{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852698","patent":{"patent_number":"US-9852698","title":"Display apparatus and driving method thereof using a time/space division scheme","assignee":null,"inventors":[],"filing_date":"2014-04-09T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G09G","G09G","G09G","G09G","G09G","G09G","G09G","G09G","G09G"],"num_claims":27,"abstract":"An image signal provided from an external device is converted into a data signal such that an image is displayed on a display panel, and a first light control signal and a second light control signal are output. A backlight unit provides the display panel with a first color light and a second color light different from the first color light in response to the first light control signal and the second control signal. The display panel driving unit also determines a pulse width of each of the first light control signal and the second light control signal according to a color characteristic of the image signal."},"analysis":{"summary":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** patent introduces a groundbreaking approach to enhancing display quality by intelligently controlling the backlight unit based on the specific color characteristics of the image signal. This core innovation aims to overcome the limitations of conventional displays in rendering accurate colors and achieving superior dynamic contrast.\n\nThe problem this invention solves is the inherent compromise in visual fidelity often found in existing display technologies. Traditional backlights either operate uniformly or with limited, non-color-aware local dimming, failing to provide the precise illumination needed for optimal color reproduction and deep contrast, especially in complex or high-dynamic-range content. This leads to issues like desaturated colors, poor black levels, and artifacts such as blooming.\n\nThe key technical approach involves a display panel driving unit that converts an external image signal into display data. Simultaneously, it generates distinct first and second light control signals. These signals command a multi-color backlight unit to emit corresponding first and second color lights. Crucially, the driving unit dynamically determines the pulse width of these light control signals, adapting them precisely to the color characteristics detected in the incoming image signal. This time/space division scheme allows for highly granular, color-specific backlight modulation, ensuring that the light emitted perfectly complements the pixels being displayed.\n\nFrom a business perspective, this technology offers a significant competitive advantage in the premium display market. Manufacturers incorporating this innovation can deliver products with visibly superior image quality, leading to increased market share and customer satisfaction. Potential applications span high-end televisions, professional monitors for content creation and medical imaging, virtual reality headsets, and automotive displays, all of which demand pristine visual experiences. The market opportunity lies in upgrading existing display technologies to meet the growing consumer and professional demand for immersive and accurate visuals.\n\nBy enabling unprecedented control over light and color, this patent provides a robust foundation for next-generation display apparatuses. It promises not just incremental improvements, but a transformative leap in how we perceive and interact with digital content, offering a pathway to more realistic, vivid, and engaging visual experiences across various industries.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're watching a movie, and there's a scene with a dark night sky, but with a tiny, bright moon. On most screens, you might notice that the 'dark' sky isn't truly black; it's more of a dark grey. Or, the bright moon might have a fuzzy glow around it, spilling light into the dark areas. This happens because the light source behind the screen (the 'backlight') often shines light in a very general, uniform way, or only in large sections. It can't precisely control the light for every single tiny detail or color on the screen. This leads to a compromise: either bright areas aren't as brilliant, or dark areas aren't truly dark, and colors can sometimes look a bit washed out or inaccurate. This invention, the **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme**, aims to fix these common visual compromises.\n\n### How Does It Work?\n\nThink of this innovation as giving your screen a 'smart' flashlight system, rather than a single, 'dumb' one. Instead of a uniform light, this technology uses multiple, different-colored lights behind the screen. When your screen receives an image (like that movie scene), it doesn't just display it; it first 'reads' the image very carefully to understand exactly what colors and brightness levels are needed in every part of the picture. For our night sky scene, the system would detect the deep blacks of the sky and the bright white of the moon.\n\nHere's the clever part: based on these detected 'color characteristics,' the screen's driving unit then precisely tells each of those colored backlights exactly how bright to shine and for how long (this is called 'pulse width'). So, for the dark sky, the backlights in that area would dim significantly, or even turn off, for specific colors. For the moon, the white or relevant colored backlights would shine brightly. The 'time/space division scheme' means it's doing this not just in different physical areas ('space') but also potentially by rapidly switching or modulating lights over very short moments ('time'), making the overall effect incredibly precise and seamless. It's like having a miniature, highly intelligent lighting director for every single frame of your content.