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19GB/s SSD by Western Digital (Black NVMe), WD MyPassport SSD, portable SSD and more

Posted by – June 26, 2018

Western Digital shows their up to 1TB Western Digital Black NVMe SSD storage that can combine 8 of them through two PCI-e splitters to reach up to 19 Gigabytes per second storage speed. Sandisk and WD and Sandisk branded portable SSDs at up to 550MB/s bandwidth. Thunderbolt based portable SSD with up to 2.8GB/s bandwidth. Up to 2TB WD MyPassport SSD to backup SD cards remotely to the built-in SSD with up to 390MB/s bandwidth. Up to 7.8TB desktop SSD drive. WD Black hard drives can do somewhere around up to 250MB/s bandwidth and SSDs can go 10x faster or more. For their UHS-2 SD card at 300MB/s they still only have up to 128GB capacity only. Rockchip RK3188-T on a Beagleboard.

Socionext camera/video AI, IoT, Linaro, processing, low light, security cameras and more


Socionext and partners show their newest solutions featuring the Linaro Edge Box and other of their solutions for camera and video processing, AI, IoT including their Image Signal Processor demonstrations for High-accuracy license plate recognition, High-performance under ultra-low-light conditions, Multi-camera UHD panorama view (four cameras), AR / VR / MR / XR, Video – Hybrid Codec Solution Demos, Socionext’s High-density video transcoding for Cost-saving IP video distribution, Intelligent edge computing, AI / IoT – Edge Computing and High-performance AI inference system for High-efficiency video management systems (VMS) and Power-saving edge.

LPKF Laser-induced-deep-etching (LIDE)

Posted by – June 25, 2018

LPKF Laser & Electronics demonstrated a laser-induced-deep-etching (LIDE) technology that overcomes the drawbacks of manufacturing processes by bringing cost-effective micro features of high aspect ratio and excellent quality to glass. In the display industry these LIDE-generated micro features can be used for vertical interconnects in backplanes (TVG) or for fine glass masks (FGMs) in OLED manufacturing. FGMS offer cost and quality advantages over today’s fine metal masks (FMMs).

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

Display Week’s I-Zone, sponsored by E Ink, is a unique exhibition-within-the-exhibition filled with demos and prototypes from around the world. Every year, dozens of applicants submit their pre-market and emerging products to compete for a free booth where they can share their inventions with buyers, manufacturers, potential partners, industry leaders and thousands of attendees.

Oculus Research of Facebook Keynote at SID Display Week 2018

Posted by – June 25, 2018

Douglas Lanman, Director of Computational Imaging at Oculus Research, give his keynote address: “Reactive Displays: Unlocking Next-Generation VR/AR Visuals with Eye Tracking” at SID Display Week 2018, the world’s largest exhibition for electronic information display technology.

As personal viewing devices, head-mounted displays offer a unique means to rapidly deliver richer visual experiences than past direct-view displays occupying a shared environment. Viewing optics, display components, and sensing elements may all be tuned for a single user. It is the latter element that helps differentiate from the past, with individualized eye tracking playing an important role in unlocking higher resolutions, wider fields of view, and more comfortable visuals than past displays. This talk will explore the “reactive display” concept and how it may impact VR/AR devices in the coming years.

Douglas Lanman, Ph.D. is the director of computational imaging at Oculus Research, where he leads investigations into advanced display and imaging technologies. His prior research has focused on head-mounted displays, glasses-free 3D displays, light-field cameras, and active illumination for 3D reconstruction and interaction. He received a B.S. in applied physics with honors from Caltech in 2002 and M.S. and Ph.D. degrees in electrical engineering from Brown University in 2006 and 2010, respectively. He was a senior research scientist at NVIDIA Research from 2012 to 2014, a postdoctoral associate at the MIT Media Lab from 2010 to 2012, and an assistant research staff member at MIT Lincoln Laboratory from 2002 to 2005.

Visionox OLED Keynote at SID Display Week 2018

Posted by – June 25, 2018

Display Week is the world’s largest exhibition for electronic information display technology. Watch Deqiang Zhang, CEO of Visionox, give his keynote address: “OLED Leading to the New Experience of Display”.

Thirty-one years ago, Dr. Ching W. Tang and Steven Van Slyke from Kodak made a historic technology breakthrough, building the first practical organic light-emitting diode (OLED) device. Today, advancements in OLED have made it possible to construct flexible displays, ushering in an era of “Ubiquitous Screens.” As the rapidly developing Internet, IOT, 5G, cloud computing, etc., have already made the “Internet of Everything” become a reality, displays (especially flexible OLED displays) will play a significant role in this technological revolution.

