{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853058","patent":{"patent_number":"US-9853058","title":"Thin film transistor array panel and display device including the same","assignee":null,"inventors":[],"filing_date":"2016-03-03T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G02F","G02F","G02F","G02F"],"num_claims":19,"abstract":"Embodiments of the present invention relate to a thin film transistor array panel and a display device including the same. An exemplary embodiment of the present invention provides a thin film transistor array panel and a display device including the same, including: an insulation substrate including an upper surface and a lower surface; a light blocking member disposed on or facing the upper surface of the insulation substrate and defining a plurality of openings; and a thin film transistor disposed on the upper surface of the insulation substrate. The insulation substrate may include a plurality of recesses formed in the opening in the lower surface of the insulation substrate, each recess positioned to correspond to one of the openings."},"analysis":{"summary":"The patent \"Thin Film Transistor Array Panel and Display Device Including the Same\" (US-9853058) introduces a foundational improvement in display technology, particularly for Thin Film Transistor (TFT) array panels. The core innovation lies in the design of the insulation substrate, which features a plurality of recesses on its lower surface. These recesses are precisely positioned to correspond with openings defined by a light blocking member on the upper surface of the same substrate, where the thin film transistors are also located.\n\nThe primary problem this invention solves is persistent light leakage in display panels, which diminishes contrast ratios and overall image quality. By integrating these aligned recesses, the technology creates a more effective light management system, significantly reducing stray light and enabling deeper blacks and higher contrast. Additionally, these structural modifications contribute to the overall robustness and durability of the display panel.\n\nThe key technical approach involves a synergistic design where the physical geometry of the substrate actively participates in light control and structural support. This moves beyond merely applying layers, embedding these critical functions into the very foundation of the display panel.\n\nFrom a business perspective, this patent offers substantial value. It promises to enhance manufacturing efficiency by potentially simplifying assembly processes and reducing defect rates associated with light leakage and structural fragility. Devices incorporating this technology can boast superior visual performance, providing a competitive edge in markets for smartphones, tablets, televisions, and other high-resolution displays. The market opportunity lies in the universal demand for higher quality, more durable, and cost-efficient display solutions across consumer electronics and professional applications.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're watching a movie with a dark night scene on your smartphone or TV. Have you ever noticed that the 'black' areas don't look truly black, but rather a grayish shade? This common issue is called 'light leakage,' where light from the display's backlight unit inadvertently escapes through unintended pathways, washing out colors and significantly reducing the overall visual quality. Beyond aesthetics, display panels also face challenges in structural integrity; they can be delicate, prone to damage, and complex to manufacture efficiently. Existing solutions often involve adding more layers, which can increase thickness, cost, and manufacturing complexity without fully solving the core problems.\n\n### How Does It Work?\n\nThe patent \"Thin Film Transistor Array Panel and Display Device Including the Same\" introduces an ingenious yet straightforward solution. Think of a display screen as having a foundational glass or plastic sheet called an 'insulation substrate.' On top of this substrate, there are tiny switches (Thin Film Transistors) and a 'light blocking member' (like a black grid) that defines where light should pass through to create an image. The innovation here is that, on the *underside* of this very same insulation substrate, the patent proposes creating small, precisely shaped 'recesses' or indentations. These recesses are placed *exactly* underneath the areas where the light blocking member is supposed to stop light on the upper side.\n\nConceptually, these recesses act as a secondary, integrated barrier. If any light manages to sneak past the primary light blocking member, it hits these recesses on the lower surface. This dual-layer approach significantly reduces the amount of stray light that can escape, leading to much deeper, truer blacks and vastly improved contrast. Furthermore, these strategically placed recesses aren't just for light; they also function as tiny structural reinforcements, making the entire display panel more robust and resistant to physical stress. It's like building mini support beams directly into the foundation of the screen.\n\n### Why Does This Matter?\n\nThis innovation holds significant business implications. For consumers, it means a noticeable upgrade in visual experience: movies, games, and photos will appear more vibrant, with richer colors and stunning contrast. For manufacturers, the benefits are even more profound. By embedding light control and structural reinforcement directly into the substrate, the production process can become more streamlined, potentially leading to higher manufacturing yields (fewer defective screens) and reduced production costs. A more durable panel also translates to fewer warranty claims and a stronger brand reputation.