Latest revision |
Your text |
Line 12: |
Line 12: |
| * WLAN transmit 802.11b - 150 mA | | * WLAN transmit 802.11b - 150 mA |
| | | |
- | Battery parameters can be monitored thru fuel gauge chip TI BQ27200 [http://focus.ti.com/lit/ds/symlink/bq27200.pdf] | + | Battery parameters can be monitored thru fuel gauge asic TI BQ27200 [http://focus.ti.com/lit/ds/symlink/bq27200.pdf] |
| | | |
| ==Some preliminary numbers using [[N900 Hardware Charge Meter|the battery monitor chip]].== | | ==Some preliminary numbers using [[N900 Hardware Charge Meter|the battery monitor chip]].== |
| | | |
- | These numbers are biased, and represent best cases. Some have had outliers which may be normal and unavoidable current spikes removed. This is under the assumption that the minimal power represents the minimum power achievable, and it should long-term be possible to - possibly with software patches - achieve these. +x indicates the measurement is for that element only. A raw measurement has no + (marked "T"), and is a total consumption of whole device, when operated in that state. Unless otherwise mentioned, numbers are for the idle locked case, with screen off, battery voltage "full" = 4.0 to 4.1V. | + | These numbers are biased, and represent best cases. Some have had outliers which may be normal and unavoidable current spikes removed. This is under the assumption that the minimal power represents the minimum power achievable, and it should long-term be possible to - possibly with software patches - achieve these. +x indicates the measurement is for that element only. A raw measurement has no + (marked "T"), and is a total consumption of whole device, when operated in that state. Unless otherwise mentioned, numbers are for the idle locked case, with screen off. |
| Assume | | Assume |
- | * Suspend (echo mem >/sys/power/state), wifi and GSM off. 2 mA T *) | + | * Suspend (echo mem >/sys/power/state), wifi and GSM off. 2 mA T |
- | * Suspend, GSM on, connected to 3G (2 bars) 5 mA T *) | + | * Suspend, GSM on, connected to 3G (2 bars) 5 mA T |
- | * Suspend, GSM on, connected to 2G. (2 bars) 3.6 mA T *) | + | * Suspend, GSM on, connected to 2G. (2 bars) 3.6 mA T |
- | *): states not recommended, used for test purposes only
| + | |
| * Idle, no SIM, wlan off 7 mA@4.1 V T | | * Idle, no SIM, wlan off 7 mA@4.1 V T |
| * Wifi on with maximum powersaving. +~2 mA | | * Wifi on with maximum powersaving. +~2 mA |
Line 38: |
Line 37: |
| * 3G connected, good signal, no data or other activity +8 mA. | | * 3G connected, good signal, no data or other activity +8 mA. |
| * 2G connected, good signal, no data or other activity +5 mA | | * 2G connected, good signal, no data or other activity +5 mA |
| + | |
| | | |
| ===2G data, short pings=== | | ===2G data, short pings=== |
- | (all Total - ATTENTION, these values depend on distance from device to base station and thus how much TX RF power it needs) | + | (all Total - ATTENTION, these values depend on how far the device from base station and thus how many TX power it needs to use to contact the base station) |
| | | |
| * 1 s ping 130 mA | | * 1 s ping 130 mA |
Line 67: |
Line 67: |
| 3G recieving at 200 k/s 275 mA | | 3G recieving at 200 k/s 275 mA |
| | | |
- | ==random adds:==
| |
| | | |
- | ===2x bash infinite loops, by frequency===
| + | -- |
- | * 250MHz 278mW T
| + | random adds: |
- | * 500MHz 524mW T
| + | |
- | * 805MHz 903mW T
| + | |
- | * 900MHz 1064mW T
| + | |
| | | |
- | So it seems like the power saving cpufreq hacks are largely irrelevant and one would always use ondemand for maximum CPU peak throughput. Needs further testing with irregular I/O-dependent load tho.
| + | WLAN PS-mode medium,10 mW, ssh login active, local xterm with bq27200 script loop -9, screen blanked, aggressive custom breathing indicator light: 20 mA |
- | | + | |
- | '''NOTE: everything >500MHz WILL destroy your CPU long term, due to overheating and EM''' This is as evident as the rule "You shall not operate 12V incandescent Lamp at 15V or 20V"
| + | |
- | --[[User:joerg_rw|joerg_rw]] 12:28, 13 May 2015 (UTC)
| + | |
- | | + | |
- | WLAN PS-mode medium,10 mW, ssh login active, local xterm with bq27200 script loop 20, screen blanked, aggressive custom breathing indicator light: 20 mA | + | |
| | | |
| xchat 8 freenode chan, wifi PSM medium, screen locked: | | xchat 8 freenode chan, wifi PSM medium, screen locked: |
Line 101: |
Line 92: |
| 18:40 4087 99 99 -64 1180 1180 1180 65535 3403 36 0 | | 18:40 4087 99 99 -64 1180 1180 1180 65535 3403 36 0 |
| </pre> | | </pre> |
- |
| |
- | 7mAh / 4min = 7*60mA_min / 4min = ~105mA(h/h); obviously depends a lot on IRC activity during test period
| |
- |
| |
- | ===A script to monitor the power consumption for a minute using bq27x00_battery===
| |
- |
| |
- | The shell script using i2cdump affects measurements a lot so it's better to use the kernel module.
