{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852707","patent":{"patent_number":"US-9852707","title":"Display apparatus","assignee":null,"inventors":[],"filing_date":"2014-10-17T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G09G","G09G","G09G","G09G","G09G"],"num_claims":7,"abstract":"A display apparatus including: gate lines extending in a first direction; data lines extending in a second direction intersecting the first direction; pixels connected to corresponding ones of the gate lines and data lines; a gate driver to drive the gate lines in response to a gate clock signal; a data driver to drive the data lines; a memory to store charge share signals corresponding to the gate lines; a timing controller controlling the data driver and the gate driver, in response to an externally input control signal and an image signal, and to output a gate pulse signal to the gate lines; and a clock generator configured to generate the gate clock signal in response to the gate pulse signal. The timing controller is configured to output the gate pulse signals according to the charge share signals."},"analysis":{"summary":"The Display Apparatus patent (US-9852707) introduces a sophisticated solution for enhancing the performance and efficiency of modern display panels. At its core, the invention addresses common challenges such as signal degradation and inefficient power utilization in active matrix displays by implementing an intelligent gate line driving mechanism.\n\nThis patent describes a display apparatus comprising gate lines, data lines, and pixels. The key innovation lies in its unique control system: a gate driver and a data driver are managed by a timing controller. Crucially, this timing controller doesn't operate in isolation. It leverages a dedicated memory unit that stores 'charge share signals' corresponding to the gate lines. Based on these stored signals, the timing controller intelligently outputs optimized gate pulse signals to the gate lines. A clock generator then generates the gate clock signal in response to these refined gate pulse signals.\n\nIn essence, this technology creates a dynamic and adaptive control loop. By understanding the electrical characteristics and potential signal distortions (charge sharing) along the gate lines, the system can pre-compensate or adjust the timing and waveform of the gate pulses. This proactive approach ensures that each pixel receives a clean, precise, and correctly timed signal, significantly mitigating issues like luminance non-uniformity, crosstalk, and power wastage.\n\nThe business value and market opportunity for the Display Apparatus are substantial. This innovation can lead to superior image quality, enabling crisper visuals and more accurate color reproduction across various display types. Furthermore, by optimizing signal delivery and reducing the need for overdriving, it promises significant reductions in power consumption, which is critical for battery-powered devices like smartphones, laptops, and wearables, as well as for large-format displays where energy efficiency translates to substantial operational cost savings. This patent positions itself as a foundational technology for next-generation, high-performance, and energy-efficient display panels.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're trying to light up a very long string of Christmas lights. If the power source is at one end, the lights closer to the source might shine brightly, while those further down the string might be dimmer or flicker because the electricity weakens over distance. This is a simplified analogy for a common problem in modern electronic displays, from your smartphone to a large TV screen. As displays get bigger and have more pixels, the electrical signals that tell each tiny pixel to turn on can degrade as they travel across the screen. This signal degradation leads to issues like uneven brightness, inaccurate colors, or even visible 'ghosting' or flickering, compromising the overall visual experience. To counteract this, current systems often have to 'overdrive' the signals, which wastes energy and generates unnecessary heat, shortening battery life in portable devices and increasing power bills for larger screens.\n\n### How Does It Work?\n\nThe **Display Apparatus** patent introduces a clever solution to this problem by making the display's control system much smarter and more adaptive. Think of it like this: instead of just sending a generic 'turn on' signal down the entire string of lights, this new system has a detailed 'map' or 'cheat sheet' (stored in memory) for each part of the light string. This 'cheat sheet' contains 'charge share signals' – information about how much the electrical signal tends to weaken at different points along the path.\n\nThen, a central 'traffic controller' (the timing controller) uses this 'cheat sheet'. When it sends a signal to turn on a row of pixels, it doesn't send a uniform signal. Instead, it intelligently adjusts the signal's strength or timing for different parts of the row, specifically compensating for where the signal would normally weaken. So, if the lights at the end of the string need a stronger initial 'push' to shine as brightly as the ones at the beginning, the traffic controller knows this and provides it. This ensures that every light in the row turns on perfectly and uniformly.\n\n### Why Does This Matter?