{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852696","patent":{"patent_number":"US-9852696","title":"Display device","assignee":null,"inventors":[],"filing_date":"2015-06-18T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G09G","G09G","G06F","G09G","G09G","G09G","G09G","G09G","G09G","G09G","G09G","G09G"],"num_claims":20,"abstract":"A display device includes a first substrate, a second substrate disposed opposite to the first substrate, a connector connected to a first surface of each of the first and second substrates and covering at least a portion of side surfaces of each of the first and second substrates, a photo sensor disposed on the connector and facing the side surface of the first substrate, and a fixing member disposed between the first substrate and the connector, in which the photo sensor is inserted into the fixing member."},"analysis":{"summary":"The Display Device patent (US-9852696) introduces a groundbreaking approach to integrating environmental sensors directly into the structure of modern displays, addressing the persistent challenge of achieving bezel-less designs without compromising functionality. At its core, this innovation provides a display device comprising a first and second substrate, interconnected by a unique connector.\n\nThe core innovation lies in the strategic placement and integration of a photo sensor. This sensor is disposed on the aforementioned connector, which not only electrically links the substrates but also covers portions of their side surfaces. Crucially, the photo sensor is oriented to face the side surface of the first substrate. This ingenious positioning allows the sensor to operate from the display's edge, effectively removing the need for visible cutouts or larger bezels on the front face of the device.\n\nFurther enhancing this integration is a fixing member, precisely located between the first substrate and the connector. The photo sensor is securely inserted into this fixing member, ensuring stable mechanical support and optimal optical alignment. This robust integration method is key to the system's reliability and performance, enabling accurate sensing while maintaining a sleek, uninterrupted display aesthetic.\n\nFrom a business perspective, this patent unlocks significant market opportunities. It enables manufacturers to create truly edge-to-edge devices, enhancing user experience and driving product differentiation in competitive markets like smartphones, wearables, and automotive displays. The technology promises to streamline manufacturing processes by integrating sensors into existing display structures, potentially reducing assembly costs and complexity. The market opportunity lies in satisfying the growing consumer demand for aesthetically pleasing, highly functional, and seamlessly integrated electronic devices, positioning this innovation as a critical component for the next generation of interactive displays.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're designing the sleekest new smartphone or a minimalist smart home display. You want the screen to go from edge-to-edge, with no chunky borders or ugly holes. But here's the catch: these devices need 'eyes' – sensors that detect how bright the room is (so your screen adjusts automatically) or if your ear is close (so the screen turns off during a call). Traditionally, these sensors require visible cutouts or thicker bezels, which ruins that perfect, uninterrupted screen look. So, the big problem is how to integrate essential sensors without compromising the beautiful, full-screen design that consumers now demand. Existing solutions often involve complex under-display tech that can be costly or unreliable, or simply sacrificing design for functionality.\n\n### How Does It Work?\n\nThe Display Device patent (US-9852696) offers a surprisingly elegant solution. Think of your display as a sandwich made of two very thin glass layers (the 'substrates'). Instead of trying to poke a hole through the top slice of bread for a sensor, this invention uses the 'crust' – the very edge of the sandwich. A special 'connector' piece not only holds these two glass layers together but also wraps around their side edges. Crucially, a tiny 'photo sensor' (the 'eye') is placed right on this side-wrapping connector, designed to 'look' outwards from the edge of the display. To make sure this little 'eye' stays perfectly in place and sees clearly, there's also a 'fixing member' – a small, precise holder – that secures the sensor between the glass layer and the side connector. This means the sensor can do its job by detecting light or proximity from the display's side, becoming completely invisible from the front. It’s like having secret, embedded intelligence without any visual compromise.\n\n### Why Does This Matter?\n\nThis innovation matters immensely for several business reasons. Firstly, it allows product designers to achieve truly bezel-less devices, which is a significant competitive advantage in consumer electronics. Products with this technology can command premium pricing due to their superior aesthetics and enhanced user experience. Secondly, by integrating sensors into existing structural components like the connector, it could simplify manufacturing processes and potentially reduce assembly costs. Instead of adding a separate sensor module, it becomes part of the display's inherent structure. This leads to higher production efficiency and better profit margins. Thirdly, it opens doors for new functionalities; for example, more accurate ambient light sensing from the side might lead to better screen brightness adjustments, or new forms of edge-based gesture controls. This patent provides a strong intellectual property foundation for companies looking to lead in display technology, offering both design freedom and advanced capabilities, translating directly into market share gains and increased ROI for product development.