{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852675","patent":{"patent_number":"US-9852675","title":"Data compensator to mitigate luminance distortion of display device","assignee":null,"inventors":[],"filing_date":"2015-07-08T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G09G","G09G","G09G","G09G","G09G"],"num_claims":20,"abstract":"A data compensator includes a reference voltage drop generator, a voltage drop measurer, a compensation data generator, and an output block. The reference voltage drop generator generates reference voltage drops for color image data. The voltage drop measurer calculates pixel voltage drops based on color image data. The compensation data generator generates different color compensation data to compensate luminance and color coordinate distortion."},"analysis":{"summary":"The patent \"Data Compensator to Mitigate Luminance Distortion of Display Device\" introduces a novel system designed to significantly enhance the visual fidelity of display devices by dynamically correcting luminance and color coordinate distortions. This core innovation addresses the persistent problem of inconsistent display quality arising from manufacturing variances and environmental factors.\n\nThe system's technical approach is built around four key components: a reference voltage drop generator, a voltage drop measurer, a compensation data generator, and an output block. The reference voltage drop generator establishes ideal voltage responses for color image data. The voltage drop measurer then actively calculates the actual voltage drops at the pixel level, providing real-time performance data. This measured data is fed into the compensation data generator, which intelligently produces specific, differential color compensation data tailored to correct observed luminance and color coordinate inaccuracies.\n\nThis technology offers substantial business value across the display industry. It enables manufacturers to produce higher-quality, more consistent displays, reducing warranty claims and enhancing brand reputation. For consumers, it translates directly into a superior viewing experience with more accurate colors and uniform brightness, vital for content consumption, professional design, and immersive gaming. The market opportunity is vast, covering all segments of display technology, from consumer electronics like smartphones and TVs to specialized applications such as medical imaging and professional monitors. By ensuring optimal visual output, this patent positions itself to become a critical component in the next generation of high-performance display devices.","layman_explanation":"### What Problem Does This Solve?\nImagine you're buying a batch of high-definition televisions. Even though they all come off the same assembly line, some might have slightly brighter corners, or a subtle color tint that's a bit off from the others. These small imperfections, known as luminance distortion (uneven brightness) and color coordinate distortion (inaccurate colors), are a persistent headache for display manufacturers. They lead to customer complaints, product returns, and can diminish a brand's reputation for quality. Current solutions often involve costly manual calibration or broad-stroke software adjustments that don't fully address the granular, pixel-level inconsistencies. The business problem is clear: how to consistently deliver truly uniform and color-accurate displays at scale, without prohibitive costs.\n\n### How Does It Work?\nThink of the Data Compensator to Mitigate Luminance Distortion of Display Device as a highly intelligent, real-time quality control system built directly into a display. It doesn't just apply a general filter; it performs a sophisticated self-assessment and correction. First, it has an internal 'blueprint' of what a perfect display's electrical signals should look like for any given color (the 'reference voltage drop generator'). Then, as an image is being displayed, it actively 'listens' to the actual electrical signals coming from each tiny pixel on the screen (the 'voltage drop measurer').\n\nIf the actual signals don't match the perfect blueprint, the system's 'brain' (the 'compensation data generator') instantly calculates precisely what adjustments are needed. It's like a highly skilled artist adjusting the shade of paint for each individual brushstroke to ensure the final picture is flawless. These adjustments are then applied to the image data before it reaches your eye, correcting both brightness variations and color inaccuracies. The beauty is that it does this dynamically, for every frame, ensuring a consistently perfect picture, regardless of manufacturing quirks or even how the display ages over time.\n\n### Why Does This Matter?\nThis innovation matters because it directly impacts the perceived quality and value of any product with a screen. For businesses, it means a stronger competitive advantage, as they can guarantee superior visual performance. This leads to fewer product returns, lower warranty costs, and higher customer satisfaction. In industries like professional design, medical imaging, or gaming, where color accuracy and visual uniformity are paramount, this technology becomes a non-negotiable feature, potentially unlocking new market segments. From an investment perspective, companies adopting this patent could see increased market share, brand loyalty, and potentially higher profit margins due to premium pricing for enhanced display quality. It's about moving from 'good enough' displays to 'perfect' displays, which has a tangible return on investment.