Latest news with #JBD
Business Wire
25-07-2025
- Business
- Business Wire
Comprehensive Profiles of 180+ Leading Companies Across the XR Ecosystem
DUBLIN--(BUSINESS WIRE)--The "The Global Virtual, Augmented and Mixed Reality Market 2026-2036" report has been added to offering. The Global Virtual, Augmented and Mixed Reality Market 2026-2036 represents the most comprehensive analysis of the rapidly evolving extended reality (XR) ecosystem, delivering critical insights into market dynamics, technological innovations, and strategic opportunities shaping the future of spatial computing. This authoritative 487-page report provides unprecedented depth in analyzing the convergence of VR, AR, and MR technologies, examining how artificial intelligence integration, advanced display systems, and breakthrough optics are driving the next generation of immersive experiences across consumer and enterprise markets. The global Virtual, Augmented, and Mixed Reality (VR/AR/MR) market stands at a pivotal inflection point, driven by unprecedented technological convergence and the integration of artificial intelligence that is reshaping the entire extended reality (XR) landscape. AR is poised to become the next major consumer electronics platform, with the eyewear market expected to reach 15MU by 2030, over 85% featuring displays, while the broader XR ecosystem is experiencing fundamental shifts that promise to unlock mainstream adoption across consumer and enterprise segments. The most significant transformation occurring in 2025 centers on the convergence of AR technology with large language models (LLMs), positioning AR glasses as AI interfaces, hardware front-ends for large language models. This integration represents a paradigm shift from standalone computing devices to contextually-aware, AI-powered interfaces that can understand and respond to real-world environments in real-time. Major technology giants are investing heavily in this convergence, recognizing that the combination of spatial computing and generative AI will create entirely new categories of user experiences and applications. The display technology landscape is undergoing radical innovation, with MicroLED emerging as the long-term solution for AR applications despite current manufacturing challenges. While OLED-on-silicon dominates near-term implementations, MicroLED displays, expected to become the display standard for AR, are still under development by players such as JBD, Aledia, and Porotech. Simultaneously, waveguide optics are achieving breakthrough efficiency improvements, addressing one of AR's most persistent technical bottlenecks. The geographic distribution of innovation and market development is increasingly influenced by geopolitical factors. Regional access to AI services and ongoing geopolitical trade tensions will further influence market dynamics, with the United States and China emerging as the dominant forces in both AI development and XR hardware manufacturing. The current innovation landscape is characterized by a dynamic interplay between established technology giants and specialized startups. Multiple approaches are being explored simultaneously, including innovations in tracking (e.g., NILT, Prophesee, AdHawk) and waveguide optics (e.g., Dispelix, Inkron, Schott). This diversity of approaches reflects the experimental nature of the market, where this dynamic and fast-evolving innovation landscape is largely sustained by Meta's significant financial investments, which serve as a catalyst for a broad range of technological ventures, though only a select few are likely to make it to the consumer market. The next decade will witness fundamental changes in form factors and user experiences. As AR glasses become more compact, lightweight, and ergonomic, the demands on sensing and computing components will grow more intense. This is driving development of ultra-specialized components including ultra-low-power MEMS, event-based imaging sensors, and efficient edge AI processing capabilities. The market's evolution toward mainstream adoption will be determined by overcoming current constraints in power efficiency, form factor, and cost. While VR remains largely anchored in gaming and professional applications, AR is pivoting toward consumer-facing use cases, driven by both technological progress and fashion-oriented adoption. Looking toward 2030 and beyond, the XR market is positioned to become a fundamental computing platform, with AR devices potentially replacing smartphones as the primary interface for digital interactions. The successful convergence of AI, advanced displays, efficient optics, and sophisticated sensing technologies will determine which companies and regions lead this transformation, making the next five years critical for establishing long-term market leadership in what promises to be one of technology's most significant platform shifts. As the XR market