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Hey..
I want to make a pretty big backup battery for my TD2 or any other device that charges using a USB port.
I have 8 recharchable AA batteries (1,5V and 1800 mAh each) and want them in pairs off 4.
So two pairs off 6V packs and a total off 3600mAh.
But how do i acctually make this? Because i want to just plug it in some power socket so it will recharge the backup battery..
And when i need it. i just plug my phone in the backup battery so it will recharge and last ALLOT longer.
generally speaking, good socket adapters and car adapters (original ones too) have an automatic switch off when the battery gets fully charged. failing to do so can dramatically reduce the life of your battery. i think a safer (and more elegant too) solution is to buy a spare battery.
Sounds like hard work to me
Would something like this be better, I know its not as powerful as what you are proposing, and it has the cut out built into it as well.
PowerMonkey Classic
or get what I have which is this
Powermonkey Explorer
Highly recommended
PS Topic probably in wrong place, Accessories better place !?!
It charges via USB, mains, solar, has extra connectors for alot of devices.
Just my input...
If it was my problem, I would make a very simple constant current charger using a disused 19V laptop supply (doesn't everyone have one?) and a series resistor. The resistor value should be calculated from the charging current. You shouldn't go for a high current because you would need to cut off the charging when complete, or the cells would get very hot and be damaged. Proper chargers do this, but it takes a relatively complex circuit to manage the charge.
A low charge current (less than a tenth of the cell capacity) is good for cell lifespan and is safe to leave connected for a while even when the charge is complete without damaging the cell. The only drawback is a long charge time. I would select a current which charges fully in about 22 hours, so you put it on charge at a certain time and remove it next day at the same time - easy to remember.
With a 19V supply and a battery pack voltage of about 5 volts, a current of 200mA would need a resistor of value 70 Ohms - the nearest actual value is 68 ohms. Power rating would need to be 3W absolute minimum, try to get a 5W part. Your 3600mA pack should be charged after 22-24 hours. If your old laptop supply is different from 19V, you need to calculate the resistor accordingly. A low voltage supply wouldn't be suitable, because the charging current would vary too much.
Two points: Be sure to get the polarity of the laptop supply correct, and always have the supply connected to the mains when the battery pack is connected to it (otherwise the battery pack will try to put a current back through the supply, which it might not like!). Or you could incorporate a series 1A diode to protect against that happening.
I'm using a very simple supply like this to charge a 5v pack over 24 hours (it's from a bluetooth speaker - the internal charging circuit blew up) and it's perfect - I expect a long lifespan for the cells.
It's worth pointing out that putting 2 banks of cells in parallel, as you intend to, is not ideal unless the cells are matched, but in practice it shouldn't matter much.
there are 5v regulators u can buy to make your circuit work at 5v what is nice about that is that i can step up and step down voltages if the voltage fluctuates(battery power levels), btw the phones do the auto shutoff when the battery is full not the charger, because charger does not have a feedback system to read battery levels. Why do u think there is 3 or some times 4 connections on a battery and not 2
the problems u might encounter are amp levels due to long term charging but 4 1800mA AA battery will do a good charge for your phone
anyway here is a 5v reg from radioshack as referrence
http://www.radioshack.com/product/index.jsp?productId=2062599
jngtt said:
there are 5v regulators u can buy to make your circuit work at 5v what is nice about that is that i can step up and step down voltages if the voltage fluctuates(battery power levels), btw the phones do the auto shutoff when the battery is full not the charger, because charger does not have a feedback system to read battery levels. Why do u think there is 3 or some times 4 connections on a battery and not 2
the problems u might encounter are amp levels due to long term charging but 4 1800mA AA battery will do a good charge for your phone
anyway here is a 5v reg from radioshack as referrence
http://www.radioshack.com/product/index.jsp?productId=2062599
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I might be misunderstanding you, but if you mean charging the cells from a 5v regulator, that would be a bad idea. NiCad or NiMH cells shouldn't and can't be charged from a constant voltage source. When you start charging the current would be too high (the 7805 would probably switch itself off) and the charge would never finish either, as 4 cells in series have an endpoint voltage of about 5.6 - 6.0V.
But perhaps you didn't mean that... (in which case apologies for butting in)
Pete_S said:
I might be misunderstanding you, but if you mean charging the cells from a 5v regulator, that would be a bad idea. NiCad or NiMH cells shouldn't and can't be charged from a constant voltage source. When you start charging the current would be too high (the 7805 would probably switch itself off) and the charge would never finish either, as 4 cells in series have an endpoint voltage of about 5.6 - 6.0V.
