{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853092","patent":{"patent_number":"US-9853092","title":"OLED display device having touch sensor and method of manufacturing the same","assignee":null,"inventors":[],"filing_date":"2013-09-11T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G06F","G06F","G06F"],"num_claims":13,"abstract":"An OLED display device having a touch sensor is provided. The touch sensor includes a base layer; a plurality of first touch electrodes arranged in a first direction on a first surface of the base layer; a plurality of second touch electrodes arranged in a second direction crossing the first direction on a second surface of the base layer; a plurality of first routing wires connected to the first touch electrodes on the first surface of the base layer, respectively; a plurality of second routing wires separated from the plurality of first routing wires and formed on the first surface of the base layer; and a plurality of third routing wires connected to the second routing wires respectively via holes, and formed on the second surface of the base layer. The base layer is one of a barrier layer, an anti-scratch layer, and a circular polarization layer."},"analysis":{"summary":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same patent (US-9853092) introduces a sophisticated solution for integrating touch sensor functionality directly into OLED display panels, addressing common issues of increased thickness and compromised optical performance. The core innovation lies in its unique touch sensor architecture, which utilizes a single, multi-functional base layer—such as a barrier, anti-scratch, or circular polarization layer—to house both sets of touch electrodes.\n\nSpecifically, the invention describes a plurality of first touch electrodes and their corresponding routing wires arranged in a first direction on one surface of this base layer. Concurrently, a plurality of second touch electrodes, arranged in a second, crossing direction, are formed on the opposing surface of the same base layer. These second electrodes are ingeniously connected to their respective routing wires, which are also located on the first surface, through a series of via holes passing through the base layer. This strategic separation of electrode types across the base layer, coupled with efficient routing wire placement, minimizes interference and optimizes space.\n\nThis technical approach solves the long-standing problem of needing separate, bulky touch panel layers, which typically add significant thickness and degrade the optical clarity of OLED displays. By integrating the touch sensor components onto an existing functional display layer, this patent enables the creation of significantly thinner, more durable, and optically superior OLED devices. The innovation streamlines the manufacturing process, potentially reducing production costs and increasing yield rates for advanced touch-enabled displays.\n\nThe business value of this patent is substantial. It opens up new market opportunities for ultra-thin, high-performance devices across consumer electronics (smartphones, wearables), automotive, and industrial applications. Manufacturers can achieve product differentiation through superior design, reduced material usage, and enhanced user experience. This patent represents a strategic advancement in display technology, paving the way for the next generation of integrated, intuitive, and robust interactive screens.","layman_explanation":"### 1. What Problem Does This Solve?\n\nImagine trying to make a very thin, elegant smartphone or smart TV. One of the biggest challenges manufacturers face is how to add 'touch' capability without making the screen too thick, too dim, or too complicated to build. Historically, touch screens work by adding a separate, transparent layer on top of the actual display. This extra layer, while functional, acts like an additional piece of glass or plastic, which inevitably adds bulk, can slightly reduce the screen's brightness and clarity, and makes the whole assembly process more complex and costly. This patent, the Oled Display Device Having Touch Sensor and Method of Manufacturing the Same, directly addresses these compromises.\n\n### 2. How Does It Work?\n\nThis innovation offers a remarkably elegant solution. Instead of adding an *entirely new* separate layer for touch, this patent proposes using one of the existing, essential layers already present in an OLED display as the foundation for the touch sensor. Think of it like a multi-purpose ingredient. This base layer could be the protective 'barrier layer' that keeps moisture out, an 'anti-scratch layer' for durability, or a 'circular polarization layer' that helps you see the screen better in sunlight. \n\nThe clever part is how the touch sensor is built onto this single layer. It places one set of touch-sensing wires (imagine tiny, invisible grids) on the *top surface* of this special base layer. Then, it places another set of touch-sensing wires, running in a perpendicular direction, on the *bottom surface* of the very *same* layer. To connect these wires to the device's electronics, tiny, precise holes are made through this base layer, allowing signals to pass from the bottom-side wires to other wires on the top surface, which then connect to the main circuit. This 'dual-sided on one layer' approach is key.