Olpc-logbat: Difference between revisions
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;SOC : State of Charge. A % number between 0 and 100% indicating how charged your battery is. This number is normally between 7% and 97%. Due to variations from battery to battery its difficult to get an exact measurement down to 1%. Therefor low is anything less than 15% and full is anything greater than 93%. |
;SOC : State of Charge. A % number between 0 and 100% indicating how charged your battery is. This number is normally between 7% and 97%. Due to variations from battery to battery its difficult to get an exact measurement down to 1%. Therefor low is anything less than 15% and full is anything greater than 93%. |
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;Voltage : Battery voltage in microVolts ( x 10E-6 ) The resolution does not really go down to microVolts but its easier not to do floating point math in the kernel driver. The above example shows a voltage of 6.90 and 6.91 volts. |
;Voltage : Battery voltage in microVolts ( x 10E-6 ) The resolution does not really go down to microVolts but its easier not to do floating point math in the kernel driver. The above example shows a voltage of 6.90 and 6.91 volts. |
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;Current : Signed number indicating the current into or out of the battery. Value in microAmps. The above charging example shows a charge current into the battery of 1.58 amps. The discharging example shows a draw current out of the battery of .895 to .899 amps or 895 to 899 |
;Current : Signed number indicating the current into or out of the battery. Value in microAmps. The above charging example shows a charge current into the battery of 1.58 amps. The discharging example shows a draw current out of the battery of .895 to .899 amps or 895 to 899 milliAmps. |
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;Battery Temp : Temperature of the battery in 100's of degree Centigrade. The above example is 27.3 to 27.7 degrees C. The battery can have quite a bit of rise above ambient temperature during charge and discharge. In a normal 25 degree room its not uncommon to see values up in to the 30 C range. |
;Battery Temp : Temperature of the battery in 100's of degree Centigrade. The above example is 27.3 to 27.7 degrees C. The battery can have quite a bit of rise above ambient temperature during charge and discharge. In a normal 25 degree room its not uncommon to see values up in to the 30 C range. |
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;Accumulated Current Register (ACR) : ACR is a 16-bit 2's complement value that counts up or down depending on the amount of charge into or out of the battery. The value is in units of the counter inside the battery but it can be converted to milliAmpHours (mAh) by multiplying by .4167. A single value does not tell you much but the difference between any 2 readings gives you the net charge during that period. The above charging example delivered 26.6 mAh into the battery. (1715-1651)*.4167 |
;Accumulated Current Register (ACR) : ACR is a 16-bit 2's complement value that counts up or down depending on the amount of charge into or out of the battery. The value is in units of the counter inside the battery but it can be converted to milliAmpHours (mAh) by multiplying by .4167. A single value does not tell you much but the difference between any 2 readings gives you the net charge during that period. The above charging example delivered 26.6 mAh into the battery. (1715-1651)*.4167 |
Revision as of 06:59, 5 February 2008
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</imagemap>olpc-logbat is a bash script that logs various parameters of the battery subsystem. It must be run from the "Terminal Activity".
At a Terminal Activity command prompt, enter
olpc-logbat
Every 10 seconds you will see a line printed to the screen that looks similar to the following:
1199878696,93,6464170,-895442,2796,6993,Discharging,Full 1199878706,93,6464170,-899739,2798,6987,Discharging,Full 1199878716,92,6462340,-899479,2797,6981,Discharging,Normal 1199878726,92,6464780,-898828,2798,6975,Discharging,Normal
If you are charging a battery then the output will look similar:
1200047276,17,6905200,1585286,2730,1651,Charging,Normal 1200047286,17,6907030,1583072,2734,1662,Charging,Normal 1200047296,17,6908860,1586458,2743,1673,Charging,Normal 1200047306,17,6910080,1586067,2752,1683,Charging,Normal 1200047316,18,6911910,1584635,2760,1694,Charging,Normal 1200047326,18,6914350,1586458,2769,1705,Charging,Normal 1200047337,18,6913740,1581770,2772,1715,Charging,Normal
In addition to writing these values to the screen olpc-logbat writes the data to a file. Every time you run olpc-logbat it creates a file in the current directory (normally /home/olpc) that looks like 'bat-<nickname>-<date>-
The legend for the values is:
<Timestamp>,<SOC>,<Voltage>,<Current>,<Bat Temp>,<ACR>,<Status>,<Overall Level>
- Timestamp
- POSIX time stamp of number of seconds since Jan 1, 1970
- SOC
- State of Charge. A % number between 0 and 100% indicating how charged your battery is. This number is normally between 7% and 97%. Due to variations from battery to battery its difficult to get an exact measurement down to 1%. Therefor low is anything less than 15% and full is anything greater than 93%.
- Voltage
- Battery voltage in microVolts ( x 10E-6 ) The resolution does not really go down to microVolts but its easier not to do floating point math in the kernel driver. The above example shows a voltage of 6.90 and 6.91 volts.
- Current
- Signed number indicating the current into or out of the battery. Value in microAmps. The above charging example shows a charge current into the battery of 1.58 amps. The discharging example shows a draw current out of the battery of .895 to .899 amps or 895 to 899 milliAmps.
- Battery Temp
- Temperature of the battery in 100's of degree Centigrade. The above example is 27.3 to 27.7 degrees C. The battery can have quite a bit of rise above ambient temperature during charge and discharge. In a normal 25 degree room its not uncommon to see values up in to the 30 C range.
- Accumulated Current Register (ACR)
- ACR is a 16-bit 2's complement value that counts up or down depending on the amount of charge into or out of the battery. The value is in units of the counter inside the battery but it can be converted to milliAmpHours (mAh) by multiplying by .4167. A single value does not tell you much but the difference between any 2 readings gives you the net charge during that period. The above charging example delivered 26.6 mAh into the battery. (1715-1651)*.4167
- Status
- "Charging", "Not Charging", or "Discharging". "Not Charging" occurs when the battery is full but you are on external power.
- Overall Level
- "Low", "Normal" , or "Full". A basic indicator of where your charge level is.