\n\n### Why Does This Matter?\n\nThis precision matters immensely for several reasons. Firstly, it delivers **superior visual fidelity**. Your screen can now display truly deep blacks and incredibly vibrant, accurate colors simultaneously, without one compromising the other. This translates to a more immersive and realistic viewing experience for everything from movies and games to photos. Secondly, for **professional applications** like graphic design, medical imaging, or architectural visualization, color accuracy and contrast are not just aesthetic preferences but critical requirements. This technology provides the tools for professionals to see their work exactly as intended, or for doctors to spot subtle details in scans that might otherwise be missed. Thirdly, it offers a strong **competitive advantage** for manufacturers. In a crowded market, a visibly superior display experience can be a key differentiator, allowing companies to command premium prices and capture market share in high-value segments. It's about moving beyond just 'more pixels' to 'better pixels.'\n\n### What's Next?\n\nThe **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** lays a robust foundation for the next generation of display technology. We can expect to see this kind of intelligent backlight control integrated into high-end televisions, professional monitors, virtual reality headsets, and even automotive displays. As content becomes more dynamic and demands higher fidelity (think HDR, 8K, advanced gaming), this technology will become increasingly crucial. It paves the way for even more sophisticated algorithms that could predict color needs or integrate with AI for real-time image enhancement. For businesses, this means continued investment in R&D to refine these methods, and strategic partnerships to bring these visually stunning displays to market, solidifying leadership in the evolving world of visual technology.","technical_analysis":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** patent (US-9852698) describes a sophisticated approach to display illumination and control, aiming to overcome inherent limitations in conventional display systems regarding color accuracy and dynamic contrast. At its core, this invention introduces a dynamic, color-characteristic-aware backlight driving mechanism that significantly enhances visual fidelity.\n\n**Technical Architecture and Signal Flow:**\n\nThe system's architecture begins with an **External Device** providing an image signal. This signal is fed into an **Image Signal Converter**, which processes it into a data signal suitable for display on a **Display Panel**. Concurrently, the converter or a subsequent processing unit extracts detailed color characteristics from the image signal. This information is then passed to a **Display Panel Driving Unit**.\n\nCrucially, the Display Panel Driving Unit performs a dual function: it drives the Display Panel with the image data, and it also generates specific **First Light Control Signal** and **Second Light Control Signal**. These control signals are distinct and are transmitted to a **Backlight Unit**. The Backlight Unit is designed to provide a **First Color Light** and a **Second Color Light**, which are different from each other (e.g., red and green, or white and blue). This implies a multi-color LED backlight array, capable of emitting different spectral components.\n\n**Algorithm Specifics and Pulse Width Modulation:**\n\nThe innovative aspect lies in how the Display Panel Driving Unit determines the **pulse width** of each of the first and second light control signals. This determination is not static or pre-programmed; it is dynamically calculated *according to a color characteristic of the image signal*. This implies a real-time analysis algorithm that identifies dominant colors, luminance levels, and potentially color gradients within specific regions or across the entire frame. Based on this analysis, the pulse width (and thus the intensity and duration) of the respective colored lights from the backlight unit is modulated. For instance, if a section of the image requires a strong blue component, the pulse width for the blue LEDs in that backlight segment will be increased, while a red-dominant area would see the red LED pulse width adjusted accordingly.\n\nThis dynamic pulse width modulation (PWM) allows for highly granular control over the spectral composition and intensity of the light illuminating the display panel. Instead of the panel's pixels having to filter out broad-spectrum white light to achieve a specific color, the backlight itself is pre-tuned to emit a more appropriate color, significantly improving color purity, reducing light leakage, and enhancing contrast.\n\n**Time/Space Division Scheme:**\n\nThe 'Time/space Division Scheme' in the patent title further suggests an advanced operational mode. 'Space division' refers to localized control (e.g., mini-LED or micro-LED backlights with numerous dimming zones). 