| |
- |
| |
- | '''CITATION NEEDED! Why should a shell script and i2cget be inferior to a perl script and a deprecated kernel module?
| |
- | --[[User:joerg_rw|joerg_rw]] 12:18, 13 May 2015 (UTC) '''
| |
- | Go measure it yourself.
| |
- | [[User:l29ah|l29ah]] 23:40, 14 May 2015 (UTC)
| |
- | this only would show that the kernel module and/or the perl script are buggy. Actually the chip is better in doing sum than a script, it has registers for that and works completely transparent without any sw attention--[[User:joerg_rw|joerg_rw]] 14:26, 16 October 2017 (UTC)
| |
- | <pre>apt-get install perl</pre>
| |
- | <pre>
| |
- | #!/usr/bin/perl
| |
- | use strict;
| |
- | use warnings;
| |
- | use List::Util qw(sum);
| |
- | sub mean { return @_ ? sum(@_) / @_ : 0 }
| |
- | my @pa;
| |
- | for (my $i = 0; $i < 15; $i++) {
| |
- | open(my $cf, '<:encoding(UTF-8)', '/sys/class/power_supply/bq27200-0/current_now');
| |
- | open(my $vf, '<:encoding(UTF-8)', '/sys/class/power_supply/bq27200-0/voltage_now');
| |
- | my $cc = <$cf>;
| |
- | my $vc = <$vf>;
| |
- | my $pc = $cc * $vc / 1000000000; # mW
| |
- | push @pa, $pc;
| |
- | sleep(4);
| |
- | }
| |
- | print mean(@pa);
| |
- | </pre>
| |
- |
| |
- |
| |
- | chip-based more exact and smarter way:
| |
- | --[[User:joerg_rw|joerg_rw]] 15:02, 16 October 2017 (UTC)
| |
- | <pre>
| |
- | IroN900:~# bq27k-detail2|grep -A1 0x23; sleep 60; bq27k-detail2|grep -A1 0x23
| |
- | 0x23 - 0x22: 3031 SAE Available Energy High - Low Byte 29.2 µV2h (2) R
| |
- | *29.2 / 20 = 4425 mWh
| |
- | 0x23 - 0x22: 3029 SAE Available Energy High - Low Byte 29.2 µV2h (2) R
| |
- | *29.2 / 20 = 4422 mWh
| |
- | </pre>
| |
- | (4425 mWh - 4422 mWh) / 1/60h = 180mW
| |
- |
| |
- | <pre>
| |
- | IroN900:~# bq27k-detail2|grep -A1 0x23; sleep 180; bq27k-detail2|grep -A1 0x23
| |
- | 0x23 - 0x22: 3022 SAE Available Energy High - Low Byte 29.2 µV2h (2) R
| |
- | *29.2 / 20 = 4412 mWh
| |
- | 0x23 - 0x22: 3019 SAE Available Energy High - Low Byte 29.2 µV2h (2) R
| |
- | *29.2 / 20 = 4407 mWh
| |
- | </pre>
| |
- | (4412 mWh - 4407 mWh ) * 3600 s/h / 180 s = 100mW
| |
- |
| |
- |
| |
- | most accurate method: get average of NAC over a long period:
| |
- | <pre>IroN900:~# bq27200.sh 300
| |
- | LOOPMODE=300 RS=22
| |
- | mv RSOC CSOC mA NAC CACD CACT TTF TTE TEMP
| |
- | 17:50 4115 96 96 -41 1098 1098 1098 65535 1606 25 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 17:55 4131 96 96 -13 1095 1095 1095 65535 4882 25 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:00 4131 96 96 -14 1094 1094 1094 65535 4496 24 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:05 4131 96 96 -22 1091 1091 1091 65535 2884 24 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:10 4123 95 95 -109 1087 1087 1087 65535 594 25 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:15 4118 95 95 -41 1084 1084 1084 65535 1572 25 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:20 4118 95 95 -23 1080 1080 1080 65535 1884 25 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:25 4110 94 94 -33 1077 1077 1077 65535 1906 24 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:30 4118 94 94 -34 1076 1076 1076 65535 1859 24 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:35 4107 94 94 -12 1073 1073 1073 65535 5156 24 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | 18:40 4113 94 94 -143 1069 1069 1069 65535 447 25 NOACT:0 IMIN:0 CI:0 CALIP:0 VDQ:1 EDV1:0 EDVF:0
| |
- | </pre>
| |
- | average delta-NAC per 5 minutes: 3mAh = 36mAh/h
| |
- |
| |
- | delta-NAC 17:50 4115 96 1098 - 18:20 4118 95 1080 = 18mAh/30min = 36mA
| |
- |
| |
- | The noise observed in spot reading of "mA" and "TTE" values is from random system activity. It averages out just fine to match the 36mA from long term measure.
| |
- |
| |
- | Above test been done on a locked/dimmed device on WLAN with working PSM, xchat active
| |
| | | |
| ==Software== | | ==Software== |