\n\n### What's Next?\nThe Data Compensator to Mitigate Luminance Distortion of Display Device sets a new standard for display technology. We can expect to see its principles integrated into next-generation display controllers across various devices, leading to a widespread improvement in visual experiences. This could accelerate the adoption of high-fidelity displays in new applications like advanced augmented reality (AR) and virtual reality (VR) headsets, where visual immersion is critical. The market adoption timeline will likely follow major display manufacturers integrating this capability into their flagship products, eventually trickling down to more mainstream devices. The investment implications are clear: this patent represents a foundational technology that will shape the future of visual computing.","technical_analysis":"The patent \"Data Compensator to Mitigate Luminance Distortion of Display Device\" (US-9852675) outlines a robust architecture for real-time compensation of luminance and color coordinate distortions in display devices. This technical analysis will dissect the core components and their interactions, highlighting the algorithmic implications and potential integration patterns.\n\n**System Architecture Overview:**\nAt its heart, the invention describes a data compensator composed of four primary functional blocks: a reference voltage drop generator, a voltage drop measurer, a compensation data generator, and an output block. This modular design suggests a flexible implementation, potentially as a dedicated ASIC, an integrated module within a display controller, or even a software-driven solution on a powerful SoC.\n\n**Reference Voltage Drop Generator:**\nThis block is responsible for establishing a 'ground truth' or ideal electrical response for various color image data inputs. It generates 'reference voltage drops' which represent the expected voltage characteristics across the display's sub-pixels or pixel groups under optimal conditions. This reference data could be derived from factory calibration, a golden sample, or a theoretical model. The precision of this reference is critical, as it forms the benchmark against which actual pixel performance is evaluated. It likely involves storing lookup tables or parametric models that map input color values to ideal voltage responses.\n\n**Voltage Drop Measurer:**\nThis is arguably the most innovative and active component. It dynamically 'calculates pixel voltage drops based on color image data'. This implies a real-time sensing capability that can monitor the actual electrical behavior of the display's driving circuitry and/or the pixel elements themselves. The measurement could involve: (1) direct voltage sensing at key points in the display driver ICs, (2) inferring voltage drops from current draw characteristics, or (3) employing sensor arrays integrated with the display panel (though less likely for general application due to cost/complexity). The ability to measure 'pixel voltage drops' suggests a granular, potentially sub-pixel level of analysis, crucial for precise correction.\n\n**Compensation Data Generator:**\nThis block is the 'brain' of the compensator. It receives the measured pixel voltage drops from the measurer and compares them against the reference voltage drops. Based on this deviation, it generates 'different color compensation data'. The term 'different' is key, indicating that the compensation is not uniform across all colors or pixels, but rather tailored. The underlying algorithm would likely involve: (1) a differential calculation to quantify the error, (2) an inverse transformation or adaptive filter to determine the necessary correction, and (3) a mapping function to translate this correction into adjustments for the original color image data. This could involve modifying RGB values, adjusting gamma curves, or applying non-linear transformations to individual color channels to correct both luminance (brightness) and color coordinate (chromaticity) errors simultaneously. The complexity here lies in accurately decoupling and correcting these often-interdependent distortions.\n\n**Output Block:**\nOnce the compensation data is generated, the output block applies these corrections to the original color image data. This adjusted data is then sent to the display panel. The implementation could involve a digital signal processing (DSP) stage that modifies pixel values before digital-to-analog conversion, or it could feed control signals to the display's timing controller (T-Con) or source/gate drivers to adjust voltage levels or pulse widths. The goal is to ensure the compensated data results in the desired visual output, free from distortion.