\n\n### 3. Why Does This Matter?\n\nThis approach delivers significant business value. First, it enables the creation of **significantly thinner devices**. For premium smartphones, wearables, and cutting-edge televisions, every millimeter counts. Second, by removing unnecessary layers, it **improves the optical quality** of the OLED display, making colors more vibrant and images brighter, which directly enhances the user experience. Third, it **simplifies the manufacturing process** and potentially **reduces production costs**. Fewer layers mean fewer components to source, fewer alignment challenges, and a more streamlined assembly line, which can lead to higher profit margins. Finally, if an anti-scratch layer is used as the base, the entire display becomes **more durable**, a critical factor for consumer satisfaction and product longevity. This innovation provides a clear competitive advantage for companies adopting it, allowing them to differentiate their products in a crowded market with superior design and performance.\n\n### 4. What's Next?\n\nThis patent lays a strong foundation for the next generation of interactive displays. We can expect to see even sleeker and more robust devices across various sectors, from consumer electronics to automotive infotainment systems and industrial control panels. The market adoption timeline will depend on manufacturing scalability and cost-effectiveness, but the fundamental benefits suggest a strong trajectory. For investors, this represents an opportunity to back companies positioned at the forefront of display technology, capable of delivering premium, high-performance products that meet evolving consumer demands for integration and elegance.","technical_analysis":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same patent (US-9853092) details a highly innovative approach to integrating touch sensor functionality within Organic Light-Emitting Diode (OLED) display devices. This technology directly addresses the inherent challenges of traditional touch panel integration, which often lead to increased device thickness, reduced optical transparency, and complex manufacturing processes. The core technical breakthrough lies in the novel architecture of the touch sensor and its method of fabrication.\n\n**Technical Architecture and Component Integration:**\nThe central element of this invention is a multi-functional **base layer**, which serves not only as a structural component for the touch sensor but also fulfills a critical role within the OLED display stack itself. This base layer can be one of a barrier layer (protecting OLEDs from moisture and oxygen), an anti-scratch layer (enhancing durability), or a circular polarization layer (improving outdoor visibility and reducing reflections). By leveraging an existing display layer, the patent significantly reduces the overall layer count and thickness of the display module.\n\nOn this base layer, the touch sensor is constructed with a sophisticated dual-sided electrode arrangement:\n\n1.  **First Touch Electrodes (Tx/Rx)**: A plurality of these electrodes, typically arranged in a first direction (e.g., X-axis for sensing), are formed on the **first surface** (e.g., top side) of the base layer. Corresponding **first routing wires** are also formed on this same first surface, connecting to their respective first touch electrodes.\n2.  **Second Touch Electrodes (Tx/Rx)**: A plurality of these electrodes, arranged in a second direction (e.g., Y-axis for sensing) that crosses the first direction, are formed on the **second surface** (e.g., bottom side) of the base layer. The critical innovation here is the connection mechanism: **third routing wires** are formed on the second surface and connect to these second touch electrodes. These third routing wires then connect to **second routing wires** formed on the **first surface** of the base layer, with the connection facilitated by **via holes** that pass through the base layer itself.\n\nThis precise arrangement ensures that the X and Y sensing electrodes are spatially separated on different surfaces of a single substrate, effectively minimizing electrical interference and crosstalk that can plague single-layer or closely stacked designs. The routing wires for both sets of electrodes are primarily consolidated on the first surface, further simplifying the connection to external driver ICs while maintaining a compact footprint.\n\n**Implementation Details and Performance Characteristics:**\nFrom an implementation perspective, the fabrication process would involve advanced thin-film deposition and patterning techniques. The formation of electrodes and routing wires on both sides of a delicate functional layer requires high precision photolithography and etching. The creation of reliable via holes through the barrier or polarization layer is also a key manufacturing challenge that must be meticulously controlled to ensure electrical continuity and maintain the integrity of the base layer's primary function.