But perhaps you didn't mean that... (in which case apologies for butting in)
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Click to collapse
The 5v regulator just sets the voltage to be 5 volts as with all usb ports and usb chargers, the HTC charger that comes with the phones pushes 2A, the usb ports on our PCs pushes 0.5A. Ampere is just current, if u think that is too much amps u can put a fuse. This is the first time someone told me constant is bad
btw do u know how cells and battery work?
Going back to the original post, Overloaded just wanted a way to recharge his proposed battery pack from the mains, if I read it correctly.
I don't see where a 7805 5V regulator fits into this, either for charging the phone (the battery pack is 5-6V and the 7805 needs at least 7V to function) or for charging the battery pack (for reasons I've already outlined).
u are right, he does not need the 5v reg, infact all he needs to do is put the battery in serise with a diode to prevent feedback and he should be fine
Slightly off topic,
I recently got hold of two 11v LiPo packs, a regulator, a fast charger and all the cable and connectors to buils a 4400 mAh power souce. At 5v this gives circa. 8800 mAh. I bought it in a model shop sale and I've wanted to play around with the setup for some time.
The two packs are to big, but one on it's own is not too bad. And they were cheap!
Can I buy a charger cable and split open the ends to fast charge this device? The battery should handle 4A no problem. It's safe to keep the charge rate below 2C, which is 3300*2/1000 = 6.6A. 4A would charge it from 10% to 100%(battery capacity, not what is displayed on the screen) in 50 minutes.
The charger it comes with supplies up to [email protected] Not sure why it's 5v if it's a 2S battery pack. Maybe it has balance pins?
Sure. Just make sure that you have the fire department on standby....and possibly an ambulance as well.
Hell why not just take a hammer to it and save yourself the FF fee?
/sarcasm.
Seriously....though...do NOT mess around with chargers. It will only bite you in the arse in the end.
I'd be interested in this too... although I haven't seen the battery (I ordered my transformer last night!)
It would appear you'd be safe doing that - but heat could be a big concern so I would definitely monitor it the whole time. Also 5V = USB voltage.
LiPo batteries don't heat up when you charge them. Only when discharging. I charge my LiPos at 5A all the time and they are 1800mAh, not 3300mAh.
chatch15117 said:
LiPo batteries don't heat up when you charge them. Only when discharging. I charge my LiPos at 5A all the time and they are 1800mAh, not 3300mAh.
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Anything above 2S shortens the battery life. LiPos do heat up on charge. Apparently you have never had a pack with a bad cell burst into flames. Do a quick search on lipo charging and you will see all kids of cautions on charging.
I have a puffed 3S 1800mAh 15C pack right next to me. It's only dangerous if you charge above 4.25v. Those idiots who cause fires either short them out or charge them to 4.3v+
http://www.wattflyer.com/forums/archive/index.php/t-55244.html
etc.
watched an experienced pilot next to me flame a 10S 5000mAH pack that just had a bad cell due to age.
a 10S?
I'm dealing with 3S and 2S here
chatch15117 said:
The charger it comes with supplies up to [email protected] Not sure why it's 5v if it's a 2S battery pack. Maybe it has balance pins?
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Click to collapse
I was under the impression that the charger suppliers [email protected] to regular USB devices, but to the TF it supplies [email protected]
Regards,
Dave
Does it have a removable battery? I'd like to have 2 batteries and have one charging while using the tablet, then just swap them when one drains, so I'm never tied down to a power outlet.
Also what capacity is the battery?
Vertron said:
Does it have a removable battery? I'd like to have 2 batteries and have one charging while using the tablet, then just swap them when one drains, so I'm never tied down to a power outlet.
Also what capacity is the battery?
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No and 4325 mAh (Up to 8 hours of active use)
Outrager said:
No and 4325 mAh (Up to 8 hours of active use)
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only way use the microUSB to charge you nexus7 or add one bypass the original battery.
Hiya,
I'm copying my original post over from the Z3 Compact forum as there should be a fair amount of similarities between the two models regarding battery charging.
Hiya,
I' hoping this is the right section to post this in.
I don't have my Z3C yet, but I've been searching for information on charging speed, charging current etc. - and there is barely anything to be found. What seems to be consent: A full charge (0-100%) takes about three hours. But then, some people say an almost full charge (0-90%) takes much less, as charging current is greatly reduced for the last 10% to reduce stress on the battery. Sony itself also claims that a small charge (something like 0-10%) should be quite fast as well.
