a given moment? I wouldn't think the phone would need to "learn" that.
Afaik. It's actually bad to discharge li-ion and li-po batteries down low. I think it's better for battery health to recharge around 50% for instance than waiting until 0%.
Xileforce said:
Afaik. It's actually bad to discharge li-ion and li-po batteries down low. I think it's better for battery health to recharge around 50% for instance than waiting until 0%.
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Click to collapse
The 50% mark is an old(and still good) rule of thumb primarily for lead acid batteries.
Leaving these batteries in a discharged state can be bad for them, but in normal usage even a discharge to 0% is fine if followed shortly by a charge cycle. These devices have a low voltage cutoff which is what shuts the phone down and protects the battery from over discharge and damage. Bottom line is use and charge it however you like, the only thing that may change is the time it takes the software to learn your discharge profile and show accurate stats.
Ashevar said:
The 50% mark is an old(and still good) rule of thumb primarily for lead acid batteries.
Leaving these batteries in a discharged state can be bad for them, but in normal usage even a discharge to 0% is fine if followed shortly by a charge cycle. These devices have a low voltage cutoff which is what shuts the phone down and protects the battery from over discharge and damage. Bottom line is use and charge it however you like, the only thing that may change is the time it takes the software to learn your discharge profile and show accurate stats.
Click to expand...
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This makes sense. The article I read awhile back was likely referring to non smart charging systems, such as a battery pack. It makes sense that an integrated solution such as a phone would regulate that to maintain battery health.
There are three things that are very bad for Li batteries. 1: overcharging. 2: completely draining. 3: overheating. Li batteries are happiest, and will last the longest, if never cycled above 75% or below 25%. Cars like the Tesla actually show 100% charge when the battery pack is only about 75% charged, and show the battery as depleted well above 0% charge. Then again, the battery pack for a Tesla costs a lot more than a phone.
#1 shouldn't be a problem in any modern device. The circuitry in the battery will tell the phone when to shut down charging to prevent overcharge. #3 can be a problem. If you're charging the battery simultaneously with high battery draining phone usage (e.g., GPS and Nav) phones can get very hot. In fact, I've had my phone stop charging and display a warning when I was navigating and charging the phone wirelessly at the same time. If you're using GPS on a long trip, you almost have to charge it while in use, but might want to avoid wireless or fast chargers. Wireless chargers and fast chargers generate more heat.
#2 is up to you. Repeatedly discharging the battery to single digits will reduce it's lifespan. I try to recharge before 25% but if I get into a situation where I can't I don't obsess over it. I don't worry too much about charging to 100%. I suspect that, like Tesla, 100% is probably not really 100%. The battery manufacturers are likely to leave a little safety margin in there to ensure batteries can't overheat and catch fire.
meyerweb said:
There are three things that are very bad for Li batteries. 1: overcharging. 2: completely draining. 3: overheating. Li batteries are happiest, and will last the longest, if never cycled above 75% or below 25%. Cars like the Tesla actually show 100% charge when the battery pack is only about 75% charged, and show the battery as depleted well above 0% charge. Then again, the battery pack for a Tesla costs a lot more than a phone.
#1 shouldn't be a problem in any modern device. The circuitry in the battery will tell the phone when to shut down charging to prevent overcharge. #3 can be a problem. If you're charging the battery simultaneously with high battery draining phone usage (e.g., GPS and Nav) phones can get very hot. In fact, I've had my phone stop charging and display a warning when I was navigating and charging the phone wirelessly at the same time. If you're using GPS on a long trip, you almost have to charge it while in use, but might want to avoid wireless or fast chargers. Wireless chargers and fast chargers generate more heat.
#2 is up to you. Repeatedly discharging the battery to single digits will reduce it's lifespan. I try to recharge before 25% but if I get into a situation where I can't I don't obsess over it. I don't worry too much about charging to 100%. I suspect that, like Tesla, 100% is probably not really 100%. The battery manufacturers are likely to leave a little safety margin in there to ensure batteries can't overheat and catch fire.
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#1 -> Could be a problem. Manufacturers can set the 100% mark at higher voltage to make it look like it has more capacity while sacrificing longevity, just enough to get through the 1 year warranty period. (Lot of powerbanks do this!) Users have no control of this ceiling. Charging to 80% and letting it cycle below that probably keeps the battery much healthier than keeping it plugged overnight at 100%.
There's an app called AccuBattery on playstore that people might want to check out. It's basically an alarm that turns on when the battery is at desired % level. It also cites real research papers so I would trust what they are doing.
I used to have a long post with a detailed technical explanation but lost it.
Anyway the gist is, basically, batteries work by ion movement, and like a machine, these ions wear out over time due to use. And similar to machines, heavy use wears them out more. You're more likely to break an engine by running it for 1 day at max rev, than running it over a month at half capacity. The smaller the depth of discharge, the lower the wear. Lab tests have concluded that when you constantly discharge from 100 to 0, it allows you betwrrn 300-500 charge cycles before it starts to break down and not hold charges. More specifically, when you reach that magic number your battery can only hold 75% of it's original charge. That's typically 1-2 years of use if you charge once a day. And heavy abusers charge more than once a day, so that decreases the time span to however many weeks it takes them to reach 500 charge cycles. Now, the increase in charge cycles is exponential, not arithmetical. So a depth of discharge to 50 before recharging will not give you 600-1000 charges. Rather it will give you 1200-1500 charge cycles. Mathematically, draining a 3600mah to zero for 300 charges gives you 1080000mah to burn through however short your battery life will be. On the other hand, using only 50% of the battery before recharging gives you 2160000mah to burn through before it expires after at least 1200 charge cycles. In other words, it stored twice more power for you to use. If you say, charge once every 24hrs, going always from 100 to 0 gives you at least 300 days. Recharging twice a day at 50% gives your battery at least 600 days of use before battery capacity deteriorates noticeably. Discharging to 75% before recharging actually gives you 2000-2500 charge cycles, making it even longer. Basically the point is, always plug the phone in when given the chance. Don't wait for 50%, or whatever. 40% is an arbitrary number actually, not sure why it's chosen. Also, this is why one of the choices to auto activate power saving in the S7 is at 50%, so that it keeps the battery up as close to 50% as possible when you get the chance to plug in.