approaches a pivotal inflection point, this report delivers essential intelligence for technology leaders, investors, component suppliers, and enterprise decision-makers navigating this transformative landscape. With AR eyewear markets projected to reach 15 million units by 2030 and AI-powered interfaces revolutionizing user interactions, understanding the complex interplay of technologies, market forces, and competitive dynamics has never been more critical for strategic success. Report contents include: Market Intelligence & Forecasting Comprehensive 10-year market forecasts (2026-2036) with granular revenue and unit shipment projections across VR, AR, and MR segments Total Addressable Market (TAM) and Serviceable Addressable Market (SAM) analysis with technology-specific growth trajectories Regional market analysis covering North America, Europe, Asia-Pacific, China, and emerging markets Average selling price (ASP) evolution and price elasticity analysis Enterprise vs. consumer market segmentation with adoption pattern analysis Technology adoption curves and migration patterns across display, processing, and optical systems Latest Technology Innovations & Breakthroughs AI-powered AR interfaces and Large Language Model (LLM) integration transforming user experiences Advanced MicroLED display developments with manufacturing scalability analysis Next-generation waveguide optics innovations driving form factor improvements Ultra-low power processing solutions enabling all-day wearable computing Enhanced eye tracking and foveated rendering technologies Revolutionary haptic feedback systems and spatial computing advancements Deep-Dive Technology Analysis Comprehensive display technology evaluation including LCD, OLED, MicroLED, LCoS, DLP, and laser beam scanning Optical systems analysis covering waveguide technologies, birdbath combiners, and emerging concepts Processing platform evolution from mobile chipsets to dedicated XR silicon and edge computing integration Advanced sensing and tracking technologies including SLAM, computer vision, and biometric integration Audio systems, haptic technologies, and power management solutions Application Markets & Use Cases Gaming and entertainment market evolution with social platform integration Enterprise and industrial applications including training, remote collaboration, and quality control Healthcare and medical applications spanning surgical planning, therapy, and medical education Education sector transformation with K-12, higher education, and professional training programs Retail and e-commerce integration with virtual try-on and immersive shopping experiences Competitive Landscape & Strategic Analysis Market leadership analysis of major players including Meta, Apple, Google, Microsoft, and ByteDance Regional competitive dynamics across US, Chinese, European, Japanese, and Korean markets Supply chain ecosystem mapping from component suppliers to contract manufacturers Investment trends, funding analysis, and partnership strategies Technology roadmaps and strategic positioning for market participants Market Challenges & Opportunities Technical limitations analysis including display constraints, power efficiency, and form factor challenges Market adoption barriers including pricing, content availability, and user experience factors Regulatory landscape covering privacy, safety, and emerging policy frameworks Future outlook scenarios with optimistic, conservative, and disruptive technology impact assessments Market Overview and Key Findings Technology Convergence: AR, VR, and MR Market Dynamics Market Size and Growth Projections 2026-2036 Regional Market Analysis and Opportunities Key Market Drivers and Adoption Barriers Competitive Landscape Overview Investment Trends and Funding Analysis Technology Roadmap and Future Outlook The report features comprehensive profiles of 181 leading companies across the XR ecosystem 3D Micromac AAC ACW AddOptics AdHawk AGC Aledia Amazon Ambarella ams OSRAM Apple Applied Materials ArborXR Asia Optical ASML AUO Avegant Basemark bHaptics Blippar BOE Bosch Brillant Labs Brillnics ByteDance Cambridge Mechatronics Cellid Cirrus Logic Coherent Critical Manufacturing Dassault Systemes Delo Dexta Robotics DigiLens Diodes Incorporated Dispelix Distance Technologies eMagin Emteq Labs Engo Eulitha Even Realities Gauzy Goertek Google HaptX Himax Hoya HOLOGATE Hololight HTC Huawei Infineon ImmersiveTouch Infinite Reality Inkron Innolux Innovision IQE Jabil Jade Bird Display JDI JigSpace Knowles Kura Technologies Lenovo LetinAR LightTrans Lumens Lumileds Luminous XR Luminit Lumus Luxexcel Luxshare Lynx Magic Leap Medivis Meizu MEMSensing Meta Micledi Micro Resist Technology Micron MICROOLED Microsoft MindMaze Mojo Vision Morphotonics Moxtek Murata Myrias Nano Scribe Nextech3D Niantic Nokia NS Nanotech Nuvoton Nvidia For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends.