Then there's some speculation about QuickCharge 2.0 being used or not used, that you could use a Motorola 2.0A charger to charge it faster than with the provided 1.5A Sony charger etc., which also brings up the question which resistor values on the D+ and D- wires are necessary to toggle different charging currents. (Or I might be stupid and there's a standard for that by now, which is the same for all Qualcomm devices.)
To cut it short: I'd request those who have a Z3C to post some comments about their charging times, and at best even their charging currents. I used an app called BatteryMonitor on my Desire HD, I'm sure there's others around now that give the same information. If someone could try out different chargers and record charging current over time, maybe even with a pretty graph, it'd surely help all future discussions about chargers, docks, modifications, DIY charging issues etc.
Click to expand...
Click to collapse
So, as the same goes for the Z3: If someone can record their charging times, charging current and charger used: Go ahead and post it. Bonus points for taking a look at magnetic charging.
dragonfet said:
Hiya,
I'm copying my original post over from the Z3 Compact forum as there should be a fair amount of similarities between the two models regarding battery charging.
So, as the same goes for the Z3: If someone can record their charging times, charging current and charger used: Go ahead and post it. Bonus points for taking a look at magnetic charging.
Click to expand...
Click to collapse
A recent tear down confirms the Qualcomm chip for Quick Charge 2.0 support, so what we need now is for someone to get a compatible PSU that can 'talk' to the phone and then supply more power. That should see a huge improvement in charge time.
I am just trying to find a source for a compatible charger. So far I've only seen the Motorola Turbo Charger in the USA, and I'd be wary of buying anything made by a no-name brand at this point.
I have to assume the magnetic charging option won't be as fast, simply as there can't be a way for the PSU to know it is connected to a compatible device. Quick Charge 2.0 appears to require some sort of handshaking, or else the PSU will limit the power output, hence why I'd be wary of any chargers appearing on eBay or Amazon that claim to offer fast charging.
jonmorris said:
A recent tear down confirms the Qualcomm chip for Quick Charge 2.0 support, so what we need now is for someone to get a compatible PSU that can 'talk' to the phone and then supply more power. That should see a huge improvement in charge time.
I am just trying to find a source for a compatible charger. So far I've only seen the Motorola Turbo Charger in the USA, and I'd be wary of buying anything made by a no-name brand at this point.
I have to assume the magnetic charging option won't be as fast, simply as there can't be a way for the PSU to know it is connected to a compatible device. Quick Charge 2.0 appears to require some sort of handshaking, or else the PSU will limit the power output, hence why I'd be wary of any chargers appearing on eBay or Amazon that claim to offer fast charging.
Click to expand...
Click to collapse
I have read excellent reviews for the Blackberry Premium Charger (the one with the yellow tip), super cheap on Amazon right now. Recommended by Android Central and others for its 2A charging capability. I have used it in the past from my HTC One X days and have re ordered for my Z3. Honestly, my Z3 is charging more than fast enough with the OEM supplied charger, which may be less powerful but more optimised than another OEM's charger. The one I'd trust most if I was forced to use one would be the above model of the BB charger.
jonmorris said:
I have to assume the magnetic charging option won't be as fast, simply as there can't be a way for the PSU to know it is connected to a compatible device. Quick Charge 2.0 appears to require some sort of handshaking, or else the PSU will limit the power output, hence why I'd be wary of any chargers appearing on eBay or Amazon that claim to offer fast charging.
Click to expand...
Click to collapse
more power can either be achieved through more voltage (that could potentially be harmful if the hardware is not compatible) or more current. More current is 100% save as the charging circuit just takes what it needs, independent of the (more potent) capabilities of the charger.
As Oppo showed with its find 7 just raising the current is a viable option which works. This is also a Snapdragon 801 device.
With the 1.5A original charger and cable, using Battery Monitor Widget shows the charging rate at around 900mA to 1000mA.
So I guess Z3 is restricting to max 1A charging?
jonmorris said:
I have to assume the magnetic charging option won't be as fast, simply as there can't be a way for the PSU to know it is connected to a compatible device. Quick Charge 2.0 appears to require some sort of handshaking, or else the PSU will limit the power output, hence why I'd be wary of any chargers appearing on eBay or Amazon that claim to offer fast charging.
Click to expand...
Click to collapse
Would it be possible that the PSU simply always limits the power output? For example, the phone might try to draw 1.5A, but the PSU doesn't support it and limits at 1.0A. Then magnetic charging could work with 1.5A or even 2.0A without the need for communication over the D+ / D- pins. (And attaching the magnetic port with a USB adapter to a PC or Laptop might cause the USB Port to shut down and trigger an overcurrent warning.)