'Time division' implies sequential illumination or rapid flickering of different colored backlights synchronized with the display panel's refresh cycle. This could allow for even finer color control and higher effective dynamic range by presenting different color components of the backlight over very short time intervals, perceived as a single, perfectly mixed color by the human eye. This could also contribute to reducing motion blur and improving perceived sharpness in fast-moving content.\n\n**Performance Characteristics and Integration Patterns:**\n\nImplementing this technology would lead to several performance improvements:\n*   **Enhanced Dynamic Range:** Deeper blacks and brighter whites, with fewer halo artifacts.\n*   **Superior Color Volume and Accuracy:** More faithful reproduction of a wider range of colors.\n*   **Potential Energy Efficiency:** By emitting only the necessary colors and intensities, less light is wasted.\n*   **Improved Contrast Ratio:** Both static and dynamic contrast ratios would see significant boosts.\n\nIntegration would involve a tightly coupled design between the image processor, the display panel driving IC, and the multi-color backlight array controller. Advanced timing and synchronization mechanisms would be critical to ensure seamless operation between the pixel data and the dynamic backlight output. The computational requirements for real-time color characteristic analysis and pulse width determination would necessitate powerful, low-latency processing units.\n\nIn essence, this patent describes a paradigm shift from 'dumb' backlights to 'intelligent', color-aware illumination systems. It offers a robust framework for engineers to develop next-generation displays that deliver an unparalleled visual experience, pushing the boundaries of fidelity and immersion.","business_analysis":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** patent (US-9852698) presents a significant opportunity for market disruption and value creation within the global display industry. This innovation, by fundamentally improving display quality through intelligent backlight control, addresses a critical demand in both consumer and professional markets for superior visual experiences.\n\n**Market Opportunity Size:**\nThe global display market, encompassing everything from smartphones and televisions to automotive screens and professional monitors, is vast and continuously growing, valued at hundreds of billions of dollars. Within this, the segment for premium displays – those prioritizing high resolution, dynamic range, and color accuracy – is particularly lucrative and less price-sensitive. This patent directly targets this high-value segment. As consumers increasingly demand immersive content (HDR video, high-fidelity gaming) and professionals rely on accurate color reproduction (design, medical imaging), the market for displays leveraging advanced backlight technology like this will expand significantly.\n\n**Competitive Advantages:**\nImplementing the principles of this patent grants manufacturers a distinct competitive edge. Current high-end displays use various local dimming techniques, but few integrate color-characteristic-driven backlight control at the granular level described here. This invention allows for:\n1.  **Visibly Superior Image Quality:** Offering deeper blacks, brighter whites, and more accurate, vibrant colors than competitors, leading to a premium brand perception.\n2.  **Reduced Artifacts:** Mitigation of common issues like blooming or halo effects, which plague simpler local dimming solutions.\n3.  **Future-Proofing:** A robust technological foundation for next-generation HDR and wide-color-gamut content.\n4.  **Potential Energy Efficiency:** More precise light emission can lead to energy savings, a growing concern for consumers and regulations.\n\n**Revenue Potential and Business Models:**\nManufacturers can leverage this technology to:\n*   **Command Higher Prices:** Position products (TVs, monitors, laptops, VR headsets) in the premium segment with justifiable price points due to superior performance.\n*   **License Technology:** The patent itself presents an opportunity for licensing to other display manufacturers, generating recurring royalty revenue.\n*   **Vertical Integration:** Companies with in-house display manufacturing capabilities can integrate this technology to differentiate their entire product ecosystem (e.g., Apple, Samsung, LG).\n\n**Strategic Positioning:**\nCompanies adopting this innovation can strategically position themselves as leaders in visual technology. It enables them to:\n*   **Innovate Beyond Resolution:** Shift market focus from mere pixel count (4K, 8K) to true image quality (contrast, color volume), a more impactful differentiator.\n*   **Target Niche Markets:** Cater to specialized industries (e.g., medical, film production, gaming) where color accuracy and dynamic range are paramount.\n*   **Build Brand Loyalty:** Deliver a consistently superior user experience that fosters strong brand allegiance.\n\n**ROI Projections:**\nInvestment in R&D and manufacturing integration for this patent's technology could yield substantial ROI. The ability to enter or dominate premium market segments, coupled with potential licensing revenues, suggests a strong financial return. The improved user experience translates directly to higher sales volumes and customer retention. Furthermore, the longevity of this technology, given its foundational improvements, ensures sustained competitive advantage for years to come. Early adoption and effective marketing of the **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** will be key to maximizing these returns, establishing a new benchmark for visual excellence in the display industry.","faqs":[{"answer":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** is a patent (US-9852698) that describes an innovative technology for enhancing the visual quality of display panels. It introduces a sophisticated method for controlling the backlight unit of a display in a highly dynamic and color-aware manner.