Yahoo
04-06-2025
- Business
- Yahoo
JBD's ARTCs Image-Quality Engine Goes Commercial, Elevating Full-Color MicroLED Waveguide AR Glasses to an Unprecedented Visual Standard
SHANGHAI, June 4, 2025 /PRNewswire/ -- As a global leader in MicroLED microdisplay technology, JBD has announced that its proprietary, system-level image-quality engine for waveguide AR Glasses—ARTCs—has been fully integrated into RayNeo's flagship product, RayNeo X3 Pro, ushering in a fundamentally refreshed visual experience for full-color MicroLED waveguide AR Glasses. The engine's core hardware module, ARTCs-WG, has been deployed on RayNeo's production lines, paving the way for high-volume manufacturing of AR Glasses. This alliance not only marks ARTCs' transition from a laboratory proof of concept to industrial-scale deployment, but also adds fresh momentum into the near-eye AR display arena. Breaking Through Technical Barriers to Ignite an AR Image-Quality Revolution Waveguide-based virtual displays have long been plagued by luminance non-uniformity and color shift, flaws that seriously diminish the AR viewing experience. In 2024, JBD answered this persistent pain point with ARTCs—the industry's first image-quality correction solution for AR waveguides—alongside its purpose-built, high-volume production platform, ARTCs-WG. Through light-engine-side processing and proprietary algorithms, the system lifts overall luminance uniformity in MicroLED waveguide AR Glasses from "< 40 %" to "> 80 %" and drives the color difference ΔE down from "> 0.1" to "≈ 0.02." The payoff is the removal of color cast and graininess and a dramatic step-up in waveguide display quality. While safeguarding the thin-and-light form factor essential to full-color waveguide AR Glasses, the ARTCs engine further unleashes MicroLED's intrinsic advantages—high brightness, low power consumption, and compact size—rendering images more natural and vibrant and markedly enhancing user perception. ARTCs fully resolves waveguide non-uniformity, ensuring that every pair of waveguide AR Glasses delivers premium visuals. It not only satisfies consumer expectations for high-grade imagery, but also eliminates the chief technical roadblock that has throttled large-scale adoption of full-color waveguide AR Glasses, opening a clear runway for market expansion and mass uptake. Empowering Intelligent-Manufacturing Upgrades at the Device Level Thanks to its breakthrough in visual performance, ARTCs has captured broad industry attention. As a pioneer in consumer AR Glasses, RayNeo has leveraged its formidable innovation capabilities to become the first company to embed ARTCs both in its full-color MicroLED waveguide AR Glasses RayNeo X3 Pro and on its mass-production lines. During onsite deployment at RayNeo, the ARTCs engine demonstrated exceptional adaptability and efficiency: One-stop system-level calibration – Hardware-level DEMURA aligns the MicroLED microdisplay and the waveguide into a single, optimally corrected optical system. Rapid line integration – Provides standardized, automated testing and image-quality calibration for AR waveguide Glasses, seamlessly supporting OEM/ODM and end-device production lines. Scalable mass-production support – Supplies robust assurance for rapid product ramp-up and time-to-market. RayNeo founder and CEO Howie Li remarked, "As the world's leading MicroLED microdisplay provider, JBD has always been one of our strategic partners. The introduction of the ARTCs engine delivers a striking boost in display quality for RayNeo X3 Pro. We look forward to deepening our collaboration with JBD and continually injecting fresh vitality into the near-eye AR display industry." JBD CEO Li Qiming added, "RayNeo was among the earliest global explorers of AR Glasses. Over many years, RayNeo and JBD have advanced together, relentlessly pursuing higher display quality and technological refinement. Today, in partnership with RayNeo, we have launched ARTCs to tackle brightness and color-uniformity challenges inherent to pairing MicroLED microdisplays with diffractive waveguides, and we have successfully implemented it in RayNeo X3 Pro. This confirms that JBD has translated laboratory-grade image-correction technology into reliable, large-scale commercial practice, opening new growth opportunities for near-eye AR displays. I look forward to jointly ushering in a new chapter of high-fidelity AR." JBD will continue to focus on MicroLED microdisplays and the ARTCs image-quality engine, deepening its commitment to near-eye AR displays. The company will drive consumer AR Glasses toward ever-better image fidelity, lighter