AKK03 said:
With the 1.5A original charger and cable, using Battery Monitor Widget shows the charging rate at around 900mA to 1000mA.
So I guess Z3 is restricting to max 1A charging?
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Click to collapse
That would make sense. Though wonder where the extra 500 mA are going, it surely can't be the phone's standby. And given a typical maximum charging current of 1.0C (C = battery capacity), it would translate into 3.1A of charging current and therefore a 3.5A power supply.
Is this current constant from 1% to about 65%?
AKK03 said:
With the 1.5A original charger and cable, using Battery Monitor Widget shows the charging rate at around 900mA to 1000mA.
So I guess Z3 is restricting to max 1A charging?
Click to expand...
Click to collapse
If there are restrictions they are most likely within the Kernel and we may be able to change them in the future with custom Kernels
dragonfet said:
That would make sense. Though wonder where the extra 500 mA are going, it surely can't be the phone's standby. And given a typical maximum charging current of 1.0C (C = battery capacity), it would translate into 3.1A of charging current and therefore a 3.5A power supply.
Is this current constant from 1% to about 65%?
Click to expand...
Click to collapse
There is some fluctuation, but is roughly around 1A.
I have test 2 different charger
from "Battery Monitor Widget Pro" logs
with EP880 (1.5A max)
show ...................... 1.1A max
with 2 Amp charger
show .....................1.5A max
maxx228 said:
I have test 2 different charger
from "Battery Monitor Widget Pro" logs
with EP880 (1.5A max)
show ...................... 1.1A max
with 2 Amp charger
show .....................1.5A max
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Click to collapse
Thanks for the results. I have my Z3 by now and recorded some as well.
From 0 to 68%, it charges with 1000-1100 mA, then it goes into CV (constant voltage) mode and stays there until 95%. Then the curent drops slightly. The rest of the charging curve is not usable, as it was the first full charge my handset had. And the last for now, as I have to send it back due to a gap in the frame and microphone issues.
I'll post a complete curve when I have the new one and did a few cycles. What's clear for now:
1. Charging current with the stock charger is around 1.1 A max.
2. The phone charges up to 95% with 0.5% per minute. (Stock Charger)
3. It drops to 0.125% between 95% und 100%, likely to put less strain on the battery.
It's nice to see that there's appearantly support for higher charging currents. Though we should keep in mind that a higher current also means more stress for the battery, especailly when the phone is used while charging (higher battery temperature as the CPU also adds heat).
my Z3 came with the charging dock dk48.. it is rated at 1.8a, charging is fast
I can't speak to the Z3 (yet), but my Z1s charges nearly twice as fast on the magnetic charging dock as it does through the USB connection. As a result, I can leave my screen on at full brightness while on the dock and still charge. I would *expect* similar behaviour from the Z3.
Original charger: about 1.0A - 1.1A. Result: 3h 50p - 4h for fully charged.
Magnetic charging dock or cable: 1.5-1.6A. Spend only 2h 45p
I'm tesing Xiaomi MI Power Banki 10400mAh. First test: 1.6A, much faster than original charger. A bit surprise!
http://www.mi.com/sg/mipowerbank/
Zanr Zij said:
Original charger: about 1.0A - 1.1A. Result: 3h 50p - 4h for fully charged.
Magnetic charging dock or cable: 1.5-1.6A. Spend only 2h 45p
I'm tesing Xiaomi MI Power Banki 10400mAh. First test: 1.6A, much faster than original charger. A bit surprise!
http://www.mi.com/sg/mipowerbank/
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Click to collapse
The original charger is rated 1.5A, actual charging on Z3 is 1.0A.
Xiaomi is rated 2.1A, so I guess is reasonable to expect 1.5A actual charging from it.
For your magnetic charging dock or cable, are you using the original charger?
With the original charger, I'm getting the same result with or without dock.
Zanr Zij said:
Original charger: about 1.0A - 1.1A. Result: 3h 50p - 4h for fully charged.
Magnetic charging dock or cable: 1.5-1.6A. Spend only 2h 45p
I'm tesing Xiaomi MI Power Banki 10400mAh. First test: 1.6A, much faster than original charger. A bit surprise!
http://www.mi.com/sg/mipowerbank/
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Click to collapse
where did you get the magnetic charging cable?
AKK03 said:
The original charger is rated 1.5A, actual charging on Z3 is 1.0A.
Xiaomi is rated 2.1A, so I guess is reasonable to expect 1.5A actual charging from it.
For your magnetic charging dock or cable, are you using the original charger?
