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Always-on display

An always-on display (AOD) is a power-efficient screen feature primarily found in smartphones and smartwatches that keeps a portion of the active to show essential information, such as the time, date, notifications, and status, even when the device is locked or in . This technology relies on self-emissive displays like or , where individual pixels can be turned off for black areas, minimizing power consumption compared to traditional LCD screens that require constant backlighting. The concept of AOD traces its origins to early mobile phones from in the late 2000s, with the in 2008 featuring a basic low-power clock display that activated after inactivity. It gained further traction with Motorola's Moto X in 2013, which used active notifications on an screen, and was popularized by Samsung's Galaxy S7 and S7 Edge in 2016, marking the debut of their full AOD implementation after three years of development focused on . Apple joined later with the and Pro Max in 2022, leveraging LTPO to enable refresh rates as low as 1Hz for seamless always-on functionality. Today, AOD is a standard feature across flagship Android devices from brands like , , and , as well as recent Apple Watches. At its core, AOD operates by dimming the screen to a low brightness level and updating content at reduced intervals, often using sensors like proximity and ambient light detectors to deactivate the feature when the device is in a or facing down, thereby conserving energy. In OLED-based systems, this efficiency stems from the ability to illuminate only necessary pixels—such as those for text or icons—while keeping the background truly and power-free, resulting in drain of approximately 0.5–1% per hour on optimized devices. Advanced implementations, like Samsung's, incorporate smart algorithms to limit color usage to eight shades for basic info or expand to full palettes for images, further reducing power needs. Key aspects of AOD include customizable clock faces, widget integration for calendars or music controls, and options for scheduled activation to align with user habits, enhancing without requiring full screen wake-ups. While it offers convenience for glanceable information, potential drawbacks include slight battery impact over time and privacy concerns from visible notifications, though users can mitigate these via settings like tap-to-show or face-down disabling. Overall, AOD has become integral to modern mobile interfaces, bridging the gap between device dormancy and utility.

Fundamentals

Definition

An always-on display (AOD) is a feature in electronic devices, primarily smartphones and smartwatches, that maintains a portion of the screen in an active, low-power state to continuously show limited information even when the device is locked or in . This allows select elements, such as the time, date, notifications, missed calls, status, and occasionally widgets or music controls, to remain visible without requiring user input to activate the full display. The primary purpose of an AOD is to enable quick glances at essential information, thereby enhancing user convenience and reducing the need for frequent interactions with the device to check basic status updates. By keeping critical details accessible at all times, it improves in scenarios where users want to stay informed without disrupting the device's power-saving sleep state. Unlike traditional lock screens, which activate only upon user interaction like a or raise , an AOD remains persistently active in a dimmed, energy-efficient mode, distinguishing it from on-demand features like ambient displays that briefly illuminate the screen temporarily. This always-active nature prioritizes minimal power draw while providing ongoing visibility, often leveraging display technologies that illuminate only necessary pixels.

Functionality

The always-on display (AOD) operates by dimming the screen to a low-brightness state, revealing essential information such as the time, date, and notification previews without requiring the device to fully wake up. This mode typically shows static elements like a or icons, alongside subtly animated features, including a ticking seconds hand or gentle Live Activities updates, allowing users to glance at key details at a moment's notice. Recent updates, such as Android 17's "Min Mode" introduced in 2025, enhance AOD with more dynamic, app-driven content while maintaining low power usage. AOD activation occurs through user-initiated actions, such as tapping the screen or lifting the device, or automatically via sensors such as accelerometers for lift-to-wake gestures and proximity sensors for detecting when the device is face-down or in a pocket, ensuring the display is suppressed during inactivity to preserve battery life. In everyday use, AOD enhances by supporting customizable widgets that provide quick access to information like weather updates, music playback controls, or upcoming events, all rendered in a simplified, glanceable format. These elements integrate with the device's sensors to intelligently suppress the display when the phone is placed face-down on a surface or kept in a , preventing unintended or interactions in private contexts. Users can often personalize the layout through device settings, selecting clock styles, colors, or even adding custom images or text, tailoring the AOD to personal preferences while maintaining its low-profile operation. When interacting with AOD, a single or typically extends the 's visibility for a brief period, such as 10 seconds, before it dims again, while a double- on specific elements like the clock may expand to show additional widgets without unlocking the device. Incoming notifications trigger the AOD to illuminate relevant previews, seamlessly transitioning to the full upon further touch input. This flow ensures a fluid , bridging passive information viewing with active engagement while relying on low-power technologies to minimize resource consumption.