form factors, and all-day wearability—bringing cutting-edge AR technology into everyday life at an accelerated pace. About RayNeo RayNeo is a leading brand in the AR space, dedicated to redefining augmented reality through groundbreaking technology and wearable innovation. Initially incubated within TCL, RayNeo develops AR glasses that seamlessly integrate into everyday life, delivering immersive and intuitive experiences. By combining cutting-edge design with advanced technologies, RayNeo empowers users to explore and interact with the digital world like never before. Committed to shaping the future of AR, RayNeo drives innovation through collaboration and a user-first approach. For more information about RayNeo and its innovative AR technology, visit About JBD Founded in 2015, JBD stands at the forefront of technological innovation, revolutionizing the realm of MicroLED microdisplay technology. Renowned for delivering the smallest, brightest, and most energy-efficient micro-display panels, JBD has become a global pioneer in advanced display solutions. From ultra-compact MicroLED displays to state-of-the-art projectors and optical modules, JBD's visionary products are reshaping the future of near-eye display technology. Driven by an unwavering commitment to excellence and innovation, JBD illuminates the path to a brighter, more vibrant digital world. Explore more about JBD's groundbreaking advancements by visiting their website( or engaging with them on LinkedIn and X (Twitter). View original content: SOURCE JBD Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
29-05-2025
- Business
- Yahoo
JBD Sets a New Benchmark for MicroLED Micro-Display Technology: No More Than Three Defective Pixels per Panel--A Record Low for the Industry
SHANGHAI, May 28, 2025 /PRNewswire/ -- At this pivotal juncture when near-eye display technologies are rapidly advancing toward large-scale deployment, JBD, through sustained technological innovation, has succeeded in reducing the number of defective pixels in its MicroLED micro-displays from ≤100 to ≤3 per panel. This breakthrough not only signifies that MicroLED micro-displays have reached the quality-control standard of mature display technologies such as LCD, but also establishes a new benchmark for defective-pixel metrics across the MicroLED micro-display industry. The number of defective and dark pixels has long served as a key indicator of the reliability and technological maturity of MicroLED micro-display products. Previously, constrained by technological capabilities and production processes, the industry generally confronted a technical bottleneck of nearly 100 defective pixels per panel, which to some extent impeded the widespread adoption of consumer-grade AR devices. In order to overcome this constraint, JBD in recent years has conducted in-depth research into core MicroLED micro-display technologies, reducing the number of defective pixels to ≤3 per panel and dramatically raising the proportion of flawless zero-defect panels. Moreover, dark pixels are an equally long-standing yet frequently overlooked technical challenge in the MicroLED micro-display field, directly affecting image uniformity and overall image quality. Through technological upgrades, JBD has lowered the dark-pixel rate per panel from as high as 0.4% to an exceedingly low 0.03%, and—together with JBD's proprietary Demura pixel-level luminance-compensation algorithm—has greatly enhanced pixel-brightness uniformity. The count of dead and dark pixels exerts a direct and pronounced impact on display quality and user experience. Dead pixels manifest as conspicuous black specks within the image, undermining picture integrity and detail rendition; dark pixels introduce dim blemishes, compromising color accuracy and luminance uniformity. Under high-contrast or brightly lit conditions, these defects become particularly conspicuous, readily distracting users and diminishing visual immersion. By reducing defective and dark pixels, manufacturers prevent image discontinuities, muted colors, and distortion, significantly enhance picture integrity and uniformity, and thus play a pivotal role in elevating visual quality for AR near-eye displays. Bringing defective and dark pixels under tighter quality control in micro-displays requires a complicated, end-to-end effort; the aforementioned breakthrough results from JBD's sustained investment and concerted efforts in technology iteration, process optimization, defect analytics, and lean management. On the technological front, JBD has refined the epitaxial structure to achieve uniform material density, while