Beste Linux-Distribution für Akkulaufzeit von Notebooks (2024)?

[Tenferenzu]

Hier gäbe es einen Datenpunkt von 2019. Ja, es ist mehr als veraltet aber man sieht zumindest was die DE alles ausmachen kann.
Zumindest bei Mate ist der Entwickler immer noch der Gleiche.

https://www.forbes.com/sites/jasone...icient-ubuntu-19-04-flavor-will-surprise-you/

 

[Mondgesang]

Interessanterweise ist das mainline Ubuntu gleich nach MATE der zweitplatzierte. Und das recht knapp.

 

[Tenferenzu]

Am Ende des Artikels gibt's auch den kurzen Hinweis wie man selber testen kann falls Interesse besteht (sofern man die entsprechenden Sensoren hat)

Mein ThinkPad E495 läuft unter Linux genauso lang wie unter Windows. Gute 3-4 h, je nachdem was man macht.

Beim Browsen* hält es etwas weniger lange durch, dafür bei gefühlt allen anderen Anwendungen länger. Vermutlich liegt das daran, dass unter Debian irgendwas anders eingestellt ist in Firefox als unter Windows und nicht an Linux selbst, denn die HW Beschleunigung etc. läuft super.

Was mir aufgefallen ist, ist, dass die CPU Auslastung sich brav auf 0,3 hält solange man keine Rechenleistung abruft. Da bleibt der Laptop immer schön leise und kühl^^ unter Windows ist der Lüfter alle paar Minuten angegangen. Aktuell geht er nur noch an, wenn ich einen LaTeX Job laufen lasse.

Selbst die Ladeschwellen und Energieprofile funktionieren bei dem Gerät unter Linux.

Edit: * Ich glaube mich zu erinnern, dass es da einen Bug gab bei meiner Firefoxversion, wo die Webisolierung unnötig viel CPU Last erzeugt. Bisher hat es mich aber nicht genug gestört um vom ESR auf den regulären Firefox zu wechseln.

 

[Feuerbiber]

Kann es (nur bei mir?) nicht, auf meinen MateBook D14 lief/ läuft KDE neon/ Fedora und der Akku hält nur 50 bis 75 % der Zeit wie unter W11.

Kann ich so nicht bestätigen zumindest nicht für Win 10. Habe auch ein Matebook D14 (2018) mit Fedora KDE. Ist allerdings schon eine Weile her, als ich das getestet hatte, weil Windows nur einen Ladezyklus auf der SSD war.

 

[|Moppel|]

Hier mal noch die Situation bei meinem ThinkPad mit EndeavourOS.

neofetch
                     ./o.                  xxxxxx@t14sjan
                   ./sssso-                ---------------
                 `:osssssss+-              OS: EndeavourOS Linux x86_64
               `:+sssssssssso/.            Host: 21BR00CDGE ThinkPad T14s Gen 3
             `-/ossssssssssssso/.          Kernel: 6.11.3-arch1-1
           `-/+sssssssssssssssso+:`        Uptime: 51 mins
         `-:/+sssssssssssssssssso+/.       Packages: 1451 (pacman)
       `.://osssssssssssssssssssso++-      Shell: bash 5.2.37
      .://+ssssssssssssssssssssssso++:     Resolution: 1920x1200
    .:///ossssssssssssssssssssssssso++:    DE: Plasma 6.2.1
  `:////ssssssssssssssssssssssssssso+++.   WM: kwin
`-////+ssssssssssssssssssssssssssso++++-   Theme: Breeze-Dark [GTK2], Breeze [GTK3]
 `..-+oosssssssssssssssssssssssso+++++/`   Icons: Papirus-Dark [GTK2/3]
   ./++++++++++++++++++++++++++++++/:.     Terminal: konsole
  `:::::::::::::::::::::::::------``       CPU: 12th Gen Intel i5-1235U (12) @ 4.400GHz
                                           GPU: Intel Alder Lake-UP3 GT2 [Iris Xe Graphics]
                                           Memory: 3179MiB / 15693MiB

 

[Deinorius]

@Tenferenzu hast du schon mal nachgesehen, wie viel dein System im Idle (also völlig ohne Zutun) verbraucht?
s-tui könnte helfen. Du musst aber schauen, dass der nötige Treiber installiert ist.
powertop und TLP auch schon verwendet? Die hilfreichste Einstellung war bei weitem PCIE ASPM und Runtime PM. Dazu auto-cpufreq und vielleicht bekommst du eine längere Akkulaufzeit.