\n\n**Performance Characteristics & Integration:**\nFor practical application, the entire process must operate with extremely low latency to avoid introducing visual artifacts or lag. This necessitates efficient hardware implementation and optimized algorithms. Integration would typically occur within the display's image processing pipeline, either upstream of the timing controller or directly within the display driver ICs. The system's ability to adapt to varying image content and environmental conditions makes it a powerful tool for maintaining consistent display quality over time and across different operating scenarios. The technical implications point towards more intelligent, self-correcting display systems that move beyond static factory calibration to dynamic, real-time optimization.","business_analysis":"The patent \"Data Compensator to Mitigate Luminance Distortion of Display Device\" (US-9852675) presents a compelling business opportunity by addressing a fundamental challenge in the display industry: maintaining consistent and accurate visual quality. This innovation has the potential to significantly impact market dynamics, create new revenue streams, and offer substantial competitive advantages.\n\n**Market Opportunity Size:**\nThe global display market is enormous, encompassing everything from small wearable screens and smartphones to large format TVs, professional monitors, automotive displays, and emerging AR/VR devices. Every single one of these segments suffers, to varying degrees, from luminance and color distortion. The ability to mitigate these issues at a fundamental level unlocks a market opportunity that spans billions of units annually. The demand for higher visual fidelity is constantly increasing, driven by content creators, gamers, and everyday consumers who expect pristine images. This patent taps directly into that universal demand.\n\n**Competitive Advantages:**\nImplementing this technology offers a significant competitive edge to display manufacturers. Products equipped with the Data Compensator to Mitigate Luminance Distortion of Display Device can boast superior visual uniformity and color accuracy out-of-the-box and over their lifespan. This translates to:\n*   **Premium Product Differentiation:** Justifying higher price points for displays with guaranteed visual performance.\n*   **Reduced Returns and Warranty Claims:** Directly impacting the bottom line by minimizing issues related to display quality.\n*   **Enhanced Brand Reputation:** Building a reputation for delivering consistently high-quality visual experiences.\n*   **Enabling New Applications:** Meeting stringent visual requirements for medical imaging, professional color grading, and advanced simulation/VR environments where precision is critical.\n\n**Revenue Potential and Business Models:**\nRevenue generation could stem from several business models:\n*   **Licensing:** The most straightforward path, licensing the patent to display panel manufacturers, display driver IC vendors, or consumer electronics brands.\n*   **IP Sales:** Outright sale of the patent to a major player seeking to dominate display quality.\n*   **Integrated Solutions:** Developing and selling proprietary hardware/software modules based on the patent, acting as an OEM supplier.\n*   **Consulting/Customization:** Offering specialized services to integrate and optimize the technology for specific display types or use cases.\nThe value proposition is strong enough to command significant licensing fees or drive substantial sales of integrated solutions, particularly in high-margin segments.\n\n**Strategic Positioning:**\nThis innovation strategically positions its adopters at the forefront of display technology. It moves beyond passive display components to 'intelligent' displays that actively self-correct. This aligns with broader industry trends towards AI-driven optimization, real-time adaptive systems, and personalized user experiences. Companies leveraging this patent can become leaders in 'smart display' technologies, setting new benchmarks for visual performance and potentially influencing future industry standards.\n\n**ROI Projections:**\nFor a licensee, the ROI would be driven by increased sales of premium products, reduced customer service costs, and improved brand loyalty. For a company commercializing the patent directly, the ROI would come from licensing revenues, module sales, and potentially the creation of a new category of 'self-optimizing displays.' Given the widespread demand for better display quality and the direct impact on manufacturing efficiency and customer satisfaction, the projected ROI is highly favorable, with the potential for rapid market adoption due to clear, tangible benefits.","faqs":[{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device is an innovative technology described in patent US-9852675. It's a sophisticated system designed to significantly improve the visual quality of display devices by actively correcting inconsistencies in brightness (luminance distortion) and color accuracy (color coordinate distortion).\n\nThis invention moves beyond traditional static calibration methods by introducing a dynamic, real-time approach to compensation. It ensures that what you see on your screen is consistently uniform, vibrant, and true to the original content.\n\nAt its core, the technology involves a set of components that work together to detect and correct these visual flaws. It's like having a smart, invisible engineer inside your screen constantly adjusting it for optimal performance, ensuring every pixel delivers its intended output without compromise. This leads to a superior viewing experience across all types of display devices.\n\nKeywords: display technology, luminance distortion, color coordinate distortion, patent US-9852675, visual quality, display compensation.","question":"What is Data Compensator to Mitigate Luminance Distortion of Display Device?"