History

Origins

The roots of always-on display (AOD) technology trace back to mid-2000s experiments with low-power display technologies like e-ink for bistable visuals and early prototypes aimed at reducing consumption for static content in portable devices. These developments emphasized power-efficient persistence in mobile contexts, laying groundwork for AOD. The initial commercial introduction of AOD-like features occurred with Nokia's adoption of screens on OS devices. Nokia's Active Standby, displaying clock, notifications, and shortcuts on the standby screen, evolved with efficient displays; a key early example is the Nokia N86 in 2009, which used for power-efficient persistent visibility of basic information. This marked a shift toward interactive low-power screens. The Nokia N8 in 2010 further advanced this with technology, enabling persistent low-power visibility of time and notifications on the standby screen.

Evolution and Adoption

The always-on display feature began gaining traction in the 2010s, propelled by the efficiency of screens that permitted selective pixel illumination to minimize power consumption. In 2010, popularized its use in phones, such as the N8, where AMOLED technology enabled persistent low-power visibility of basic information like time and notifications on the standby screen. This marked an early shift from traditional active standby modes to more seamless always-on capabilities in consumer devices. By 2013, Motorola's Moto X introduced active notifications on its screen, displaying glanceable updates like time and alerts without full wake-up, gaining early traction for AOD. Nokia also integrated always-on display as a standard element in its Lumia series running , dubbing it "Glance Screen" on models like the Lumia 925, which displayed time, battery level, and alerts without waking the full interface. further advanced adoption by trademarking "Always On Display" in February 2016 and debuting it on the Galaxy S7 and S7 Edge, allowing users to view notifications, clock, and calendar data persistently on the . These developments transformed the feature from a niche to a competitive differentiator in flagship smartphones. In the 2020s, adoption broadened across ecosystems, with refining its Ambient Display—initially launched in 5.0 in 2014—through devices starting in 2017, adding contextual awareness like glance-based activation and media previews. joined in 2022 with the Pro's always-on display, leveraging LTPO panels for 1Hz refresh rates to show elements without full activation. By 2025, extended the feature to all 17 models, including non-Pro variants, and introduced it on the more affordable SE 3 via an upgraded S10 chip. Recent 2025 advancements underscore ongoing refinement for interactivity and efficiency. 6 added persistent media controls to always-on displays on Watches, enabling play/pause and track info visibility without wrist raises. Samsung's One UI 8.5 incorporated subtle wake/sleep animations for always-on display, improving visual feedback during transitions. 17 is expected to introduce "Min Mode" in 2026, an always-on enhancement permitting simplified, app-specific interfaces like navigation overlays directly on the display in ultra-low-power states. These updates reflect the feature's maturation into a versatile, platform-agnostic standard in .

Technical Aspects

Underlying Technologies

Always-on displays rely primarily on organic light-emitting diode () and active-matrix OLED () panels, which enable pixel-level control for power efficiency. In these technologies, each pixel emits its own light and can be individually turned off when displaying black areas, consuming no power for those sub-pixels, unlike liquid crystal displays (LCDs) that require constant backlighting for the entire panel regardless of content. This selective activation allows OLED-based always-on displays to show dark backgrounds with minimal energy use, making them suitable for persistent low-brightness information like clocks or notifications. Advanced panel innovations, such as low-temperature polycrystalline oxide (LTPO) technology, further enhance always-on functionality by supporting variable refresh rates as low as 1 Hz. LTPO combines low-temperature polycrystalline silicon (LTPS) for high-speed switching with oxide thin-film transistors (like IGZO) for low-power operation, allowing the display to dynamically adjust refresh rates based on content—high for animations and ultra-low for static elements—without needing additional hardware. This capability is crucial for maintaining visibility of unchanging information while minimizing power draw. Always-on displays for static content operate similarly to e-ink () technology, which retains images without ongoing power consumption after initial refresh, serving as a for low-energy persistent visuals. While not directly using e-ink, modern implementations emulate this by limiting updates to essential changes, such as time or alerts, to achieve similar efficiency for glanceable information. Supporting hardware includes proximity and ambient light sensors, which detect device orientation or environmental conditions to automatically activate or deactivate the display—turning it off when the phone is pocketed or face-down to prevent unnecessary drain. Additionally, dedicated low-power co-processors in system-on-chips (SoCs), such as Qualcomm's Sensing Hub, handle always-on tasks like and contextual awareness with ultra-low power, offloading from the main .