\n\nPerformance-wise, this integrated design offers several advantages:\n\n*   **Optical Clarity**: Eliminating separate touch panel layers and associated adhesives reduces light absorption and reflection, leading to higher transmittance, brighter displays, and improved color accuracy and contrast.\n*   **Reduced Thickness**: The most apparent benefit is the significant reduction in the overall thickness of the display module, enabling sleeker device designs.\n*   **Enhanced Durability**: If an anti-scratch layer is used as the base, the touch sensor benefits from its inherent robustness, improving the device's resilience to wear and tear.\n*   **Improved Touch Accuracy and Responsiveness**: The optimized separation and routing of electrodes contribute to better signal-to-noise ratio, leading to more precise and responsive touch detection.\n\n**Integration Patterns and Code-Level Implications:**\nWhile the patent primarily focuses on hardware architecture, the streamlined integration at the hardware level simplifies the software interface. A unified driver can manage the integrated touch sensor, potentially reducing latency and improving overall system responsiveness. Developers would interact with a more direct and efficient touch input pipeline, potentially enabling more complex multi-touch gestures and finer control. The reduced physical complexity also implies fewer points of failure in the touch stack, leading to more reliable sensor data.\n\nThis innovation represents a significant step forward in the quest for truly seamless and high-performance interactive displays, setting a new benchmark for integrated sensor technology in OLED panels.","business_analysis":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same patent (US-9853092) presents a compelling business opportunity by addressing critical limitations in current OLED display manufacturing and design. This innovation is not merely a technical refinement; it offers strategic advantages that can reshape competitive landscapes and unlock new revenue streams across several industries.\n\n**Market Opportunity Size and Growth:**\nThe global OLED display market is projected to grow substantially, driven by demand from smartphones, smartwatches, televisions, and emerging applications in automotive and augmented/virtual reality. The touch-enabled segment of this market is even larger, as interactive displays are becoming standard. This patent targets a crucial pain point – the trade-off between display quality, thickness, and touch integration – positioning it to capture significant value within this expanding market. Companies that license or implement this technology can gain a competitive edge in a market hungry for thinner, more robust, and optically superior displays.\n\n**Competitive Advantages:**\nThis patent offers several distinct competitive advantages:\n\n1.  **Product Differentiation**: Devices utilizing this technology can boast superior aesthetics (ultra-thin profile, bezel-less designs), enhanced user experience (brighter displays, precise touch response), and improved durability (integrated anti-scratch or barrier layer). These features are premium selling points in a crowded market.\n2.  **Cost Efficiency in Manufacturing**: By integrating the touch sensor onto an existing display layer, the patent eliminates the need for a separate touch panel module, reducing material costs, simplifying the supply chain, and streamlining assembly processes. This can lead to lower manufacturing costs and higher profit margins.\n3.  **Intellectual Property Protection**: Owning or licensing this patented technology provides a strong barrier to entry for competitors attempting to replicate the same level of integrated performance without infringing on the IP.\n4.  **Technological Leadership**: Adopting this innovative approach positions a company as a leader in advanced display technology, attracting top talent and fostering further innovation.\n\n**Revenue Potential and Business Models:**\nThe revenue potential stems from both direct product sales and licensing opportunities. Manufacturers of consumer electronics can leverage this technology to create higher-value products with premium pricing. Display panel manufacturers can license the technology to device makers or integrate it into their panel offerings, commanding higher prices for integrated solutions. Potential business models include:\n\n*   **Direct Integration**: Device manufacturers incorporate the patented method into their product lines.\n*   **Technology Licensing**: The patent holder licenses the technology to display panel manufacturers or device OEMs.\n*   **Joint Ventures/Partnerships**: Collaborating with key players to accelerate market adoption and co-develop next-generation products.\n\n**Strategic Positioning and ROI Projections:**\nStrategically, this patent enables companies to solidify their position in the high-end display market and expand into new segments requiring sophisticated, compact display solutions (e.g., foldable phones, smart surfaces). The ROI on investment in this technology is projected to be high due to:\n\n*   **Market Share Gain**: Capturing a larger share of the premium and advanced display segments.