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Sunlike showcases a range of their specialized cabling and charging solutions. The company presents a USB-C to HDMI 2.1 cable that supports simultaneous phone charging while connected to a display. This cable features gold-plated connectors and a flexible braided jacket for durability. Sunlike also highlights its focus on accessories for emerging markets, such as power solutions for Starlink systems, reflecting a growing demand from users engaged in outdoor and mobile activities like camping and RV travel.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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For the Starlink Mini, Sunlike offers several DC power cables, including DC-to-DC cables in 20-meter and 30-meter lengths, a DC-to-car-charger adapter, and a DC-to-Anderson connector cable designed for recreational vehicles. These products allow the Starlink system to be powered from various sources, such as power banks or USB-C adapters. The company notes a significant increase in business for these accessories, driven by the need for reliable internet connectivity in remote or off-grid locations.

In the renewable energy sector, Sunlike produces solar connectors for linking solar panels directly to battery storage systems. The company also developed a universal fast-charging data cable, which they describe as an “all protocol compatible” solution. This cable incorporates a smart IC within the plug to support multiple fast-charging standards, including iPhone PD, Huawei, Samsung, Qualcomm, Oppo, and Vivo. It is available in both USB-C to USB-C and USB-A to USB-C configurations, in lengths of one or two meters.

Another product demonstrated is a 100W two-in-one charger capable of powering a USB-C device and an Apple Watch at the same time. Sunlike also manufactures GaN-based charging stations with multiple ports, including integrated HDMI outputs for versatile connectivity. The company representative, Cathy, mentions that Sunlike has a 20-year history, holds 150 patents, and provides R&D and design services for its clients.

Sunlike positions itself in the middle to high-end market segment, with its primary customer base located in Europe. The products are designed to offer reliable performance and compatibility across a wide ecosystem of devices. This presentation was filmed at the Hong Kong Fairs in April 2026, where the company displayed its portfolio of connectivity and power delivery hardware.

source https://www.youtube.com/watch?v=PCn0saeCM3o

YiTaiLi is a cable manufacturer based in Guangdong Province, China, with over a decade of industry experience. The company operates two dedicated production facilities: one specializing in patch cord cables and another focused on connector manufacturing. Larry represents the company at international trade events to expand global recognition for their quality products and future growth initiatives.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The product range covers multiple cable categories including Cat 6, Cat 7, and Cat 8 Ethernet cables in lengths from 1 meter to 15 meters. The company produces corresponding connectors for Cat 6 and Cat 7 standards. Beyond networking cables, their portfolio includes USB cables and DisplayPort solutions. USB Type-C cables are noted as particularly popular due to gigabit-speed data transfer and device charging capabilities.

DisplayPort offerings include DP to DP cables supporting 4K video transmission. Longer cable options extend to approximately 5 meters while maintaining signal integrity. The product lineup demonstrates capability across consumer connectivity standards used in computing and display applications.

YiTaiLi positions their factory scale and manufacturing experience as competitive advantages in the global cable market. The company aims to increase international visibility and establish their brand presence beyond domestic markets.

Distributors can contact YiTaiLi here: Company full name: YiTaiLi, Contact name: D Sy.

source https://www.youtube.com/watch?v=9EQvRbKHKXI

Eulitha showcases its Displacement Talbot Lithography (DTL) technology at Display Week 2026. Kelsey Wolley explains that DTL is a non-contact optical lithography approach designed for scalable, high-yield production of periodic structures at a cost-effective price point. This method is particularly suited for manufacturing augmented reality (AR) waveguides based on line space gratings, offering quality comparable to traditional projection systems but at a fraction of the cost, which is critical for consumer AR glasses.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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One demonstration features a silicon carbide AR waveguide developed with a partner, SEAF, using Eulitha’s DTL to define the surface-relief grating (SRG) waveguides. The company also displays a 12-inch wafer completely filled with AR waveguide designs from partner Dispelix. This is achieved by combining DTL with a step-and-repeat process, enabling seamless and sharp waveguide patterns on large substrates like high-refractive-index glass. These wafers are later cut, or singulated, into individual lenses for assembly into AR glasses.

Eulitha offers a range of manufacturing tools to support different production volumes, from a small tabletop system to a semi-automatic mid-range tool and a fully automated high-volume manufacturing platform. The company’s technology is compatible with various light engine approaches, including LCoS and microLEDs, as the lithography process is independent of the light source chosen by the AR device designer.