innovative processes ensure homogeneous pixel-level drive characteristics. Regarding equipment and manufacturing, the introduction of advanced tools has enhanced manufacturing precision. From a production-management perspective, additional inspection steps have been integrated into every stage of the process, with critical stages subject to rigorous monitoring and precise control, guaranteeing that the entire production flow meets the highest quality standards. The foregoing not only attests to JBD's dramatic advances in technological innovation and manufacturing processes, but also signals that MicroLED micro-displays are entering a phase of application maturity. With the meteoric progress of AI technology, demand is mounting for lightweight AR glasses that can serve as all-day AI assistants. Thanks to its outstanding brightness, compact footprint, and low power consumption, MicroLED micro-display technology is steadily becoming the leading solution for such lightweight AR glasses. The substantial improvement in defective- and dark-pixel quality-control standards will further consolidate JBD's advantage in near-eye display applications. Standing at the threshold of mass adoption of consumer-grade AR smart glasses, JBD remains committed to delivering micro-display products of exceptional performance and proven reliability. Looking ahead, JBD will deepen its focus on MicroLED micro-display technology, amplify R&D investment, and propel the industry forward, steering it to ever-greater heights. About JBD Founded in 2015, JBD stands at the forefront of technological innovation, revolutionizing the realm of MicroLED microdisplay technology. Renowned for delivering the smallest, brightest, and most energy-efficient micro-display panels, JBD has become a global pioneer in advanced display solutions. From ultra-compact MicroLED displays to state-of-the-art projectors and optical modules, JBD's visionary products are reshaping the future of near-eye display technology. Driven by an unwavering commitment to excellence and innovation, JBD illuminates the path to a brighter, more vibrant digital world. Explore more about JBD's groundbreaking advancements by visiting their website( or engaging with them on LinkedIn and X (Twitter). View original content to download multimedia: SOURCE JBD
Yahoo
29-05-2025
- Business
- Yahoo
JBD Sets a New Benchmark for MicroLED Micro-Display Technology: No More Than Three Defective Pixels per Panel--A Record Low for the Industry
SHANGHAI, May 28, 2025 /PRNewswire/ -- At this pivotal juncture when near-eye display technologies are rapidly advancing toward large-scale deployment, JBD, through sustained technological innovation, has succeeded in reducing the number of defective pixels in its MicroLED micro-displays from ≤100 to ≤3 per panel. This breakthrough not only signifies that MicroLED micro-displays have reached the quality-control standard of mature display technologies such as LCD, but also establishes a new benchmark for defective-pixel metrics across the MicroLED micro-display industry. The number of defective and dark pixels has long served as a key indicator of the reliability and technological maturity of MicroLED micro-display products. Previously, constrained by technological capabilities and production processes, the industry generally confronted a technical bottleneck of nearly 100 defective pixels per panel, which to some extent impeded the widespread adoption of consumer-grade AR devices. In order to overcome this constraint, JBD in recent years has conducted in-depth research into core MicroLED micro-display technologies, reducing the number of defective pixels to ≤3 per panel and dramatically raising the proportion of flawless zero-defect panels. Moreover, dark pixels are an equally long-standing yet frequently overlooked technical challenge in the MicroLED micro-display field, directly affecting image uniformity and overall image quality. Through technological upgrades, JBD has lowered the dark-pixel rate per panel from as high as 0.4% to an exceedingly low 0.03%, and—together with JBD's proprietary Demura pixel-level luminance-compensation algorithm—has greatly enhanced pixel-brightness uniformity. The count of dead and dark pixels exerts a direct and pronounced impact on display quality and user experience. Dead pixels manifest as conspicuous black specks within the image, undermining picture integrity and detail rendition; dark pixels introduce dim blemishes, compromising color accuracy and luminance uniformity. Under high-contrast or brightly lit conditions, these defects become particularly