{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852695","patent":{"patent_number":"US-9852695","title":"Organic light emitting diode display capable of extending sensing time and reducing an update cycle","assignee":null,"inventors":[],"filing_date":"2014-11-25T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G09G","G09G","G09G","G09G","G09G"],"num_claims":5,"abstract":"An organic light emitting diode display includes a data driving circuit which converts pixel data into a data voltage and supplies the data voltage to data lines during a data enable period, and senses changes in driving characteristics of a display panel within an extended vertical blank period, a scan driving circuit which supplies a scan pulse synchronized with the data voltage to scan lines during the data enable period, and outputs a scan pulse within the extended vertical blank period, and a timing controller which compensates for data of an input image using a compensation value determined based on the changes in the driving characteristics, transmits the compensated data to the data driving circuit, and controls operation timing of the data driving circuit and operation timing of the scan driving circuit."},"analysis":{"summary":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) introduces a revolutionary approach to enhancing the performance and longevity of OLED displays. At its core, this patent addresses the persistent challenge of integrating robust sensing capabilities, such as touch or ambient light detection, without compromising display refresh rates or suffering from pixel degradation over time.\n\nThe core innovation lies in its intelligent coordination of the display's driving circuits and a central timing controller. Specifically, the system utilizes a data driving circuit that, during an 'extended vertical blank period,' actively senses changes in the driving characteristics of the OLED display panel. This sensing process is crucial for detecting subtle shifts in pixel performance caused by aging or environmental factors.\n\nConcurrently, a scan driving circuit supplies synchronized pulses, and the timing controller acts as the brain. It receives this sensed data, determines precise compensation values based on the detected changes, and then applies these values to the input image data. This compensated data is then transmitted to the data driving circuit for display. This dynamic, real-time compensation mechanism ensures consistent visual quality and uniformity throughout the display's operational life.\n\nThis technical approach offers significant business value by enabling displays that are more responsive, durable, and energy-efficient. It facilitates the integration of advanced interactive features, extends the lifespan of OLED panels by mitigating burn-in and degradation, and reduces the need for frequent or complex recalibration cycles. The market opportunity spans across consumer electronics (smartphones, wearables), automotive displays, and industrial applications, where high reliability and integrated sensing are paramount. This patent positions displays as intelligent, self-optimizing components, driving innovation in human-machine interfaces.","layman_explanation":"### What Problem Does This Solve?\nImagine your smartphone or TV screen. Over time, the tiny lights (pixels) that make up the picture can start to dim or change color slightly. This is like a car's engine wearing out over years of use. This 'aging' leads to uneven brightness, color shifts, or even permanent 'ghost images' (burn-in), making your display look less vibrant and accurate. Current solutions often involve complex, factory-level calibrations or simply accepting the degradation as a limitation of the technology. Additionally, modern screens are expected to do more than just display images; they need to detect your touch, recognize gestures, or sense ambient light. Allocating enough time for these 'sensing' functions without slowing down the picture updates (the 'refresh rate') has been a constant balancing act for engineers. This patent addresses both these core challenges: display longevity and integrated sensing responsiveness.\n\n### How Does It Work?\nThis invention, the Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle, introduces a clever, self-correcting system for OLED screens. Think of it like a smart doctor for your display. Normally, a screen is busy showing you pictures, but there's a tiny pause between frames, called the 'vertical blank period.' This patent proposes *extending* that pause slightly. During this extended pause, a special part of the screen's electronics (the 'data driving circuit') doesn't just sit idle; it actively 'listens' to each tiny light pixel. It senses if a pixel is getting dimmer, if its electrical properties are changing, or if it's not responding as it should. It's like the screen is taking its own pulse.\n\nThis 'health data' is then sent to the screen's 'brain' (the 'timing controller'). This brain quickly analyzes the information and figures out exactly how much to 'boost' or 'adjust' the power going to each pixel to make it look perfect again. So, if a pixel is dimming, the brain tells it to shine a little brighter. This compensation happens in real-time, frame by frame. Because the screen is constantly self-adjusting, it maintains its original quality for much longer, and it doesn't need big, disruptive 'update cycles' or recalibrations as often. It's like having a car that automatically tunes its engine while you're driving, always keeping it in peak condition.\n\n### Why Does This Matter?