\n\nInstead of traditional backlights that provide uniform or broadly zoned illumination, this invention allows the backlight to precisely adapt its light output based on the specific color characteristics of the image being displayed. This intelligent adaptation is achieved through a 'time/space division scheme' and dynamic pulse width modulation of different colored lights.\n\nEssentially, the patent details a system where the display doesn't just show an image; it actively participates in optimizing its illumination to perfectly match the content. This leads to significantly improved contrast, more accurate colors, and a more immersive viewing experience, addressing long-standing limitations in conventional display technologies.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, display technology, backlight control, color characteristics, dynamic display, visual quality, patent US-9852698.","question":"What is Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme?"},{"answer":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** operates by creating a dynamic and intelligent link between the incoming image signal and the display's backlight unit. First, an image signal from an external device (like a computer or streaming box) is converted into a data signal for the display panel.\n\nCrucially, a display panel driving unit then analyzes the *color characteristics* of this image signal in real-time. Based on this analysis, it generates distinct 'first light control signal' and 'second light control signal'. These signals instruct a multi-color backlight unit to emit specific 'first color light' and 'second color light' (which are different from each other).\n\nThe key mechanism is the dynamic determination of the *pulse width* of these light control signals. Pulse width modulation (PWM) controls the brightness and duration of the light. By adjusting the pulse width of different colored backlights according to the precise color needs of the image, the system ensures that the emitted light perfectly complements the pixels, leading to superior color accuracy and contrast. The 'time/space division scheme' implies this control is highly localized (space) and can also involve rapid temporal modulation (time) for even finer precision.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, how it works, backlight control, pulse width modulation, color characteristic, image signal, time/space division, display driving unit.","question":"How does Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme work?"},{"answer":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** primarily solves the problem of compromised visual fidelity in conventional displays, particularly concerning dynamic contrast and color accuracy. Traditional display backlights, even those with local dimming, often operate in a 'color-agnostic' manner, modulating only the intensity of a generic white light across broad zones.\n\nThis limitation leads to several common issues: 'blooming' or 'halo' effects around bright objects on dark backgrounds, where light bleeds into areas that should be black; washed-out or inaccurate colors because the pixels have to filter a broad-spectrum white light; and an inability to achieve truly deep black levels alongside dazzling highlights simultaneously. These compromises are especially noticeable with High Dynamic Range (HDR) content, which demands extreme variations in light and color.\n\nThis patent overcomes these challenges by enabling the backlight to dynamically adjust its *spectral output* (i.e., emit specific colors of light) and intensity precisely based on the image's color characteristics. This allows for unparalleled precision in illumination, eliminating artifacts and delivering a true-to-life visual experience.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, problem solved, dynamic contrast, color accuracy, blooming, halo effect, conventional displays, HDR content.","question":"What problem does Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme solve?"},{"answer":"The patent **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** (US-9852698) does not list inventors or an assignee in the provided abstract data. Patent documents typically include this information in their full specifications, often in the front page data.\n\nHowever, in the context of patentable.app, this information would be available on the full patent page at the provided URL. Understanding the inventors and assignee is crucial for tracing the intellectual property lineage and potential commercialization efforts of such an innovative technology.\n\nGenerally, inventions of this complexity in display technology often come from large electronics corporations with significant R&D departments or specialized display technology firms. These entities invest heavily in advancing visual experiences for consumer and professional markets.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, inventor, assignee, patent US-9852698, intellectual property, display innovation.","question":"Who invented Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme?"