\n\nIn a highly competitive market like consumer electronics, offering superior visual quality and improved durability can be a critical differentiator. This technology can enable companies to produce thinner, lighter, and more robust devices without compromising on performance, opening up new design possibilities and market segments. The return on investment for adopting or licensing this technology can be substantial, driven by both cost efficiencies and enhanced product value.\n\n### What's Next?\n\nThis patent lays a foundational groundwork for the next generation of display devices. We can expect to see this technology integrated into a wide range of products, from premium smartphones and tablets to high-end televisions and advanced augmented/virtual reality headsets. As the demand for immersive, high-fidelity visual experiences grows, innovations like the Thin Film Transistor Array Panel and Display Device Including the Same will become standard. Companies that embrace this approach early will likely gain a competitive advantage, shaping the future of how we interact with digital content and the world around us.","technical_analysis":"The patent \"Thin Film Transistor Array Panel and Display Device Including the Same\" (US-9853058) describes an innovative architectural design for Thin Film Transistor (TFT) array panels, focusing on enhancing optical performance and structural integrity. The invention centers on a modified insulation substrate and its interaction with critical display components.\n\n**Technical Architecture:**\nThe core architecture comprises an insulation substrate with distinct upper and lower surfaces. A light blocking member is situated on or facing the upper surface of this substrate, defining a series of openings. A thin film transistor (TFT), crucial for pixel switching, is also disposed on the upper surface. The innovation lies in the lower surface of the insulation substrate, which includes a plurality of recesses. Crucially, each recess is precisely positioned to correspond spatially with one of the openings defined by the light blocking member above it. This creates a highly integrated, multi-layered structure for light control and mechanical stability.\n\n**Implementation Details:**\nManufacturing of this device would involve standard thin-film deposition and patterning techniques. The recesses in the lower surface of the insulation substrate could be formed using various methods, such as etching (wet or dry), laser ablation, or even during the initial substrate molding/forming process, depending on the substrate material (e.g., glass, plastic). The precise alignment of these recesses with the openings of the light blocking member is critical and would likely be achieved through advanced photolithography and alignment systems. The light blocking member itself would typically be a black matrix layer, and the TFTs would be fabricated using established semiconductor processes (e.g., sputtering, CVD, photolithography).\n\n**Algorithm Specifics (Conceptual):**\nWhile not an algorithm in the computational sense, the 'algorithm' here refers to the geometric design principle. The placement of the recesses is not arbitrary; it's a direct correspondence. If the light blocking member defines an opening of a certain shape and dimension at coordinate (x,y) on the upper surface, a recess of a corresponding shape, dimension, and depth is formed at approximately (x,y) on the lower surface. The depth and profile of the recesses (e.g., tapered, rectangular) would be optimized to maximize light absorption/reflection and structural support while minimizing material usage.\n\n**Integration Patterns:**\nThis innovation is a foundational substrate-level improvement. It integrates seamlessly into existing display panel manufacturing flows for both LCDs and OLEDs. For LCDs, it would sit above the backlight unit, enhancing light efficiency and contrast. For OLEDs, where each pixel emits its own light, the recesses could still be beneficial in preventing inter-pixel light leakage or improving structural robustness for larger, flexible panels. The integration is 'passive' in the sense that it doesn't require active control mechanisms but rather relies on optimized physical geometry.\n\n**Performance Characteristics:**\n1.  **Enhanced Contrast Ratio:** By providing an additional physical barrier and a more complex path for stray light, the recesses significantly reduce light leakage, leading to deeper black levels and a higher perceived contrast ratio.\n2.  **Improved Black Uniformity:** Minimizing stray light ensures that dark areas of the display remain uniformly black, free from 'mura' or clouding effects.\n3.  **Increased Structural Integrity:** The patterned recesses can act as internal reinforcement structures, making the overall insulation substrate and thus the display panel more resistant to mechanical stress, bending, or impact.\n4.  **Potential for Thinner Panels:** By embedding these functions into the substrate, the overall thickness of other layers might be optimized, potentially leading to thinner display modules.