\n\n### What's Next?\n\nThis Display Device technology is poised to become a standard feature in high-end smartphones, tablets, and smartwatches. We can expect to see wider adoption in automotive displays for integrated dashboards, and potentially in specialized industrial or medical displays where robust, seamless interfaces are critical. As the technology matures, future applications might include more complex multi-sensor arrays along the display edge, enabling advanced biometric authentication or spatial awareness. For businesses, investing in or licensing this type of technology means securing a competitive edge in the evolving landscape of interactive displays, driving innovation that aligns with consumer demand for sleek, smart, and integrated devices.","technical_analysis":"The Display Device patent (US-9852696) details a sophisticated structural design for integrating sensing capabilities directly into a display panel, circumventing common challenges associated with bezel-less aesthetics and sensor placement. The technical architecture focuses on a multi-component assembly designed for precision and functional efficiency.\n\n**Technical Architecture and Components:**\n\nThe invention begins with a foundational display structure, consisting of a first substrate and a second substrate. These typically represent the active matrix layer (e.g., TFT array) and the color filter/encapsulation layer, respectively, in contemporary display technologies like LCD or OLED. The precise material composition of these substrates is not detailed but can be inferred to be standard for display manufacturing.\n\nCentral to this innovation is the **connector**. This component serves a dual purpose: it establishes electrical connectivity between the first and second substrates and, critically, it is designed to cover at least a portion of the side surfaces of both substrates. This structural extension of the connector is vital, as it provides the physical real estate and support for the integrated sensor. The material for this connector would likely be a flexible printed circuit (FPC) or a similar conductive and pliable material capable of wrapping around the display's edge.\n\n**Photo Sensor Integration:**\n\nA **photo sensor** is strategically disposed on this connector. The unique aspect here is its orientation: it faces the side surface of the first substrate. This orientation implies that the sensor is designed to detect light or other optical signals either emitted from the display's edge, passing through the edge, or reflecting off surfaces near the edge. This could include ambient light sensing (capturing light from the periphery rather than the front), proximity detection (using an IR emitter/receiver pair integrated into the edge), or even rudimentary gesture recognition by detecting interruptions in an emitted light field along the display's perimeter. The choice of photo sensor (e.g., photodiode, phototransistor, ambient light sensor IC) would depend on the specific application, but its side-facing placement is the key technical differentiator.\n\n**Fixing Member and Implementation Details:**\n\nThe integration is further refined by a **fixing member**, which is positioned between the first substrate and the connector. The photo sensor is then precisely inserted into this fixing member. This component is crucial for several implementation details:\n\n*   **Mechanical Stability**: The fixing member provides robust mechanical support, preventing movement or damage to the delicate photo sensor during assembly and throughout the device's lifespan. This is critical for maintaining optical alignment and sensor reliability.\n*   **Optical Alignment and Isolation**: The fixing member can be designed with specific optical properties. It might include internal channels, lenses, or light-blocking materials to precisely guide light to the sensor while isolating it from unwanted stray light or internal display emissions. This ensures that the sensor accurately measures its intended target (e.g., external ambient light from the side, or reflected light for proximity).\n*   **Space Optimization**: By precisely positioning the sensor and providing structural support, the fixing member contributes to the overall compactness of the assembly, facilitating thinner and more bezel-less device designs.\n\n**Performance Characteristics and Code-Level Implications:**\n\nThe performance of this system hinges on the effective optical coupling of the side-facing sensor and the robust mechanical integration provided by the fixing member. Accurate ambient light sensing from the edge could offer advantages in dynamic brightness adjustment, potentially leading to more consistent user experiences. For proximity sensing, this approach could enable more precise detection zones near the display's perimeter.\n\nFrom a code-level perspective, the integration of this sensor would involve standard sensor driver development. The operating system or application layer would interface with the photo sensor via its embedded controller, processing data from the side-facing sensor. Calibration algorithms would be particularly important to account for the unique optical path and any potential interference from the display itself. Software would translate raw sensor data into actionable insights for display brightness control, proximity-based interactions, or gesture recognition. This innovation primarily impacts hardware architecture but necessitates tailored software to fully leverage its capabilities, particularly in signal processing and interpretation for the unique side-facing orientation.","business_analysis":"The Display Device patent (US-9852696) presents a compelling business proposition by directly addressing a critical design and manufacturing challenge in the highly competitive display market: seamless sensor integration in bezel-less devices. This innovation is not merely a technical refinement; it offers significant competitive advantages and opens new revenue streams across various industries.