 

[Tenferenzu]

Klar. Das ist sogar 1 Watt weniger als unter Windows 10
Mit cat /sys/class/power_supply/BAT*/power_now konnte ich 5,9W Akkuentladerate bei voller Bildschirmhelligkeit 'messen'. Der Ryzen 3500u ist halt leider nicht wirklich ein Effizienzwunder und der 45Wh Akku hilft da auch nicht wirklich.

 

[|Moppel|]

cat /sys/class/power_supply/BAT*/power_now

Wie ist der Wert zu interpretieren? Die KI sagt mir er gibt µAmpere aus. Wie kommst du auf deine Wattangaben?

Muss ich mit der Spannung des Akkus multiplizieren?

 

[Tenferenzu]

Das sind µWatt. Da spinnt deine KI
6374000 -> 6,374W werden aktuell aus meinem Akku gezogen.

 

[ropf]

Die KI sagt mir er gibt µAmpere aus.

Klopp deine KI in die Tonne - es sind Mikrowatt.

Oops @Tenferenzu war schneller 👍

 

[|Moppel|]

Das sind µWatt. Da spinnt deine KI

Genau dafür habe ich dich.

Die KI ist leider unbelehrbar!

Ziemlich pampig geworden sogar!

Also mit meinen Hardwarespecs von oben, Firefox mit 5 Tabs und voller Bildschirmhelligkeit lande ich bei 6,6W.

Hätte auch Windows 11 im dualboot drauf. Hat da jemand eine ähnlich einfache Methode parat zum Auslesen?

 

[Tenferenzu]

Meine Messungen habe ich damit gemacht unter Windows:
https://www.computerbase.de/downloads/systemtools/hwinfo/

Da musst aber auch abstecken da eigentlich nur die Entladerate vom Akku interessant ist und nicht die ganzen anderen Leistungssensoren etc.

 

[|Moppel|]

Da musst aber auch abstecken da eigentlich nur die Entladerate vom Akku interessant ist

Logisch! Ich reiche gleich mal nach.

Habe sie durch Logik überzeugt.

Also Windows gönnt sich schon einiges mehr aktuell.

aktuell - max - min - schnitt

 

[Tenferenzu]

Ja, Windows ist da etwas komisch. Bei mir beginnt es bei 13W, dann geht's runter auf 11, wenn ich den Laptop dann noch länger stehen lasse geht's irgendwann auf 9W runter und wenns ganz lange ist, dann geht's auf 7,xW runter.
Unter Linux bin ich meist zwischen 6,5 und 9W außer ich lass den Browser irgendwas wiedergeben, da geht's direkt hoch auf 11-30W, je nach Videoauflösung.
Ein LaTeX Job läuft auch mit gut 15W durch aber das ist ja in Ordnung, der darf sich gerne Saft nehmen

Die 6,3W waren übrigends mit 2 Firefox Fenstern und insgesamt 26 offenen Tabs, davon 3x E-Mail, WhatsApp Web und Telegram Web und einem lokal abgespieltem Programmiertutorial in 720p.

 

[0815burner]

Ich hatte den größten Erfolg mit meinem 8 Jahre alten Tuxedo Laptop durch das manuelle Anpassen per TLP. Hauptziel war hier neben Stromsparen, dass die Lüfter unhörbar werden. Mache ich dann doch mal was, wo die CPU Vollgas geben soll, geht das in der Konsole mit

sudo tlp ac

Für Firefox, VLC, etc. reichen aber max. 1,8Ghz völlig aus. Der Laptop liegt dann mit deaktiviertem Display (extern angeschlossen) bei ca. 10-11 Watt.