As for charging to 80%, this is because partial charge is better than full charge for lithium ion batteries. The ions are placed on stress to hold charges. Maximum stress is at 100% charge. And like everything else, stuff tends to break more. So not running it to 100% all the time will reduce overall stress experienced and increase the time before deterioration occurs. Personally I charge to 90%, and discharge to 40% or above. That's a 50% depth of charge, so that's good for up to 1500 charge cycles, plus whatever number of cycles the decrease in max stress gives me.
However, note that environmental temperatures also play a role in battery longevity.
Sent from my Galaxy S7 Edge Duos via Tapatalk
just use the dang phone...
cri[LIST=1 said:
[/LIST]s_epic;65635276]Hey guys, I recieve my s7 edge today, whats the best way to condition the new phones battery? Some use what it has until its low to recharge until 100 others leave phone off and charge to 100 at start, whats the best result for a good healthy battery?,
Thanks
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That's actually a perfect way to ruin your battery on purpose!
Just do these things and Don't worry a lot. And remember, when it does die it's not your fault, it's kind of a problem with Lion batteries!
1. Try to keep the battery between 40-80% or 20-40%. But don't worry if tou can't. Saying this in case you're staying at home all day.
2.Keep the heat away from it!!! This one is important
3. Try to discharge it at a lower rate but don't let that get in the way of you enjoying your device.
4. Try not to discharge below 8% at all. But try to not discharge it below 15-20% unless you have important things to do.
5. don't keep it topped of for a long time (like constant going 90-100%, this is damaging) and don't keep it at 100% for long! (For example turning it off and stop using it for a week, or keeping it plugged for a few days)
If you're storing it keep it at 40% (3.8-3.75V) and try to drain it once in a while. (Unlikely to happen with a phone specially one without a removable battery )
I really do hope someone invents a new type of battery. Lipos are anoyying
Simple you don't need too lol
Sent from my SM-G935F using XDA-Developers mobile app
not talking really about sot here, but about the battery health over months/years
I can read some posts where people report a very bad sot, when the Z play is normally a very good device regarding battery, There are several possible causes of course, the rom, the apps used... and battery degradation over months.
According to a studie, a lithium ion battery loose 10% every 250 charge cycles, there is some rules to help to not loose more :
A partial discharge reduces stress and prolongs battery life.
- avoid charge over 90%
- avoid use below 20/15%
- Battery lithium ion hate heat, so when charging avoid use your phone, can add heat from cpu mostly with games, and you will charge/heat longer
- the turbo charger make the phone heat like hell, and again lithium ion batteries can't stand the heat, it's a fact, Somes will say it's normal because it is sold like that. I won't take the risk if not needed, so i use only the turbo charger when urgency, otherwise i use my lenovo tablet charger (5,2v / 2A), that charge quite fast too with no heat at all.
I wish there was an option to turn off fast charging like on Samsung phones...
I don't know if we got different phones, but I always charge phone with stock turbocharger and its never hot - when I'm not using it during charging is not even warmer than normally, when I use phone during charging it's little warm.
Baronik said:
I don't know if we got different phones, but I always charge phone with stock turbocharger and its never hot - when I'm not using it during charging is not even warmer than normally, when I use phone during charging it's little warm.
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really ?? mines heat a lot too with turbocharger and without using it during charge
Mine too, but i put it on the stone cold floor and it's much better. You should do this.
fablebreton said:
not talking really about sot here, but about the battery health over months/years
I can read some posts where people report a very bad sot, when the Z play is normally a very good device regarding battery, There are several possible causes of course, the rom, the apps used... and battery degradation over months.
According to a studie, a lithium ion battery loose 10% every 250 charge cycles, there is some rules to help to not loose more :
A partial discharge reduces stress and prolongs battery life.
- avoid charge over 90%
- avoid use below 20/15%
- Battery lithium ion hate heat, so when charging avoid use your phone, can add heat from cpu mostly with games, and you will charge/heat longer
- the turbo charger make the phone heat like hell, and again lithium ion batteries can't stand the heat, it's a fact, Somes will say it's normal because it is sold like that. I won't take the risk if not needed, so i use only the turbo charger when urgency, otherwise i use my lenovo tablet charger (5,2v / 2A), that charge quite fast too with no heat at all.
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I suggest following[1] battery charge limit app ... It works fine ( root required )
[1]
https://forum.xda-developers.com/android/apps-games/root-battery-charge-limit-t3557002/
or just use a regular 1A/2A charger at home and only use turbocharger on the go
I've also done research into this, as this is the first phone I want to keep more than a year and a half. My conclusions from multiple sources are as follows (quite similar to your findings):
- Don't charge over 90%, but really you shouldn't charge past 80-85% (choose your percent based on how much you will need for the day)
- As you said, don't go below 20%, but really you shouldn't go lower than 40%.
From what I can tell, the 80-40 rule seems to be a legitimate and fairly reliable rule of thumb for smartphone batteries (don't go below 40%, don't charge past 80%).
Battery University has a lot of good info, and they state that smaller discharges and recharges are generally better for the battery. I've been able to get a full day or two of usage from my Z Play by starting with 90% and not going lower than 35-40%.