\n\nThis intelligent approach has significant business implications. Firstly, it leads to **superior image quality**. By ensuring every pixel receives the precise signal it needs, displays powered by this technology can offer crisper images, more accurate colors, and uniform brightness across the entire screen, making products more appealing to consumers. Secondly, and perhaps more importantly, it delivers **enhanced power efficiency**. By avoiding the need to 'overdrive' signals and only providing the necessary power where it's needed, this technology can dramatically reduce energy consumption. For smartphone and laptop manufacturers, this translates to longer battery life – a major competitive advantage. For large display manufacturers and businesses using digital signage, it means substantial energy cost savings over the lifetime of the product, aligning with growing corporate sustainability goals. This also opens doors for developing even higher-resolution or larger displays without running into prohibitive power or heat management issues.\n\n### What's Next?\n\nThe **Display Apparatus** represents a foundational advancement for the entire display industry. Expect to see this type of intelligent display driving integrated into a wide range of future products, from consumer electronics to specialized industrial and automotive displays. Its ability to deliver both performance and efficiency makes it a key technology for the next generation of visual interfaces. Companies investing in or licensing this innovation could gain a significant edge in a highly competitive market, driving the evolution of screens we interact with daily towards a more visually stunning and sustainable future.","technical_analysis":"The Display Apparatus patent (US-9852707) describes a novel architecture for driving active matrix display panels, focusing on optimizing the delivery of gate pulse signals to enhance display performance and efficiency. The core technical problem it addresses is the signal degradation and inefficiency that occurs as gate pulses propagate along the gate lines, particularly in high-resolution or large-area displays.\n\n**Technical Architecture:**\n\nThe invention outlines a display apparatus comprising several interconnected components:\n\n1.  **Gate Lines and Data Lines:** Standard components forming the grid structure where pixels are situated at their intersections.\n2.  **Pixels:** Connected to corresponding gate and data lines, these are the individual display elements.\n3.  **Gate Driver:** Responsible for activating the gate lines, receiving its control signals from the timing controller.\n4.  **Data Driver:** Responsible for driving the data lines, also controlled by the timing controller.\n5.  **Memory:** A critical new element. This memory unit is configured to store 'charge share signals' that correspond to the gate lines. These signals can represent pre-calibrated values, real-time measurements, or predicted electrical characteristics of the gate lines, indicating potential signal attenuation or distortion.\n6.  **Timing Controller:** This serves as the central processing unit for display control. It receives external control signals (e.g., synchronization, blanking) and image signals. Its key functionality is to control both the data driver and the gate driver. Uniquely, it is configured to output gate pulse signals *according to the stored charge share signals*. This implies an adaptive or pre-compensated gate pulse generation mechanism.\n7.  **Clock Generator:** This component generates the gate clock signal. Crucially, it does so in response to the gate pulse signal output by the timing controller, ensuring synchronization and integration with the optimized gate driving strategy.\n\n**Implementation Details and Algorithm Specifics:**\n\nThe central algorithm involves the timing controller dynamically adjusting the characteristics (e.g., timing, width, voltage level) of the gate pulse signals based on the data retrieved from the memory storing charge share signals. While the abstract doesn't detail the exact algorithm for generating these charge share signals or how they are used, it suggests a sophisticated lookup or calculation process. For instance, the charge share signals could be:\n\n*   **Pre-calibrated values:** Determined during manufacturing or initial calibration, accounting for the physical properties of the specific display panel.\n*   **Dynamic feedback:** The system could potentially monitor actual gate line voltage or current characteristics and update the charge share signals in memory, creating a real-time adaptive loop.\n*   **Predictive models:** Based on the display content or operating conditions, the system could predict charge sharing effects and adjust accordingly.\n\nBy leveraging these charge share signals, the timing controller can output gate pulses that are precisely timed and shaped to counteract propagation delays and voltage drops along the gate lines. This ensures that the TFTs in each pixel row are turned on uniformly and at the correct time, preventing phenomena like gate delay, crosstalk, and luminance non-uniformity.\n\n**Integration Patterns and Performance Characteristics:**\n\nThis architecture integrates the compensation mechanism directly into the timing controller and memory, rather than relying solely on external, less adaptive circuitry. This integrated approach can lead to:\n\n*   **Reduced Component Count:** Potentially simplifying the overall display module design.\n*   **Improved Responsiveness:** Dynamic adjustments can be made much faster than with static compensation methods.\n*   **Enhanced Power Efficiency:** By providing precisely what is needed, when it is needed, the system avoids overdriving and minimizes power dissipation. This directly impacts battery life in portable devices and operational costs in large displays.