\n*   **Reduced R&D Costs**: Leveraging a proven, patented solution rather than investing heavily in internal R&D for touch integration.\n*   **Operational Efficiencies**: Savings from streamlined manufacturing and reduced material waste.\n\nIn conclusion, the Oled Display Device Having Touch Sensor and Method of Manufacturing the Same is a powerful asset for any business operating in or looking to enter the advanced display market. It offers a clear path to product innovation, cost reduction, and market leadership, making it a highly attractive proposition for investors and strategic partners alike.","faqs":[{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same (US-9853092) is a groundbreaking patent that describes an innovative design for integrating a touch sensor directly into an Organic Light-Emitting Diode (OLED) display device. Unlike traditional methods that add a separate, distinct touch panel layer, this invention proposes a more seamless and efficient approach.\n\nAt its core, the technology utilizes a single, existing functional layer within the OLED display stack—such as a barrier layer, an anti-scratch layer, or a circular polarization layer—as the base for the touch sensor. This means the touch-sensing components are not an add-on, but an integral part of a layer already essential to the display's operation or protection.\n\nThis integrated design aims to overcome common issues associated with conventional touch screens, such as increased device thickness, reduced optical clarity, and complex manufacturing processes. By doing so, the Oled Display Device Having Touch Sensor and Method of Manufacturing the Same paves the way for thinner, brighter, and more robust touch-enabled OLED displays. Keywords: OLED display, touch sensor, integrated technology, US-9853092, display innovation.","question":"What is Oled Display Device Having Touch Sensor and Method of Manufacturing the Same?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same operates on a principle of dual-sided electrode placement on a single, multi-functional base layer. Here's a breakdown of its mechanism:\n\nFirst, a base layer, which is already a critical component of the OLED display (e.g., barrier, anti-scratch, or circular polarization layer), is chosen. On one surface of this base layer, a set of 'first touch electrodes' (e.g., for X-axis sensing) and their connecting 'first routing wires' are formed.\n\nSecond, on the *opposite surface* of the *very same* base layer, a set of 'second touch electrodes' (e.g., for Y-axis sensing) are formed. To connect these second electrodes to the necessary control circuitry, 'third routing wires' are also formed on this second surface. These third routing wires then connect to 'second routing wires,' which are actually located back on the *first surface* of the base layer, through tiny, precisely drilled 'via holes' that pass through the base layer itself.\n\nThis clever arrangement physically separates the X and Y sensing electrodes by the thickness of the base layer, minimizing electrical interference. All primary routing connections are consolidated on one surface, simplifying the overall electrical interface. Keywords: touch sensor mechanism, OLED integration, dual-sided electrodes, via holes, display manufacturing process.","question":"How does Oled Display Device Having Touch Sensor and Method of Manufacturing the Same work?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same patent primarily solves several long-standing problems associated with integrating touch sensors into OLED displays:\n\n1.  **Increased Thickness**: Traditional touch panels add significant bulk to the overall display module, hindering the creation of ultra-thin devices. This invention dramatically reduces thickness by utilizing an existing display layer.\n2.  **Compromised Optical Performance**: Extra layers in conventional designs can reduce light transmittance, leading to dimmer displays, reduced contrast, and less vibrant colors. This integrated approach minimizes optical loss, preserving OLED's inherent visual superiority.\n3.  **Manufacturing Complexity and Cost**: Aligning and laminating multiple delicate layers for touch functionality increases production steps, material costs, and potential for defects. The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same simplifies this by integrating components onto a single, pre-existing layer.\n4.  **Durability Concerns**: More layers mean more interfaces where delamination or damage can occur. By reducing layers and potentially using a robust base (like an anti-scratch layer), this innovation enhances overall display durability. Keywords: display challenges, thinness, optical clarity, manufacturing efficiency, touch screen problems.","question":"What problem does Oled Display Device Having Touch Sensor and Method of Manufacturing the Same solve?"},{"answer":"The patent for Oled Display Device Having Touch Sensor and Method of Manufacturing the Same (US-9853092) does not list specific inventors in the provided data. Patents are typically filed by individuals or research teams and then assigned to a company or organization. In cases where inventor names are not explicitly provided in a high-level abstract, they would be detailed within the full patent document itself, usually in the 'Inventors' section.