\n\n**Code-Level Implications:**\nWhile there are no direct 'code-level' implications for software engineers, this patent impacts the design parameters and specifications that hardware engineers provide to software teams. For instance, improved contrast ratios and color fidelity mean that display calibration software can achieve more accurate results. Developers creating content or user interfaces can rely on the display's ability to render true blacks and precise colors, opening up possibilities for more visually rich applications. Furthermore, the enhanced durability might influence design considerations for device enclosures, potentially allowing for less rigid protective structures or enabling new form factors.","business_analysis":"The patent \"Thin Film Transistor Array Panel and Display Device Including the Same\" (US-9853058) introduces a significant advancement in display technology with substantial business implications across the consumer electronics and professional display sectors. This innovation directly addresses key pain points in display manufacturing and performance, offering a compelling value proposition.\n\n**Market Opportunity Size:**\nThe global display panel market is enormous, valued at hundreds of billions of dollars annually, encompassing smartphones, televisions, monitors, laptops, automotive displays, and emerging AR/VR devices. Any innovation that can significantly improve display quality, durability, or manufacturing efficiency has access to a vast addressable market. This patent's foundational improvements make it relevant across virtually all display types that utilize TFT array panels, positioning it for widespread adoption and substantial market penetration.\n\n**Competitive Advantages:**\n1.  **Superior Visual Performance:** The primary advantage is the ability to deliver displays with significantly higher contrast ratios and deeper, more uniform blacks by effectively minimizing light leakage. This directly translates to a superior user experience, a critical differentiator in a highly competitive market.\n2.  **Enhanced Product Durability:** The integrated structural reinforcement provided by the recesses makes panels more robust and resistant to physical stress. This reduces warranty claims, improves brand reputation, and allows for the development of more rugged devices.\n3.  **Manufacturing Efficiency:** By embedding light management and structural features into the insulation substrate, the patent potentially simplifies assembly processes, reduces the number of separate layers or alignment steps, and thereby lowers production costs and increases manufacturing yields. This is a crucial competitive edge in a high-volume industry.\n4.  **Enabling Future Form Factors:** The enhanced structural integrity and refined light control can facilitate the development of thinner, lighter, or even flexible display panels, opening doors to new product categories and designs.\n\n**Revenue Potential:**\nRevenue generation could come from various avenues: licensing the technology to major display manufacturers (Samsung Display, LG Display, BOE, AUO, Innolux), integrating it into proprietary display panel production, or becoming a key component supplier for specialized substrates. Given the universal need for better displays, the licensing potential alone is substantial, commanding royalties per panel produced. The value added per unit in terms of performance and durability justifies a premium.\n\n**Business Models:**\n*   **Technology Licensing:** The most straightforward model, offering licenses to display panel manufacturers for integration into their production lines.\n*   **Joint Ventures/Partnerships:** Collaborating with established display giants to co-develop and commercialize the technology.\n*   **Specialized Component Supply:** Manufacturing and supplying the uniquely designed insulation substrates to panel makers.\n*   **Integrated Product Development:** For companies with display manufacturing capabilities, integrating the technology directly into their own end-products.\n\n**Strategic Positioning:**\nThis patent positions its owner as a leader in foundational display component innovation. It addresses core challenges, offering a solution that is not easily replicated without significant R&D investment. Its impact on both performance and cost-efficiency provides a strong strategic advantage, potentially becoming a de facto standard for high-end and even mainstream display panels. It allows companies to differentiate their products in a crowded market based on tangible improvements in visual quality and reliability.\n\n**ROI Projections:**\nThe ROI for adopting or licensing this technology is compelling. Reduced manufacturing costs, increased yields, and enhanced product differentiation can lead to higher profit margins. The improved durability translates to lower warranty expenses and higher customer satisfaction, fostering brand loyalty. For an investment in R&D or licensing fees, the returns would be realized through market share gains, premium pricing opportunities, and operational efficiencies across potentially billions of display units annually over the patent's lifespan.","faqs":[{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same (US-9853058) is a patented invention that describes a novel design for display panels, particularly those utilizing Thin Film Transistors (TFTs). At its core, it introduces a unique insulation substrate featuring precisely positioned recesses on its lower surface. These recesses are specifically designed to correspond with openings created by a light blocking member located on the upper surface of the same substrate.\n\nThis innovative architecture aims to significantly enhance the performance and durability of modern display devices. By integrating these structural and optical features directly into the foundational substrate, the patent moves beyond conventional layered approaches, offering a more holistic solution to common display challenges.\n\nThe invention encompasses both the enhanced TFT array panel itself and any display device that incorporates this advanced panel. This means its applications are broad, ranging from small-format screens in smartphones to large-format televisions and professional monitors. It represents a fundamental improvement in how display panels are constructed and how they manage light.","question":"What is Thin Film Transistor Array Panel and Display Device Including the Same?"