With the original charger, I'm getting the same result with or without dock.
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Click to collapse
With Mi Power Bank, I used micro USB cable, not magnetic.
I'm using Samsung Note 3 2.0A charger. Through micro USB port, I got lower current, about 1.0-1.2A but with magnetic cable 1.5-1.6A.
---------- Post added at 11:31 AM ---------- Previous post was at 11:30 AM ----------
Shudder123 said:
where did you get the magnetic charging cable?
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Included in my Z3 retail box
Zanr Zij said:
With Mi Power Bank, I used micro USB cable, not magnetic.
I'm using Samsung Note 3 2.0A charger. Through micro USB port, I got lower current, about 1.0-1.2A but with magnetic cable 1.5-1.6A.
---------- Post added at 11:31 AM ---------- Previous post was at 11:30 AM ----------
Included in my Z3 retail box
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Click to collapse
you mean the USB cable?
Shudder123 said:
you mean the USB cable?
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Click to collapse
My Z3 Dual retail box has 2 cables: usb and magnetic
Zanr Zij said:
My Z3 Dual retail box has 2 cables: usb and magnetic
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Click to collapse
where did you get yours from? mine only came with a USB cable
I have a z3 dual .. I did not notice the second cable in the box. I have to check again
Hello friends,
So I just got my Note 4 and i'm wondering how long should I keep it in charge for the first time? And should I drain it on first use or charge it when it's at let's say 20%??
Thanks in advance.
14 hrs, dont drain, battery should be between 20-80% before charging in normal use, fast charge off.
@zurkx
Thanks for the reply.
Are you sure about the 14 hours??? I thought Li-ion batteries don't need that long of a charging time !!!
XeroHertZ said:
@zurkxAre you sure about the 14 hours??? I thought Li-ion batteries don't need that long of a charging time !!!
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Please happily ignore that "advices".
Use Fast charge, charging takes exactly till the battery is full, that's about 1,5 hours for a full charge.
I don't see ANY sense in charging a LiIo battery "fuller than full", just impossible nonsense.
LiIo batteries suffer of aging, slightly increased by the number of charges, highly (!) increased by overheating, not of any memory effects.
There is NO "breaking in" of the Note 4s battery, amperage of fast charge doesn't come even near the safety limits, won't cause quick degradation or overheating.
So just don't listen go the immortal myths and "ancient wisdom" propagated by people not aware of the fact that battery technology indeed changed over the decades.
Chefproll said:
Please happily ignore that "advices".
Use Fast charge, charging takes exactly till the battery is full, that's about 1,5 hours for a full charge.
I don't see ANY sense in charging a LiIo battery "fuller than full", just impossible nonsense.
LiIo batteries suffer of aging, slightly increased by the number of charges, highly (!) increased by overheating, not of any memory effects.
There is NO "breaking in" of the Note 4s battery, amperage of fast charge doesn't come even near the safety limits, won't cause quick degradation or overheating.
So just don't listen go the immortal myths and "ancient wisdom" propagated by people not aware of the fact that battery technology indeed changed over the decades.
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Click to collapse
Thanks Chefprol.I have done some research on charging the battery and have come to a conclusion that once it's charged I can use it straight away but and then drain it to 18 to 20% then charge it fully.
Chefproll said:
Please happily ignore that "advices".
Use Fast charge, charging takes exactly till the battery is full, that's about 1,5 hours for a full charge.
I don't see ANY sense in charging a LiIo battery "fuller than full", just impossible nonsense.
LiIo batteries suffer of aging, slightly increased by the number of charges, highly (!) increased by overheating, not of any memory effects.
There is NO "breaking in" of the Note 4s battery, amperage of fast charge doesn't come even near the safety limits, won't cause quick degradation or overheating.
So just don't listen go the immortal myths and "ancient wisdom" propagated by people not aware of the fact that battery technology indeed changed over the decades.
Click to expand...
Click to collapse
Thanks ! i tought it would be a old myth to first drain the batery and then fully load it but as far as i know its only with old phones and mp3 players and such.
hope i will get my note 4 today ! waiting for it since monday
Fast Charge is not really a useful feature for me, it just hurts the battery more in the long run
what about the thoughts on conditioning the battery?
Sent from my SM-N910C using XDA Free mobile app
There's no need to condition the battery, its a lithium battery.
If you're having battery drain issues I would suggest you clear your data cache.
ddaharu said:
what about the thoughts on conditioning the battery?
Sent from my SM-N910C using XDA Free mobile app
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this is the same guy making up stuff about the note 4 GPS being bad.
dont listen to fools.