The company is continuously evolving its DTL technology to open up new markets. A significant area of development is in the semiconductor laser space. Eulitha has developed a DTL-compatible method for creating gradual phase shifts in periodic structures. This overcomes previous limitations with abrupt pitch changes, enabling the high-throughput, high-precision manufacturing of devices like Distributed Feedback (DFB) lasers.

This phase-shifting capability allows customers to use DTL for fabricating complex laser devices that require precise periodic structures with integrated phase shifts. While the lasers for AR projectors are a different application, the underlying advancement in DTL demonstrates the technology’s expanding capabilities beyond its initial applications, addressing new challenges in photonics and semiconductor manufacturing.

source https://www.youtube.com/watch?v=fGigKwHbM0c

Sidtek, a designer and manufacturer of micro-OLED products, showcases its display technology for AR and VR applications. Bruce Elliott, General Manager of North America Operations, explains the company’s end-to-end capabilities, which include silicon wafer design headquartered in Santa Clara, California, and manufacturing in its new facilities in Wuhu City. Sidtek is currently operating its first fab, with a second and third under construction to meet growing market demand.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The company highlights its 0.61-inch QHD micro-OLED display, which features a resolution of 2560×1600 and a pixel density of nearly 5,000 PPI. This is achieved with a 5.1 micron pixel pitch, one of the smallest in the industry, using a tandem white OLED structure with a color filter. The display can reach a brightness of 8,000 nits, making it suitable for AR applications. Sidtek is actively working to reduce the pixel pitch further, targeting the 4-micron range to enable smaller, more cost-effective designs.

Sidtek also presents a 0.49-inch Full HD (1920×1080) micro-OLED display, which is currently in production and has been demonstrated at 5,000 nits. Another 0.49-inch display with a 1600×1200 resolution, running at 3,000 nits, was developed for a specific domestic customer in China. The portfolio also includes a 1.35-inch 4K by 4K display and a 0.68-inch display used in the AR viewer glasses demonstrated at the booth.

For true AR applications, Elliott notes that the industry ideal for brightness is around 300,000 nits to overcome the significant light loss from current waveguide inefficiencies, which can reduce a 3,000-5,000 nit panel’s output to less than 1,000 nits at the eye. To address this, Sidtek is undertaking initiatives to develop super-high brightness products to compete with LCoS and micro-LED technologies in the AR space, aiming to provide a cost-effective and scalable alternative.

The company’s strategy focuses on both the near-eye VR market with direct-view modules and the emerging AR market. By leveraging its 12-inch wafer designs and expanding manufacturing capacity, Sidtek anticipates significant growth in the micro-OLED sector. The goal is to provide entry-level AR solutions that can address the current availability and price challenges associated with micro-LEDs, positioning itself for the expected expansion of the market in the next one to three years.

source https://www.youtube.com/watch?v=YItqIeDDtSs

TCL CSOT demonstrates a notebook display capable of an ultra-low refresh rate of 0.01 Hz. This is achieved using a high-mobility oxide backplane technology, which allows for very fast electron movement and enables new display driving designs. The technology is presented as ready for mass production, with potential market availability as early as next year depending on demand.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The key feature of this display is its ability to dynamically and automatically adjust the refresh rate in different regions of the screen. An AI-based auto-detection system identifies static and dynamic content. For example, a video playing in a window can run at a high frequency of 120 Hz, while the rest of the static screen area, such as text or a still image, drops to 0.01 Hz. This switching is instantaneous and automatic.

This variable refresh rate capability leads to significant power savings. The amount of power saved depends on the proportion of the screen operating at the low frequency. The demonstration suggests a power consumption reduction of around 20% when a high-frequency video window is active. For use cases like reading static text across the full screen, the power savings would be substantially greater, potentially extending a notebook’s battery life by several hours.

By reducing power consumption, the technology aims to extend device usage time. The on-screen information suggests that for video playback, this could result in one extra hour of battery life. For static content consumption, the gains would be even more significant, directly addressing a major challenge for portable computing devices.

source https://www.youtube.com/watch?v=CnqRxoaa_fY

TCL CSOT showcases its portfolio of inkjet-printed (IJP) display technologies, including a People’s Choice Award-winning 27-inch 4K monitor based on Quantum Dot Electroluminescence (QDEL). This next-generation QDEL display is presented alongside a 27-inch 4K inkjet-printed OLED monitor, which is scheduled for mass production this year. The IJP process is utilized for RGB materials across various layers, aiming to reduce manufacturing costs.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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A direct comparison of the 27-inch 4K monitors reveals key differences. The QDEL prototype achieves 500 nits of brightness and covers 85% of the BT.2020 color gamut, offering superior color performance. The IJP OLED reaches 400 nits and covers 100% of DCI-P3. The QDEL technology is positioned as a future product, with a development timeline of two to three years for market readiness. Both IJP technologies are highlighted for their eye-care benefits, reducing harmful blue light by approximately 20%.