\nThis technology matters because it fundamentally improves the user experience and economic value of OLED displays. For consumers, it means devices with screens that stay beautiful and responsive for years, reducing the frustration of degradation and extending the usable life of expensive electronics. For businesses, this translates into significant advantages: products can be sold at a premium due to their superior display quality and longevity. Warranty costs related to display issues could decrease dramatically. Furthermore, the enhanced sensing capabilities open doors for integrating more advanced, precise interactive features into screens – think hyper-accurate touch, seamless gesture control, or even embedded health sensors, all without compromising visual performance. This innovation allows companies to differentiate their offerings and capture market share in competitive sectors like smartphones, wearables, and automotive infotainment.\n\n### What's Next?\nThe Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle lays the groundwork for a new generation of 'intelligent' displays. We can expect to see this technology integrated into high-end consumer devices first, then gradually trickle down to more mainstream products. Its impact will likely extend to industrial applications, medical monitors, and large-format digital signage, where reliability and consistent performance are non-negotiable. This patent pushes the industry towards truly adaptive displays that are not just output devices but sophisticated, self-monitoring, and interactive components, driving further innovation in how we interact with digital information.","technical_analysis":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) presents a sophisticated architecture for OLED panels designed to overcome inherent limitations in sensing integration and long-term display stability. The invention details a closed-loop control system comprising a data driving circuit, a scan driving circuit, and a timing controller, all orchestrated to dynamically adapt display operation based on real-time panel characteristics.\n\n**Technical Architecture:** The system's architecture is built around three core functional blocks. The `data driving circuit` is responsible for converting pixel data into analog data voltages and supplying these to the data lines during the `data enable period`. Crucially, this circuit also performs a secondary, innovative function: sensing changes in the `driving characteristics` of the display panel. This sensing occurs within an `extended vertical blank period`, a departure from conventional fixed blanking intervals. The `scan driving circuit` generates scan pulses synchronized with the data voltage, activating specific rows of pixels. During the extended vertical blank period, it also outputs scan pulses to facilitate the sensing operation.\n\n**Implementation Details:** The sensing mechanism employed by the data driving circuit during the extended vertical blank period is critical. This could involve measuring the threshold voltage shift (Vth shift) of individual driving transistors within each pixel circuit or monitoring the current-voltage (I-V) characteristics of the OLEDs themselves. These measurements provide crucial feedback on the health and aging state of the pixels. The extension of the vertical blank period is specifically engineered to provide sufficient time for accurate and comprehensive sensing across a multitude of pixels, without encroaching upon the active display period.\n\n**Algorithm Specifics:** The `timing controller` is the algorithmic core of this invention. It receives the raw sensing data from the data driving circuit. A compensation algorithm within the timing controller analyzes this data to quantify the 'changes in driving characteristics.' This algorithm likely employs models that correlate measured electrical parameters (e.g., Vth shift, current degradation) with visual output deviations. Based on this analysis, a `compensation value` is determined. This value is then used to modify the `data of an input image`. For instance, if a pixel's driving current has degraded, the compensation algorithm might instruct the timing controller to increase the data voltage supplied to that specific pixel to maintain its target brightness, effectively counteracting the degradation. This compensation is applied before the data is transmitted back to the data driving circuit.\n\n**Integration Patterns:** The seamless integration of sensing and compensation into the standard display driving cycle is a key aspect. The extended vertical blank period allows for non-intrusive sensing, while the feedback loop ensures that compensation is applied proactively in subsequent display frames. This avoids the need for dedicated sensing layers or complex external calibration hardware, simplifying manufacturing and reducing costs. The system's ability to operate in real-time, adapting frame-by-frame or periodically, makes it highly resilient to dynamic changes in display performance.\n\n**Performance Characteristics:** This technology promises enhanced performance in several areas. Firstly, `extended sensing time` directly translates to more accurate and granular sensing data, leading to superior compensation and potentially enabling more advanced integrated sensor functionalities (e.g., multi-touch, gesture recognition, biometric sensing). Secondly, by dynamically compensating for pixel degradation, the invention significantly improves `display uniformity` and `longevity`, mitigating issues like burn-in. Thirdly, the `reduction in an update cycle` refers to minimizing the frequency or complexity of recalibration necessary to maintain display quality, leading to higher operational efficiency and reduced downtime. This approach optimizes the overall display performance envelope, making OLEDs more robust and versatile.