Deqiang Zhang, Ph.D. is a graduate of Tsinghua University and held various management roles at Visionox before becoming the company’s CEO. His field of research is organic optoelectronics. Dr. Zhang has devoted himself to the research and development of OLED process technology, the construction of OLED mass production lines, and product planning in China for 22 years, promoting the industrialization of OLED. He has published over 20 OLED research papers and holds over 30 OLED patents. He received first place in China’s coveted “National Award for Technological Invention” in 2011.

Display Week is held annually and organized by the Society for Information Display.

Tianma shows Flexible OLED, Quantum Dot LCD, Full Active, Notch, No-Notch and more

Posted by – June 22, 2018

Tianma shows a range of their latest displays at SID Display Week 2018. Displays include flexible OLED for phones, that can go as thin as 3mm bend radius that can do up to 10 thousand bends, active no-notch bezel-less LTPS LCD some with Notch and some without, integrated force pressure sensor, hole for camera in OLED display, cut-out for the front fingerprint sensor, Android at actual 2160×1080 (small icons), 4.2″ AMOLED that can operate at up to 85 degree centigrade, automotive displays such as side view mirror displays, single laminated direct bonded wide display, 240 local area LED dimming for better contrast, free form displays with a hole in the center for the speedometer, round OLED with haptics, Active Louver Technology for electronic privacy filter, tactile feedback by electrostatic sensations and haptic across the display. 21.3″ quantum dot LCD with 120% NTSC color 2000:1 contrast 1100nits, outdoor viewable displays transmissive with a backlight recycling film 1600nits 800:1 constrast, able to do 25% reflection ratio including a display with a front light, virbration resistant, water resistant with touchscreens working under water, extended field capacitive, 27″ 4K, 30″ 4K for radiology, a floating auto stereoscopic display.

Holst Centre IMEC fingerprint sensor in display, organic photodiode frontplane, IGZO backplane


Holst Centre demonstrated next-gen technology that integrates the fingerprint sensor into the display. Using flat-panel display (FPD) compatible processes, Holst Centre researchers created a 6×8-cm, 200 ppi active matrix imager with a solution-processed, ultrathin organic photodiode frontplane and an IGZOTFT backplane. The imager was demonstrated in a biometric palm print and multiple-finger detector. They believe the palm print is a more secure biometric than fingerprint scanning; and the processing of all building blocks in the palm print imager is compatible with existing FPD technology platform.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

ITRI shows microLED full-color microdisplay on PCB board vs. glass

Posted by – June 22, 2018

Industrial Technology Research Institute (ITRI) demonstrated a full-color microdisplay with microLED on PCB board vs. the widespread practice of placing microLEDs on glass substrate, which is much flatter than the PCB . The significance of this technology pertains initially to indoor and outdoor signage because most signage is on PCB board, and not glass. IRTI projects that the industry will prefer PCB board because it can be produced at higher quantities and lower-costs than glass. They can also tie multiple modules together to create a modular display. Future applications include AR/VR and wearable.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

microLED, 5000ppi, brightest display in the world (1 million nits) by Jade Bird Display (JBD)

Posted by – June 22, 2018

Hong Kong Beida Jade Bird Display (JBD) received an honorable mention from I-Zone judges for its active-matrix microLED display with 5,000 pixels per inch and over 1 million nits of brightness. JBD develops next-gen inorganic material-based microLED microdisplays using its unique wafer-scale, monolithic hybrid-integration technology, which allows the excellent light emission of compound semiconductor devices to be paired with IC functionality. JBD’s AMOLED microdisplays provide a solution for applications in augmented reality and other projection formats.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

ETRI RaonTech Microdisplays at I-Zone SID Display Week 2018

Posted by – June 22, 2018

ETRI shows a variety of RaonTech’s microdisplay solutions, which can be used for military.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

rdot electrochromic display and high-reflectance RGB pixel towards full-color reflective display

Posted by – June 22, 2018

rdot is a Swedish company that is developing and commercializing a low-cost and energy-efficient electrochromic display technology. The reflective and screen-printed displays can be made in both small and large areas and in many different colors, shapes, and forms. They are targeting a wide range of applications, such as industrial IoT, medical technology devices, wearable technology, and smart surfaces. The company also demonstrated a high-reflectance RGB pixel that is the starting point of a high-resolution, full-color reflective display.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

UNC Chapel Hill deformable beamsplitter for full focus in a wide field of view

Posted by – June 22, 2018

The University of North Carolina (UNC) showed a display prototype based on its patent-pending deformable beamsplitter, which is able to provide a full range of focus in a wide field of view (FOV). The display inherits the wide FOV from traditional beamcombiner displays but by dynamically changing the curvature of the half-silvered membranes, researchers are able to set the focus at any depth within the viewing range of a typical 20 year-old. This single optical element technology is designed to make augmented- and mixed-reality displays feasible in the near future by enabling comfortable viewing experiences in a simple design.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

I-Zone Winners Announced at Display Week 2018

Posted by – June 17, 2018

The winners of Display Week 2018’s I-Zone Awards are announced live from the exhibition floor.