The demonstration also includes several other applications of inkjet-printed OLED technology. A notable product is the first R-shaped IJP OLED notebook display with a 2.8K resolution and a 3mm R-shape curvature. For gaming, TCL CSOT presents an IJP OLED notebook panel with a 240Hz refresh rate. These displays are built on an LTPS (Low-Temperature Polycrystalline Silicon) backplane.

Further expanding the lineup, TCL CSOT displays a 27-inch monitor that utilizes an oxide backplane instead of LTPS. This oxide array technology enables a high refresh rate of 240Hz while also offering a lower cost structure. A 2K tablet display is also shown, emphasizing the eye-care advantages of the IJP OLED technology. The versatility of the panels is demonstrated through a foldable and portable monitor that can expand to 28 inches or be used as a 16-inch display when folded.

Beyond consumer electronics, the same flexible inkjet-printed panel technology is adapted for automotive applications, shown in a curved display configuration. The exhibit also features a stretchable display concept, illustrating the potential for dynamic screen sizes in future devices. These prototypes collectively represent TCL CSOT’s strategic focus on advancing inkjet printing as a core manufacturing process for next-generation OLED and QDEL displays.

source https://www.youtube.com/watch?v=Q_nq7nznqWI

TCL CSOT presents a prototype of the world’s first 28-inch foldable and portable monitor. This display features a unique tri-fold design, allowing a large, high-resolution screen to be collapsed into a compact form factor that can be easily carried in a bag. The demonstration highlights its potential for users who require a large, high-quality display on the go, combining the benefits of a large monitor with the convenience of portability.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The display itself offers a 4K resolution, providing a sharp and detailed image suitable for a variety of professional and entertainment applications. The prototype shown is powered via a direct connection, indicating its use as a secondary monitor for devices like laptops. The foldable mechanism allows the screen to be securely closed for transport and quickly opened for use, addressing a common need for larger portable screens without compromising on image quality.

The mechanical design of the tri-fold system is a key aspect of this technology. The hinges and flexible screen material are engineered to withstand repeated folding and unfolding while maintaining a seamless, flat viewing surface when open. This approach enables a significant expansion of screen real estate from a much smaller, stowed footprint, moving beyond the capabilities of traditional portable monitors.

This foldable display concept from TCL CSOT explores new possibilities for mobile productivity and media consumption. By integrating a large 4K panel into a foldable format, it offers a glimpse into future display technologies where screen size is no longer limited by the physical dimensions of a portable device. The design prioritizes a high-resolution visual experience in a package that is practical for travel and mobile work environments.

source https://www.youtube.com/watch?v=Z24esH-xZxM

At Display Week 2026, Samsung showcased a range of display technologies, from near-future mobile concepts to next-generation large-format screens. A key focus was on mobile display advancements, including a privacy display feature for phones like the S26 Ultra, which narrows the viewing angle to hide content from onlookers. This privacy function can be applied to the entire screen or specific areas. Samsung also presented a completely bezel-less phone concept, potentially for the S27, which blends seamlessly into its background. The company’s Synchroma technology aims to provide consistent color matching across a user’s ecosystem of devices, including TVs, phones, tablets, and laptops.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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Samsung’s LEED 2.0 platform was highlighted for its benefits in low-power consumption and enhanced color volume. A major development presented was the Electroluminescent Quantum Dot (ELQD) display, shown in 18.2-inch and 6.55-inch prototypes. These displays are produced using an inkjet printing process and represent a potential future direction for screen technology. The ELQD technology was also featured in a foldable phone concept, demonstrating its versatility.

In the television space, Samsung exhibited a 77-inch QD-OLED TV described as the world’s brightest, achieving 4,500 nits. This high brightness is enabled by a Pentatandem structure, which uses a five-stack emission layer. The company also showed a 27-inch Ultra HD monitor with a high pixel density of 160 PPI and VESA DisplayHDR True Black 500 certification. Power efficiency was addressed with a Smart Power HDR feature, which uses AI to reduce power consumption in HDR mode to levels comparable with SDR, potentially saving over 30%.