Edit. Hier noch meine Config:

# ------------------------------------------------------------------------------
# /etc/tlp.conf - TLP user configuration (version 1.6.1)
# See full explanation: https://linrunner.de/tlp/settings
#
# Copyright (c) 2023 Thomas Koch <linrunner at gmx.net> and others.
# SPDX-License-Identifier: GPL-2.0-or-later
#
# Settings are read in the following order:
#
# 1. Intrinsic defaults
# 2. /etc/tlp.d/*.conf - Drop-in customization snippets
# 3. /etc/tlp.conf     - User configuration (this file)
#
# Notes:
# - In case of identical parameters, the last occurence has precedence
# - This also means, parameters enabled here will override anything else
# - However you may append values to a parameter already defined as intrinsic
#   default or in a previously read file: use PARAMETER+="add values"
# - IMPORTANT: all parameters here are disabled; remove the leading '#' if you
#   like to enable a feature without default or have a value different from the
#   default
# - Default *: intrinsic default that is effective when the parameter is missing
#   or disabled by a leading '#'; use PARAM="" to disable an intrinsic default
# - Default <none>: do nothing or use kernel/hardware defaults
# - IMPORTANT: parameters must always be specified pairwise i.e. for
#   both AC and BAT. Omitting one of the two makes the set value effective for
#   both power sources, since a change only occurs when different values are
#   defined.
# ------------------------------------------------------------------------------
# tlp - Parameters for power saving

# Set to 0 to disable, 1 to enable TLP.
# Default: 1

TLP_ENABLE=1

# Control how warnings about invalid settings are issued:
#   0=disabled,
#   1=background tasks (boot, resume, change of power source) report to syslog,
#   2=shell commands report to the terminal (stderr),
#   3=combination of 1 and 2
 Default: 3

#TLP_WARN_LEVEL=3

# Operation mode when no power supply can be detected: AC, BAT.
# Concerns some desktop and embedded hardware only.
# Default: <none>

TLP_DEFAULT_MODE=BAT

# Operation mode select: 0=depend on power source, 1=always use TLP_DEFAULT_MODE
# Note: use in conjunction with TLP_DEFAULT_MODE=BAT for BAT settings on AC.
 #Default: 0

TLP_PERSISTENT_DEFAULT=1

# Power supply classes to ignore when determining operation mode: AC, USB, BAT.
# Separate multiple classes with spaces.
# Note: try on laptops where operation mode AC/BAT is incorrectly detected.
# Default: <none>

TLP_PS_IGNORE="BAT"

# Seconds laptop mode has to wait after the disk goes idle before doing a sync.
# Non-zero value enables, zero disables laptop mode.
# Default: 0 (AC), 2 (BAT)

DISK_IDLE_SECS_ON_AC=0
DISK_IDLE_SECS_ON_BAT=2

# Dirty page values (timeouts in secs).
# Default: 15 (AC), 60 (BAT)

MAX_LOST_WORK_SECS_ON_AC=15
MAX_LOST_WORK_SECS_ON_BAT=60

# Select a CPU scaling driver operation mode.
# Intel CPU with intel_pstate driver:
#   active, passive.
# AMD Zen 2 or newer CPU with amd-pstate_driver as of kernel 6.3/6.4(*):
#   active, passive, guided(*).
# Default: <none>
CPU_DRIVER_OPMODE_ON_AC=active
CPU_DRIVER_OPMODE_ON_BAT=active

# Select a CPU frequency scaling governor.
# Intel CPU with intel_pstate driver or
# AMD CPU with amd-pstate driver in active mode ('amd-pstate-epp'):
#   performance, powersave(*).
# Intel CPU with intel_pstate driver in passive mode ('intel_cpufreq') or
# AMD CPU with amd-pstate driver in passive or guided mode ('amd-pstate') or
# Intel, AMD and other CPU brands with acpi-cpufreq driver:
#   conservative, ondemand(*), userspace, powersave, performance, schedutil(*).
# Use tlp-stat -p to show the active driver and available governors.
# Important:
#   Governors marked (*) above are power efficient for *almost all* workloads
#   and therefore kernel and most distributions have chosen them as defaults.
#   You should have done your research about advantages/disadvantages *before*
#   changing the governor.
# Default: <none>