\n*   **Superior Image Quality:** Uniform gate line driving translates to consistent pixel charging, resulting in better contrast, color accuracy, and overall visual fidelity.\n\n**Code-Level Implications:**\n\nFor firmware or embedded software engineers, implementing this patent would involve:\n\n*   Developing sophisticated control logic within the timing controller to interpret charge share signals and generate corresponding gate pulse waveforms.\n*   Managing memory access for storing and retrieving charge share data efficiently.\n*   Potentially implementing real-time measurement and update algorithms for charge share signals if a dynamic compensation approach is chosen.\n*   Ensuring tight synchronization between the timing controller, clock generator, and display drivers to execute the adaptive gate pulse strategy without introducing new timing errors.\n\nIn summary, the Display Apparatus represents a significant advancement in display driving technology by introducing an intelligent, adaptive mechanism for gate pulse generation. Its focus on leveraging charge share signals to optimize signal integrity and power efficiency positions it as a foundational patent for next-generation, high-performance display panels.","business_analysis":"The Display Apparatus patent (US-9852707) presents a compelling business opportunity by addressing fundamental challenges in display technology: signal integrity, power efficiency, and image quality. This innovation has the potential to reshape competitive landscapes across various sectors dependent on advanced displays.\n\n**Market Opportunity Size:**\n\nThe global display market is vast and continually expanding, driven by demand for smartphones, tablets, laptops, TVs, automotive displays, wearables, and emerging AR/VR devices. Valued at hundreds of billions of dollars, this market is intensely competitive, with manufacturers constantly seeking differentiators. Any technology that can offer superior performance, lower power consumption, or reduced manufacturing complexity holds immense market potential. The Display Apparatus, by enabling more efficient and higher-quality displays, can tap into this massive market across all segments, from premium devices to mid-range products seeking efficiency gains.\n\n**Competitive Advantages:**\n\nThis patent offers several distinct competitive advantages:\n\n1.  **Superior Image Quality:** By ensuring precise gate pulse delivery, the technology can lead to displays with better uniformity, higher contrast, and fewer visual artifacts. This is a crucial differentiator in a market where visual experience is paramount.\n2.  **Enhanced Power Efficiency:** Significant reductions in power consumption translate directly into longer battery life for portable devices and lower operating costs for large-scale displays. This is a powerful selling point for manufacturers and end-users alike, aligning with global trends towards sustainability and energy conservation.\n3.  **Simplified Design & Manufacturing:** By integrating adaptive compensation into the timing controller, the invention may reduce the need for complex external circuitry, potentially simplifying panel design, reducing component count, and lowering manufacturing costs.\n4.  **Scalability to Higher Resolutions/Sizes:** As displays push towards 8K and beyond, or grow in physical size, signal integrity issues become more pronounced. This technology provides a robust solution that scales effectively, allowing manufacturers to innovate without being hindered by fundamental electrical limitations.\n\n**Revenue Potential and Business Models:**\n\nThe revenue potential for the Display Apparatus is multifaceted:\n\n*   **Licensing:** The primary business model could involve licensing the patented technology to major display panel manufacturers (e.g., Samsung Display, LG Display, BOE, AUO) and integrated circuit (IC) designers specializing in display driver ICs and timing controllers. This would generate significant royalty streams.\n*   **Component Sales:** A company could develop and sell specialized timing controllers or display driver ICs that incorporate this patented technology, positioning itself as a key supplier in the display component ecosystem.\n*   **Premium Product Differentiation:** Device manufacturers (e.g., Apple, Samsung, Sony) could integrate this technology into their flagship products, marketing them as having 'next-gen power-efficient displays' or 'ultra-uniform screens,' justifying premium pricing.\n\n**Strategic Positioning:**\n\nThis patent strategically positions its owner as an innovator at the core of display technology. It offers a solution that is not merely incremental but addresses fundamental operational inefficiencies. This could lead to strategic partnerships with leading display manufacturers, giving the patent holder a strong influence on future display standards and roadmaps. Furthermore, it could act as a defensive patent, protecting market share against competitors attempting similar optimizations.\n\n**ROI Projections:**\n\nGiven the pervasive nature of displays in modern electronics, even a small percentage of market penetration could yield substantial returns. If successfully licensed, the ROI could be significant due to the high-volume nature of display component manufacturing. The value proposition of improved efficiency and quality is clear, making it an attractive investment for companies looking to gain a competitive edge in the highly commoditized display market. Early adoption by a major player could establish this technology as an industry standard, further amplifying its long-term ROI.","faqs":[{"answer":"The Display Apparatus (US-9852707) is a patented innovation in display technology that introduces a novel method for driving display panels more efficiently and with higher visual quality. At its core, this invention focuses on optimizing the electrical signals that control the pixels on a screen.