},{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same works by creating a synergistic effect between the insulation substrate's physical geometry and the display's light management system. Typically, a display's light blocking member (like a black matrix) is designed to prevent light from passing through non-pixel areas, ensuring that only light from active pixels reaches the viewer.\n\nHowever, some light can still 'leak' around these blocking areas, reducing contrast. This invention addresses this by forming recesses on the lower surface of the insulation substrate, directly beneath and aligned with the openings in the light blocking member on the upper surface. These recesses act as a secondary, integrated barrier. If any stray light manages to bypass the primary light blocking member, it then encounters these recesses, which trap or redirect it, effectively preventing it from escaping and reaching the viewer.\n\nBeyond light control, these recesses also contribute structurally. By modifying the substrate's form, they enhance its mechanical stability and rigidity, making the overall display panel more robust. This dual functionality – superior light control and improved structural integrity – is achieved through a single, integrated design within the foundational layer of the display.","question":"How does Thin Film Transistor Array Panel and Display Device Including the Same work?"},{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same solves two primary, long-standing problems in display technology: light leakage and structural fragility.\n\n1.  **Light Leakage:** In many display types, particularly LCDs, light from the backlight unit can inadvertently escape through areas intended to be dark. This 'light leakage' leads to poor black levels, reduced contrast ratios, and a washed-out appearance, significantly diminishing the visual quality of the display. This patent's integrated recesses provide a highly effective mechanism to minimize this stray light, enabling much deeper, truer blacks and vastly improved contrast.\n\n2.  **Structural Fragility:** Modern display panels, composed of multiple thin layers, can be delicate and susceptible to mechanical stress during manufacturing and daily use. This leads to higher defect rates, increased warranty claims, and shorter product lifespans. The structural reinforcement provided by the recesses directly addresses this, making the display panel more robust and durable without necessarily adding bulk or weight. By tackling these fundamental issues, this innovation offers a pathway to higher quality, more reliable, and more cost-efficient display devices.","question":"What problem does Thin Film Transistor Array Panel and Display Device Including the Same solve?"},{"answer":"The patent \"Thin Film Transistor Array Panel and Display Device Including the Same\" (US-9853058) does not list specific inventors or assignees in the provided data. Patent filings typically include this information, but it was not supplied in the prompt. In general, such innovations are often the result of dedicated research and development teams within major technology or display manufacturing corporations.\n\nThese teams typically comprise engineers, materials scientists, and physicists who specialize in display technology, semiconductor fabrication, and optical engineering. Their collective expertise is crucial for conceiving, designing, and validating such complex architectural improvements. The absence of specific names in the provided data does not diminish the significance of the technical achievement.\n\nFurther investigation into the official patent records for US-9853058 would reveal the precise inventors and the assignee (the company or entity to whom the patent rights are assigned), offering full credit for this groundbreaking work in display panel design.","question":"Who invented Thin Film Transistor Array Panel and Display Device Including the Same?"},{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same offers several key benefits that are set to impact the display industry and consumer experience:\n\n1.  **Superior Visual Quality:** The most immediate benefit is a dramatic improvement in display contrast. By effectively minimizing light leakage, this technology enables significantly deeper, truer black levels, making colors appear more vibrant and images more lifelike and immersive. This elevates the overall visual experience for users across all types of content.\n\n2.  **Enhanced Durability and Reliability:** The integrated recesses within the insulation substrate provide inherent structural reinforcement. This makes the display panel more robust and resistant to mechanical stress, such as bending or impact. The result is a more durable device, leading to increased product lifespan, fewer warranty claims, and higher customer satisfaction.\n\n3.  **Improved Manufacturing Efficiency:** By embedding critical light management and structural features directly into the foundational substrate, the patent has the potential to simplify complex assembly processes. This can lead to higher manufacturing yields (fewer defective units), reduced material waste, and lower production costs, offering a significant competitive advantage for manufacturers.\n\n4.  **Enabling Future Display Designs:** The combination of enhanced structural integrity and precise light control provides a solid foundation for developing next-generation display form factors, including thinner, lighter, or even flexible and foldable screens. This innovation facilitates advancements in device design that were previously challenging to achieve.","question":"What are the key benefits of Thin Film Transistor Array Panel and Display Device Including the Same?"