Implementation Methods

Implementation methods for always-on displays (AOD) primarily rely on software frameworks that enable efficient rendering in low-power states. In Android's open-source project (AOSP), the AmbientDisplayConfiguration class manages AOD activation through settings like DOZE_ALWAYS_ON, configuring the system to maintain a persistent low-power display mode while the device is idle. This framework integrates with the DreamService for rendering ambient content, allowing partial screen updates via SurfaceFlinger, which composites layers at reduced frame rates to minimize processing overhead. Partial screen rendering pipelines are central to AOD efficiency, where only specific regions of the —such as time, notifications, or icons—are refreshed rather than the entire screen. Frame buffer techniques update solely the changed , often at low frequencies ranging from 1 to 15 Hz, by employing pixel row-skipping patterns that dynamically adjust based on and ambient conditions; for instance, alternate or every-third-row skipping reduces the data processed per . These methods leverage dedicated low-power to handle static elements, ensuring the main application processor remains dormant during extended idle periods. Algorithmic controls further optimize AOD management by incorporating for activation, such as double-tap or pickup sensors to trigger full wake-up from doze states, while prioritizing based on dynamism—static elements like date displays receive infrequent updates, whereas dynamic ones like notifications are refreshed selectively. Integration with OS sleep states, particularly Android's Doze mode, minimizes CPU and GPU activity by deferring non-essential tasks and synchronizing rendering with sensor inputs, allowing the system to enter deep idle without interrupting AOD visibility. Optimization strategies include software-directed to halt unnecessary hardware clocks during static image holds and memory compression techniques that store unchanged frame buffers in reduced formats, avoiding full decompressions for subsequent displays. For subtle animations, such as , algorithms detect minimal changes and perform targeted redraws of affected pixels only, preventing complete frame recomposition and maintaining low computational load. These approaches depend briefly on hardware enablers like low-temperature polycrystalline oxide (LTPO) panels for variable refresh rates down to 1 Hz.

Platform Implementations

Android Ecosystem

Always-on display functionality in the ecosystem originated with the introduction of Ambient Display in , released in 2014, which briefly illuminated the screen to show notifications, time, and date upon motion or new alerts without fully waking the device. This feature laid the groundwork for persistent low-power displays, evolving over versions to a more standardized Always On Display (AOD) option in and later, where users can enable "Always show time and info" to persistently display the clock, notifications, and basic widgets on compatible screens. In these updates, AOD supports limited customization, such as selecting clock styles and adjusting display timeouts, while integrating with to minimize drain through adaptive refresh rates. Android's open nature allows manufacturers to implement AOD variations tailored to their hardware and software skins, enhancing uniqueness across devices. Samsung's series features a robust Always On Display, introduced on the Galaxy S7 in 2016 and refined in subsequent models, offering multiple clock styles, customizable colors, and the ability to set personal photos or GIFs as dimmed backgrounds for a personalized glanceable . Google's lineup integrates AOD with contextual elements like the Now Playing feature, which passively identifies and displays nearby music tracks on the and AOD without user input, alongside the At a Glance showing , events, or package updates for quick information access. Motorola's Edge series leverages LTPO display technology on models like the Edge 50 series, enabling a 1 Hz during AOD to optimize power efficiency while showing time, notifications, and status in a minimalist format. Recent advancements in 2025 further expand AOD capabilities within the ecosystem. Samsung's 8.5 enhances AOD with refined wake and sleep animations, where double-taps trigger expansions or contractions starting precisely from the interaction point, providing smoother transitions between idle and active states on devices. These updates highlight Android's emphasis on manufacturer-driven innovation, balancing utility with efficiency across diverse hardware.