conspicuous, readily distracting users and diminishing visual immersion. By reducing defective and dark pixels, manufacturers prevent image discontinuities, muted colors, and distortion, significantly enhance picture integrity and uniformity, and thus play a pivotal role in elevating visual quality for AR near-eye displays. Bringing defective and dark pixels under tighter quality control in micro-displays requires a complicated, end-to-end effort; the aforementioned breakthrough results from JBD's sustained investment and concerted efforts in technology iteration, process optimization, defect analytics, and lean management. On the technological front, JBD has refined the epitaxial structure to achieve uniform material density, while innovative processes ensure homogeneous pixel-level drive characteristics. Regarding equipment and manufacturing, the introduction of advanced tools has enhanced manufacturing precision. From a production-management perspective, additional inspection steps have been integrated into every stage of the process, with critical stages subject to rigorous monitoring and precise control, guaranteeing that the entire production flow meets the highest quality standards. The foregoing not only attests to JBD's dramatic advances in technological innovation and manufacturing processes, but also signals that MicroLED micro-displays are entering a phase of application maturity. With the meteoric progress of AI technology, demand is mounting for lightweight AR glasses that can serve as all-day AI assistants. Thanks to its outstanding brightness, compact footprint, and low power consumption, MicroLED micro-display technology is steadily becoming the leading solution for such lightweight AR glasses. The substantial improvement in defective- and dark-pixel quality-control standards will further consolidate JBD's advantage in near-eye display applications. Standing at the threshold of mass adoption of consumer-grade AR smart glasses, JBD remains committed to delivering micro-display products of exceptional performance and proven reliability. Looking ahead, JBD will deepen its focus on MicroLED micro-display technology, amplify R&D investment, and propel the industry forward, steering it to ever-greater heights. About JBD Founded in 2015, JBD stands at the forefront of technological innovation, revolutionizing the realm of MicroLED microdisplay technology. Renowned for delivering the smallest, brightest, and most energy-efficient micro-display panels, JBD has become a global pioneer in advanced display solutions. From ultra-compact MicroLED displays to state-of-the-art projectors and optical modules, JBD's visionary products are reshaping the future of near-eye display technology. Driven by an unwavering commitment to excellence and innovation, JBD illuminates the path to a brighter, more vibrant digital world. Explore more about JBD's groundbreaking advancements by visiting their website( or engaging with them on LinkedIn and X (Twitter). View original content to download multimedia: SOURCE JBD Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Associated Press
28-02-2025
- Business
- Associated Press
JBD Officially Launches MicroLED Printhead Module, Driving Upgrades in the Printing Industry
SHANGHAI, Feb. 27, 2025 /PRNewswire/ -- In response to growing demands for eco-friendly solutions, cost optimization, and high-speed printing, the printer industry is entering a pivotal phase of technological transformation. As a trailblazer in MicroLED innovation, JBD proudly presents its newly launched MicroLED Printhead Module. Boasting a compact footprint, swift performance, high accuracy, low power consumption, ultra-quiet operation, and heightened reliability, this cutting-edge module is engineered to deliver significant commercial value for printer manufacturers. Building upon continuous breakthroughs in MicroLED research, JBD's microdisplay products have already earned widespread acclaim in the AR near-eye display field, underlining the company's robust expertise in MicroLED technology. This success also lays a solid foundation for broader, cross-sector innovation. Laser printing integrates laser scanning with electrophotographic technology, corresponding to the 'photosensitive drum exposure' and 'development-transfer' processes. The surface of the photosensitive drum is coated with a photosensitive material that becomes negatively charged after 'exposure,' allowing it to attract positively charged toner. This process enables the complete printing of an image. Traditional laser print modules are based on point-by-point scanning—from a single point