\n\nTraditional displays often struggle with signal degradation as electrical pulses travel across the display panel's 'gate lines.' This can lead to uneven brightness, color inconsistencies, and wasted power. The Display Apparatus addresses these issues by implementing an intelligent control system.\n\nSpecifically, it involves a timing controller that uses 'charge share signals' stored in memory to dynamically adjust the gate pulse signals. This adaptive approach ensures that each pixel receives a clean, precise, and correctly timed signal, overcoming the limitations of conventional, less adaptive display driving methods.\n\nThis patent aims to provide a foundational technology for next-generation displays that are not only visually superior but also significantly more energy-efficient and reliable. Its applications span across various electronic devices that utilize display panels.","question":"What is Display Apparatus (US-9852707)?"},{"answer":"The Display Apparatus improves screen performance through a sophisticated, adaptive control mechanism. Here’s a breakdown of its key operational steps:\n\nFirst, the patent describes a display panel with standard gate lines, data lines, and pixels. These lines are driven by a gate driver and a data driver, all orchestrated by a central timing controller.\n\nSecond, the critical innovation: a dedicated memory unit stores 'charge share signals.' These signals represent specific electrical characteristics or potential distortions along the gate lines. Think of them as a detailed map of how signals might weaken or change as they travel across the screen.\n\nThird, the timing controller leverages this map. Instead of generating generic gate pulse signals, it intelligently consults the stored charge share signals. Based on this data, the timing controller dynamically adjusts the timing, width, or voltage of the gate pulse signals it sends to the gate driver. This pre-compensation ensures that the gate pulses reaching each pixel are optimized.\n\nFinally, a clock generator works in sync with these adjusted gate pulse signals. This entire system creates an intelligent feedback-like loop that ensures uniform pixel activation, mitigates signal degradation, and significantly enhances overall display efficiency and visual quality. This adaptive approach is a significant leap from static driving methods.","question":"How does Display Apparatus work to improve screen performance?"},{"answer":"The Display Apparatus primarily solves the critical problems of signal degradation and power inefficiency inherent in conventional active matrix display technologies. As displays increase in size and resolution, the electrical signals that control pixels face significant challenges.\n\nOne major issue is 'charge sharing' or signal attenuation along the gate lines. This means that electrical pulses lose strength and get delayed as they travel, causing pixels further from the driver to activate unevenly or weakly. This results in noticeable visual defects such as non-uniform brightness, poor contrast, color inaccuracies, and even flickering.\n\nAnother significant problem is power waste. To counteract signal degradation, traditional systems often 'overdrive' signals, pushing more power than necessary into the display. This not only consumes excessive energy, leading to shorter battery life in portable devices and higher energy bills for larger screens, but also generates unwanted heat, which can impact display longevity and performance.\n\nThe Display Apparatus provides a targeted and adaptive solution, ensuring precise signal delivery while optimizing power usage, thereby enhancing both the visual experience and the operational efficiency of display panels.","question":"What problem does Display Apparatus solve in display technology?"},{"answer":"The patent data provided indicates that the inventors for the Display Apparatus (US-9852707) are not listed in this specific abstract. Patent filings often list inventors, but the provided snippet only includes the patent number, title, filing date, publication date, and CPC codes.\n\nTypically, inventors are the individuals who conceived the intellectual property behind the invention. Their names would be publicly available on the full patent document, which can be accessed through patent databases like the USPTO or Google Patents.\n\nWhile the specific inventors are not provided in this context, the innovation detailed in the Display Apparatus patent reflects significant engineering expertise in display technology, particularly in the areas of signal processing, timing control, and power management for active matrix displays. The assignee, if listed, would be the entity to whom the patent rights are typically transferred, such as a corporation or research institution.","question":"Who invented Display Apparatus (US-9852707)?"},{"answer":"The Display Apparatus offers significant benefits for both consumers and manufacturers, driving advancements in display technology.\n\nFor **consumers**, the primary benefits revolve around a superior visual experience and enhanced device performance. This includes crystal-clear images, more accurate and vibrant colors, and perfectly uniform brightness across the entire screen, eliminating common issues like dim spots or color shifts. Furthermore, for portable devices like smartphones and laptops, the optimized power consumption translates directly into significantly longer battery life, a highly sought-after feature. Consumers will experience more reliable and visually pleasing displays in their everyday devices.