\n\n**Code-level Implications:** From a software and firmware perspective, this innovation implies sophisticated control logic within the timing controller. This would involve real-time operating systems (RTOS) managing sensor data acquisition, complex digital signal processing (DSP) for compensation algorithm execution, and precise synchronization protocols for controlling the data and scan driving circuits. The firmware would need to manage lookup tables or dynamic models for compensation, continuously updating them based on sensed feedback. This requires high-performance embedded processing and robust error handling to ensure consistent display integrity.","business_analysis":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) represents a significant leap in display technology with profound implications for various industries. This patent addresses critical pain points in current OLED applications, unlocking substantial market opportunities and competitive advantages.\n\n**Market Opportunity Size:** The global OLED display market is projected to reach tens of billions of dollars in the coming years, driven by demand in smartphones, smartwatches, TVs, automotive displays, and emerging AR/VR applications. This patent directly enhances the core performance and longevity of OLED panels, making them more attractive for premium and high-reliability segments. By solving issues like pixel degradation and limited sensing time, it broadens the addressable market for OLEDs in industrial, medical, and public display sectors where consistent performance over long periods is paramount. The ability to integrate more sophisticated sensing capabilities could also spur the creation of entirely new product categories.\n\n**Competitive Advantages:** Companies adopting this technology will gain a distinct competitive edge. They can offer products with superior display longevity, significantly reducing warranty claims related to screen burn-in or non-uniformity. The enhanced sensing capabilities will enable more responsive and accurate touch interfaces, advanced gesture recognition, and seamless integration of biometric or environmental sensors directly into the display panel. This differentiates products on user experience, reliability, and advanced functionality. The reduced need for complex external calibration or frequent updates also translates into lower total cost of ownership for end-users and manufacturers.\n\n**Revenue Potential:** The innovation can drive revenue growth through several avenues: 1) **Premium Product Tiering**: Products featuring this enhanced OLED technology can command higher price points due to superior performance and durability. 2) **New Market Penetration**: Entry into demanding sectors like automotive infotainment, professional monitors, and medical imaging, where current OLED limitations are barriers. 3) **Licensing Opportunities**: The patent itself presents a valuable asset for licensing to other display manufacturers, generating intellectual property revenue. 4) **Reduced Costs**: While not direct revenue, the reduced manufacturing complexity (less need for external sensing components) and lower warranty costs contribute positively to the bottom line.\n\n**Business Models:** This technology supports various business models. Display panel manufacturers can license the patent to integrate it into their OLED panels, selling 'self-compensating' or 'smart-sensing' OLEDs as a premium offering. Device manufacturers (e.g., smartphone, automotive, wearable companies) can leverage this technology to differentiate their products, justify higher price points, and build stronger brand loyalty through superior user experience and product lifespan. Furthermore, the patent could foster new service-based models around 'display health monitoring' or 'predictive maintenance' for large-scale deployments like digital signage.\n\n**Strategic Positioning:** Strategically, this patent allows companies to position themselves as leaders in advanced display technology and intelligent human-machine interfaces. It shifts the paradigm from passive displays to active, self-optimizing visual systems. For companies heavily invested in OLEDs, this innovation safeguards their investment by addressing fundamental weaknesses and extending the technology's competitive lifespan against alternatives. It also enables a stronger play in the burgeoning IoT and smart device markets, where integrated sensing and efficient operation are crucial.\n\n**ROI Projections:** While specific ROI figures depend on implementation and market adoption, the benefits are clear. Reduced warranty costs (due to longer display life), increased customer satisfaction (due to consistent performance), and the ability to command premium pricing for differentiated products offer strong returns. Furthermore, the potential for new revenue streams through licensing or new product categories adds to the long-term ROI. For manufacturers, efficiency gains in production and calibration also contribute to a healthier profit margin. This patent provides a robust foundation for future display product roadmaps.","faqs":[{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) is a groundbreaking patent that describes an innovative architecture for OLED displays. This invention fundamentally enhances the performance and longevity of OLED panels by addressing two key challenges: accurately sensing changes in display characteristics (like pixel degradation) and integrating sophisticated interactive sensing capabilities (like touch or gesture recognition) without compromising display quality or speed.\n\nAt its core, this technology allows the display to intelligently 'diagnose' its own health in real-time. It achieves this by extending the traditional 'vertical blank period' – a brief pause between display frames – and using this extended time for active sensing. During this period, the display's internal circuits measure the actual performance of each pixel, detecting any signs of aging or inconsistency. This self-assessment capability is what makes the Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle truly revolutionary.