CPU_SCALING_GOVERNOR_ON_AC=powersave
CPU_SCALING_GOVERNOR_ON_BAT=powersave

# Set the min/max frequency available for the scaling governor.
# Possible values depend on your CPU. For available frequencies see
# the output of tlp-stat -p.
# Notes:
# - Min/max frequencies must always be specified for both AC *and* BAT
# - Not recommended for use with the intel_pstate driver, use
#   CPU_MIN/MAX_PERF_ON_AC/BAT below instead
# Default: <none>

CPU_SCALING_MIN_FREQ_ON_AC=800000
CPU_SCALING_MAX_FREQ_ON_AC=3500000
CPU_SCALING_MIN_FREQ_ON_BAT=800000
CPU_SCALING_MAX_FREQ_ON_BAT=1800000

# Set CPU energy/performance policies EPP and EPB:
#   performance, balance_performance, default, balance_power, power.
# Values are given in order of increasing power saving.
# Requires:
# * Intel CPU
#   EPP: Intel Core i 6th gen. or newer CPU with intel_pstate driver
#   EPB: Intel Core i 2nd gen. or newer CPU with intel_pstate driver
#     as of kernel 5.2; alternatively module msr and
#     x86_energy_perf_policy from linux-tools
#   EPP and EPB are mutually exclusive: when EPP is available, Intel CPUs
#   will not honor EPB. Only the matching feature will be applied by TLP.
# * AMD Zen 2 or newer CPU
#   EPP: amd-pstate driver in active mode ('amd-pstate-epp') as of kernel 6.3
# Default: balance_performance (AC), balance_power (BAT)

CPU_ENERGY_PERF_POLICY_ON_AC=default
CPU_ENERGY_PERF_POLICY_ON_BAT=balance_power

# Set Intel CPU P-state performance: 0..100 (%).
# Limit the max/min P-state to control the power dissipation of the CPU.
# Values are stated as a percentage of the available performance.
# Requires Intel Core i 2nd gen. or newer CPU with intel_pstate driver.
# Default: <none>

CPU_MIN_PERF_ON_AC=0
CPU_MAX_PERF_ON_AC=100
CPU_MIN_PERF_ON_BAT=0
CPU_MAX_PERF_ON_BAT=50

# Set the CPU "turbo boost" (Intel) or "turbo core" (AMD) feature:
#   0=disable, 1=allow.
# Allows to raise the maximum frequency/P-state of some cores if the
# CPU chip is not fully utilized and below it's intended thermal budget.
# Note: a value of 1 does *not* activate boosting, it just allows it.
# Default: <none>

CPU_BOOST_ON_AC=1
CPU_BOOST_ON_BAT=0

# Set Intel/AMD CPU dynamic boost feature:
#   0=disable, 1=enable.
# Improve performance by increasing minimum P-state limit dynamically
# whenever a task previously waiting on I/O is selected to run.
# Requires:
# * Intel Core i  6th gen. or newer CPU: intel_pstate driver in active mode
# * AMD Zen 2 or newer CPU: amd-pstate driver in active mode ('amd-pstate-epp')
#   provided by a yet unreleased kernel 6.x
# Default: <none>

CPU_HWP_DYN_BOOST_ON_AC=1
CPU_HWP_DYN_BOOST_ON_BAT=0

# Kernel NMI Watchdog:
#   0=disable (default, saves power), 1=enable (for kernel debugging only).
# Default: 0

NMI_WATCHDOG=0

# Select platform profile:
#   performance, balanced, low-power.
# Controls system operating characteristics around power/performance levels,
# thermal and fan speed. Values are given in order of increasing power saving.
# Note: check the output of tlp-stat -p to determine availability on your
# hardware and additional profiles such as: balanced-performance, quiet, cool.
# Default: <none>

PLATFORM_PROFILE_ON_AC=balanced
PLATFORM_PROFILE_ON_BAT=low-power

# System suspend mode:
#   s2idle: Idle standby - a pure software, light-weight, system sleep state,
#   deep: Suspend to RAM - the whole system is put into a low-power state,
#     except for memory, usually resulting in higher savings than s2idle.
# CAUTION: changing suspend mode may lead to system instability and even
# data loss. As for the availability of different modes on your system,
# check the output of tlp-stat -s. If unsure, stick with the system default
# by not enabling this.
# Default: <none>

