Surface devices are designed to take advantage of the latest advances in
mobile device energy consumption to deliver a streamlined experience
optimized across workloads. Depending on what you’re doing, Surface
dynamically fine tunes how power flows to individual hardware
components, momentarily waking up system components to handle background
tasks -- such as an incoming email or network traffic -- before returning to a
low power idle state (S0ix).
Summary of recommendations for IT administrators
To ensure Surface devices across your organization fully benefit from Surface power optimization features:
Install the latest drivers and firmware from Windows Update or the Surface Driver and Firmware MSI. This creates the balanced power plan (aka power profile) by default and configures optimal power settings. For more information, refer to Manage and deploy Surface driver and firmware updates.
Avoid creating custom power profiles or adjusting advanced power settings not visible in the default UI (System > Power & sleep).
If you must manage the power profile of devices across your network (such as in highly managed organizations), use the powercfg command tool to export the power plan from the factory image of the Surface device and then import it into the provisioning package for your Surface devices.
Tip
You can only export a power plan across the same type of Surface device. For example, you cannot export a power plan from Surface Laptop and import it on Surface Pro. For more information, refer to Configure power settings.
Exclude Surface devices from any existing power management policy settings.
Background
The way Surface implements power management differs significantly from
the earlier OS standard that gradually reduces and turns off power via a
series of sleep states; for example, cycling through S1, S2, S3, and so on.
Instead, Surface is imaged with a custom power profile that replaces
legacy sleep and energy consumption functionality with modern standby
features and dynamic fine tuning. This custom power profile is
implemented via the Surface Serial Hub Driver and the system aggregator
module (SAM). The SAM chip functions as the Surface device power-policy
owner, using algorithms to calculate optimal power requirements. It
works in conjunction with Windows power manager to allocate or throttle
only the exact amount of power required for hardware components to
function. This article applies to all currently supported Surface devices.
Utilizing the custom power profile in Surface
If you go into the power options on a Surface device, you'll see that there's a single power plan available. This is the custom power profile. And if you go to the advanced power settings, you’ll see a much smaller subset of power options compared to a generic PC running Windows 10 or Windows 11. Unlike generic devices, Surface has firmware and custom components to manage these power options.
Modern Standby
The algorithmically embedded custom power profile enables modern standby
connectivity for Surface by maintaining a low power state for
instant on/instant off functionality typical of smartphones. S0ix, also
known as Deepest Runtime Idle Platform State (DRIPS), is the default
power mode for Surface devices. Modern standby has two modes:
Connected standby. The default mode for up-to-the minute
delivery of emails, messaging, and cloud-synced data, connected
standby keeps Wi-Fi on and maintains network connectivity.
Disconnected standby. An optional mode for extended battery
life, disconnected standby delivers the same instant-on experience
and saves power by turning off Wi-Fi, Bluetooth, and related network
connectivity.
Surface is designed for a streamlined power management experience that
eliminates the need to create custom power plans or manually configure
power settings. Microsoft streamlines the user
experience by delivering a single power plan (balanced) that replaces
the multiple power plans from standard Windows builds.
Simplified power settings user interface
Surface provides a simplified UI in accord with best practice power
setting recommendations. In general, it's recommended to only adjust settings visible in the default user interface and avoid configuring advanced power settings or Group Policy settings. Using the default screen and sleep timeouts while avoiding maximum
brightness levels are the most effective ways for users to maintain
extended battery life.
Figure 1. Simplified power and sleep settings
Windows performance power slider
Surface devices running Windows 10 build 1709 and later include a power
slider allowing you to prioritize battery life when needed or favor performance if desired. You
can access the power slider from the taskbar by clicking on the battery
icon. Slide left for longer battery life (battery saver mode) or slide
right for faster performance.
Figure 2. Power slider
Power slider enables four states as described in the following table:
Slider mode
Description
Battery saver
Helps conserve power and prolong battery life when the system is disconnected from a power source. When battery saver is on, some Windows features are disabled, throttled, or behave differently. Screen brightness is also reduced. Battery saver is only available when using battery power (DC). To learn more, see Battery Saver.
Recommended
Delivers longer battery life than the default settings in earlier versions of Windows.
Better Performance
Slightly favors performance over battery life, functioning as the default slider mode.
Best Performance
Favors performance over power for workloads requiring maximum performance and responsiveness, regardless of battery power consumption.
Power slider modes directly control specific hardware components shown
in the following table.
Component
Slider functionality
Intel Speed Shift (CPU energy registers) and Energy Performance Preference hint.
Selects the best operating frequency and voltage for optimal performance and power. The Energy Performance Preference (PERFEPP) is a global power efficiency hint to the CPU.
Fan speed (RPM)
Where applicable, adjusts for changing conditions such as keeping fan silent in battery saver slider mode.
Processor package power limits (PL1/PL2).
Requires the CPU to manage its frequency choices to accommodate a running average power limit for both steady state (PL1) and turbo (PL2) workloads.
Processor turbo frequency limits (IA turbo limitations).
Adjusts processor and graphics performance allowing processor cores to run faster or slower than the rated operating frequency.
Note
The power slider is entirely independent of operating system power settings whether configured from Control Panel/ Power Options, Group Policy, or related methods.
In the taskbar search box, type Windows Update and select Check for updates.
Choose the best power setting for what you’re doing
Power slider
In the taskbar, select the battery icon, then choose Best performance, Best battery life, or somewhere in between.
Conserve battery when it’s low
Battery saver
In the taskbar, select the battery icon and click Battery settings. Select Turn battery saver on automatically if my battery falls below and then move the slider further to the right for longer battery life.
Configure optimal screen brightness
Battery saver
In the taskbar, select the battery icon and click Battery settings, select Lower screen brightness while in battery saver.
Conserve power whenever you’re not plugged in
Battery saver
Select Turn on battery saver status until next charge.
Investigate problems with your power settings.
Power troubleshooter
In the Taskbar search for troubleshoot, select Troubleshoot, and then select Power and follow the instructions.
Plan and execute an endpoint deployment strategy, using essential elements of modern management, co-management approaches, and Microsoft Intune integration.