},{"answer":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** offers several significant benefits that elevate the visual experience to new levels. Firstly, it provides **superior dynamic contrast**, allowing for truly deep blacks and exceptionally bright whites to coexist on the same screen without compromise. This eliminates common artifacts like blooming or halo effects, which are prevalent in less sophisticated backlight systems.\n\nSecondly, the invention delivers **unprecedented color accuracy and volume**. By dynamically tuning the backlight's spectral output to match the precise color characteristics of the image, colors are rendered with greater purity, saturation, and fidelity. This means what you see on screen is closer to the artist's original intent, especially for wide-color-gamut content.\n\nThirdly, this technology contributes to a **more immersive and realistic viewing experience**. Whether for movies, games, or professional applications, the enhanced contrast and accurate colors create a sense of depth and realism that draws the viewer deeper into the content. Finally, by optimizing light emission, there's a potential for **improved energy efficiency**, as less light is wasted.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, key benefits, dynamic contrast, color accuracy, visual fidelity, immersive experience, energy efficiency, display innovation.","question":"What are the key benefits of Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme?"},{"answer":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** distinguishes itself from prior art by introducing a fundamentally more intelligent and color-aware approach to backlight control. Most prior art backlight systems, including advanced Full-Array Local Dimming (FALD) or Mini-LED technologies, primarily focus on modulating the *intensity* (brightness) of a generic white light across spatial zones.\n\nThis invention, however, goes a step further. It dynamically determines the pulse width of *different colored lights* (e.g., a 'first color light' and a 'second color light') from the backlight unit, based on the *precise color characteristics* of the image signal. This means the backlight isn't just getting brighter or dimmer; it's actively shaping its *spectral composition* to match the image content. For example, if a scene is rich in blue, the backlight can emit more blue light in that specific area, something generic white-light local dimming cannot do effectively.\n\nFurthermore, the 'time/space division scheme' implies a multi-dimensional control that leverages both spatial segmentation and temporal modulation, potentially offering finer granularity and reducing artifacts more effectively than static spatial dimming zones alone. This makes the system far more adaptive and precise, overcoming the inherent compromises of prior art in delivering true blacks and accurate colors simultaneously.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, prior art, backlight control, local dimming, color-aware, time/space division, competitive advantage, display technology.","question":"How is Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme different from prior art?"},{"answer":"The **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** is poised to significantly impact a wide array of industries that rely heavily on high-quality visual displays. The most direct impact will be on the **consumer electronics industry**, particularly manufacturers of high-end televisions, smartphones, tablets, and computer monitors. This technology offers a clear competitive advantage by delivering visibly superior image quality, driving premium product sales.\n\nBeyond consumer goods, the **professional content creation industry** (film, video editing, graphic design, photography) will benefit immensely. Professionals in these fields demand absolute color accuracy and dynamic range, and this invention provides the tools to ensure content is displayed exactly as intended. The **medical imaging sector** is another critical area, where subtle color shifts and precise contrast can be vital for diagnosis; enhanced display fidelity can lead to more accurate medical interpretations.\n\nFurthermore, the **gaming industry** will see a boost in immersion and realism, as games can be rendered with deeper shadows, brighter highlights, and more vibrant effects. **Automotive displays** for infotainment and driver assistance systems, and emerging fields like **virtual reality (VR) and augmented reality (AR)**, where visual realism is paramount for user experience, will also find this technology highly valuable.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, industry impact, consumer electronics, professional displays, medical imaging, gaming, automotive displays, VR/AR, visual fidelity.","question":"What industries will Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme impact?"},{"answer":"The patent **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** (US-9852698) has specific dates associated with its lifecycle. The **Filing Date** for this patent was **2014-04-09**.\n\nThis date marks when the initial application for the patent was submitted to the patent office. The **Publication Date**, which is when the patent document was officially published and made publicly available, was **2017-12-26**.