\n\n**Market Opportunity Size:**\nThe global display market is enormous and continues to grow, driven by demand for smartphones, tablets, wearables, automotive infotainment, smart home devices, and industrial control panels. Within this market, the trend towards larger screen-to-body ratios and minimalist aesthetics is universal. The challenge of integrating essential sensors (ambient light, proximity, gesture) without compromising design has been a persistent pain point. This patent provides a elegant solution, tapping into a market segment hungry for truly integrated, aesthetically pleasing, and functional displays. The total addressable market for display panels that could benefit from this technology runs into hundreds of billions of dollars annually, with a significant premium available for technologies that enable superior design and user experience.\n\n**Competitive Advantages:**\n\n1.  **Superior Aesthetics**: The primary advantage is the ability to achieve truly bezel-less or near bezel-less designs without visible sensor cutouts. This is a powerful differentiator in consumer electronics, where design is often a key purchasing factor.\n2.  **Enhanced Functionality**: By integrating sensors directly into the display's edge, this technology can enable new forms of interaction (e.g., edge gestures, more precise ambient light sensing) that current front-mounted sensors might not support as effectively.\n3.  **Manufacturing Efficiency**: Integrating sensors into the display's structural components (connector and fixing member) could streamline assembly processes, potentially reducing the number of discrete components and assembly steps required, leading to lower manufacturing costs and higher yields.\n4.  **IP Protection**: Owning this patent provides a strong intellectual property barrier, allowing the assignee to license the technology or gain a first-mover advantage in product development, deterring competitors from easily replicating the solution.\n\n**Revenue Potential and Business Models:**\n\nRevenue potential is substantial. The technology could be licensed to display manufacturers (e.g., Samsung Display, LG Display, BOE) or directly to device OEMs (e.g., Apple, Samsung, Google, automotive manufacturers). Potential business models include:\n\n*   **Licensing Fees**: Charging per-unit royalties for display panels or devices incorporating this patented technology.\n*   **Component Sales**: Manufacturing and selling the specialized connectors and fixing members that integrate the photo sensors.\n*   **Value-Added Displays**: Offering complete display modules with pre-integrated sensors, commanding a premium price.\n\n**Strategic Positioning:**\n\nThis innovation strategically positions the patent holder as a leader in advanced display integration and sensor technology. It allows for differentiation in a crowded market by enabling products that offer both cutting-edge design and enhanced functionality. Companies adopting this technology can market their devices as truly 'all-screen' or 'seamless,' resonating strongly with consumer preferences.\n\n**ROI Projections:**\n\nThe return on investment for developing and commercializing this patent could be very high. Given the pervasive demand for improved display aesthetics and functionality, even a small royalty percentage across a fraction of the global display market could generate significant returns. For a device manufacturer, the ROI comes from increased market share, higher average selling prices (ASPs) due to premium features, and potential cost savings in assembly. The strategic value of enabling next-generation product designs alone can justify substantial investment, making this Display Device patent a key enabler for future product roadmaps across diverse industries.","faqs":[{"answer":"The Display Device patent, US-9852696, describes an innovative display assembly designed to integrate a photo sensor directly into its structural components, specifically along the display's edge. This invention aims to overcome the traditional challenges of placing sensors in modern, bezel-less displays, which often require visible cutouts or compromise design aesthetics.\n\nAt its core, the Display Device features a first and second substrate, characteristic of most display panels. The key innovation lies in a specialized connector that not only provides electrical connections between these substrates but also structurally covers portions of their side surfaces. This connector then serves as the mounting point for a photo sensor.\n\nThe photo sensor is strategically positioned on this connector, oriented to face the side surface of the first substrate. This unique placement allows the sensor to detect environmental conditions or interactions from the display's periphery, rather than requiring a direct view through the display's active area or an exposed front-facing position. A fixing member is also incorporated between the first substrate and the connector, into which the photo sensor is securely inserted, ensuring precise alignment and robust integration. This Display Device technology enables the creation of truly seamless, full-screen devices with enhanced sensing capabilities.