\n\nAssignee information, which indicates the legal owner of the patent, is also not provided in the prompt. This information is crucial for understanding which entity holds the rights to this innovative display technology. Without these details, it is not possible to specify the inventors or the assignee. Keywords: patent inventors, patent assignee, US-9853092, OLED patent ownership, display technology creators.","question":"Who invented Oled Display Device Having Touch Sensor and Method of Manufacturing the Same?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same offers a multitude of benefits for both manufacturers and end-users:\n\n1.  **Ultra-Thin Device Profiles**: By integrating the touch sensor onto an existing display layer, the need for a separate touch panel is eliminated, resulting in significantly thinner display modules and sleeker device designs.\n2.  **Superior Optical Performance**: Fewer layers mean less light absorption and reflection, leading to brighter, more vibrant OLED displays with enhanced contrast and color accuracy.\n3.  **Enhanced Durability**: If the chosen base layer is an anti-scratch or barrier film, the integrated touch sensor inherently benefits from the robustness of that layer, making the display more resilient.\n4.  **Streamlined Manufacturing**: The simplified architecture reduces component count, manufacturing steps, and assembly complexity, potentially leading to lower production costs and higher yield rates.\n5.  **Improved Touch Accuracy and Responsiveness**: The optimized electrode placement and reduced interference contribute to more precise and reliable touch detection. Keywords: OLED benefits, thin displays, display quality, manufacturing efficiency, device durability, touch accuracy.","question":"What are the key benefits of Oled Display Device Having Touch Sensor and Method of Manufacturing the Same?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same distinguishes itself significantly from prior art methods of touch integration, such as on-cell, in-cell, or add-on touch panels:\n\n1.  **Single Multi-Functional Base Layer**: Unlike prior art that uses a dedicated touch panel substrate (on-cell/add-on) or integrates electrodes within pixel arrays (in-cell), this invention builds the touch sensor directly onto an *existing, functional* OLED display layer (e.g., barrier, anti-scratch, or polarization layer). This is a fundamental difference in material utilization.\n2.  **Dual-Sided Electrode Placement**: Instead of placing all electrodes on one side or within the display pixels, this patent strategically positions first touch electrodes on one surface and second touch electrodes on the *opposite surface* of the *same* base layer. This physical separation minimizes crosstalk more effectively than single-layer designs.\n3.  **Via Hole Interconnection**: The use of via holes to connect electrodes from the bottom surface to routing wires on the top surface for external connection is a unique aspect that simplifies external wiring while maintaining dual-sided sensing. This contrasts with more complex in-cell wiring or entirely separate connections for add-on panels. Keywords: prior art comparison, on-cell, in-cell, add-on touch, display technology differentiation, integrated touch sensor.","question":"How is Oled Display Device Having Touch Sensor and Method of Manufacturing the Same different from prior art?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same has the potential to significantly impact several key industries:\n\n1.  **Consumer Electronics**: This is the most direct impact, affecting smartphones, smartwatches, tablets, laptops, and televisions. It will enable thinner, lighter, more durable, and visually superior devices, enhancing user experience and opening doors for new product form factors like advanced foldables.\n2.  **Automotive**: The automotive sector increasingly relies on large, integrated touch displays for infotainment and control. This technology can lead to sleeker, more robust, and optically clearer displays for car dashboards and rear-seat entertainment systems.\n3.  **Wearable Technology**: For smartwatches, fitness trackers, and augmented reality (AR) glasses, minimizing thickness and maximizing display quality are paramount. This innovation is ideally suited for these compact, high-performance devices.\n4.  **Industrial and Medical Devices**: Applications requiring durable, high-resolution, and compact touch interfaces, such as industrial control panels, medical diagnostic equipment, and point-of-sale systems, will benefit from the enhanced reliability and integration offered by this patent. Keywords: industry impact, consumer electronics, automotive displays, wearable tech, industrial applications, medical devices.","question":"What industries will Oled Display Device Having Touch Sensor and Method of Manufacturing the Same impact?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same patent, identified by the number US-9853092, has specific key dates associated with its lifecycle:\n\n*   **Filing Date**: The patent application was initially filed on **September 11, 2013**.