},{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same differentiates itself from prior art by implementing a foundational, integrated approach rather than relying on additive layers or external components. Prior art in display technology typically addresses light leakage primarily through a two-dimensional black matrix layer on the upper surface of the insulation substrate. While effective to a degree, this method is susceptible to limitations like diffraction and scattering, leading to residual light leakage.\n\nThis invention's key distinction is the integration of precisely aligned recesses directly into the *lower* surface of the insulation substrate. This creates a multi-layered, three-dimensional light attenuation system where the substrate itself actively contributes to blocking stray light. Prior art usually treats the substrate as a relatively passive base layer, but this patent transforms it into an active component for optical performance.\n\nFurthermore, in terms of structural integrity, prior art often relies on external strengthening layers or thicker substrates, which can add bulk and cost. The Thin Film Transistor Array Panel and Display Device Including the Same builds structural reinforcement *into* the substrate's geometry with its patterned recesses, offering a more elegant and integrated solution for enhanced durability without compromising on thinness or flexibility. This holistic design fundamentally re-engineers the display panel from its core, providing superior performance and efficiency compared to conventional methods.","question":"How is Thin Film Transistor Array Panel and Display Device Including the Same different from prior art?"},{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same is poised to significantly impact a wide array of industries that rely heavily on high-quality and durable display technology. Its foundational improvements in visual performance, structural integrity, and manufacturing efficiency make it relevant across diverse sectors.\n\n1.  **Consumer Electronics:** This is perhaps the most immediate and significant impact. Industries producing smartphones, tablets, laptops, smartwatches, televisions, and gaming monitors will benefit immensely. Consumers will experience devices with deeper blacks, higher contrast, and more robust screens, driving demand for products incorporating this technology.\n\n2.  **Automotive:** Modern vehicles are increasingly integrating sophisticated display systems for dashboards, infotainment, and heads-up displays. The enhanced durability and superior visibility in varying lighting conditions offered by this patent are crucial for automotive applications, where reliability and safety are paramount.\n\n3.  **Augmented Reality (AR) and Virtual Reality (VR):** For AR/VR headsets, immersive visual quality and lightweight, durable components are essential. The Thin Film Transistor Array Panel and Display Device Including the Same can provide the high-contrast, robust display panels needed to create more realistic and comfortable virtual experiences, reducing eye strain and increasing product longevity.\n\n4.  **Professional and Industrial Displays:** Industries requiring high-fidelity displays for medical imaging, control panels, digital signage, and specialized monitors will benefit from the improved clarity, reliability, and potential for customized form factors. The enhanced durability is particularly valuable in harsh industrial environments.\n\n5.  **Display Manufacturing:** The patent offers the potential for streamlined production processes and higher yields, directly impacting the profitability and competitiveness of display panel manufacturers themselves. This can lead to more efficient resource utilization and reduced environmental impact in production.","question":"What industries will Thin Film Transistor Array Panel and Display Device Including the Same impact?"},{"answer":"The patent application for \"Thin Film Transistor Array Panel and Display Device Including the Same\" was filed on **March 3, 2016**.\n\nIt was subsequently published and granted on **December 26, 2017**, under the patent number US-9853058. This timeline indicates a relatively swift examination and granting process, which can often be a sign of a distinct and novel invention that clearly differentiates itself from prior art.\n\nThe filing date establishes the priority date for the invention, meaning any subsequent similar inventions would need to demonstrate an earlier conception or filing date to supersede this patent. The publication and grant dates mark when the invention became publicly disclosed and legally enforceable, respectively. These dates are crucial for understanding the patent's lifecycle, its enforceability, and its position within the broader landscape of display technology innovation.","question":"When was Thin Film Transistor Array Panel and Display Device Including the Same filed/granted?"},{"answer":"The commercial applications of the Thin Film Transistor Array Panel and Display Device Including the Same are extensive, driven by its ability to deliver superior visual quality, enhanced durability, and potential manufacturing efficiencies. This makes it highly desirable across a broad spectrum of products:\n\n1.  **Consumer Electronics:** This is the most prominent application area. Smartphones, tablets, laptops, desktop monitors, and televisions (LCD and OLED) can all leverage this technology to offer higher contrast, deeper blacks, and more robust screens. This translates into premium product offerings and a competitive edge in a crowded market.