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ADLINK showcased a range of edge AI and embedded computing solutions at Computex 2026. The demonstrations highlighted the integration of diverse silicon platforms from vendors including Intel, NVIDIA, AMD, NXP, Qualcomm, and MediaTek into hardware form factors optimized for smart manufacturing, medical imaging, retail, and autonomous robotics. These systems leverage edge processing to run localized artificial intelligence models, including large language models and computer vision pipelines, directly at the point of data generation.

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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 autonomous logistics and factory automation, the company demonstrated an autonomous mobile robot equipped with 3D cameras and powered by an NVIDIA Jetson system-on-module. The robot is designed for autonomous navigation and material handling on factory floors, capable of lifting payloads up to 50 pounds. Additionally, in partnership with AUO, a transparent Micro LED display solution was shown running a local large language model for interactive retail and vending machine applications.

In the embedded computing and system-on-module segment, the exhibit featured Computer on Modules (COMs) based on Intel architecture, designed for integration with custom carrier boards. For lower-power and entry-level edge processing, a compact fanless system utilizing the MediaTek Genio 520 processor was displayed, supporting dual HDMI outputs. The smart camera line features integrated Qualcomm processors, combining optics, sensor, and compute into a single custom-designed and manufactured device.

Edge server and high-performance computing demonstrations included smart manufacturing servers powered by Intel Xeon 6 or AMD EPYC processors. These systems integrate panel solutions for Enterprise Resource Planning (ERP) and knowledge management, allowing customers to simulate application workloads on the hardware before deployment. A dedicated local AI agent demonstration featured an Intel processor utilizing integrated CPU, MPU, and GPU capabilities with the OpenVINO toolkit to run localized generative AI models without requiring discrete graphics hardware.

For medical and high-performance visualization fields, ADLINK presented 3D imaging hardware designed for glasses-free 3D medical displays. This hardware integrates modular NVIDIA GPU boards to scale performance for demanding graphics and parallel computing tasks. Across these industries, the featured technologies emphasize localized intelligence, passive thermal design, and hardware reliability for edge deployments.

source https://www.youtube.com/watch?v=IdXW-7ZZ0BE

Premio is a global provider of ruggedized edge computing technology, headquartered in Los Angeles, California, with research and development operations in Taipei, Taiwan. At Computex 2026, the company highlighted its recent brand consolidation with its Taiwan subsidiary and showcased its hardware backbone designed for physical AI and autonomous machine workloads at the edge.

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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’s embedded lineup includes the JCO series of edge computers. The JCO 3000 Orin is a fanless system that supports NVIDIA Jetson NX and Nano modules and features four gigabit LAN ports with Power over Ethernet (PoE) support to connect external cameras. The JCO 6000 Orin leverages the NVIDIA Jetson AGX Orin 32GB and 64GB modules and integrates customizable Edge Boost IO modules for RJ45, M12, and USB connectivity.

For harsher deployment environments, the WCO series features an IP66-rated ruggedized chassis with M12 locking connectors. The WCO 3000 series supports NVIDIA Jetson NX and Jetson Orin modules, and Premio is introducing support for the NVIDIA Jetson Thor T4000 and T5000 modules. These systems support sensor fusion in robotics applications, incorporating GMSL camera interfaces and four 10-Gigabit bandwidth pipelines.

Premio also introduced its line of rack-mountable edge AI servers in 1U, 2U, and 3U short-depth form factors to bring high-performance computing closer to local data sources. These servers support X86 semiconductors, including Intel and AMD Ryzen 9000, 8000, and 7000 series processors, as well as the AMD EPYC 4000 series utilizing the AM5 socket.

The short-depth edge AI servers include PCIe expansion slots to accommodate multiple GPUs and ISP network cards for local large language model (LLM) inference. By adopting domain-specific architectures and accelerators, Premio’s physical AI compute spectrum is built to handle real-time deterministic computing and autonomous robotics workloads away from centralized cloud infrastructure.

source https://www.youtube.com/watch?v=aLtzL9ZNZ3Y

Iris Optronics develops Cholesteric Liquid Crystal Display (CHLCD) e-paper technology, offering full-color reflective displays for digital signage, healthcare, and consumer electronics. The technology is manufactured using production lines similar to traditional liquid crystal displays (LCDs), which facilitates scaling and cost reduction as volume production begins. IrisCHLCD holds over 200 patents in CHLCD technology and collaborates with strategic partners including Modern Solid for healthcare distribution and Kent Displays for consumer products. The official website is iris-opt.com.