\n*   **Publication Date**: The patent was subsequently published (granted) on **December 26, 2017**.\n\nThese dates are crucial for understanding the patent's timeline, its position relative to other innovations, and the duration of its legal protection. The filing date establishes the priority date for the invention, while the publication date marks when the patent became publicly accessible and enforceable. Keywords: patent filing date, publication date, US-9853092, patent timeline, OLED patent dates.","question":"When was Oled Display Device Having Touch Sensor and Method of Manufacturing the Same filed/granted?"},{"answer":"The commercial applications of the Oled Display Device Having Touch Sensor and Method of Manufacturing the Same are extensive and diverse, spanning multiple high-growth markets:\n\n1.  **Premium Smartphones and Tablets**: Enabling manufacturers to create flagship devices with industry-leading thinness, superior optical performance, and enhanced durability, justifying premium pricing and strengthening brand loyalty.\n2.  **Advanced Wearables**: For smartwatches and other body-worn devices, the ability to integrate touch functionality into an ultra-thin, robust display is critical for aesthetics, comfort, and functionality.\n3.  **Foldable and Rollable Displays**: This technology is particularly well-suited for future flexible display form factors, where minimizing layers and maintaining structural integrity during bending are paramount.\n4.  **Automotive Infotainment Systems**: Integrating large, seamless touch displays into vehicle interiors, offering high visual quality and responsiveness while meeting stringent durability requirements.\n5.  **Smart Home Devices and Appliances**: Enhancing user interfaces for smart refrigerators, smart mirrors, and home control panels with sleek, integrated touch screens.\n6.  **Public Information Displays**: Enabling more robust and aesthetically pleasing interactive kiosks and digital signage. Keywords: commercial applications, OLED products, smartphone technology, foldable displays, automotive tech, smart home.","question":"What are the commercial applications of Oled Display Device Having Touch Sensor and Method of Manufacturing the Same?"},{"answer":"The Oled Display Device Having Touch Sensor and Method of Manufacturing the Same lays a strong foundation for future advancements in display technology. Expected developments include:\n\n1.  **Integration of Additional Sensors**: Building on the concept of a multi-functional base layer, future iterations may integrate other sensors like pressure sensors, biometric scanners (e.g., under-display fingerprint sensors), or even tiny cameras directly into the display stack, creating truly 'smart surfaces'.\n2.  **Enhanced Flexibility and Durability**: Further optimization of materials and fabrication processes could lead to even more flexible and inherently durable displays, enabling new form factors beyond current foldable designs, such as truly rollable or stretchable screens.\n3.  **Cost Reduction and Scalability**: As the manufacturing processes for this integrated approach mature, economies of scale will likely drive down production costs, making this advanced touch technology more accessible across a wider range of products and market segments.\n4.  **Advanced Optical Functions**: The base layer itself could evolve to include dynamic optical properties, such as adaptive polarization or variable transparency, controlled by integrated sensors and logic. Keywords: future display tech, sensor integration, flexible OLED, display durability, cost scalability, smart surfaces.","question":"What are the future developments expected for Oled Display Device Having Touch Sensor and Method of Manufacturing the Same?"}],"topics":["Oled Display Device Having Touch Sensor and Method of Manufacturing the Same","OLED touch sensor","integrated display","display technology patent","US-9853092","persistent","challenge","integrating"],"tech_cluster":null},"seo":{"title":"Oled Display Device Having Touch Sensor and Method of Manufacturing the Same - US-9853092","description":"Discover the Oled Display Device Having Touch Sensor and Method of Manufacturing the Same patent (US-9853092). Integrated touch sensor for thinner, brighter OLED displays. Full technical analysis.","keywords":["Oled Display Device Having Touch Sensor and Method of Manufacturing the Same","OLED touch sensor","integrated display","display technology patent","US-9853092","thin display","touch screen innovation","display manufacturing","flexible display","consumer electronics","patent analysis","electrode design","via holes","barrier layer","anti-scratch layer"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853092","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-9853092","citation_suggestion":"Patentable. \"OLED display device having touch sensor and method of manufacturing the same\" (US-9853092). https://patentable.app/patents/US-9853092","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853092","json":"https://patentable.app/api/llm-context/US-9853092","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T14:40:54.455Z"}