\n\nKeywords: Display Device, patent US-9852696, photo sensor, display integration, bezel-less, display technology.","question":"What is Display Device?"},{"answer":"The Display Device patent works by ingeniously relocating the photo sensor from the traditional front-facing position to the side edge of the display panel. The display itself consists of two main layers, a first substrate and a second substrate, which are typical components of an LCD or OLED screen.\n\nA crucial element is a specially designed connector. This connector serves a dual purpose: it electrically links the first and second substrates, and it also structurally wraps around and covers a portion of their side surfaces. This structural extension is vital as it provides the physical space and support for the integrated sensor. The photo sensor is then mounted directly onto this connector.\n\nWhat makes this invention unique is that the photo sensor is oriented to face the *side surface* of the first substrate. This means the sensor 'looks' outwards from the display's edge, allowing it to detect ambient light, proximity, or other optical signals without needing a visible opening on the front of the screen. To ensure the sensor is stable and optically optimized, a fixing member is precisely placed between the first substrate and the connector, and the photo sensor is securely inserted into this member. This robust integration guarantees accurate sensing while preserving the display's sleek, uninterrupted aesthetic. This approach allows the Display Device to offer advanced functionality without compromising design.\n\nKeywords: Display Device function, photo sensor placement, edge sensing, connector, fixing member, display architecture.","question":"How does Display Device work?"},{"answer":"The Display Device patent primarily solves the persistent problem of integrating essential environmental sensors into modern, bezel-less displays without compromising aesthetic appeal or functional performance. As consumer demand for edge-to-edge screens has grown, device manufacturers have struggled with where to place sensors like ambient light sensors (ALS) and proximity sensors (PS).\n\nTraditional solutions typically involve visible interruptions such as notches, punch-holes, or thicker bezels, which detract from the immersive full-screen experience. While under-display sensor technologies exist, they often come with challenges like increased manufacturing complexity, higher costs, or reduced sensor accuracy due to optical attenuation from the display layers. These compromises have forced designers to choose between a sleek look and critical functionality.\n\nThe Display Device offers an elegant solution by providing a method to embed the photo sensor discreetly within the display's structural edge. This allows for truly uninterrupted display surfaces, eliminating the need for visible cutouts and thereby enhancing the visual appeal of electronic devices. By solving this fundamental design conflict, the Display Device enables a new generation of devices that are both aesthetically superior and functionally uncompromised.\n\nKeywords: Display Device problem, bezel-less design, sensor integration challenge, notches, punch-holes, display aesthetics.","question":"What problem does Display Device solve?"},{"answer":"The specific inventors of the Display Device patent (US-9852696) are not listed in the provided patent data. Often, patent abstracts and initial public filings might omit inventor names if the patent is assigned to a corporation, or if the information is not publicly available in all summary formats.\n\nHowever, it's common for such innovations to be the result of a collaborative effort by a team of engineers and researchers working within a technology company or research institution. These teams typically focus on addressing specific challenges in product design and manufacturing, such as the integration of components into shrinking form factors.\n\nWithout the specific inventor names, we can infer that the Display Device is a product of focused research and development in the field of display technology and sensor integration, likely by experts in materials science, optics, and electrical engineering. The assignee, if listed, would typically be the company that owns the intellectual property and whose employees likely developed the invention.\n\nKeywords: Display Device inventors, patent assignee, US-9852696, display technology research, innovation team.","question":"Who invented Display Device?"},{"answer":"The Display Device patent (US-9852696) offers several significant benefits that address critical needs in modern electronic device design and functionality.\n\nFirstly, it enables **truly bezel-less and full-screen designs**. By integrating the photo sensor into the display's edge, the invention eliminates the need for visible notches, punch-holes, or thicker bezels that traditionally house sensors. This results in a superior aesthetic and a more immersive user experience, which is highly valued in consumer electronics.\n\nSecondly, the Display Device allows for **enhanced and reliable sensor functionality**. The strategic placement of the photo sensor on the connector, facing the side surface of the first substrate, potentially offers a less obstructed optical path compared to under-display sensors, which might suffer from light attenuation through display layers. The inclusion of a robust fixing member ensures precise optical alignment and mechanical stability, contributing to consistent and accurate sensor readings.