to a line—and gradually expose the surface, whereas the MicroLED Printhead Module employs a more streamlined one-dimensional linear LED array. This design enables an entire row to be exposed at once, significantly enhancing printing efficiency. Conventional laser printers rely on intricate optical and mechanical scanning components, often resulting in sizable hardware, excessive noise, elevated energy consumption, and high maintenance expenses. JBD's new MicroLED Printhead line not only furnishes an exceptional light source solution for printer manufacturers but also paves the way for comprehensive advancements in printing products. Compact Size: Streamlined Design for Smaller Devices The MicroLED module features a minimalist configuration, consisting of a single row of MicroLED pixel arrays and a cylindrical lens array. By eliminating the mirrors, mechanical reflectors, and diffusion lenses commonly associated with laser modules, the unit substantially reduces space requirements. Ultra-Quiet: Minimal Noise for a Comfortable Environment Because the MicroLED module exposes the photosensitive drum surface in a pixel-to-pixel manner, it eliminates the mechanical scanning system found in traditional laser light sources. As a result, it avoids the noise associated with mechanical movement, offering users a quieter working environment—especially suitable for offices, libraries, and similar spaces. Fast Speed: Full-Line Exposure for Higher Printing Efficiency A laser module's exposure operates in a zero-dimensional manner, where a mechanical scanner exposes one point at a time, limiting speed by mechanical rotation. By contrast, the MicroLED module uses a one-dimensional approach. A linear LED array exposes an entire row in one go, and the rapid switching of LEDs significantly boosts printing efficiency, saving users valuable time. Low Power Consumption: Energy Savings Aligned with Green Initiatives MicroLEDs exhibit high luminous efficiency and minimal power requirements, with each emitter consuming only microwatts (μW). When compared to laser modules, this dramatically reduces overall energy usage. Such low consumption dovetails neatly with global carbon-neutral initiatives, empowering OEMs to develop eco-conscious printing solutions. High Precision: Accurate Control for Perfect Image Quality Supporting 1200 DPI resolution, the MicroLED Printhead Module leverages precise spot-control and multiple gray-level technologies to render crisp text and richly detailed images. Capitalizing on small pixel sizes, the technology roadmap for MicroLED printheads may even extend to 2400 DPI or 4800 DPI, satisfying specialized demands for ultra-high-definition printing. Greater Reliability: Extended Lifespan with Lower Maintenance Costs MicroLEDs offer stable performance, with a T95 operating life of up to 1,000 hours. Featuring a solid-state structure without mechanical parts, the printhead module avoids the common wear and tear and mechanical failures of laser modules, reducing potential maintenance expenses. These characteristics not only illustrate the long-term economic benefits of the MicroLED Printhead Module but also provide end manufacturers with a more dependable solution. By integrating the diverse benefits of MicroLED technology into a single printhead offering, JBD is collaborating closely with partners to speed up market adoption and foster meaningful upgrades within the printing sector. In parallel, JBD delivers end-to-end customization—from LED fabrication to module assembly—ensuring precise alignment with each manufacturer's unique needs. Dedicated to advancing industry through cutting-edge technologies, JBD's launch of this MicroLED Printhead product line not only ushers in a breakthrough for printing applications but also highlights the wide-ranging potential of JBD's MicroLED solutions across multiple domains. Looking ahead, JBD will continue to push the boundaries of MicroLED innovation, offering high-value solutions for a diverse array of sectors. About JBD Founded in 2015, JBD stands at the forefront of technological innovation, revolutionizing the realm of MicroLED microdisplay technology. Renowned for delivering the smallest, brightest, and most energy-efficient micro-display panels, JBD has become a global pioneer in advanced display solutions. From ultra-compact MicroLED displays to state-of-the-art projectors and optical modules, JBD's visionary products are reshaping the future of near-eye display technology. Driven by an unwavering commitment to excellence and innovation, JBD illuminates the path to a brighter, more vibrant digital world.