},{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device operates through a meticulously designed four-part system. First, a 'reference voltage drop generator' establishes a baseline of ideal electrical responses for various color image data, essentially knowing what a perfect display output should look like.\n\nSecond, a 'voltage drop measurer' actively calculates the actual electrical signals (pixel voltage drops) from the display's individual pixels or pixel groups in real-time. This provides dynamic feedback on the display's current performance, accounting for manufacturing variances, aging, and environmental factors.\n\nThird, a 'compensation data generator' compares these measured pixel voltage drops against the ideal reference. Based on any deviations, it intelligently generates specific, 'different color compensation data' designed to counteract both luminance and color coordinate distortions simultaneously. This ensures a precise, pixel-level correction.\n\nFinally, an 'output block' applies this generated compensation data to the incoming color image data stream before it reaches the display panel. This results in a corrected image that exhibits uniform brightness and accurate colors. The entire process occurs in real-time, ensuring continuous optimization of the display's visual output.\n\nKeywords: how it works, display compensation, pixel voltage, real-time correction, color accuracy, luminance uniformity, system architecture.","question":"How does Data Compensator to Mitigate Luminance Distortion of Display Device work?"},{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device solves the pervasive problem of visual inconsistencies in display devices. These inconsistencies manifest primarily as:\n\n1.  **Luminance Distortion:** Uneven brightness across the screen, appearing as splotches, darker corners, or banding, which detracts from uniform illumination and visual clarity.\n2.  **Color Coordinate Distortion:** Inaccurate or shifted colors, where certain areas of the screen display colors differently than intended, impacting color fidelity and overall image realism.\n\nThese issues arise from inherent manufacturing variations, material inconsistencies, component aging, and environmental influences. Traditional static calibration methods are often insufficient to address these dynamic and localized problems. This invention provides a dynamic, pixel-level solution that ensures consistent and accurate visual output, enhancing the user experience and meeting the stringent demands of professional applications.\n\nKeywords: display problems, luminance distortion, color shift, visual inconsistencies, display quality issues, screen uniformity, image accuracy.","question":"What problem does Data Compensator to Mitigate Luminance Distortion of Display Device solve?"},{"answer":"The patent for Data Compensator to Mitigate Luminance Distortion of Display Device (US-9852675) does not list specific inventors in the provided abstract data. However, patents are typically assigned to companies or individuals who funded or developed the technology. The assignee and inventors' names would be detailed in the full patent document available through official patent databases.\n\nOften, such complex technologies are the result of collaborative efforts by a team of engineers and researchers within a corporate R&D department. The innovation represents a significant advancement in display technology, reflecting a dedicated effort to overcome long-standing challenges in visual fidelity.\n\nWhile specific names are not provided here, the impact of the Data Compensator to Mitigate Luminance Distortion of Display Device is a testament to the ingenuity of the individuals and organizations behind its development.\n\nKeywords: inventors, assignee, patent ownership, display technology development, R&D, patent US-9852675.","question":"Who invented Data Compensator to Mitigate Luminance Distortion of Display Device?"},{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device offers several transformative benefits for both manufacturers and end-users:\n\n1.  **Superior Visual Fidelity:** It ensures highly uniform brightness and accurate color reproduction across the entire display, leading to a consistently stunning and true-to-life visual experience.\n2.  **Enhanced User Experience:** For consumers, this means more immersive gaming, vibrant movie watching, and accurate photo viewing. For professionals, it guarantees precision in color-critical tasks like graphic design, video editing, and medical imaging.\n3.  **Reduced Manufacturing Costs:** By dynamically correcting imperfections, manufacturers can potentially reduce the need for extensive post-production manual calibration, lower scrap rates due to quality issues, and decrease warranty claims related to display defects.\n4.  **Extended Display Lifespan with Consistent Quality:** The real-time adaptive nature of the system means displays can maintain their optimal visual performance for longer, compensating for aging effects and environmental changes.\n5.  **Competitive Differentiation:** Products integrating this technology can stand out in a crowded market by offering a guaranteed level of display quality that is difficult for competitors to match with older methods.\n\nThese benefits underscore the significant value proposition of this patent in the evolving display industry.\n\nKeywords: key benefits, display quality, visual fidelity, cost reduction, extended lifespan, competitive advantage, user experience, image accuracy.","question":"What are the key benefits of Data Compensator to Mitigate Luminance Distortion of Display Device?"