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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 CHLCD technology stacks red, green, and blue layers to produce up to 16 million colors, representing a significant color gamut expansion compared to electrophoretic (color E Ink) displays that are limited to 60,000 colors. Because CHLCD operates by controlling liquid crystal states between two glass substrates rather than physically moving pigment capsules, it avoids the color-mixing limitations inherent to ink-based reflective screens, maintaining color accuracy and full-palette reproduction.

For display sizes under 13 inches and up to the 31.5-inch panel shown, IrisCHLCD utilizes a passive matrix driving method. Passive matrix displays require fewer electronics per pixel, resulting in a higher aperture ratio and improved brightness since each pixel can reflect more light. The 31.5-inch passive matrix display features a Full HD resolution of 1920 by 1080 pixels, which maintains large enough individual pixel sizes to optimize reflectivity and brightness in outdoor ambient conditions. Smaller panels in the lineup feature VGA resolutions of 1024 by 768 pixels.

For display sizes exceeding 31.5 inches, including planned panels of 50 inches and larger, the company transitions to an active matrix driving method using thin-film transistors (TFT) on each pixel. Active matrix driving enables updating the entire display area simultaneously in under one second. Active matrix designs can theoretically support frame rates between 10 and 20 frames per second, though operating at higher refresh rates involves a trade-off with the low-power consumption benefits characteristic of bi-stable CHLCD technology.

Target deployments for these reflective displays include digital signage, public transit information boards like bus stops, and healthcare bedside patient monitors. In patient care settings, partner Modern Solid distributes the bedside displays to display medical information. In North America, Kent Displays is preparing to launch a digital photo frame utilizing the CHLCD panels. Volume production of the technology is scheduled to begin at the end of the year.

source https://www.youtube.com/watch?v=IOvhU9bakbs

Centron demonstrated its latest transmission and streaming hardware designs at Computex 2026, showcasing solutions built around advanced codec technologies. The company highlighted its new HDMI 2.1 AV-over-IP products, which facilitate high-resolution, high-refresh-rate video transmission over standard network infrastructures. These systems are designed to address the needs of enterprise meeting rooms, educational facilities, and residential environments requiring high-bandwidth AV extension.

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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 cornerstone of the showcase is an HDMI 2.1 transceiver capable of distributing 4K video at 120Hz or 144Hz, as well as 8K video at 30Hz, over standard 1 Gbps Ethernet networks. By using highly optimized proprietary codecs, the hardware compresses 48 Gbps HDMI 2.1 signals to fit within a 1 Gbps bandwidth limit while maintaining near-lossless visual quality. The system operates with a low latency of approximately one frame and minimal keyframe delay. Physical configurations feature a flexible design where a single hardware chassis can serve as either a transmitter or a receiver depending on the loaded firmware.

Connectivity options on the transceiver include HDMI input, loop-through support, and a USB-C input supporting Alternate Mode for direct connection to compatible source devices like laptops and smartphones. Alongside high-definition video, the hardware extends USB over IP to support devices like webcams, as well as dedicated analog audio input/output and infrared (IR) pass-through. For digital signage and multi-display installations, the receiver units support video wall configurations (such as 3×3 or 4×4 grids) and multicast distribution controlled through specialized management software.

In addition to wired AV-over-IP transceivers, Centron presented a wireless display receiver that leverages standard consumer Wi-Fi routers. This wireless streaming system can broadcast a single video source to up to 16 receiver units simultaneously over Wi-Fi, utilizing the same optimized codec structure to maintain signal integrity within standard network bandwidths.