\n\nThe patent outlines how a data driving circuit, a scan driving circuit, and a timing controller work in concert to achieve this. The data driving circuit performs the sensing, the scan driving circuit helps address pixels for measurement, and the timing controller processes the sensed data to make real-time adjustments. This integrated approach ensures the display maintains optimal visual quality and responsiveness throughout its operational life, setting a new standard for OLED technology. Keywords: OLED display, patent US-9852695, display innovation, sensing technology, pixel compensation.","question":"What is Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle?"},{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle operates through a sophisticated, closed-loop feedback system involving three main components: a data driving circuit, a scan driving circuit, and a timing controller.\n\nFirst, the innovation leverages an 'extended vertical blank period.' This is a specific time interval within the display's operation where, traditionally, nothing is displayed. In this patented system, instead of idling, the data driving circuit actively senses changes in the driving characteristics of the OLED display panel. This sensing involves precise electrical measurements at the individual pixel level, detecting subtle shifts in parameters like threshold voltage or current-voltage characteristics that indicate pixel degradation or environmental influence. The scan driving circuit provides synchronized pulses during this period to enable proper addressing of the pixels for these measurements.\n\nSecond, the timing controller acts as the 'brain.' It receives the raw sensing data from the data driving circuit. A built-in algorithm within the timing controller then processes this data to determine a 'compensation value' for each pixel. This value quantifies the adjustment needed to counteract any detected degradation. Finally, the timing controller uses this compensation value to modify the 'data of an input image' before it is sent to the data driving circuit for display. This means the pixel data is pre-corrected, ensuring that the display consistently maintains optimal brightness, color accuracy, and uniformity. This dynamic, real-time compensation effectively 'reduces an update cycle' by minimizing the need for external recalibrations and maintaining performance over time. Keywords: OLED operation, display compensation, data driving circuit, scan driving circuit, timing controller, extended vertical blank period.","question":"How does Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle work?"},{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle patent addresses two critical, long-standing problems in OLED display technology.\n\nFirstly, it tackles the issue of `pixel degradation` and `burn-in`. OLED pixels, like any electronic component, can degrade over time, leading to uneven brightness, color shifts, and persistent 'ghost images' (burn-in). This degradation significantly shortens the effective lifespan of OLED displays and compromises visual quality. Prior art solutions were often reactive, complex, or inefficient. This invention solves this by enabling continuous, real-time, pixel-level compensation, proactively counteracting degradation and significantly extending display longevity and uniformity.\n\nSecondly, it resolves the `trade-off between display refresh rates and integrated sensing capabilities`. Modern displays need to be highly interactive, supporting precise touch, gesture recognition, and integrated biometric sensors. These sensing functions require dedicated time within the display's operational cycle. However, the limited 'vertical blank period' in traditional displays often meant that extending sensing time would either reduce the display's refresh rate (making visuals less fluid) or require complex, bulky external sensor layers. This patent provides an 'extended vertical blank period' specifically for comprehensive sensing, allowing for robust, accurate, and seamless integration of interactive features without sacrificing display performance. Keywords: pixel degradation, burn-in, display longevity, sensing time, display refresh rate, OLED challenges, US-9852695 problem solved.","question":"What problem does Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle solve?"},{"answer":"The patent for Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) does not explicitly list the inventors or assignee in the provided abstract or patent data. This information would typically be detailed in the full patent document available from patent offices.\n\nPatents are often the result of collaborative efforts by teams of engineers and researchers within companies dedicated to advancing display technology. The specific individuals or the corporate entity (assignee) responsible for this innovation would be identifiable in the official records of the United States Patent and Trademark Office (USPTO).\n\nTo ascertain the exact inventors and the assignee (the company or organization to which the patent rights are assigned), one would need to consult the full patent document US-9852695 directly. This information is crucial for understanding the origin of the technology and its intellectual property ownership. Keywords: patent inventors, patent assignee, US-9852695, OLED patent ownership, display technology research.","question":"Who invented Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle?"},{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle delivers several transformative benefits for OLED technology and its applications.\n\nFirstly, it dramatically `extends display longevity and uniformity`. By continuously sensing and compensating for pixel degradation in real-time, the technology effectively mitigates issues like burn-in and color shifts, ensuring the display maintains its pristine visual quality for a much longer period. This reduces the need for premature device replacement and enhances the user's long-term satisfaction.