DangerousBatteryChargerExperiments » History » Revision 11
Messing with batteries is dangerous¶Messing with battery charging is very dangerous:
- Batteries regularly explode in laptops and smartphones. The press often talks about that.
- Exploding batteries can cause dangerous fires.
- Messing with charging values can really cause batteries to explode or take fire.
So really make sure you know what you're doing if you mess with that.
This is not the usual warning that is there just because of legal requirements, in order to prevent potential lawsuits, and that tells you that the documentation may eat your cat.
Batteries issues are real.
Read the Wikipedia page on the Galaxy Note 6 for a famous examples of a battery issue.
Here the cause was due to the fact that the battery was non-removable and that the case didn't have enough extra space for the battery.
It's also a well known fact that messing with the battery charging values can make the battery explode or catch fire.
You may also break your phone's electronics if you mess up with battery charging values. However, compared to the danger of an explosion or fire, ending up with a bricked phone is just a minor issue.
Why this page was made¶
We lack documentation for the Max77693 PMIC (Power Management IC).
The thing we tried enabled us to gain more insights into how it worked.
In order to make things safer, we added the issues our experiments here so you don't need to reproduce them, and can just use the information we gathered with the results of the experiments.
Attempts to Disable charging through I2C¶
The max77693 driver in the Replicant 6 kernel has a function to enable and disable charging
As this driver is used on a Galaxy SIII we tried to disable the charging by setting the last bit of the MAX77693_CHG_REG_CHG_CNFG_00 register to 0.
# i2cget -f 17 0x66 0xB7 i2cget: WARNING! This program can confuse your I2C bus Continue? [y/N] y 0x05
# i2cset -f 17 0x66 0xB7 0x4 i2cset: WARNING! This program can confuse your I2C bus Continue? [y/N] y
This made it stop charging:
# grep POWER_SUPPLY_STATUS /sys/class/power_supply/battery/uevent POWER_SUPPLY_STATUS=Discharging
We did that while the driver is running, as it is necessary to disable the charger register protection.
However we didn't check if the driver was using that same register while we were trying the i2cset command.
Such could lead to a race condition, where we read a value (e.g. 0x05) and then the driver does some stuff and changes it to 0xf5 for instance, after that we would set it as 0x04, messing up things.
So don't reproduce that experiment if you don't know what you are doing.
We also didn't get any review of what we were doing here, and humans do mistakes.
Also note that we don't have a datasheet for either the battery or the battery charger chip, so doing such experiments is very error prone.
How to properly disable charging¶
In order to minimize the risk it would be best to have the upstream kernel review the process involved.
To enable it for your device, first you need it to be ported to Replicant 9.
The Galaxy SIII already boots under Replicant 9 and uses a kernel that is very closely based on upstream. So we can even test under GNU/Linux with Replicant 9 kernel.
You can then take advantage of the Linux review process to be extra sure that you didn't mess up.
The max77693_charger driver available upstream already has a function to disable charging (max77693_enable_charger) but it has no way to directly enabled disable charging through a sysfs node.
Finding a way to disable charging through existing sysfs and/or adding a new sysfs node would allow userspace to easily stop the charging process with way less risks.
Note that upstream still requires you to test (and probably understand) the code you are writing, so you still need to know what you are doing.
If you don't know what you are doing, try instead to find someone who does and who is willing to do it for you.
Risks when properly disabling charging¶
Lithium-ion batteries do break when the charge level is too low. So if you de-charge completely the battery and don't recharge it afterward, you could break it.
The same risk exists if you completely de-charge a battery (because you use you phone while not connected to a power supply) and don't charge again the battery for a long time.
Note that keeping charging the battery all the time also breaks it very fast.
This is why, when the battery reach 100%, it stops being charged.
If it's not possible to power the device from the power supply and leave the battery unconnected, the charging procedure has to let the battery decharge (up to some threshold like 80% for instance) and recharge again.
If the threshold is too high (like 99%), the battery would break very very fast. If the threshold is too low, the battery last less hours if it's at 80% when unconnected.
That process is typically transparent to users, so many users don't know about it.