For control and integration, Centron showcased an IoT gateway and AV-over-IP controller platform powered by the Realtek RTD1619B ARM processor. The board features an M.2 expansion slot to accommodate modular neural processing units (NPUs) from vendors such as Hailo, Kinara, and Realtek. Furthermore, the company offers System-on-Module (SOM) platforms designed to support custom integrations using silicon from Rockchip and Renesas.

source https://www.youtube.com/watch?v=OTy5Lq73kgs

Aotingbots presents its commercial cleaning robot, which operates without water. The core technology focuses on a waterless system, which is described as being safer, more efficient, and easier to maintain compared to traditional wet-mopping robots. This design is intended for large commercial spaces where water on the floor could be a hazard or inconvenience. The robot is designed for autonomous operation in environments such as hotels, offices, supermarkets, schools, and hospitals. https://www.aotingbots.com

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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 robot navigates using sensors located on its front and sides for obstacle detection and avoidance. It does not use cameras for navigation or data capture. When an obstacle is detected, the unit stops immediately and calculates an alternative path. The robot features both an automatic cleaning mode and a manual mode. The manual mode can be engaged by lifting the control handle, which allows an operator to guide the machine directly to specific areas for spot cleaning.

The cleaning mechanism combines sweeping, vacuuming, and mopping functions into a single pass. It utilizes soft side brushes to gather dust and dry debris from edges and corners, directing it towards the main roller brush underneath the unit. The system captures particulate matter with a replaceable filter. All the components, including the brushes and filters, are designed for easy replacement and maintenance.

According to the company, the waterless cleaning robot is in mass production and has been deployed in over 20 countries, including the USA and various markets in Asia. The system is targeted at facility management in large venues like conference centers and transportation hubs. This demonstration was recorded at the Hong Kong Fairs in April 2026.

source https://www.youtube.com/watch?v=TWYFSkfad00

BOE’s VIP room tour shows how broad the company’s display portfolio has become, from high-performance stereoscopic 3D to ultra-thin mobile PC concepts, smart home interfaces, small OLED modules, flexible AMOLED, automotive displays, aviation panels, medical screens, and pressure sensor integration. The focus is not one single panel type, but the way BOE combines LCD, OLED, RGBW, in-cell touch, sensor layers, and AI-driven interaction into complete product concepts. https://www.boe.com/en/

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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 3D section highlights both glasses-based 3D with very low crosstalk and glasses-free 3D with eye tracking, where the display follows one viewer to preserve depth and reduce blur. The tour also looks at narrow-border consumer panels, an ultra-light laptop display concept around 475 grams, and 5K high-refresh low-motion-blur LCD technology using modes around 120Hz and 144Hz for cleaner fast-moving image detail.

Several smaller embedded displays show where screens are moving beyond phones, TVs, and laptops. BOE demonstrates touch displays for smart door systems, square and round panels for home appliances, a 0.88-inch OLED for compact electronics, flexible LED/OLED surfaces for expressive robot faces, and monochrome LCD/OLED light engines for 3D printing. The 55-inch curved 4K RGBW panel is used to explain the power-consumption trade-off: RGBW can reduce power draw by about 20%, while RGB panels can preserve stronger color saturation and image depth.

Filmed at Display Week 2026 in Los Angeles, the tour also moves into harsh-environment and professional display use cases. A diving watch uses a 3.26-inch AMOLED display that can still operate under water pressure, while other examples include fish-finder screens, digital side-mirror replacement for vehicles, camera-under-display integration, ultra-black LCD comparison panels, and a rear-seat automotive cinema display that physically adjusts to the passenger’s eye level. BOE’s Ultra Black Cell and UB Cell-style LCD work is especially relevant here, because automotive and premium LCD applications need high contrast, strong daylight readability, and low power draw without relying only on OLED.

The final section shows displays built for reliability rather than thinness: aviation panels with rugged construction and high contrast, surgical displays for medical imaging, pressure-sensor arrays, and a smartwatch-style blood-pressure measurement module that uses a tiny sensor system at the wrist. Overall, the BOE VIP room presents a display ecosystem built around OLED, LCD, oxide, LTPS, RGBW, in-cell touch, flexible form factors, automotive integration, medical imaging, and sensor fusion, showing how display technology is becoming both visual interface and measurement surface.

source https://www.youtube.com/watch?v=pTsHUuA4yKc

At Display Week 2026, BOE showcases its latest display technologies, led by a large-format 5K Chip-on-Glass (COG) MicroLED display. This technology enables extremely fine pixel pitches, such as the 0.9mm demonstrated, and is presented as the key to achieving pitches below 0.5mm for future high-resolution screens. The display features up to 3000 nits of brightness, high contrast, and low heat generation, with the capability to produce 8K versions. BOE positions COG as a successor to Chip-on-Board (COB) and other LED technologies.