Emerging and interactive display concepts were also on display. This included a Light Field 2.0 display that provides a glasses-free 3D effect using eye-tracking. The booth featured several OLED-based concepts, such as a small AI bot, a smart speaker with a pop-up circular display, a curved MicroLED for smartwatches, an OLED turntable, and an AI pendant. These concepts illustrate the integration of advanced displays into various consumer electronic form factors.

For extended reality (XR), Samsung demonstrated its XR headset, which incorporates 1.03-inch OLED displays with a 4K by 4K resolution per eye. The headset supports eye tracking and was shown with a K-pop stage experience. The booth also featured smart glasses with MicroOLED technology, developed in partnership with Imagine Technology, showcasing advancements in augmented reality displays.

source https://www.youtube.com/watch?v=kLcvzEa6QxY

Shouji Fujita from Synaptics discusses the company’s technology for high-resolution micro displays, demonstrated at Display Week 2026. The demonstration features a 1.3-inch Micro-OLED panel with a 4K by 4K resolution and a pixel density of 4000 PPI. Synaptics provides the crucial display driver IC (DDSC) for both Micro-OLED and LCD panels, with this specific demo highlighting their Micro-OLED driver.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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Also showcased is the second-generation VXR8300 bridge IC, a compact 5.5x5mm chip designed for very low power consumption. This bridge IC plays a key role in system integration by converting signals from an Embedded DisplayPort (EDP) interface to a MIPI interface, a common requirement for connecting high-resolution micro displays to host processors in AR/VR headsets and other compact devices.

The VXR8300 bridge IC has been shipping as engineering samples since the previous October and is now nearing the mass production phase. The technology is suitable for real-world products, as shown with a high-end consumer headset that incorporates the display technology. This headset features integrated sensors and cameras, along with a power-saving mode that activates the display upon eye detection.

The combination of a high-density 4Kx4K Micro-OLED panel, a specialized DDSC, and a low-power EDP-to-MIPI bridge IC enables the development of next-generation headsets and near-eye displays. These components are engineered to deliver high-quality visuals while meeting the stringent power and form-factor requirements of wearable devices.

source https://www.youtube.com/watch?v=oIcq-2_Rne8

Playnitride showcases its latest MicroLED display technologies, highlighting advancements in brightness, efficiency, and application-specific designs. A key demonstration features a MicroLED watch display achieving 3,000 nits, a significant increase compared to conventional 1,000-nit OLED displays, offering superior visibility in direct sunlight for sports and outdoor applications. This product, developed in partnership with companies like AUO and used by brands such as Garmin, is now in mass production.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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Further enhancing performance, Playnitride introduces a structure referred to as “10-tier Micro-ID,” specifically designed for TFT backplanes. This technology enables displays to reach 5,000 nits with the same backplane, effectively doubling the brightness of their conventional MicroLEDs and improving overall power efficiency. This focus on efficiency is also demonstrated in a display that produces 1,700 nits while maintaining the same power consumption as a standard 1,000-nit panel.

For automotive applications, Playnitride presents a heads-up display (HUD) capable of delivering over 20,000 nits. This high-brightness display also utilizes the “10-tier” structure on a TFT backplane, ensuring clear image visibility even under bright ambient light. The company also continues to support PCB-based MicroLED products, showing tiled panels with a 0.3 mm pixel pitch that can achieve over 7,000 nits.

Playnitride is also heavily invested in the AR/XR market with its micro-display technology. A key product is a 0.18-inch micro-display that outputs 500,000 nits from the panel, which translates to approximately 1,000 nits to the eye after passing through the light engine and waveguide. A significant feature of this technology is the integration of all three RGB colors into a single monolithic panel using quantum dot color conversion for red and green, which allows for a much smaller display module volume.

The company’s roadmap for AR/XR includes even smaller form factors, with plans to release a 0.1-inch micro-display by the end of the year. This first-generation 0.49-inch micro-display, with a resolution of 720×720, is shown integrated into a glasses prototype. By creating single-panel color solutions, Playnitride aims to reduce the overall volume of the optical engine to less than 0.4cc, a critical requirement for developing compact and lightweight AR glasses.

source https://www.youtube.com/watch?v=-bnvYcy0LiE

Dan Sackels from Brilliance discusses the company’s fully integrated RGB laser light source technology at Display Week 2026. The core of their system involves individual red, green, and blue laser dyes flip-chipped onto a silicon substrate. These are combined into a single white beam designed for minimal insertion loss, making it suitable for projection onto LCoS panels or through laser beam scanning (LBS) MEMS for waveguide-based displays in AR and XR applications. The company is based in the Netherlands and is currently in production, ramping up for mass market adoption.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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Brilliance offers two main product families. The Neptune series is a point-source solution, originally developed for laser beam scanning. The Neptune 1, which is currently available in an evaluation kit, delivers up to 20 milliwatts per color. The upcoming Neptune 2 will increase this output to 100 milliwatts per color. The evaluation kit includes the laser light chip, a driver, and software, allowing developers to experiment with the beam properties for their specific use cases.