iOS and Other Platforms

Apple introduced the always-on display (AOD) feature to its ecosystem with the and iPhone 14 Pro Max in September 2022, leveraging the Super Retina XDR display with technology and LTPO (low-temperature polycrystalline oxide) panels that enable variable refresh rates down to 1Hz for minimal power consumption. This implementation dims the to show a persistent, low-brightness view of the time, widgets, notifications, and Live Activities without requiring the user to wake the device fully. The AOD maintains Apple's uniform design philosophy across its hardware, contrasting with the varied customizations seen in the ecosystem. By 2025, Apple expanded AOD support to the base 17 model, featuring a 6.3-inch display powered by the A19 chip, which displays a dimmed with customizable widgets for quick glances at information like or events. To optimize battery life, includes automatic hiding mechanisms for the AOD, such as deactivating it when the is placed face down, in a , or during Low Power Mode, thereby reducing unnecessary power draw from the display. Users can further manage this via Settings > Display & Brightness > Always On Display, where options allow toggling and customization to balance visibility and efficiency. In the wearables space, Apple first brought AOD to the Series 5 in 2019, utilizing the Always-On to keep the time and complications—such as , , or data—visible at a glance without raising the wrist. This feature has since become standard across higher-end models and was extended to the more affordable SE (3rd generation) in September 2025, equipped with the S10 chip for efficient low-power operation. On other platforms, the Google Pixel Watch received enhancements via the 6 update in October 2025, introducing persistent media controls on the AOD for seamless playback management without full screen activation. Legacy implementations include Nokia's Glance Screen on devices like the Lumia series, introduced in 2013 as an always-on clock and notification indicator that activated via an for minimal battery impact on LCD panels. Huawei's offers a limited AOD on compatible smartphones and wearables, accessible through Settings > & > Always On Display, which shows basic elements like time and notifications but relies on user-enabled modes without advanced widget integration. Similarly, Samsung's OS on Galaxy Watches supports gesture-based AOD activation, such as wrist raise or twist, to transition from a dimmed always-on state displaying time and essentials to full interactivity.

Performance and User Experience

Battery Impact

Always-on displays impact life due to their continuous low-level operation even when the device is idle. On panels, which dominate modern implementations, consumption typically ranges from 0.5% to 1.5% of capacity per hour at a 1 Hz , resulting in a typical additional daily drain of 2-5% with intermittent activation under normal conditions. This efficiency stems from the self-emissive nature of pixels, where inactive (black) areas consume no , though factors such as brightness levels, content complexity (e.g., colorful widgets versus monochrome clocks), and illuminated screen area can increase draw by up to 50%. In contrast, LCD-based always-on displays, often implemented via apps, exhibit significantly higher consumption because the constant illuminates the entire panel regardless of content, eliminating pixel-level savings. As of 2022-2023 tests, empirical measurements illustrate these effects across devices, with recent advancements in 2024-2025 models (e.g., improved LTPO displays in and ) further minimizing drain through enhanced variable refresh rates and capacities. For models with , such as the S22 Ultra, always-on display contributes an additional discharge current of approximately 36 in idle mode, leading to 2-4% extra usage over a day under typical conditions. Similarly, on the , tests show about 0.75-0.8% hourly drain in low-light scenarios with the feature enabled, equating to roughly 6% over an 8-hour period or up to 19% in a full 24-hour worst-case idle test with active—though real-world usage often halves this due to intermittent . These measurements highlight how optimizations like partial screen dimming (e.g., Apple's full-screen fade versus Android's cutout) mitigate but do not eliminate the impact, with overall idle autonomy dropping from around 400 hours (off) to 100 hours (on) across tested devices. Mitigation strategies further address battery concerns by dynamically adjusting or disabling the feature. Many platforms implement auto-tapering, such as deactivating always-on display when battery levels fall below 20-30% or in low-power mode, which can preserve up to 10-15% additional capacity during extended use. Power differences between display types are fundamentally tied to operational mechanics; for OLED pixels in AOD mode, consumption follows the relation P = V \times I \times D, where P is power, V is voltage, I is current per pixel, and D is the duty cycle (typically <1% at 1 Hz refresh, enabling sub-1 mW draw for dimmed elements), whereas LCDs maintain a fixed backlight power independent of content. These approaches ensure the feature's viability without excessive drain, though users in power-constrained scenarios may still opt to disable it entirely.