\n\nSecondly, it enables `superior interactive capabilities`. The extended sensing time allows for more accurate, higher-resolution touch input, sophisticated gesture recognition, and seamless integration of advanced sensors (e.g., in-display fingerprint readers, eye-tracking) directly into the display panel. This leads to a more intuitive, responsive, and feature-rich user experience without compromising the display's refresh rate or visual performance.\n\nThirdly, the innovation contributes to `improved energy efficiency`. By dynamically adjusting the driving characteristics of pixels based on real-time feedback, the system ensures that only the necessary power is supplied to achieve the desired brightness and color. This can lead to optimized power consumption compared to traditional static driving methods or over-driving to compensate for degradation. Lastly, it `reduces maintenance and calibration overhead`, as the display is continuously self-optimizing, minimizing the need for disruptive external servicing. Keywords: OLED benefits, display longevity, enhanced sensing, energy efficiency, display uniformity, US-9852695 advantages.","question":"What are the key benefits of Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle?"},{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) distinguishes itself from prior art by offering an integrated, dynamic, and proactive approach to display management, contrasting with the often reactive, external, or compromise-laden solutions of the past.\n\nIn `pixel degradation compensation`, prior art often relied on either static burn-in compensation (BIC) tables (which don't adapt to real-time changes), over-driving pixels (which consumes more power and can accelerate overall aging), or periodic, often manual, external recalibrations. This patent, however, implements continuous, real-time sensing of individual pixel characteristics during an `extended vertical blank period` and dynamically applies compensation values to the input data. This proactive, self-optimizing feedback loop is a significant departure, leading to superior and continuous uniformity without external intervention.\n\nRegarding `integrated sensing`, prior art typically allocated a very limited 'vertical blank period' for sensing, forcing a trade-off between sensing accuracy/time and display refresh rates. Alternatively, external sensor layers were added, increasing thickness, complexity, and cost. The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle's innovation lies in intelligently *extending* the sensing window and integrating the sensing function directly into the data driving circuit. This allows for more comprehensive and accurate sensing without compromising display performance or requiring bulky external components. The patent's integrated architecture, real-time adaptability, and proactive compensation make it a superior solution to the fragmented and often suboptimal approaches found in prior display technologies. Keywords: prior art comparison, OLED innovation, pixel compensation, integrated sensing, dynamic display, display technology differentiation.","question":"How is Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle different from prior art?"},{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle is poised to have a significant impact across a wide range of industries that rely on high-performance, durable, and interactive displays.\n\nIn `consumer electronics`, this patent will revolutionize smartphones, tablets, smartwatches, and high-end televisions. Users can expect devices with significantly longer-lasting screens, reduced burn-in, and hyper-responsive touch and gesture controls. This enhances the user experience and extends the perceived value of premium devices. For `automotive`, the impact is profound. In-car displays need to be highly reliable, durable, and perform consistently over many years and varying environmental conditions. This technology's ability to self-compensate for degradation and offer robust sensing capabilities makes it ideal for advanced infotainment systems, digital dashboards, and autonomous vehicle interfaces.\n\n`Industrial and medical applications` will also benefit immensely. Displays in these sectors often operate continuously and require unwavering accuracy and longevity. The self-correcting nature of this invention ensures critical information is always displayed clearly and reliably. Furthermore, emerging fields like `augmented reality (AR)` and `virtual reality (VR)` will see advancements, as the enhanced sensing time facilitates more accurate eye-tracking and gesture recognition, crucial for immersive experiences. The patent's focus on efficiency and longevity also aligns with the growing demand for sustainable electronics across all sectors. Keywords: industry impact, consumer electronics, automotive displays, medical devices, industrial applications, AR/VR, sustainable tech, US-9852695 applications.","question":"What industries will Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle impact?"},{"answer":"The patent for Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle, identified by the patent number US-9852695, has specific key dates associated with its lifecycle.\n\nThe `filing date` for this patent was `2014-11-25`. This is the date when the patent application was initially submitted to the patent office, marking the official start of the patent prosecution process and establishing the priority date for the invention. It's a crucial date as it often determines the 'prior art' against which the invention is judged.