\n\nFor **manufacturers**, the advantages are equally compelling. The Display Apparatus provides a strong competitive edge, allowing them to differentiate their products with industry-leading image quality and power efficiency. This can lead to higher market share and premium pricing. Additionally, by integrating intelligent compensation directly into the timing controller, the technology can potentially simplify display panel design, reduce component count, and lower manufacturing costs. It also offers a scalable solution for future high-resolution and large-format displays, overcoming technical hurdles that limit conventional approaches, thus future-proofing their product lines and R&D investments. The innovation contributes to a more sustainable product lifecycle through reduced energy consumption.","question":"What are the key benefits of Display Apparatus for consumers and manufacturers?"},{"answer":"The Display Apparatus distinguishes itself from prior art in display technology primarily through its adaptive and data-driven approach to gate pulse generation, moving beyond the static or generalized compensation methods common in conventional systems.\n\nPrior art often relies on fixed timing sequences or basic compensation circuits that apply uniform adjustments across the entire display. While these methods offer some mitigation for signal degradation, they are not dynamic or specific to the varying electrical characteristics of individual gate lines. This often leads to compromises, such as overdriving signals (wasting power) to ensure all pixels receive sufficient activation, or accepting some level of non-uniformity.\n\nIn contrast, the Display Apparatus employs a dedicated memory to store 'charge share signals' – precise data about how signals behave on specific gate lines. Its timing controller then *intelligently uses this data* to dynamically tailor the gate pulse signals. This means it can apply precise, localized compensation, sending stronger or differently timed pulses exactly where needed, rather than a blanket approach.\n\nThis adaptive intelligence allows the Display Apparatus to achieve superior signal integrity, true power optimization, and unparalleled display uniformity that fixed prior art solutions simply cannot match. It represents a shift from reactive, broad-stroke compensation to proactive, highly specific, and efficient control.","question":"How is Display Apparatus different from prior art in display technology?"},{"answer":"The Display Apparatus (US-9852707) has the potential to impact a wide range of industries that rely heavily on display technology. Its core benefits of enhanced image quality, superior uniformity, and significant power efficiency make it valuable across diverse applications.\n\n**Consumer Electronics:** This is arguably the most significant impact area, encompassing smartphones, tablets, laptops, desktop monitors, and televisions. Consumers will benefit from longer battery life in portable devices and visually stunning, energy-efficient large-screen experiences. Gaming monitors and high-end professional displays will see improved performance.\n\n**Automotive:** Modern vehicles are increasingly integrating large, high-resolution displays for infotainment, digital dashboards, and heads-up displays. The Display Apparatus can ensure these critical displays offer consistent quality and reliability, while also contributing to overall vehicle energy efficiency.\n\n**Augmented Reality (AR) & Virtual Reality (VR):** For immersive experiences, display quality, low latency, and efficient power management are paramount. This innovation can enable more realistic visuals and extended usage times for AR/VR headsets, which are often battery-constrained.\n\n**Industrial and Medical Devices:** Precision, reliability, and consistent visual output are crucial for industrial control panels, medical imaging displays, and diagnostic equipment. The Display Apparatus can ensure the accuracy and uniformity required in these demanding environments.\n\n**Digital Signage and Public Information Displays:** Large-format displays used in retail, transportation, and public spaces will benefit from improved visual consistency and reduced operational costs through lower power consumption.\n\nIn essence, any sector where visual performance and energy efficiency of screens are critical will likely see a transformative impact from this advanced display apparatus.","question":"What industries will Display Apparatus (US-9852707) impact?"},{"answer":"The Display Apparatus patent, identified as US-9852707, was filed on **October 17, 2014**. This date marks when the initial patent application was submitted to the patent office, establishing the priority date for the invention.\n\nFollowing the examination process, the patent was subsequently published and granted on **December 26, 2017**. The publication date indicates when the patent document became publicly available, detailing the invention's scope, claims, and technical specifications.\n\nThese dates are crucial milestones in the patent lifecycle, providing a timeline for when the intellectual property was conceived and when it officially became a protected and publicly disclosed innovation. The period between filing and publication allows for the examination of the patent by authorities, ensuring its novelty, non-obviousness, and utility before grant. The granted patent for the Display Apparatus signifies its recognition as a unique and inventive solution in the field of display technology.","question":"When was Display Apparatus (US-9852707) filed and published?"