#MEM_SLEEP_ON_AC=s2idle
#MEM_SLEEP_ON_BAT=deep

# Define disk devices on which the following DISK/AHCI_RUNTIME parameters act.
# Separate multiple devices with spaces.
# Devices can be specified by disk ID also (lookup with: tlp diskid).
# Default: "nvme0n1 sda"

#DISK_DEVICES="nvme0n1 sda"

# Disk advanced power management level: 1..254, 255 (max saving, min, off).
# Levels 1..127 may spin down the disk; 255 allowable on most drives.
# Separate values for multiple disks with spaces. Use the special value 'keep'
# to keep the hardware default for the particular disk.
# Default: 254 (AC), 128 (BAT)

#DISK_APM_LEVEL_ON_AC="254 254"
#DISK_APM_LEVEL_ON_BAT="128 128"

# Exclude disk classes from advanced power management (APM):
#   sata, ata, usb, ieee1394.
# Separate multiple classes with spaces.
# CAUTION: USB and IEEE1394 disks may fail to mount or data may get corrupted
# with APM enabled. Be careful and make sure you have backups of all affected
# media before removing 'usb' or 'ieee1394' from the denylist!
# Default: "usb ieee1394"

#DISK_APM_CLASS_DENYLIST="usb ieee1394"

# Hard disk spin down timeout:
#   0:        spin down disabled
#   1..240:   timeouts from 5s to 20min (in units of 5s)
#   241..251: timeouts from 30min to 5.5 hours (in units of 30min)
# See 'man hdparm' for details.
# Separate values for multiple disks with spaces. Use the special value 'keep'
# to keep the hardware default for the particular disk.
# Default: <none>

#DISK_SPINDOWN_TIMEOUT_ON_AC="0 0"
#DISK_SPINDOWN_TIMEOUT_ON_BAT="0 0"

# Select I/O scheduler for the disk devices.
# Multi queue (blk-mq) schedulers:
#   mq-deadline(*), none, kyber, bfq
# Single queue schedulers:
#   deadline(*), cfq, bfq, noop
# (*) recommended.
# Separate values for multiple disks with spaces. Use the special value 'keep'
# to keep the kernel default scheduler for the particular disk.
# Notes:
# - Multi queue (blk-mq) may need kernel boot option 'scsi_mod.use_blk_mq=1'
#   and 'modprobe mq-deadline-iosched|kyber|bfq' on kernels < 5.0
# - Single queue schedulers are legacy now and were removed together with
#   the old block layer in kernel 5.0
# Default: keep

#DISK_IOSCHED="mq-deadline mq-deadline"

# AHCI link power management (ALPM) for SATA disks:
#   min_power, med_power_with_dipm(*), medium_power, max_performance.
# (*) recommended.
# Multiple values separated with spaces are tried sequentially until success.
# Default: med_power_with_dipm (AC & BAT)

SATA_LINKPWR_ON_AC="med_power_with_dipm"
SATA_LINKPWR_ON_BAT="min_power"

# Exclude SATA links from AHCI link power management (ALPM).
# SATA links are specified by their host. Refer to the output of
# tlp-stat -d to determine the host; the format is "hostX".
# Separate multiple hosts with spaces.
# Default: <none>

#SATA_LINKPWR_DENYLIST="host1"

# Runtime Power Management for NVMe, SATA, ATA and USB disks
# as well as SATA ports:
#   on=disable, auto=enable.
# Note: SATA controllers are PCIe bus devices and handled by RUNTIME_PM further
# down.

# Default: on (AC), auto (BAT)

AHCI_RUNTIME_PM_ON_AC=on
AHCI_RUNTIME_PM_ON_BAT=auto

# Seconds of inactivity before disk is suspended.
# Note: effective only when AHCI_RUNTIME_PM_ON_AC/BAT is activated.
# Default: 15

AHCI_RUNTIME_PM_TIMEOUT=15

# Power off optical drive in UltraBay/MediaBay: 0=disable, 1=enable.
# Drive can be powered on again by releasing (and reinserting) the eject lever
# or by pressing the disc eject button on newer models.
# Note: an UltraBay/MediaBay hard disk is never powered off.
# Default: 0

BAY_POWEROFF_ON_AC=0
BAY_POWEROFF_ON_BAT=0

# Optical drive device to power off
# Default: sr0

BAY_DEVICE="sr0"

