Difference between revisions of "How to use UltraBay batteries"
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===UltraBay eject lever=== | ===UltraBay eject lever=== | ||
− | It seems that you don't have to completely remove the UltraBay battery from the bay to stop using it. If you release the eject lever, but don't actually pull the battery from the bay, the battery is still visible to the system, but the BIOS reverses the order of use and will completely deplete the main battery before using the UltraBay battery. The order of charging is not affected. Test machine: T23. May or may not work on other models. | + | It seems that you don't have to completely remove the UltraBay battery from the bay to stop using it. If you release the eject lever, but don't actually pull the battery from the bay, the battery is still visible to the system, but the BIOS reverses the order of use and will completely deplete the main battery before using the UltraBay battery. While the BIOS can switch to the UltraBay battery when the main battery runs out, it cannot switch fast enough when the main battery is pulled (the system powers down). Make sure you push the eject lever in before swapping the main battery. The order of charging is not affected. Test machine: T23. May or may not work on other models. |
===Reading the battery status under Linux=== | ===Reading the battery status under Linux=== |
Revision as of 16:53, 26 January 2006
ThinkPad laptops only charge/discharge one battery at a time. If you have two batteries present (a system battery and an UltraBay battery), the laptop will completely deplete the UltraBay battery before using the main battery. |
Battery hot-swapping
Switching between the batteries is instant, so if you pull the UltraBay battery from the bay when it is being discharged, the system will instantly switch to the main battery. You can therefore use the UltraBay battery to hot-swap the system battery (i.e., replace it without the need to reboot, hibernate or use an external power adapter).
You should issue # echo eject > /proc/acpi/ibm/bay
before removing the battery from the bay, especially if you are replacing it with a different device (requires ibm-acpi).
Charging and discharging
When charging, the system will completely charge the main battery before it starts on the UltraBay battery. When discharging, the system will completely discharge the UltraBay battery before it discharges the main battery. This greatly reduces the lifetime of the Ultrabay battery, and also reduces its usefulness for enabling hot-swapping of the system battery. There are two ways to prevent this:
- Keep an eye on the charge in the UltraBay battery and physically remove it from the bay when it gets too low (or release the eject lever- see below).
- Use the tp_smapi module to control which battery is charged (inhibit_charge on the other battery) or discharged (force_discharge). This only works on some ThinkPad models - see the model-specific status.
UltraBay eject lever
It seems that you don't have to completely remove the UltraBay battery from the bay to stop using it. If you release the eject lever, but don't actually pull the battery from the bay, the battery is still visible to the system, but the BIOS reverses the order of use and will completely deplete the main battery before using the UltraBay battery. While the BIOS can switch to the UltraBay battery when the main battery runs out, it cannot switch fast enough when the main battery is pulled (the system powers down). Make sure you push the eject lever in before swapping the main battery. The order of charging is not affected. Test machine: T23. May or may not work on other models.
Reading the battery status under Linux
Using APM
The second battery is correctly detected by the APM subsystem (if activated).
Using ACPI
The second battery is correctly detected by the ACPI subsystem (if activated). However, the Linux ACPI subsystem only scans for batteries on boot. This means that the second battery must be present at boot time, or you will not be able to get any info for it via /proc/acpi/battery/BAT1.
With kernel 2.6.14.2 (possibly only with ibm-acpi) there is a sysfs file: /sys/firmware/acpi/namespace/ACPI/_SB/PCI0/LPC/EC/BAT1/eject. There isn't one for BAT0, but # cat /proc/acpi/battery/BAT0/*
shows not present
when there is no internal battery.
For BAT1 all the states go to 0, critical, etc. .
# echo 1 > /sys/firmware/acpi/namespace/ACPI/_SB/PCI0/LPC/EC/BAT1/eject
will remove /proc/acpi/battery/BAT1 and turn off the UltraBay led. Interestingly the battery will still be discharging (charging not tested) until it is physically removed.
Also, if you compile the battery module of ACPI as a module, boot with the UltraBay battery present, remove the UltraBay battery (without doing the eject above), /proc/acpi/battery/BAT1 is still there, while after # rmmod battery && modprobe battery
/proc/acpi/battery/BAT1 is gone (BAT0 is back). Put the battery back in and /proc/acpi/battery/BAT1 is still missing, do # rmmod battery && modprobe battery
and /proc/acpi/battery/BAT1 is back.
If you boot without the second battery BAT1 never appears in /proc or /sys.
If you eject using the sysfs file above, BAT1 disappears from both /proc and /sys and never comes back.
Using tp_smapi
Independently of APM or ACPI, the battery status is also accessible through the tp_smapi driver. The tp_smapi kernel module provides battery status (and other features) via the sysfs interface in /sys/devices/platform/smapi/BAT{0,1}, and includes some information not accessible through APM or ACPI (e.g., cycle count and momentary power draw). The BAT1 interface is always present, regardless of whether the battery is present, was present on boot, or was ejected using the sysfs interface above.
Unfortunately, currently none of the standard battery monitoring scripts/applets use tp_smapi.