},{"answer":"The commercial applications of the Display Apparatus are extensive, primarily driven by its ability to deliver superior visual performance and significant power efficiency across various display types. This makes it highly attractive for manufacturers and end-users alike.\n\n**High-End Consumer Electronics:** Flagship smartphones, premium laptops, 4K/8K televisions, and high-performance gaming monitors can leverage the Display Apparatus to offer unparalleled image quality, uniformity, and extended battery life, justifying premium price points and enhancing brand reputation. The innovation in the Display Apparatus provides a clear competitive edge.\n\n**Automotive Displays:** With the increasing size and complexity of in-car infotainment systems and digital dashboards, the Display Apparatus ensures reliable, high-quality visuals that are critical for driver information and passenger entertainment, while contributing to the vehicle's overall energy management.\n\n**Wearable Technology:** Smartwatches and other wearables, which are highly constrained by battery life and compact design, can greatly benefit from the power efficiency and precise pixel control offered by this technology, enabling richer visuals without sacrificing usage time.\n\n**Professional Displays:** Medical imaging screens, industrial control panels, and graphic design monitors demand absolute color accuracy and uniformity. The Display Apparatus can meet these stringent requirements, enhancing the reliability and precision of professional-grade equipment.\n\n**Augmented and Virtual Reality:** For AR/VR headsets, crystal-clear visuals and efficient power consumption are essential for immersive and comfortable experiences. This innovation can help overcome current limitations in these rapidly evolving sectors. The Display Apparatus offers a solution for next-generation immersive tech.\n\nIn summary, any product or system where a high-quality, power-efficient, and reliable display is a key component stands to benefit commercially from integrating the Display Apparatus technology.","question":"What are the commercial applications of Display Apparatus?"},{"answer":"The Display Apparatus (US-9852707) lays a strong foundation for several exciting future developments in display technology, pushing towards even smarter and more adaptive screens.\n\nOne key area of future development is the integration of **machine learning (ML) and artificial intelligence (AI)**. Instead of relying solely on pre-stored 'charge share signals,' future iterations could incorporate ML algorithms that dynamically learn and predict signal behavior in real-time. This would allow the display apparatus to adapt not just to static panel characteristics but also to environmental conditions (e.g., temperature), content being displayed, and even the aging of the panel components, continuously optimizing performance.\n\nAnother expected development involves **advanced sensing technologies**. Future display apparatus systems might include integrated on-panel sensors that provide real-time feedback on gate line voltages and current. This live data could then be fed back into the timing controller, enabling a true closed-loop adaptive control system that actively measures and corrects signal distortions as they occur, rather than relying on pre-computed data alone. This would significantly enhance the robustness and responsiveness of the Display Apparatus.\n\nFurthermore, the principles of the Display Apparatus could be extended to address **new display form factors**. As flexible, foldable, and transparent displays become more prevalent, they introduce unique challenges related to signal integrity due to their dynamic physical properties. The adaptive gate pulse control of this innovation would be critical in overcoming these hurdles, enabling seamless visual experiences in novel device designs. The Display Apparatus is poised to evolve with display innovation. Ultimately, these developments aim to create truly self-optimizing displays that offer unparalleled visual quality, energy efficiency, and adaptability across an ever-expanding range of applications.","question":"What are the future developments expected for Display Apparatus (US-9852707)?"}],"topics":["Display Apparatus","display technology","patent US-9852707","screen efficiency","image quality","quest","pristine","visual"],"tech_cluster":null},"seo":{"title":"Display Apparatus - Patent US-9852707: Smarter, Efficient Screens","description":"Discover the groundbreaking Display Apparatus patent (US-9852707) for enhanced screen efficiency, superior image quality, and reduced power consumption via intelligent gate pulse control. Full analysis.","keywords":["Display Apparatus","display technology","patent US-9852707","screen efficiency","image quality","power consumption","gate pulse control","charge share signals","display innovation","active matrix display","timing controller","display driver"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852707","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-9852707","citation_suggestion":"Patentable. \"Display apparatus\" (US-9852707). https://patentable.app/patents/US-9852707","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852707","json":"https://patentable.app/api/llm-context/US-9852707","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T08:46:42.447Z"}