The second product line is the Loon family, designed as a flood illuminator specifically for LCoS displays. This addresses a key challenge in LCoS systems by providing a compact and efficient illumination solution. Samples of the Loon chip are expected to be available around the September timeframe. Brilliance positions its technology as a high-performance alternative to MicroLED, offering advantages in brightness, power efficiency, and a smaller form factor.

These advancements aim to enable all-day wearable AR glasses that are viewable in daylight. The technology promises to improve upon current single-channel (monocular) designs by offering a path to smaller, more efficient binocular systems. Brilliance collaborates with partners in the ecosystem, including LMJ for MEMS scanners and Vitra for beam-shaping optics, to facilitate integration and development of next-generation display systems.

source https://www.youtube.com/watch?v=H_EDhHTiNz0

Appotronics presents its single-engine binocular display LCoS (Liquid Crystal on Silicon) light engine for AR glasses. This architecture uses a single LCoS panel and light engine to drive a display for both eyes, which can reduce cost, power consumption, and size. The system can be configured for full-color RGB or single-color (e.g., green) output, suitable for different applications from 3D content to simple daily reminders.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The single-engine design achieves binocular vision by splitting the pixels of the display panel. Half of the panel’s pixels are directed to the left eye and the other half to the right eye. This allows for the display of stereoscopic 3D content, as each eye receives a slightly different image, similar to the effect used in 3D cinemas. The system is also capable of showing the same image to both eyes for applications like reading text where clarity is paramount. The switch between 3D and 2D modes is managed by the video stream sent to the glasses.

The demonstrated prototype features a 25-degree diagonal field of view with a resolution of 640×200 pixels, paired with a diffractive waveguide. Appotronics emphasizes that for AR applications, pixels per degree (PPD) is a more critical metric than raw resolution. While 4K resolution in a compact AR form factor is challenging with current technology, the company sees a path to full HD before targeting 4K. The design allows for digital adjustment of the display area if a larger panel is used.

Appotronics focuses on the system architecture and light engine design, partnering with other companies for waveguide manufacturing. The technology is compatible with various waveguide types, including diffractive and geometric waveguides. The light source for the engine can be either LED or laser-based, with laser versions being developed in partnership with other firms. The primary benefits for the end-user are cited as cost-effectiveness, thinness, and light weight.

Based in Shenzhen, Appotronics positions its technology as a key enabler for consumer-grade, everyday AR glasses. The company notes that while MicroLED and LCoS technologies will likely coexist to serve different segments of the AR market, their single-engine LCoS approach offers a compelling solution for creating affordable and accessible binocular AR experiences. The cost of the dual waveguides remains a factor, but the single engine helps offset the overall system cost.

source https://www.youtube.com/watch?v=ca8wSkUBzBc

Summit Technology Laboratory demonstrates its software for creating large-scale, immersive experiences by automatically aligning and blending multiple projectors. The system creates a single, seamless image from two or more projectors, even on non-planar or dynamically moving surfaces. This technology is designed to eliminate the complex and time-consuming manual calibration process typically required for multi-projector setups.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The core capability shown is dynamic projection mapping, where the software adapts the projected image in real time to a surface that is changing shape, such as a fluttering flag. The system uses a depth camera to track the surface geometry and continuously adjusts the projection to maintain a coherent and undistorted image. This real-time adaptation is a key differentiator, enabling interactive and dynamic visual displays that were previously not possible with multiple projectors.

For sensing, the demonstration utilizes a consumer-grade RGBD camera, specifically a Microsoft Azure Kinect, which is a time-of-flight (ToF) depth camera. The software’s performance is currently limited by the frame rate and resolution of the camera hardware. The company notes that higher-quality, faster depth cameras would enable an even more seamless experience. The processing is handled by a high-performance computer capable of keeping up with the real-time demands of the system.