First charge needs to be 14 hours to trickle charge the battery to full and make sure the meter is calibrated to a full battery.
fast charge does reduce battery life since it charges at higher voltage and amperage. any battery gets damaged a little by that. best is a slow charge (preferably Qi) at a normal charging voltage. Slower the better for longer battery life. if you want convenience over battery life then by all means fast charge and mess it up and replace after 2-3 years.
Who's post are you referring to?
zurkx said:
this is the same guy making up stuff about the note 4 GPS being bad.
dont listen to fools.
First charge needs to be 14 hours to trickle charge the battery to full and make sure the meter is calibrated to a full battery.
fast charge does reduce battery life since it charges at higher voltage and amperage. any battery gets damaged a little by that. best is a slow charge (preferably Qi) at a normal charging voltage. Slower the better for longer battery life. if you want convenience over battery life then by all means fast charge and mess it up and replace after 2-3 years.
Click to expand...
Click to collapse
arjun90 said:
Who's post are you referring to?
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Click to collapse
It's mine. That guy already bumped into me a while ago, now it's time for his revenge.
I'll care for that, now...
---------- Post added at 02:09 PM ---------- Previous post was at 01:32 PM ----------
zurkx said:
this is the same guy making up stuff about the note 4 GPS being bad.
Click to expand...
Click to collapse
So here we go; you asked for it...
My critism about the Note 4 refers to it's GPS receiver, which is "deaf" compared to the competition and shows frequent signal drops.
More here: http://forum.xda-developers.com/note-4/general/gps-close-to-unusable-t2948602
dont listen to fools.
Click to expand...
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Indeed - have a look:
First charge needs to be 14 hours to trickle charge the battery to full and make sure the meter is calibrated to a full battery.
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Click to collapse
I already advised to realize this is 2014 battery technology, not the ancient batteries of the past.
Short: There is no "trickle charge" with Lithium-Ion-batteries.
See this: http://batteryuniversity.com/learn/article/charging_lithium_ion_batteries - quote: "The difference lies in a higher voltage per cell, tighter voltage tolerance and the absence of trickle or float charge at full charge."
fast charge does reduce battery life since it charges at higher voltage and amperage. any battery gets damaged a little by that.
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Click to collapse
Quote: "The charge rate of a typical consumer Li-ion battery is between 0.5 and 1C in Stage 1, and the charge time is about three hours. Manufacturers recommend charging the 18650 cell at 0.8C or less."
"C" is the capacity, 3220 mAh with our Note 4's battery. So we're save to charge with a current (milliamperes, "mA") of up to 3220 mA - if we follow the manufacturer's advice for the older type of batteries of that kind (18650 is an old warrior in the field), there's still 2576 A left.
So what does our fast charge supply deliver ? Look at it's ratings: 5 V, 2 A (2000 mA).
So even fast charge is far below the limits - our real limit is 3220 mA, but fast charging just uses 2000 mA.
Sound and safe.
Wonder about me highlighting "higher voltage" in zurkx's highly elaborate statement in red ? - Answer is above: The voltage does NOT change, it is NOT higher. Of course not !
The worst enemies of LiIon batteries are heat and age.
Heat is generated by a) placing the device at a hot spot (like behind the car's windscreen or in bright sunlight), b) by using demanding features like 4K video recording or highend games, c) by charging .
a) Your call. Just don't let your Note get hot. Overheating destroys your battery in no time. We're lucky we've got an exchangeable battery - so nothing to really worry about.
b) Your call. See a).
c) Charging produces some heat, especially on the "last mile", when the battery is "almost full", because the battery is a bit reluctant of getting charged up to the brim. So more heat is generated in that last phase. It's not much, won't reach the safety limits. It just can't, because the build-in charging circuits limits the current if heat gets up.
By the way: That integrated charging circuits are propped with safety measures, checking charge, condition, temperature and the like.
So even if you hook up a charger capable of providing 20 whopping amperes, the circuits just won't let that happen.
There is no way of providing the battery too much current; it's automatically limited.
best is a slow charge (preferably Qi) at a normal charging voltage. Slower the better for longer battery life.
Click to expand...
Click to collapse
Again; welcome to the 21st century. We don't need any slow charge. It's the opposite.
Charging right slow has the danger that apps on the phone draw more power than the charge provides. That may drain your battery instead of filling it.
Plus: If you hook up the charger for long, it will be recharged (charge gets "topped off") frequenly. And every new charging attempt has a slightly negative impact on the battery's life; it's like wearing it a bit down. - Charge often, reduce your battery's life. That damage is tiny, by the way. But it is there, so hooking up your charger for many hours slowly kills your battery.