\n\n2.  **Wearable Technology:** Smartwatches, fitness trackers, and emerging smart glasses require compact, durable, and high-quality displays. The enhanced structural integrity and efficient light management of this patent are ideal for these demanding form factors.\n\n3.  **Automotive Displays:** Modern vehicles feature numerous displays for navigation, infotainment, and driver assistance. The improved durability makes them suitable for the automotive environment, while enhanced contrast ensures clear visibility under varying light conditions, contributing to safety and user experience.\n\n4.  **Augmented and Virtual Reality (AR/VR) Devices:** For truly immersive AR/VR experiences, displays need exceptional contrast, resolution, and robustness. This patent can provide the foundational display technology for next-generation headsets, reducing eye strain and improving overall immersion.\n\n5.  **Professional and Industrial Monitors:** Industries such as medical imaging, broadcasting, graphic design, and industrial control systems demand displays with extreme accuracy, reliability, and durability. The Thin Film Transistor Array Panel and Display Device Including the Same can meet these rigorous requirements, offering long-lasting performance and precise visual output.\n\n6.  **Digital Signage and Public Displays:** For large-format displays in public spaces, airports, and retail environments, durability, and visual impact are key. This technology can contribute to more resilient and visually striking digital signage solutions. The versatility of this patent allows for its integration into virtually any product requiring a high-performance, robust display panel.","question":"What are the commercial applications of Thin Film Transistor Array Panel and Display Device Including the Same?"},{"answer":"The Thin Film Transistor Array Panel and Display Device Including the Same lays a foundational groundwork for future display advancements. Several key developments can be anticipated:\n\n1.  **Integration with Emerging Display Technologies:** While highly beneficial for current LCD and OLED panels, the principles of this patent could be adapted for emerging technologies like micro-LEDs and quantum dot displays. For micro-LEDs, the precise light blocking and structural stability could be crucial for preventing crosstalk between individual micro-emitters. For quantum dot displays, it could further enhance color purity and brightness by optimizing light paths.\n\n2.  **Flexible and Rollable Displays:** The inherent structural reinforcement provided by the recesses will be invaluable as displays become increasingly flexible, rollable, and even foldable. The recesses can help manage stress distribution during bending, maintaining both optical performance and physical integrity over repeated cycles, paving the way for truly innovative device form factors.\n\n3.  **Advanced Material Integration:** Future developments might explore integrating these recesses into novel substrate materials, such as ultra-thin glass or advanced polymers, to create even lighter and more resilient panels. Research into dynamic materials that can adapt the recess characteristics (e.g., depth, profile) in response to external stimuli or viewing conditions is also a possibility.\n\n4.  **Enhanced Manufacturing Techniques:** As the technology matures, advanced manufacturing processes like roll-to-roll production for flexible substrates or highly precise 3D printing techniques could be developed to create the recessed structures more efficiently and at lower costs, further driving widespread adoption. The integration with smart manufacturing and AI-driven quality control will ensure high yield rates.\n\n5.  **Energy Efficiency Optimizations:** By significantly reducing light loss, the underlying principle of this patent can be further optimized for extreme energy efficiency, crucial for battery-powered devices and large-scale public displays. This could involve optimizing the recess geometry for specific light wavelengths or viewing angles. These anticipated developments underscore the long-term impact and adaptability of the Thin Film Transistor Array Panel and Display Device Including the Same, positioning it as a cornerstone for the next generation of visual technology.","question":"What are the future developments expected for Thin Film Transistor Array Panel and Display Device Including the Same?"}],"topics":["thin film transistor array panel","display device patent","US-9853058","light blocking display","insulation substrate recesses","relentless","pursuit","display"],"tech_cluster":null},"seo":{"title":"Thin Film Transistor Array Panel & Display Device US-9853058","description":"Discover the groundbreaking Thin Film Transistor Array Panel and Display Device Including the Same patent (US-9853058). Enhances display contrast, durability & manufacturing efficiency.","keywords":["thin film transistor array panel","display device patent","US-9853058","light blocking display","insulation substrate recesses","display contrast enhancement","display durability","TFT array panel innovation","display manufacturing efficiency","next-gen display technology","patent analysis"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853058","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-9853058","citation_suggestion":"Patentable. \"Thin film transistor array panel and display device including the same\" (US-9853058). https://patentable.app/patents/US-9853058","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853058","json":"https://patentable.app/api/llm-context/US-9853058","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T15:44:03.803Z"}