The software is hardware-agnostic, compatible with any brand or model of projector, including mixed-throw types like short-throw and ultra-short-throw projectors used together. The setup process is simplified to placing the projectors and cameras to illuminate the target surface and running the software, which handles the rest of the alignment and blending automatically. This user-friendly approach makes complex projection mapping accessible without specialized user intervention.

Applications for this technology include large, immersive displays for simulations, such as the 180-degree cylindrical sea glider simulator mentioned, which uses three projectors. The technology also opens up possibilities for projection mapping onto moving objects, such as a performer’s dress on stage, creating dynamic and interactive visual effects for live events and entertainment.

source https://www.youtube.com/watch?v=-ZMFoJooYsU

Qun (Frank) Yan, President of the Society for Information Display (SID), discusses the organization’s global strategy and the future of display technology at Display Week. He outlines SID’s goal to foster greater engagement and collaboration between different regions, including the manufacturing hubs in Asia and the system integration and brand product focus in the US and Europe. The society aims to connect these strengths to create better consumer products.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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SID organizes several key events worldwide in addition to its flagship Display Week. The International Conference on Display Technology (ICDT) in China is noted as the second-largest event, experiencing significant annual growth in attendance, exhibitors, and paper submissions. Other important regional events include IMI-D in Korea, RDW in Japan, and Euro Display, which is scheduled to take place in Ireland. These conferences serve as crucial platforms for students, researchers, and industry professionals.

Yan reflects on the importance of Display Week as a venue for the industry to connect, share the latest research, and form new partnerships. He mentions that after the current event in Los Angeles, Display Week will be held in San Jose, Silicon Valley, for the next four years to facilitate easier access for the numerous tech companies in that area. The event provides significant business opportunities and a platform for colliding with new ideas.

The discussion also touches on the evolving relationship between display technology and content creation, inspired by a keynote from IMAX. Yan highlights a trend towards more interactive and immersive displays, where content can change based on user interaction. He envisions a future where displays are seamlessly integrated into our environment, like furniture or decorations, providing information and interactive experiences on demand. This future requires closer collaboration with content generators to develop rich content for advanced display capabilities, such as multi-primary color systems.

Looking forward, the goal is to create display experiences that are not just passive, but fully interactive, potentially surpassing the experience of being physically present. The future of displays lies in their ability to become an integral, intelligent, and interactive part of everyday life, moving beyond traditional screens to become ubiquitous information surfaces.

source https://www.youtube.com/watch?v=auGCgh6n_1I

Synaptics demonstrates display technology at Display Week 2026. The presentation highlights characteristics related to viewing angles and the visual quality of the display panel under different observation conditions. The technology shown appears to involve specific bonding techniques and electronic management of the display system.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The demonstration focuses on maintaining image integrity and clarity when the screen is viewed from various angles. While the specific product details are not fully elaborated, the context points towards advancements in display panel construction and performance for applications where off-axis viewing is a common use case.

Synaptics is known for developing human interface solutions, including touch, display, and biometrics technology for a wide range of mobile, PC, and automotive applications. This exhibit is consistent with their work in display driver ICs (DDICs) and related panel technologies.

The content shown suggests an emphasis on the physical and electronic integration required to achieve specific performance goals in modern display systems. The discussion touches on the challenges of manufacturing and the methods used to ensure consistent output across the panel.

source https://www.youtube.com/watch?v=rr3p1B-XyPM

Corning Incorporated showcases its glass technologies at Display Week 2026, highlighting its history and recent collaborations. The company demonstrates its Gen 10.5 glass, which enables the efficient production of eight 65-inch television panels from a single substrate. This large-format glass is a key component for their customers in the display manufacturing industry.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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Corning’s collaborations include a transparent, dual-sided MicroLED display developed with AUO, which utilizes optically advanced display glass. This technology is being explored for transportation applications. Another partnership with Innolux features a display using Corning’s Eagle XG glass as a carrier substrate to achieve a unique form factor. The company is also working with BOE and Tiana on smart liquid crystal antennas, which use optimized display glass substrates to precisely direct signals.

A significant development presented is Silicon on Glass technology, a new approach for producing microdisplays for AR, VR, and MR applications. This method combines the benefits of both silicon and glass backplanes for TFT substrates, aiming to advance the performance and manufacturing of displays for extended reality devices.

Reflecting on its 175-year history, Corning displays its legacy in television technology, starting with the mass production of cathode ray tube (CRT) glass. The exhibit features an early CRT tube used for radar and one of the first RCA televisions, which contained a Corning CRT, demonstrating how the company helped make television accessible. The evolution from the deep, small CRT tubes of the 1930s and 1960s to modern flat-panel displays is shown.