\n\nFinally, this innovation could lead to **streamlined manufacturing and new design possibilities**. By integrating the sensor into existing display structural components, it may simplify assembly processes and reduce the number of discrete parts. Moreover, the edge-based sensing approach opens doors for novel user interactions, such as gestures detected along the display's perimeter, further enhancing the device's capabilities. These benefits collectively make the Display Device a critical advancement for next-generation smart devices.\n\nKeywords: Display Device benefits, bezel-less, full-screen, enhanced sensor performance, manufacturing efficiency, new interactions, immersive experience.","question":"What are the key benefits of Display Device?"},{"answer":"The Display Device patent (US-9852696) differentiates itself significantly from prior art in its approach to sensor integration within display assemblies. Traditional methods typically involve placing sensors on the front face of a device, leading to visible design compromises, or attempting to place them under the display with inherent performance challenges.\n\nPrior art solutions often include: 1) **Notches or Punch-holes**: Physical cutouts within the active display area to house front-facing sensors and cameras. While common, these visibly interrupt the screen. 2) **Thick Bezels**: Early designs simply had larger borders around the screen to accommodate sensors. 3) **Under-Display Sensors**: Placing sensors beneath the display panel, which, while aesthetically pleasing, can suffer from signal attenuation due to the display layers, requiring complex compensation or specialized, expensive display materials.\n\nIn contrast, the Display Device introduces a **side-facing photo sensor** integrated into a structural connector that wraps around the display's edge. This means the sensor 'looks' outwards from the display's side, rather than through the front or from an exposed position. Furthermore, the use of a **precision fixing member** to securely insert the sensor ensures optimal optical alignment and mechanical stability, a level of integrated robustness not typically found in simpler edge-mounted solutions. This unique combination of side-placement, structural integration, and precise fixation allows the Display Device to achieve truly bezel-less designs without the aesthetic or performance trade-offs inherent in much of the prior art.\n\nKeywords: Display Device vs prior art, sensor integration methods, bezel-less comparison, notch, punch-hole, under-display sensor, edge-based sensing.","question":"How is Display Device different from prior art?"},{"answer":"The Display Device patent (US-9852696) has the potential to significantly impact a wide array of industries that rely on advanced display technology and seamless user interfaces.\n\n**Consumer Electronics**: This is perhaps the most immediate and profound impact. Smartphones, tablets, smartwatches, and other wearables will benefit immensely from the ability to achieve truly bezel-less designs without compromising on essential features like adaptive brightness or proximity sensing. This will drive new product designs and enhance user experience, leading to greater market differentiation.\n\n**Automotive Industry**: Modern vehicles are increasingly integrating large, sophisticated displays for infotainment, navigation, and driver assistance. The Display Device can enable more aesthetically pleasing and functionally robust in-car displays, allowing for seamless integration into dashboard designs while supporting advanced touchless controls or driver monitoring systems from the display's edge.\n\n**Smart Home Devices and IoT**: Devices like smart speakers with displays, smart thermostats, and home control panels can leverage this technology to offer minimalist designs that blend into home aesthetics, providing intuitive interactions without visible sensors. The Display Device could also enhance the functionality of various Internet of Things (IoT) devices requiring compact, integrated displays.\n\n**Industrial and Medical Equipment**: In environments where robust and clean interfaces are crucial, such as medical monitoring devices or industrial control panels, the Display Device can enable durable, integrated displays with hidden sensing capabilities, improving both functionality and hygiene. The technology's ability to create sleek, high-performing displays will drive innovation across these diverse sectors.\n\nKeywords: Display Device impact, consumer electronics, automotive displays, smart home, IoT, industrial equipment, medical devices, industry innovation.","question":"What industries will Display Device impact?"},{"answer":"The Display Device patent, officially known as US-9852696, has specific dates associated with its lifecycle within the patent office.\n\nAccording to the provided data, the **Filing Date** for this patent was **2015-06-18**. This date marks when the patent application was first submitted to the patent office, initiating the examination process. The filing date is crucial as it typically establishes the priority date for the invention, meaning that the inventor's claims for the Display Device are considered from this point forward.\n\nThe **Publication Date** for the Display Device patent was **2017-12-26**. This is the date when the patent document was formally published by the patent office, making its details publicly accessible. While the abstract and certain information might be published earlier, the publication date refers to the official grant and public release of the full patent specification, including claims and detailed descriptions. This signifies that the patent examination process was completed, and the patent was formally granted, providing legal protection for the invention.