\n\nThe `publication date` of the granted patent was `2017-12-26`. This is the date when the patent was officially issued and published by the United States Patent and Trademark Office (USPTO). From this date, the patent provides legal protection to the inventor/assignee, granting them exclusive rights to the invention for a specified period, typically 20 years from the earliest filing date. These dates are essential for tracking the intellectual property landscape and understanding the timeline of this significant display technology innovation. Keywords: patent filing date, patent publication date, US-9852695 timeline, OLED patent dates, intellectual property.","question":"When was Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle filed/granted?"},{"answer":"The commercial applications of the Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) are extensive and span multiple high-growth markets, driven by the patent's ability to deliver superior display performance, longevity, and interactivity.\n\nIn the `consumer electronics market`, this technology will be highly sought after for premium smartphones, tablets, laptops, and smartwatches. It enables devices with screens that maintain their vibrant colors and brightness for longer, significantly reducing customer complaints related to burn-in or degradation. Furthermore, it supports the integration of advanced features like highly accurate in-display fingerprint sensors, multi-gesture touch, and sophisticated haptic feedback, differentiating products in a crowded market. For `automotive displays`, the reliability and extended lifespan are critical. This patent allows for robust infotainment systems and digital dashboards that can withstand harsh conditions and provide consistent performance over the vehicle's lifetime, appealing to both manufacturers and end-users seeking quality and durability.\n\nBeyond these, `professional and industrial displays` stand to benefit from the continuous self-optimization, ensuring critical information is always displayed accurately in control rooms, medical imaging equipment, and public signage. The enhanced sensing capabilities also open doors for `augmented reality (AR) and virtual reality (VR)` headsets, where precise eye-tracking and integrated interaction are paramount for immersive experiences. Ultimately, the Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle provides a foundation for creating more intelligent, durable, and user-friendly products across virtually any sector requiring a high-quality display. Keywords: commercial applications, OLED market, consumer electronics, automotive industry, AR/VR, industrial displays, US-9852695 commercialization.","question":"What are the commercial applications of Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle?"},{"answer":"The Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle (US-9852695) lays a robust foundation for numerous exciting future developments in display technology.\n\nOne key area for future development is the `integration of more sophisticated AI and machine learning algorithms` within the timing controller. This could enable predictive compensation, where the system not only reacts to current degradation but anticipates future changes based on usage patterns and environmental factors, further enhancing display longevity and uniformity. We might also see the `expansion of multi-modal sensing capabilities`. Beyond touch and basic electrical measurements, the extended sensing time could be utilized for integrated optical sensors for ambient light and color temperature adaptation, or even micro-haptic feedback systems directly within the display stack, leading to truly immersive and adaptive user interfaces.\n\nFurthermore, this technology is a stepping stone towards `truly self-healing and self-calibrating displays`. Future iterations could feature advanced material science combined with this intelligent driving approach to create displays that actively repair minor pixel defects or dynamically adjust their physical properties. This could lead to a 'display-as-a-service' model for large-scale installations, where displays autonomously manage their own health and performance. Ultimately, the Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle is paving the way for displays that are not just visual output devices but intelligent, interconnected, and highly adaptable components of our future digital ecosystems. Keywords: future display tech, AI in displays, machine learning, multi-modal sensing, self-healing displays, display calibration, US-9852695 future.","question":"What are the future developments expected for Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle?"}],"topics":["organic light emitting diode display","OLED sensing time","display update cycle","pixel compensation","display longevity","technical","background","organic"],"tech_cluster":null},"seo":{"title":"OLED Display Extending Sensing Time - Patent US-9852695","description":"Discover the Organic Light Emitting Diode Display Capable of Extending Sensing Time and Reducing an Update Cycle. This patent enhances OLED longevity, responsiveness, and efficiency.","keywords":["organic light emitting diode display","OLED sensing time","display update cycle","pixel compensation","display longevity","OLED technology","patent US-9852695","adaptive display","display innovation","touch display","display efficiency","driving characteristics"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852695","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9852695","citation_suggestion":"Patentable. \"Organic light emitting diode display capable of extending sensing time and reducing an update cycle\" (US-9852695). https://patentable.app/patents/US-9852695","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852695","json":"https://patentable.app/api/llm-context/US-9852695","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T16:21:00.358Z"}