Now for the aging:
if you want convenience over battery life then by all means fast charge and mess it up and replace after 2-3 years.
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LiIon battery ARE AGING, up from the time of manufacture.
You all know that: You charge a device like you're told by the instructions - but after 1 to 3 years you notice a severe drop of usage time, a drop of capacity.
That's aging.
NOTHING you can do against that but buying a new battery.
So your battery will lose it's capacity over time; if you use it or not. You all know that, you all experienced that.
With the Note 4, we can happily buy a new battery if the old one runs out; it's that simple. But as a normal Li Ion battery reaches it's shelf live after 2 or 3 years anyway, there's NO (!) need of burdening it and you with slow charge. The results are exactly the same, with the difference that you save precious time with fast charging.
And now allow me quoting again:
dont listen to fools.
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Have a nice day, all of you except one.
youre completely wrong.
The QuickCharge tech charges at higher VOLTAGE and AMPERAGE.
http://www.androidauthority.com/quick-charge-explained-563838/
Quick Charge 2.0
Voltages 5v 5v / 9v / 12v
Max Current 2A 3A
Snapdragon 200, 400, 410, 615, 800, 801, 805
The rest is just BS as usual. You have no idea what youre talking about. Dumping 9V (Samsung Note 4 AFC) into a 5V battery makes it charge hotter and faster and degrades it significantly. After two weeks of fast charge i lost a small chunk off the top of my brand new battery.
just bad advice as usual.
zurkx said:
youre completely wrong.
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Yes, indeed. I was completely wrong by believing you'd understand some simple things.
In fact, I am not sure if I should take your statements for serious or just for a joke.
The QuickCharge tech charges at higher VOLTAGE and AMPERAGE.
Voltages 5v 5v / 9v / 12v
Max Current 2A 3A
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So you REALLY believe that changes of the output voltage of the POWER SUPPLY lead to the BATTERY charged with more volts ?
You can't be serious. That's technically impossible.
Let's put it easy:
If you insert your power supply into a 110 V receptacle in the USA, you get 5 V output.
So according to your "logic", using the same power supply in Europe (230 V) increases the voltage to 10 V ?
No. Just NO.
That higher POWER SUPPLY voltage is used for fulfilling the rule W = V * A (Watt = Volt * Ampere); just to be able to squeeze more power through the power supply's cable.
In the Note 4 and in the charging circuit, that voltage OF COURSE will be regulated down to the regular charging voltage - just with the benefit to carry more amperes.
So the CHARGING VOLTAGE stays the same; it does NOT follow the voltage supplied by the POWER SUPPLY. It never does.
So fast charging does NOT (read that: NOT !) increase the charging voltage. It cannot.
Got that now ? - Or do I need to put it ever more simple ?
It does not help using swearing words like "fool" or "bull****".
But it could help just saying: "Oh, sorry, I was wrong. - My apologies."
Make yourself at home with the basics of lithium ion and charging technology. THEN speak up.
Ah, overlooked something:
After two weeks of fast charge i lost a small chunk off the top of my brand new battery.
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1) Hope that chunk fell somewhere you were able to pick it up again.
2) How to you KNOW that ? I expect a detailled description about how you did the magic of finding out that your battery doesn't charge to 100 %.
3) If you KNEW that fast charging would kill your battery, wise man - why did you allegedly use the feature ? - Sorry, man... Your statements are not very trustworthy. I guess you never used that feature, just say so to strengthen your shaky point of view. Please don't mess with a perception psychologist.
4) If your battery really suffered, that might be due to your highly acclaimed and absolutely pointless 14-hours-charging-marathons, causing a permanent charge on/charge off cycle, weakening your battery.
So please just stop bashing a real useful feature of the Note 4. If you just love waiting ages for batteries to charge - your preference. But please stop spreading false facts about things you very obviously are not at home with.