Customization Options

Users can schedule always-on displays to activate or deactivate at specific times, such as disabling the feature during nighttime hours through or sleep modes to conserve energy. Sensor-based controls, including proximity detection or gestures like the screen or the device, allow the display to wake temporarily for quick glances without remaining active continuously. Additionally, some implementations support notification-triggered activation, where the display lights up only upon receiving alerts, further optimizing usage. Personalization options enable users to tailor the always-on display to their preferences, including selecting from various styles and colors, or even uploading custom images and GIFs for a unique appearance. selection allows integration of elements like calendars, trackers, or music controls, while theme adjustments support automatic dark mode syncing and edge panel access for additional information. Supported devices may also feature dynamic elements, such as photo slideshows, enhancing visual engagement. Accessibility features ensure the always-on display accommodates diverse user needs, with high-contrast modes that enhance text visibility against backgrounds by applying bold outlines or inverted colors. Size adjustments for clock and widget elements permit enlargement for better readability, often integrated with system-wide font scaling. Furthermore, compatibility with do-not-disturb or focus modes enables selective display behavior, suppressing notifications while maintaining essential time visibility during quiet periods. Such scheduling can contribute to battery savings by limiting active periods.

Advantages and Challenges

Benefits

Always-on displays (AOD) provide significant gains by enabling quick access to essential such as time, , and notifications without requiring users to wake the full screen or unlock the device, thereby reducing the frequency of device interactions and ing glanceable computing paradigms that enhance overall productivity. This approach minimizes interruptions during daily tasks, allowing users to monitor updates at a glance while maintaining focus on primary activities, as seen in wearable implementations where ambient mode keeps critical data visible in a low-power state. Convenience features further amplify these benefits, with persistent media controls on platforms like 6 enabling users to manage playback directly from the AOD without activating the main interface, a capability introduced in 2025 updates for devices such as the . Similarly, integration with health tracking allows for at-a-glance views of metrics like heart rate on AOD, where dimmed watch faces display real-time data via complications, facilitating seamless monitoring during routines. Broader advantages include enhanced for visually impaired users through always-visible key information that reduces reliance on tactile interactions or full-screen activations. Additionally, AOD promotes more efficient power usage compared to repeated full-screen checks, as it activates only select pixels on displays to show minimal content, conserving energy over frequent wake-ups.

Limitations

Always-on displays raise privacy concerns primarily due to the constant visibility of notifications, which can expose sensitive information such as message previews or personal alerts to anyone nearby without the user actively unlocking the device. For instance, on devices like phones, users must manually enable or disable the display of sensitive notifications on the always-on screen to mitigate this risk, as the feature by default shows content that could include private details. Similarly, the dimmed state of the display does not fully obscure or encrypt notification content, potentially allowing bystanders to glimpse confidential data in public settings. Compatibility remains a significant limitation, as always-on displays are not supported on all devices, particularly older models equipped with LCD screens rather than or panels. Apple's implementation, for example, restricts the feature to iPhone Pro models starting from the series, which use advanced LTPO displays capable of efficient low-refresh-rate dimming; non-Pro models and older LCD-based s lack the hardware to enable it without excessive power draw or visual inconsistencies. Samsung's Always On Display is similarly limited to devices with Super or Dynamic screens, excluding budget or legacy LCD phones that cannot achieve the necessary pixel-level control for dimmed operation. This hardware dependency means users of older or entry-level devices must forgo the feature entirely. Beyond compatibility, always-on displays pose risks of on OLED panels from prolonged exposure to static elements like clocks or icons, despite manufacturer mitigations such as subtle image shifting. Android Authority notes that the persistent display of fixed content in the same screen position can accelerate degradation over time, recommending users disable the feature to avoid potential permanent image retention. Increased wear on display hardware is another drawback, as the continuous low-level activation stresses organic materials in layers, potentially shortening overall panel lifespan compared to fully off states. In bright environments, the dimmed nature of always-on displays—typically operating at 1-5 nits—limits readability, rendering time, notifications, or widgets nearly invisible under direct or strong ambient , which reduces practical utility outdoors. Users have reported complaints about unwanted activations and distractions, where the always-on screen draws during meetings or focused activities, fragmenting concentration without providing substantial value in those contexts. Lifewire highlights how the feature's persistent glow can prove more intrusive than helpful in or settings, leading some to disable it to reclaim undivided . While battery impact is a related concern—potentially adding 1% drain per hour on devices like iPhones—it is addressed in detail elsewhere.

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