# Set the min/max/turbo frequency for the Intel GPU.
# Possible values depend on your hardware. For available frequencies see
# the output of tlp-stat -g.
# Default: <none>

INTEL_GPU_MIN_FREQ_ON_AC=350
INTEL_GPU_MIN_FREQ_ON_BAT=350
INTEL_GPU_MAX_FREQ_ON_AC=1050
INTEL_GPU_MAX_FREQ_ON_BAT=700
INTEL_GPU_BOOST_FREQ_ON_AC=1050
INTEL_GPU_BOOST_FREQ_ON_BAT=1050

# AMD GPU power management.
# Performance level (DPM): auto, low, high; auto is recommended.
# Note: requires amdgpu or radeon driver.
# Default: auto

#RADEON_DPM_PERF_LEVEL_ON_AC=auto
#RADEON_DPM_PERF_LEVEL_ON_BAT=auto

# Dynamic power management method (DPM): balanced, battery, performance.
# Note: radeon driver only.
# Default: <none>

#RADEON_DPM_STATE_ON_AC=performance
#RADEON_DPM_STATE_ON_BAT=battery

# Graphics clock speed (profile method): low, mid, high, auto, default;
# auto = mid on BAT, high on AC.
# Note: radeon driver on legacy ATI hardware only (where DPM is not available).
# Default: default

#RADEON_POWER_PROFILE_ON_AC=default
#RADEON_POWER_PROFILE_ON_BAT=default

# Wi-Fi power saving mode: on=enable, off=disable.
# Default: off (AC), on (BAT)

WIFI_PWR_ON_AC=on
WIFI_PWR_ON_BAT=on

# Disable Wake-on-LAN: Y/N.
 #Default: Y

WOL_DISABLE=Y

# Enable audio power saving for Intel HDA, AC97 devices (timeout in secs).
# A value of 0 disables, >= 1 enables power saving.
# Note: 1 is recommended for Linux desktop environments with PulseAudio,
# systems without PulseAudio may require 10.
# Default: 1

SOUND_POWER_SAVE_ON_AC=1
SOUND_POWER_SAVE_ON_BAT=1

# Disable controller too (HDA only): Y/N.
# Note: effective only when SOUND_POWER_SAVE_ON_AC/BAT is activated.
# Default: Y

SOUND_POWER_SAVE_CONTROLLER=Y

# PCIe Active State Power Management (ASPM):
#   default(*), performance, powersave, powersupersave.
# (*) keeps BIOS ASPM defaults (recommended)
# Default: <none>

PCIE_ASPM_ON_AC=powersupersave
PCIE_ASPM_ON_BAT=powersupersave

# Runtime Power Management for PCIe bus devices: on=disable, auto=enable.
# Default: on (AC), auto (BAT)

RUNTIME_PM_ON_AC=on
RUNTIME_PM_ON_BAT=auto

# Exclude listed PCIe device adresses from Runtime PM.
# Note: this preserves the kernel driver default, to force a certain state
# use RUNTIME_PM_ENABLE/DISABLE instead.
# Separate multiple addresses with spaces.
# Use lspci to get the adresses (1st column).
# Default: <none>

#RUNTIME_PM_DENYLIST="11:22.3 44:55.6"

# Exclude PCIe devices assigned to the listed drivers from Runtime PM.
# Note: this preserves the kernel driver default, to force a certain state
# use RUNTIME_PM_ENABLE/DISABLE instead.
# Separate multiple drivers with spaces.
# Default: "mei_me nouveau radeon", use "" to disable completely.