Corning’s invention of the fusion glass manufacturing process over 60 years ago was pivotal for the transition to LCD televisions. This process creates exceptionally flat and consistent glass, which has enabled the development of thinner, larger, and higher-performance flat-screen TVs. The company also highlights the role of its Gorilla Glass, another product of the fusion process, in consumer electronics.

source https://www.youtube.com/watch?v=1TXZQa57F3s

Eric Virey, Senior Analyst at Yole Group, provides an overview of the extended reality (XR) market, defining the continuum from virtual reality (VR) to augmented reality (AR). The discussion covers the key categories of XR devices, including fully immersive VR headsets that isolate the user, and mixed reality (MR) devices that use video passthrough to blend virtual objects with the real world. A critical feature for MR is world locking, which allows the device to scan and model the environment in real-time for realistic interaction and occlusion between physical and virtual objects.

—
HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The conversation also explores media consumption glasses designed for watching movies or for productivity, functioning as a large virtual computer screen. Moving towards more conventional form factors, the analysis touches on audio and AI glasses. These devices typically integrate a camera and microphone, not just for content capture but also to provide contextual information to an AI agent. This enables use cases like object identification (cars, buildings, plants) and potentially remembering past actions, such as where the user last placed an item.

A significant portion of the discussion focuses on the practical and future applications of these smart glasses. One existing application is their use as an advanced hearing aid. Companies like Essilor have developed products that integrate hearing assistance into glasses, using AI to process sound, eliminate background noise, and enhance speech from a specific person. This offers a more discreet alternative to traditional hearing aids and can significantly improve the quality of life for individuals with hearing loss.

The topic of facial recognition is addressed as a powerful but controversial feature for AR glasses. While not implemented in current commercial products due to privacy concerns, the potential for such technology is explored, especially in controlled environments like a trade show. The concept of an opt-in system is proposed, where attendees at an event like Display Week could consent to be recognized to facilitate more efficient networking. This would require a standardized, multi-level privacy framework to ensure user control.

The long-term vision for AI glasses is to become the primary access modality for AI agents. However, this raises challenges regarding the computational cost of continuous video analysis. Processing this data in the cloud could be prohibitively expensive, suggesting a future reliance on more efficient on-device processing or new pricing models for cloud-based AI services. The conversation highlights the balance between enabling powerful new capabilities and managing the associated technical and societal challenges.

source https://www.youtube.com/watch?v=y6DnG_8D2-s

Tsubota Laboratory, a pharmaceutical and medical company based in Tokyo, Japan, presents its technology for delivering beneficial violet light through displays. The company has developed a glasses-type transparent display that emits violet light in the 385 to 390 nanometer wavelength range. This specific wavelength is intended to help prevent the progression of myopia, particularly in children. The technology is based on clinical trials in Japan that have demonstrated the efficacy and safety of this approach.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The core concept addresses the lack of violet light in modern indoor environments, which contrasts with the natural violet light available from sunlight outdoors. Tsubota Laboratory’s initial product is a medical device, the “eye-grace frame,” which requires a physician’s prescription and is worn for three hours a day for one year to manage myopia progression. The emitted light is not visible to the user, ensuring it does not interfere with their vision or activities.

At Display Week, the company showcased a new application of this technology as a consumer product: a transparent film or display layer designed to be placed in front of tablets and other screens. This allows children and other users to receive supplemental violet light while learning or watching videos, activities often associated with eye strain. The goal is to add a health benefit, similar to a vitamin, without altering the viewing experience of the original screen content.

This violet light works by activating OPN5 (opsin-5), a non-visual photoreceptor in the eye that helps regulate blood flow in the retina. To ensure safety and efficacy, the system incorporates eye-tracking technology. This feature measures the distance of the user’s eyes from the screen and automatically adjusts the intensity of the violet light, dimming it as the user gets closer to prevent overexposure.