\n\nThese dates are important for understanding the timeline of the invention's development, its entry into the public domain, and its potential lifespan of protection. The period between filing and publication often reflects the time taken for examination and approval processes within the patent office. For further details, the full patent document provides comprehensive information regarding its legal status and claims.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, filing date, publication date, patent timeline, US-9852698, patent lifecycle, intellectual property.","question":"When was Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme filed/granted?"},{"answer":"The commercial applications of the **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** are extensive, primarily targeting markets that prioritize high-quality visual experiences. In the **consumer electronics market**, this technology can be integrated into premium televisions, smartphones, tablets, and laptops to offer a significantly enhanced viewing experience, justifying higher price points and driving sales in the high-end segment.\n\nFor **professional industries**, the applications are critical. High-end computer monitors incorporating this innovation would be invaluable for **graphic designers, video editors, photographers, and architects** who require absolute color accuracy and contrast for their work. In **medical imaging displays**, the ability to render subtle details and precise color variations can aid in diagnostics and surgical planning.\n\nFurthermore, this technology has strong commercial potential in the **gaming industry**, leading to more immersive and visually stunning gaming monitors and consoles. It's also highly relevant for **automotive displays**, where clear, high-contrast visuals are essential for navigation and safety systems, especially under varying light conditions. Emerging markets like **virtual reality (VR) and augmented reality (AR) headsets** would also greatly benefit from the enhanced realism and fidelity offered by this advanced backlight control.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, commercial applications, consumer electronics, professional monitors, medical displays, gaming, automotive, VR/AR, market potential.","question":"What are the commercial applications of Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme?"},{"answer":"Future developments stemming from the **Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme** are likely to push the boundaries of display technology even further. One key area of evolution will be in **algorithmic sophistication**. We can expect more advanced real-time image analysis and prediction algorithms, potentially leveraging artificial intelligence and machine learning, to anticipate color and luminance changes, ensuring even smoother and more seamless backlight adaptation.\n\nAnother development could involve **further miniaturization and integration**. As Mini-LED and Micro-LED technologies evolve, the number of individually controllable backlight zones could increase exponentially, allowing for even finer spatial control. Coupled with more precise temporal modulation, this could lead to displays with virtually pixel-level backlight control, blurring the lines between LCD and emissive technologies like OLED.\n\nFurthermore, expect advancements in **energy efficiency and sustainability**. As backlight control becomes more granular and precise, less light is wasted, contributing to greener display products. There's also potential for **adaptive environmental integration**, where displays not only adapt to content but also to ambient room lighting, or even user biometrics, to optimize the viewing experience dynamically. This invention lays a robust foundation for truly 'intelligent' displays that are capable of unprecedented realism and immersion across all applications.\n\nKeywords: Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme, future developments, AI/ML, algorithmic sophistication, Mini-LED, Micro-LED, energy efficiency, adaptive displays, display innovation.","question":"What are the future developments expected for Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme?"}],"topics":["Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme","time/space division display","backlight control","display panel driving","color characteristic display","pursuit","perfect","visual"],"tech_cluster":null},"seo":{"title":"Display Apparatus & Driving Method: Time/Space Division - US-9852698","description":"Unlock superior display quality with the Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme patent. This innovation dynamically controls backlight based on color for vivid images.","keywords":["Display Apparatus and Driving Method Thereof Using a Time/space Division Scheme","time/space division display","backlight control","display panel driving","color characteristic display","image signal conversion","advanced display technology","patent US-9852698","visual experience","dynamic display"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852698","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-9852698","citation_suggestion":"Patentable. \"Display apparatus and driving method thereof using a time/space division scheme\" (US-9852698). https://patentable.app/patents/US-9852698","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852698","json":"https://patentable.app/api/llm-context/US-9852698","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T06:37:21.925Z"}