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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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BOE also highlights advancements in its core LCD technology. The company presents its UB Cell (Ultra Black Cell) technology as a cost-effective alternative to OLED, designed to deliver deep blacks and high contrast. This is shown alongside a Mini-LED backlight implementation featuring 5,000 to 6,000 local dimming zones. Additionally, BOE demonstrates enhanced color gamut capabilities, achieving 130% of a standard gamut through technologies internally referred to as RGBX, which add a cyan sub-pixel to improve the blue-green spectrum.

Another major focus is on iHealth, a suite of technologies aimed at improving eye comfort and health during screen use. This initiative is built on four key pillars. The first is spectrum optimization, which adjusts the display’s light output to more closely mimic the harmonic balance of natural light, incorporating beneficial red light while managing blue light.

The second iHealth component is the use of a circular polarizer, a technology BOE is pioneering for smaller screens like phones. A circular polarizer is less strenuous on the eyes compared to the linear polarizers commonly used. The third pillar is an advanced anti-glare (AG) surface treatment that significantly reduces reflections from ambient light, further decreasing eye strain.

The final element of the iHealth platform is flicker reduction. By combining spectrum optimization, circular polarization, anti-glare surfaces, and flicker-free performance, BOE aims to create a comprehensive viewing experience that prioritizes user well-being across its product lines, from laptops to mobile devices.

source https://www.youtube.com/watch?v=TMocinozD7M

Backblaze cloud storage platform delivers AI-era data management for media workflows at NAB 2026. Founded 19 years ago, Backblaze provides hot single-tier storage with pricing that eliminates surprise bills: customers pay a flat $0.006 per GB per month with free egress, no minimum storage duration, no minimum file size, and no gotchas. The B2 OverDrive product offers up to a terabyte of dedicated bandwidth for high-throughput use cases such as AI model training and CDN-free distribution, with customers running several hundred gigabits per second on dedicated lines. The B2 platform exposes a fully S3-compatible API, enabling existing Amazon S3 codebases to migrate by simply swapping the endpoint, supporting interoperability across AWS, Google Cloud, CoreOS, and Vultr. Backblaze has published its durability algorithm open-source, achieving 11 nines of durability equivalent to Amazon S3, with data replicated across U.S. West, U.S. East, Canada, and Amsterdam regions. For AI agent workflows, Backblaze released an Open Cloth skill allowing automated backup orchestration, intelligent on-prem to cloud data movement, and autonomous workflow triggers based on access patterns. B2 OverDrive targets media and broadcast teams managing large file transfers and AI training datasets without egress fee penalties. https://www.backblaze.com

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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=QrU3y_BFnhg

DJI showcased its latest gimbal and integrated camera system at NAB 2026. Donovan Davis, Senior Product Specialist, introduced the RS5 gimbal featuring fine-tuning knobs on all axes, an electronic briefcase handle with full gimbal control and mode controls, and Teflon-coated axes for smoother balancing. The RS5 delivers a 20% peak torque increase over the previous generation, supporting a 6.6-pound weighted payload rating for standard camera setups. The new intelligent tracking module uses an AI engine to track people, animals, vehicles, or any user-selected object via palm-gesture activation, with green LED confirmation and two-finger gestures for start/stop recording. Magnetic mounting allows quick removal and reattachment for lower profile use. The combo kit at $719 includes the gimbal, quick-open tripod, quick release plates, lens fastening support, camera control cable, briefcase handle, battery grip, and intelligent tracking module, backed by DJI Care’s two-year replacement warranty covering up to four incidents. DJI also demonstrated its integrated 8K full-frame RAW camera with built-in stabilization, Z-axis footstep compensation, advanced LiDAR autofocus with an included focus motor, and support for E-mount and PL mount lenses. The camera runs over an hour on a single battery and integrates DJI’s long-range transmission module, controllable via master wheels, joystick controllers, or kinetic control. This system was used to shoot the feature film Warfare and Netflix’s Adolescence, which was filmed entirely in one continuous take.

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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=2y_YsZ3T–w

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.

—
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