The I-Zone returned for the seventh year, showcasing live demonstrations of emerging best-in-class display and related technologies that will be integrated into next-generation products.
This year’s “Best Prototype” winner is Hong Kong University of Science and Technology, which developed a 250-pixel-per-inch (ppi) active-matrix field-sequential color-display panel based on electrically suppressed helix ferroelectric liquid crystal (FLC). FLC’s fast response time of 10 microseconds under low voltage of 6.67V/micron enables field sequential color display operation with a 60-Hz frame rate and 360-Hz FLC driving frequency.

Additional honoree awards were given to: Dimenco for its glasses-free 2D to 3D switchable displays, created by applying lenticular lenses on top of an LC display; Hong Kong Jade Bird Display for its active-matrix microLED display with 5,000 pixels per inch and over 1 million nits of brightness; PlayNitride, Inc. for utilizing its PixeLED display technology to build a transparent display with an innovative and unique process to transfer RGB microLEDs onto a pixel; and XTPL SA for its innovative materials process that can print electrodes several hundred times thinner than a human hair, with conductive lines as thin as 100nm.

ADRC shows blue-light-emitting-microLED-on-blue-laser-annealed (BLA)

Posted by – June 17, 2018

Advanced Display Research Center (ADRC) of Korea created a 1,024 pixel blue-light-emitting-microLED-on-blue-laser-annealed (BLA) low-temperature polysilicon thin-film transistor backplane; and demonstrated an active matrix microLEDS (AMLEDs) over 40, 000 cd/m3 and details for the BLA process included.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

Display Week’s I-Zone, sponsored by E Ink, is a unique exhibition-within-the-exhibition filled with demos and prototypes from around the world. Every year, dozens of applicants submit their pre-market and emerging products to compete for a free booth where they can share their inventions with buyers, manufacturers, potential partners, industry leaders and thousands of attendees.

FOVI3D light-field displays with microlens arrays at Display Week 2018

Posted by – June 17, 2018

FOVI3D Inc. demonstrates a pair of 90 x 90 mm light-field display (LfD) developer kits, which are equipped with a novel microlens array. Each LfD offers a wide field of view (60d and 90d), full parallax, and perspective-correct 3D aerial image for all viewers within the projection frustrum without head/eye tracking or head gear.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

XTPL ultra-precise Nanometric Printer receives Honorable Mention at Display Week 2018 I-Zone


XTPL received an honorable mention from I-Zone judges for its innovative product that prints extremely fine film structures using nanomaterials. XTPL’s interdisciplinary team is developing and commercializing an innovative technology that enables ultra-precise printing of electrodes up to several hundred times thinner than a human hair – conducive lines as thin as 100 nm. XTPL is facilitating the production of a new generation of transparent conductive films (TCFs) that are widely used in manufacturing. XTPL’s solution has a potentially disruptive technology in the production of displays, monitors, touchscreens, printed electronics, wearable electronics, smart packaging, automotive, medical devices, photovoltaic cells, biosensors, and anti-counterfeiting. The technology is also applicable to the open-defect repair industry (the repair of broken metallic connections in thin film electronic circuits) and offers cost-effective, non-toxic, flexible industry-adapted solutions.

XTPL’s technology might be the only one in the world offering cost-effective, non-toxic, flexible, industry adapted solution for the market of displays TFT/LCD/OLED, integrated circuits (IC), printed circuit boards (PCB), multichip modules (MCM); photolithographic masks & solar cells market.

XTPL delivers also solutions for research & prototyping including printing head, electronics, software algorithms which are the core of the system driving the electric field and the assembly process of nanoparticles implemented in XTPL’s Nanometric Lab Printer. It is a device that offers necessary functionalities to test, evaluate and use XTPL line-forming technology with nanometric precision and enables positioning of the printing head with micrometric resolution precisely.