\n\nKeywords: Display Device filing date, Display Device publication date, patent timeline, US-9852696, patent grant, patent process.","question":"When was Display Device filed/granted?"},{"answer":"The Display Device patent (US-9852696) has a broad range of commercial applications, primarily driven by the increasing demand for aesthetically pleasing, highly functional, and seamlessly integrated electronic devices across various sectors.\n\n**Smartphones and Tablets**: The most prominent application is in creating truly bezel-less smartphones and tablets. This technology enables manufacturers to eliminate notches and punch-holes, offering consumers a more immersive and visually appealing full-screen experience. This can be a key differentiator in a highly competitive market, allowing for premium pricing and increased market share for devices incorporating this innovation.\n\n**Wearable Technology**: For smartwatches, fitness trackers, and augmented reality (AR) glasses, the Display Device can facilitate thinner, lighter, and more stylish designs. Integrating sensors discreetly into the display's edge allows for advanced features like always-on ambient light sensing or subtle gesture controls without adding bulk or compromising aesthetics, enhancing wearability and user acceptance.\n\n**Automotive Infotainment and Displays**: The automotive industry is rapidly adopting large, integrated displays. The Display Device can enable seamless integration of these screens into vehicle interiors, providing a cleaner, more futuristic aesthetic. Hidden edge sensors could support advanced driver-assistance systems (ADAS) or intuitive gesture controls for infotainment, improving both safety and user experience.\n\n**Smart Home and IoT Devices**: Wall-mounted smart home panels, smart speakers with displays, and other IoT devices can leverage this technology for minimalist designs that blend into home décor. The ability to embed sensors invisibly allows for more sophisticated and context-aware interactions in smart environments, driving adoption and functionality in the growing smart home market. These diverse applications highlight the significant commercial value of the Display Device patent.\n\nKeywords: Display Device applications, commercial use, smartphones, wearables, automotive displays, smart home, IoT devices, market differentiation.","question":"What are the commercial applications of Display Device?"},{"answer":"The Display Device patent (US-9852696) lays a foundational groundwork for several exciting future developments in display and sensor technology. Its core innovation of edge-based, integrated sensing opens up numerous possibilities for enhanced functionality and design.\n\nOne key future development is the **expansion to multi-sensor arrays**. While the current patent focuses on a photo sensor, the structural integration method could be adapted to incorporate other types of sensors along the display's edge. This might include infrared (IR) emitters and receivers for more sophisticated proximity detection, advanced gesture recognition, or even biometric sensors. Imagine a display that can detect your hand gestures or even identify your fingerprint by sensing from its side.\n\nAnother expected development is the **optimization of optical and material properties** for the fixing member and connector. Future research could focus on smart materials that dynamically adjust their optical properties to enhance sensor performance in varying conditions, or materials that are ultra-thin and highly durable for even more flexible and robust display designs. This would further improve the accuracy and reliability of the integrated sensors.\n\nFurthermore, the Display Device could enable **new interaction paradigms**. With sensors discreetly embedded around the display's periphery, developers could create novel user interfaces that respond to subtle touches or gestures along the screen's edge, offering a more intuitive and immersive experience. This could lead to a future where displays are not just visual output devices but highly intelligent, adaptive, and interactive surfaces that blend seamlessly into our digital and physical environments, powering advancements in augmented reality, smart surfaces, and ubiquitous computing. These advancements would further solidify the Display Device's role as a key enabler for next-generation technology.\n\nKeywords: Display Device future, multi-sensor integration, optical optimization, new interaction paradigms, smart surfaces, augmented reality, display technology roadmap.","question":"What are the future developments expected for Display Device?"}],"topics":["display device","photo sensor integration","bezel-less display","display technology patent","edge sensing","evolution","display","technology"],"tech_cluster":null},"seo":{"title":"Display Device - Integrated Photo Sensor Patent US-9852696","description":"Discover the Display Device patent (US-9852696) integrating photo sensors into display edges for seamless, bezel-less screens. Technical analysis, claims, and applications.","keywords":["display device","photo sensor integration","bezel-less display","display technology patent","edge sensing","display innovation","US-9852696","display manufacturing","consumer electronics","seamless screen","ambient light sensor","proximity sensor","display architecture"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852696","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-9852696","citation_suggestion":"Patentable. \"Display device\" (US-9852696). https://patentable.app/patents/US-9852696","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852696","json":"https://patentable.app/api/llm-context/US-9852696","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T04:57:00.718Z"}