Beyond myopia, the company notes that this essential light is involved in regulating circadian rhythms. The lack of it in modern lighting contributes to what they term a “junk light environment.” Researchers are exploring the potential of this violet light technology for other conditions, such as mood and sleep disorders, aiming to reintroduce healthy light into daily life through common digital devices.

source https://www.youtube.com/watch?v=-FmvnsL0VuA

Reza, CEO and founder of Vuereal, presents the company’s microLED (µLED) platform, which is based on a modular production model. Based in Waterloo, Canada, Vuereal’s business model involves providing a specialized printer along with cartridges containing microLEDs, micro-sensors, and micro-chiplets. This approach allows partners to manufacture custom products without significant capital investment by leveraging existing foundry infrastructure. Customers can order design reference kits, including 3.5-inch, 10-inch, smartwatch, and lighting products, directly from the company’s website.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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The core of Vuereal’s technology lies in using very small LEDs, in the tens of microns range, which enables the creation of multifunctional surfaces. The space between the pixels can be used to integrate other components, allowing for highly transparent displays, high-contrast black matrices, mirrors, or even solar cells for power generation. This capability extends beyond simple displays to incorporate a wide variety of sensors directly into the panel, turning it into an active surface.

This manufacturing platform is described as a form of “micro solid printing.” The process allows Vuereal to pre-process the components within the cartridges, performing binning, inspection, and tuning of the LEDs to ensure they meet customer specifications upon delivery. This quality control step is crucial for producing consistent, high-performance microLED devices. The system is designed to enable rapid hardware development cycles, comparable to software development.

Vuereal is focusing its platform on small to medium-sized applications rather than the large-format display market. The primary goal is to enable the 3D integration of micro-sensors and other micro-devices. Key target markets include robotics, where dense sensor integration is needed for autonomy, and personalized health, which requires integrated biometrics. The platform is positioned to serve the growing needs of AI, autonomy, and health tech, all of which demand extensive sensor integration.

The company believes that as production volume increases and costs decrease, microLEDs will become a dominant display technology. While other technologies like OLED and LCD will continue to exist, microLEDs offer unique capabilities for integrating new functions like advanced sensing directly into the display. Vuereal aims to make this technology accessible, allowing entities of various sizes to enter the market and develop novel semiconductor applications.

source https://www.youtube.com/watch?v=Ua01tEt9x8M

Hyphy (Sample Analog Processing) demonstrates an analog signal transmission technology for display panels at Display Week 2026. The system uses an FPGA-based platform to convert video signals from a laptop into analog transmission, which is then sent across multiple PCB assemblies to a timing controller board. This approach replicates the signal path found in television systems while enabling higher bit-depth transmission than current digital interfaces allow. Hyphy’s SAP system represents a fundamental shift from digital to analog display interconnect at the panel level. The core innovation addresses a fundamental limitation in current television architectures where the TV subsystem can only transmit a maximum of 10-bit data to display drivers, even when processors internally handle 12-bit or higher bit-depth processing for gamma curve adjustment. By implementing analog transmission of pixel samples across single wire pairs, Hyphy enables 12-bit, 14-bit, or even 16-bit input signals to reach display drivers without compression. The system achieves uncompressed bit-for-bit transmission at data rates exceeding four gigabits per second across a single wire pair, a rate technically impossible with current digital approaches without compression. This analog method also provides benefits including reduced EMI, lower power consumption, and simpler TV assembly processes, potentially reducing overall system cost compared to fully digital implementations at these bandwidth levels. The technology is designed to integrate as a transmitter within existing SOC (System on Chip) architectures from vendors like MediaTek or Realtek, replacing current display driver ICs and timing controllers. Hyphy’s solution is compatible with COF (Chip on Film) mounting technology used in current 4K panels, and scales effectively to 8K and 16K resolution displays with high refresh rates. The company targets gaming applications where fast refresh rates and deep color are increasingly important, while noting that existing streaming content remains compatible with the higher bit-depth capability.

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HDMI® Technology is the foundation for the worldwide ecosystem of HDMI-connected devices; integrated with displays, set-top boxes, laptops, audio video receivers and other product types. Because of this global usage, manufacturers, resellers, integrators and consumers must be assured that their HDMI® products work seamlessly together and deliver the best possible performance by sourcing products from licensed HDMI Adopters or authorized resellers. For HDMI Cables, consumers can look for the official HDMI® Cable Certification Labels on packaging. Innovation continues with the latest HDMI 2.2 Specification that supports higher 96Gbps bandwidth and next-gen HDMI Fixed Rate Link technology to provide optimal audio and video for a wide range of device applications. Higher resolutions and refresh rates are supported, including up to 12K@120 and 16K@60. Additionally, more high-quality options are supported, including uncompressed full chroma formats such as 8K@60/4:4:4 and 4K@240/4:4:4 at 10-bit and 12-bit color.
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source https://www.youtube.com/watch?v=OVKIz5q2B84