Official video explaining XTPL’s technology: https://youtu.be/WMerzxzCXuw

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

Zhijing Nanotech Quantum Dot backlight units (QD-BLUs) using perovskite quantum-dot film (PQDF)

Posted by – June 17, 2018

Zhijing Nanotech from Beijing, China, develops next-gen quantum dot backlight units (QD-BLUs) for wide color gamut QLCD technology, which contains perovskite quantum-dot film (PQDF) as a primary light-conversion component. The PQDF exhibits high light conversion efficiency, narrow emission peak, high integration and low cost. During Display Week, they demonstrated the wide-color gamut PQDF-LCD TV prototype, which was achieved by combining the blue-light emitting diode (LED) chip, red K2SiF6:Mn4+ (KSF) phosphor, and green PQDF as RGB backlight sources. The luminance is above 500 nits.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

Display Week’s I-Zone, sponsored by E Ink, is a unique exhibition-within-the-exhibition filled with demos and prototypes from around the world. Every year, dozens of applicants submit their pre-market and emerging products to compete for a free booth where they can share their inventions with buyers, manufacturers, potential partners, industry leaders and thousands of attendees.

Fluxim Phelos benchtop R&D instrument measures electroluminescence spectrum in all angles

Posted by – June 17, 2018

High performance long lifetime emitting materials are essential to the success of OLEDs and quantum-dots (QDs), the summit of today’s display technology. The Swiss company Fluxim introduces Phelos, a benchtop R&D instrument that determines the position and orientation of emitters inside a working OLED stack or QD down-conversion film which are key optimization parameters. Phelos measures the electroluminescence spectrum in all emission and polarization angles. Furthermore, the instrument can be transformed into a photoluminescence spectrometer, unleashing the full advantage of angular luminescence analysis. An integrated optical model based on Fluxim’s simulation software Setfos with fitting algorithm provides a fast and accurate extraction of the emission zone and emitter molecule orientation. The new instrument Phelos complements Fluxim’s portfolio of R&D tools including the opto-electronic simulator Setfos, the electro-thermal simulator Laoss and the all-in-one instrument Paios, all designed to tackle challenges in the display and emerging PV industry. Fluxim founder Beat Ruhstaller demonstrated Phelos and the other R&D tools at the I-ZONE at SID Display Week 2018.

Collection of Fluxim speeches are at: http://fluxim.com/videos

EXALOS shows RGB superluminescent light-emitting diodes (SLEds) for next-gen AR microdisplays

Posted by – June 17, 2018

EXALOS AG is developing visible RGB superluminescent light-emitting diodes (SLEds) as illumination sources for next-gen AR microdisplays. SLEDs exhibit performance characteristics that bridge the gap between semi-conductor lasers and LEDs. They combine the potential of wide-color gamut and high efficiency with high-spatial coherence (high directionality) and low-temporal coherence (reduced speckle content/coherent artifacts). Consequently, they offer important benefits when used to illuminate near-to-eye MEMs-scanning architectures and spatial-light modulators in holographic display systems.

At the I-Zone, EXALOS demonstrated its first prototype cyano-green (490-500 nm) SLED and its new red-blue devices. It also demonstrated reduced speckle in a projection application; showing the advantage of their special light source known as “super amazing diode,” a speckle-free laser.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

Display Week’s I-Zone, sponsored by E Ink, is a unique exhibition-within-the-exhibition filled with demos and prototypes from around the world. Every year, dozens of applicants submit their pre-market and emerging products to compete for a free booth where they can share their inventions with buyers, manufacturers, potential partners, industry leaders and thousands of attendees.

Suzhou Crystalent edge-lit, single layer collimated roll-to-roll nano backlight

Posted by – June 17, 2018

Suzhou Crystalent demonstrated its edge-lit, single layer backlight or forelight module and a collimated backlight module based on compound roll-to-roll nanofabrication technology. The former is transparent, flexible, compact, lightweight and low-cost with a thickness of less than 0.5mm; while the latter is a four-layer flexible module with a thickness of less than 1.5mm. The unit can be laminated onto an LCD panel as either backlight or forelight for transmissive or reflective applications respectively; while the latter may serve as a standard platform, combining with various diffusers to result in any desired viewer application.

Filmed at the I-Zone demo and prototype area at SID Display Week, the world’s largest and best exhibition for electronic information display technology.

Display Week’s I-Zone, sponsored by E Ink, is a unique exhibition-within-the-exhibition filled with demos and prototypes from around the world. Every year, dozens of applicants submit their pre-market and emerging products to compete for a free booth where they can share their inventions with buyers, manufacturers, potential partners, industry leaders and thousands of attendees.