},{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device distinguishes itself from prior art through its dynamic, real-time, and granular approach to display compensation. Prior art typically relies on static, generalized, or less comprehensive methods:\n\n1.  **Static vs. Dynamic:** Most prior art, such as factory calibration or fixed lookup tables, applies corrections that are set at the time of manufacturing. They cannot adapt to changes caused by component aging, temperature fluctuations, or varying content. This invention's 'voltage drop measurer' actively monitors pixel performance in real-time, enabling dynamic adjustments.\n2.  **Global vs. Pixel-Level:** Many existing solutions provide broad, uniform adjustments across the entire screen, failing to address localized luminance non-uniformities or color shifts at the pixel or sub-pixel level. This patent generates 'different color compensation data,' implying precise, spatially varying corrections.\n3.  **Single-Aspect vs. Multi-Dimensional:** Some prior methods might focus solely on brightness (e.g., local dimming) or color. This technology explicitly addresses *both* luminance distortion and color coordinate distortion simultaneously with integrated compensation data, providing a more holistic solution.\n4.  **Open-Loop vs. Feedback-Driven:** Traditional systems are often open-loop, applying corrections without direct feedback on their efficacy. This invention's architecture, with its measurer and generator, forms a feedback loop, continuously refining output based on actual display performance.\n\nThese differentiators make the Data Compensator to Mitigate Luminance Distortion of Display Device a significant leap forward in achieving superior and consistent visual quality.\n\nKeywords: prior art comparison, dynamic compensation, pixel-level correction, real-time display, multi-dimensional compensation, feedback loop, display innovation.","question":"How is Data Compensator to Mitigate Luminance Distortion of Display Device different from prior art?"},{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device is poised to significantly impact a wide array of industries that rely heavily on high-quality visual displays:\n\n1.  **Consumer Electronics:** Smartphones, tablets, laptops, and televisions will deliver consistently superior picture quality, enhancing user enjoyment for media consumption, gaming, and everyday use.\n2.  **Professional Media & Design:** Graphic designers, photographers, videographers, and animators will benefit from color-accurate and uniformly bright monitors, ensuring their creative work is rendered precisely as intended.\n3.  **Medical Imaging:** In diagnostics and surgical displays, where accuracy can be life-critical, this technology will ensure medical images (X-rays, MRIs, ultrasounds) are presented without any distracting distortions, improving diagnostic confidence.\n4.  **Automotive:** In-car infotainment systems and digital dashboards will offer clearer, more consistent visuals, enhancing safety and user experience.\n5.  **Augmented & Virtual Reality (AR/VR):** For immersive headsets, eliminating luminance and color distortion is crucial for preventing visual fatigue, motion sickness, and enhancing the realism of virtual environments.\n6.  **Industrial & Scientific:** Displays used in control rooms, scientific research, and industrial monitoring will provide more reliable and accurate data visualization.\n\nEssentially, any industry where visual fidelity, consistency, and accuracy are paramount stands to gain from the adoption of the Data Compensator to Mitigate Luminance Distortion of Display Device.\n\nKeywords: industry impact, consumer electronics, professional displays, medical imaging, AR/VR, automotive, industrial applications, visual fidelity.","question":"What industries will Data Compensator to Mitigate Luminance Distortion of Display Device impact?"},{"answer":"The patent for Data Compensator to Mitigate Luminance Distortion of Display Device, identified as US-9852675, was filed on **2015-07-08** (July 8, 2015). This marks the date when the application was formally submitted to the patent office.\n\nThe patent was subsequently published (and typically granted around this time for utility patents) on **2017-12-26** (December 26, 2017). The publication date signifies when the patent document became publicly available, detailing the invention's specifics, claims, and drawings.\n\nThe period between filing and publication/granting allows for examination by the patent office. The relatively swift progression from filing to publication underscores the novelty and inventiveness recognized in the Data Compensator to Mitigate Luminance Distortion of Display Device. This timeline is crucial for understanding the intellectual property landscape and potential market entry points for technologies based on this innovation.\n\nKeywords: filing date, publication date, patent timeline, patent US-9852675, intellectual property, patent granting, display technology history.","question":"When was Data Compensator to Mitigate Luminance Distortion of Display Device filed/granted?"},{"answer":"The commercial applications of the Data Compensator to Mitigate Luminance Distortion of Display Device are extensive and span across virtually all segments of the display market. Its ability to ensure pixel-perfect visual quality makes it highly valuable for:\n\n1.  **Premium Consumer Devices:** Integrating into high-end smartphones, tablets, laptops, and 4K/8K televisions to justify premium pricing and enhance brand reputation through superior visual performance.\n2.  **Professional Monitors:** Becoming a standard feature in monitors for graphic design, video editing, photography, and CAD/CAM, where color accuracy and uniformity are critical for professional workflows.\n3.  **Medical Diagnostic Displays:** Essential for displays used in radiology, pathology, and surgery, where precise image rendering without distortion is paramount for accurate diagnosis and treatment.\n4.  **Gaming Monitors & Consoles:** Providing an immersive, distortion-free gaming experience, reducing visual fatigue and enhancing competitive play.\n5.  **Automotive Displays:** Improving the clarity and consistency of infotainment screens, digital dashboards, and heads-up displays, contributing to both aesthetics and safety.\n6.  **Augmented Reality (AR) and Virtual Reality (VR) Headsets:** Crucial for creating highly immersive and comfortable virtual environments by eliminating visual artifacts that can cause disorientation or sickness.\n7.  **Digital Signage and Public Displays:** Ensuring consistent brand messaging and visual impact across large format displays in retail, advertising, and public information systems.\n\nIn essence, any product or system that benefits from flawless visual output is a potential commercial application for the Data Compensator to Mitigate Luminance Distortion of Display Device.\n\nKeywords: commercial applications, display market, consumer electronics, professional use, medical devices, AR/VR, gaming, digital signage, revenue potential.","question":"What are the commercial applications of Data Compensator to Mitigate Luminance Distortion of Display Device?"},{"answer":"The Data Compensator to Mitigate Luminance Distortion of Display Device lays a robust foundation for future advancements in display technology. Expected future developments could include:\n\n1.  **AI and Machine Learning Integration:** Moving beyond rule-based compensation, future iterations could incorporate AI to predict display degradation, learn user preferences, and adapt compensation dynamically based on content type, ambient light, and even individual user's visual acuity.\n2.  **Proactive and Predictive Compensation:** Instead of merely reacting to measured distortions, advanced systems might predict potential luminance or color shifts before they become visually perceptible, applying proactive corrections.\n3.  **Enhanced Sensor Technologies:** Development of more sophisticated, cost-effective, and fully integrated pixel-level sensors for even more precise real-time voltage and optical feedback, enabling hyper-granular compensation.\n4.  **Cross-Display Synchronization:** Extending the technology to synchronize compensation across multiple displays in a multi-monitor setup, ensuring seamless visual continuity.\n5.  **Integration with New Display Technologies:** Adapting and optimizing the compensation algorithms for emerging display types like microLED, quantum dot, and flexible/foldable displays, addressing their unique distortion characteristics.\n6.  **Standardization and Ecosystem Development:** The establishment of industry standards around dynamic display compensation, fostering an ecosystem of compatible hardware and software solutions.\n\nThese developments will push the boundaries of visual fidelity, making displays not just high-resolution, but also truly intelligent, adaptive, and consistently perfect throughout their operational life. The Data Compensator to Mitigate Luminance Distortion of Display Device is a key enabler for this exciting future.\n\nKeywords: future developments, AI in displays, machine learning, predictive compensation, sensor technology, display standardization, microLED, display roadmap.","question":"What are the future developments expected for Data Compensator to Mitigate Luminance Distortion of Display Device?"}],"topics":["Data Compensator to Mitigate Luminance Distortion of Display Device","display luminance distortion","color coordinate distortion","display compensation","visual fidelity","technical","background","modern"],"tech_cluster":null},"seo":{"title":"Data Compensator to Mitigate Luminance Distortion of Display Device - Patent US-9852675","description":"Discover the Data Compensator to Mitigate Luminance Distortion of Display Device patent, revolutionizing display quality by mitigating luminance and color distortion. Full analysis here.","keywords":["Data Compensator to Mitigate Luminance Distortion of Display Device","display luminance distortion","color coordinate distortion","display compensation","visual fidelity","patent US-9852675","display technology","pixel voltage","image quality","display calibration","patent innovation","display driver"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852675","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-9852675","citation_suggestion":"Patentable. \"Data compensator to mitigate luminance distortion of display device\" (US-9852675). https://patentable.app/patents/US-9852675","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852675","json":"https://patentable.app/api/llm-context/US-9852675","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T09:28:55.615Z"}