#RUNTIME_PM_DRIVER_DENYLIST="mei_me nouveau radeon"

# Permanently enable/disable Runtime PM for listed PCIe device addresses
# (independent of the power source). This has priority over all preceding
# Runtime PM settings. Separate multiple addresses with spaces.
# Use lspci to get the adresses (1st column).
# Default: <none>

#RUNTIME_PM_ENABLE="11:22.3"
#RUNTIME_PM_DISABLE="44:55.6"

# Set to 0 to disable, 1 to enable USB autosuspend feature.
# Default: 1

USB_AUTOSUSPEND=1

# Exclude listed devices from USB autosuspend (separate with spaces).
# Use lsusb to get the ids.
# Note: input devices (usbhid) and libsane-supported scanners are excluded
# automatically.
# Default: <none>

#USB_DENYLIST="1111:2222 3333:4444"

# Exclude audio devices from USB autosuspend:
#   0=do not exclude, 1=exclude.
# Default: 1

USB_EXCLUDE_AUDIO=0

# Exclude bluetooth devices from USB autosuspend:
#   0=do not exclude, 1=exclude.
# Default: 0

USB_EXCLUDE_BTUSB=0

# Exclude phone devices from USB autosuspend:
#   0=do not exclude, 1=exclude (enable charging).
#Default: 0

USB_EXCLUDE_PHONE=0

# Exclude printers from USB autosuspend:
#   0=do not exclude, 1=exclude.
#Default: 1

USB_EXCLUDE_PRINTER=1

# Exclude WWAN devices from USB autosuspend:
#   0=do not exclude, 1=exclude.
# Default: 0

USB_EXCLUDE_WWAN=0

# Allow USB autosuspend for listed devices even if already denylisted or
# excluded above (separate with spaces). Use lsusb to get the ids.
# Default: 0

#USB_ALLOWLIST="1111:2222 3333:4444"

# Set to 1 to disable autosuspend before shutdown, 0 to do nothing
# Note: use as a workaround for USB devices that cause shutdown problems.
# Default: 0

USB_AUTOSUSPEND_DISABLE_ON_SHUTDOWN=1

# Restore radio device state (Bluetooth, WiFi, WWAN) from previous shutdown
# on system startup: 0=disable, 1=enable.
# Note: the parameters DEVICES_TO_DISABLE/ENABLE_ON_STARTUP/SHUTDOWN below
# are ignored when this is enabled.
# Default: 0

RESTORE_DEVICE_STATE_ON_STARTUP=1

# Radio devices to disable on startup: bluetooth, nfc, wifi, wwan.
# Separate multiple devices with spaces.
# Default: <none>

DEVICES_TO_DISABLE_ON_STARTUP="bluetooth nfc"

# Radio devices to enable on startup: bluetooth, nfc, wifi, wwan.
# Separate multiple devices with spaces.
# Default: <none>

DEVICES_TO_ENABLE_ON_STARTUP="wifi"

# Radio devices to disable on shutdown: bluetooth, nfc, wifi, wwan.
# Note: use as a workaround for devices that are blocking shutdown.
# Default: <none>

#DEVICES_TO_DISABLE_ON_SHUTDOWN="bluetooth nfc wifi wwan"

# Radio devices to enable on shutdown: bluetooth, nfc, wifi, wwan.
# (to prevent other operating systems from missing radios).
# Default: <none>

#DEVICES_TO_ENABLE_ON_SHUTDOWN="wwan"

# Radio devices to enable on AC: bluetooth, nfc, wifi, wwan.
# Default: <none>

#DEVICES_TO_ENABLE_ON_AC="bluetooth nfc wifi wwan"

# Radio devices to disable on battery: bluetooth, nfc, wifi, wwan.
# Default: <none>

#DEVICES_TO_DISABLE_ON_BAT="bluetooth nfc wifi wwan"

# Radio devices to disable on battery when not in use (not connected):
#   bluetooth, nfc, wifi, wwan.
# Default: <none>

#DEVICES_TO_DISABLE_ON_BAT_NOT_IN_USE="bluetooth nfc wifi wwan"

# Battery Care -- Charge thresholds
# Charging starts when the charger is connected and the charge level
# is below the start threshold. Charging stops when the charge level
# is above the stop threshold.
# Required hardware: Lenovo ThinkPads and select other laptop brands
# are driven via specific plugins
# - Active plugin and support status are shown by tlp-stat -b
# - Vendor specific threshold levels are shown by tlp-stat -b, some
#   laptops support only 1 (on)/ 0 (off) instead of a percentage level
# - When your hardware supports a start *and* a stop threshold, you must
#   specify both, otherwise TLP will refuse to apply the single threshold
# - When your hardware supports only a stop threshold, set the start
#   value to 0
# - Older ThinkPads may require an external kernel module, refer to the
#   output of tlp-stat -b
# For further explanation and vendor specific details refer to
# - https://linrunner.de/tlp/settings/battery.html
# - https://linrunner.de/tlp/settings/bc-vendors.html