And a last thing which might stop that aimless harassing fire of yours: I am HAM, a licenced amateur radio operator, holding the highest German licence class. These are the people who know a bit about volts and amperes.
how hard is it for you to understand that quickcharge 2.0 outputs higher VOLTAGE and AMPERAGE to charge the battery ? The charger charges the BATTERY AT 9V 1.67A up to 50% and then switches over to the regular 5V 2A charge rate. INPUT VOLTAGE (110V or 230V) has nothing to do with OUTPUT VOLTAGE. It charges the battery at 9V REGARDLESS of INPUT VOLTAGE.
edit:
also it has nothing to do with the cable. you must be crazy if you think a cable issue exists whether you transfer 15W or 10W across it. the cable is rated for well beyond that. the reason for the higher voltage is that modern lithium ions can accept high voltage charge rates with limited damage at low amperage. the reason they cut it off at 50% is the battery would be severely damaged if you tried to charge it to 100% and overshot. so yes quickcharge 2.0 really does charge your battery at a higher voltage than it was designed to be charged at. and no they dont have a magical transformer on your phone to go from 9V to 5V. otherwise they would be using it all the time and fast charge 9V to 100%. the wall plug is the only thing which has a transformer and the phone uses what it gets from there. they arent going to build half of another wall plug (9V DC-DC) and stuff it into the phone. it would generate heat and add bulk. Instead the PMIC "spikes" the battery with higher voltage and keeps it roughly constant (load modulation) by communicating with the quickcharge 2.0 AFC on the other end.
Hopeless.
I just love these battery threads, there's always some muppet who says the battery needs conditioning and must first be charged for a suitably ridiculous length of time. When it's charged it's charged, lithium batteries have no memory effect so the idea of conditioning them is moronic
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yes they have no memory effect. why ? because you say so.
other people believe otherwise because they actually test things out for themselves :
http://www.psi.ch/media/memory-effect-now-also-found-in-lithium-ion-batteries
http://pocketnow.com/2013/05/03/li-ion-batteries-memory-effect
http://www.nature.com/nmat/journal/v12/n6/full/nmat3623.html
no need to keep it for 14 hours, as they said in the catalog you only need to charge it till it's full, then unplug the charger.
Hello again !
After all cooled down a bit, here's some more information about that dreaded HIGH VOLTAGE fast charging uses which seemingly makes some of you wet your pants.
First, there's an experiment you can do yourself. You don't need to do - but it's quite impressive and gives you some proof of the things I say.
Get two 9 V batteries; the small rectangle ones we all know. Connect the positive contact of the first battery with the negative contact of the second. Thus you get an 18 volts DC power source.
Get a thin, isolated wire, short-circuit the open contacts with the wire. Wait.
Nothing special will happen, maybe the wire will get a little warm - and your batteries will eventually die.
(If you use a VERY thing wires, it might heat up.)
Now take a length of the same wire, do the same using your car's battery (12 – 13.8 V DC).
WARNING !
1) Take the battery out of the car, set it on solid ground with nothing combustible near !!! Do NOT try this with the battery still in the car !!!
2) Use pliers to connect the wire with the battery contacts !!!
3) Do that OUTDOORS !!!
Short-circuit the battery contacts using the pliers with the wire.
You don't need to wait. The cable will turn into a smoking, burning, white-hot thing in an instant.
Huh ? - We've got 18 V with just nothing happening, we've got just 12 V wreaking instant havoc and destruction !?
Amperage is the key !
Voltage alone does not cause the destruction, it's the amperage.
9 V batteries cannot provide sufficient amperes for killing the wire; 12 V car batteries do.
Short: High amperage kills wires, high voltage doesn't.
So back to our topic...
To fast charge our Note 4's battery, we need power, watts. But the tiny wires in the Note 4 can't withstand a high wattage; they would heat up like the wire connected to the 12 V car battery.
So Samsung uses a little trick, according to Ohm's law: W = V * A, W is watts, V is volts, A is amperes.
So we can achieve a high wattage by EITHER using a higher voltage OR a higher amperage.
Higher amperage does not work because it will kill the tiny wires in the Note.
So Samsung raised the voltage for carrying more watts from the power supply via the internal Note 4's cabling to the charging circuit.
That higher voltage gets transformed down to the normal charging voltage at the charging circuit.
Your battery is charged with the usual voltage, but with the benefits of a higher amperage.
That's all the magic: That higher voltage is used to carry more wattage to the charging circuit, but not beyond. Nothing else.
And that's why it does not harm your battery; charging voltage will not change - your battery just gets charged faster, always monitored by the charging circuit which will lower the charge accordingly if needed, so your battery will always be safe. That's why the "last mile" (charge from about 92 % to 100 %) takes more time to charge - because the charging circuit automatically lowers the charge to protect your battery.
So don't be afraid of that higher voltage; it never reaches your battery, it is just a means for transferring higher wattage via tiny wires.
Note: You ever wondered why Europeans use 230 V instead of 110 V ? - That's the reason. Being able to carry more watts over regular power lines without risking the wires heating up too much. It's not a means of destruction, it's the opposite.