# BAT0: Primary / Main / Internal battery
# Note: also use for batteries BATC, BATT and CMB0
# Default: <none>

# Battery charge level below which charging will begin.
START_CHARGE_THRESH_BAT0=41
# Battery charge level above which charging will stop.
STOP_CHARGE_THRESH_BAT0=90

# BAT1: Secondary / Ultrabay / Slice / Replaceable battery
# Note: primary on some laptops
# Default: <none>

# Battery charge level below which charging will begin.
#START_CHARGE_THRESH_BAT1=75
# Battery charge level above which charging will stop.
#STOP_CHARGE_THRESH_BAT1=80

# Restore charge thresholds when AC is unplugged: 0=disable, 1=enable.
# Default: 0

#RESTORE_THRESHOLDS_ON_BAT=1

# Control battery care drivers: 0=disable, 1=enable.
# Default: 1 (all)

#NATACPI_ENABLE=1
#TPACPI_ENABLE=1
#TPSMAPI_ENABLE=1

# ------------------------------------------------------------------------------
# tlp-rdw - Parameters for the radio device wizard

# Possible devices: bluetooth, wifi, wwan.
# Separate multiple radio devices with spaces.
# Default: <none> (for all parameters below)

# Radio devices to disable on connect.

DEVICES_TO_DISABLE_ON_LAN_CONNECT="wifi wwan"
DEVICES_TO_DISABLE_ON_WIFI_CONNECT="wwan"
#DEVICES_TO_DISABLE_ON_WWAN_CONNECT="wifi"

# Radio devices to enable on disconnect.

DEVICES_TO_ENABLE_ON_LAN_DISCONNECT="wifi wwan"
#DEVICES_TO_ENABLE_ON_WIFI_DISCONNECT=""
#DEVICES_TO_ENABLE_ON_WWAN_DISCONNECT=""

# Radio devices to enable/disable when docked.

#DEVICES_TO_ENABLE_ON_DOCK=""
#DEVICES_TO_DISABLE_ON_DOCK=""

# Radio devices to enable/disable when undocked.

DEVICES_TO_ENABLE_ON_UNDOCK="wifi"
#DEVICES_TO_DISABLE_ON_UNDOCK=""

 

[Spontaneous]

Ihr bezieht euch auf angezeigte Werte die Windows oder Linux euch zeigen und messt in keiner Weise mal die reale Zeit dabei. Über einige Jahre und unterschiedlichen Geräten kam ich immer mit Windows an die längste Akkulaufzeit.

 

[|Moppel|]

Ihr bezieht euch auf angezeigte Werte die Windows oder Linux euch zeigen und messt in keiner Weise mal die reale Zeit dabei.

Völlig richtige Beobachtung. Ist halt auch bisschen Pain alle Rahmenbedingungen gleich zu halten und dann den Laptop von 100 auf 0 zu rödeln.

Fairerweise war hier auch nur nach der langläufigsten Linux Distribution gefragt und nicht der Vergleich mit Windows.

 

[Tenferenzu]

Ihr bezieht euch auf angezeigte Werte die Windows oder Linux euch zeigen und messt in keiner Weise mal die reale Zeit dabei.

Ich beziehe mich auf die real nutzbare Arbeitszeit und die ist bei meinem(!) Gerät bei meinem(!) Workflow quasi identisch wenn ich Linux und Windows vergleiche: 3-4 Stunden.

Das was oben gemessen wurde ist die aktuelle Entladerate vom Akku. Mit dem Wissen wie viel Kapazität der Akku hat, kann das Betriebssystem dann ausrechnen wie lange die Restlaufzeit noch wäre falls das von Interesse ist.

Akkukapazität in Wh / Aktueller Verbrauch in W = h

Bei mir z.B: 45Wh / 6,3W = 7,1h maximale Laufzeit wenn ich nicht viel mache. Real kommen bei mir aber 3-4h raus da es auch Zeiten gibt wo mal deutlich mehr verbraucht wird.