Sentences with phrase «ltps backplanes»
This machine - learning tool creates powerful analytics from your automation infrastructure, painlessly — delivering value moments after it's dropped in the Logix backplane.»
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The backplane is made of advanced graphite composite materials jointed to fittings and interfaces made of titanium and a nickel steel alloy known as invar, which is notable for expanding very little due to temperature changes.
Highly flexible organic light - emitting diode display was demonstrated using MoS2 TFTs as an active - matrix backplane.
NASA announced on July 8 that it had completed static load testing on the James Webb Space Telescope's (JWST) Primary Mirror Backplane Support Structure (PMBSS).
The 18 primary mirror segments are mounted into the backplane, along with the secondary mirror and support struts.
Tablet Display Trends Better, Bigger, and Brighter An invited feature article on Tablet displays written for the Society for Information Display that examines the most important current trends for Tablet displays including Full Color Gamuts, improved Absolute Color Accuracy, LTPS, IGZO and Metal - Oxide Backplanes.
At Plastic Logic, we have successfully industrialized a process which enables us to create a glass - free backplane.
The slice of bread on the bottom is the so - called backplane — usually a matrix of transistors.
In June 2013, Cambridge University's Graphene Centre (CGC) and Plastic Logic started to develop a transparent graphene - based backplane for flexible displays.
Plastic Logic says that the graphene backplane can also be used to drive LCD and OLED displays.
Instead of using traditional silicon transistors, our active - matrix backplane consists of organic thin film transistors (OTFTs) on PET; that's exactly the same plastic used to make cola bottles.
Plastic Logic has described the «fully industrialized plastic, flexible Organic Thin Film Transistor (OTFT) backplane and know - how enabled the world's first fully organic, flexible display.»
SmartKem's organic thin film transistor (OTFT) backplanes are designed for both glass and flexible displays.
This full - organic AMOLED panel uses Plastic Logic's flexible OTFT backplane and the whole panel can be bent and rolled and still show the image.
This is a fully - organic AMOLED panel that uses Plastic Logic's flexible OTFT backplane.
A few months ago, FlexEnable and Chunghwa Picture Tube (CPT) demonstrated a full - color flexible AMOLED display that uses FlexEnable's OTFT backplane.
Last year Plastic Logic demonstrated the world's first display based on a graphene backplane (a 150 - PPI active - matrix E Ink panel), and now we have some more details on the company's graphene OTFT goals.
For 2014, the continued problems with IGZO will benefit both LTPS and the much higher performance Metal Oxide Backplanes now under development by CBRITE, which should begin arriving by late 2014.
Also expected in 2014 are some high resolution OLED Tablets and many more LCD Tablets with LTPS Backplanes and Quantum Dots that will deliver very bright and Wide Color Gamut images as mentioned above.
However, the IGZO Metal Oxide Backplane in the Surface Pro 4 reduces this effect and increases the light output improving its power efficiency.
The display consists of a flexible, high resolution, printed active - matrix backplane driving an electronic paper frontplane from US - based E Ink Corporation.
On the other hand, the higher Pixels Per Inch lowers the Display Power Efficiency because at higher densities the LCD Backplane circuitry proportionally blocks more of the Backlight.
E Ink will lend the assist with their technical knowledge and help DKE develop e-paper products and DKE will use its STN (super-twisted nematic)- TFT manufacturing equipment to produce segmented e-paper modules which will be more competitive in price than e-paper modules based on active matrix TFT backplanes.
This same principle as you know applies to any reflective display technology that uses TFT backplanes.»
The display will have a resolution of 200 × 1040 at 169 PPI and is based on E Ink's a-Si backplane technology.
With JDI's backplane technology and In - cell touch technology which is based on JDI's unique LTPS, E Ink can improve the performances of E Ink display modules.
The new development by JDI achieves resolutions of 400ppi and 600ppi, with the newly - designed built - in LTPS backplane.
Tokyo, Japan - May 22, 2017 - Japan Display Inc. (JDI) today announced the development of the world's highest resolution electronic paper (ePaper) backplane * 1, the first collaborative development achievement since the announcement of the long - term strategic alliance with E Ink Holdings, (E Ink, TW: 8069) for ePaper business.
ePaper modules with the built - in high definition LTPS backplane will be demonstrated in JDI's booth # 917 at The Society of Information Display (SID) «Display Week», at the Los Angeles Convention Center, May 23 - May 25, 2017, in Los Angeles, California, USA.
At the same time, JDI will continue to advance the development, production and sales of new products using LCD backplane technology, including innovative ePaper products utilizing JDI's proprietary LTPS and Pixel EyesTM in - cell touch to enter new market applications, such as automotive, dynamic computer keyboards, display cards, education, IOT displays, and many more.
I expect to create new markets through the combination of JDI's backplane technologies and electronic ink technology.
JDI's goal in developing its latest ePaper backplane is for ePaper to empower not only high resolution and battery - powered devices such as eBooks, smartphons and tablets, but also future devices for the «Internet - of - Things» (IoT).
Coming in last in Relative Power Efficiency is the Nexus 10 with an a-Si amorphous Silicon backplane that is used in most LCD displays, which requires 73 percent more display power than the LTPS Kindle Fire.
The project has two partners: Plastic Logic (the leader) who will supply OTFT backplanes and the CPI that will integrate the OLEDs.
For 2014, the continued problems with IGZO will benefit both LTPS and the much higher - performance metal - oxide backplanes now under development by CBRITE, which should begin arriving by late 2014.
ROBust OLED (or ROBOLED) is a UK project that aims to investigate and overcome the challenges in driving OLED displays with OTFT backplanes.
The flex AMOLED display was made using Plastic Logic's truly flexible oTFT backplane technology, combined with Novaled's OLED frontplane materials.
In contrast to conventional displays, the pixel electronics, or backplane, of this display includes a solution - processed graphene electrode, which replaces the sputtered metal electrode layer within Plastic Logic's conventional devices, bringing product and process benefits.
The main breakthrough seems to be the use of polyimide for the display's backplane.
The new 150 pixel per inch (150 ppi) backplane was made at low temperatures (less than 100 °C) using Plastic Logic's Organic Thin Film Transistor (OTFT) technology.
The graphene electrode was deposited from solution and subsequently patterned with micron - scale features to complete the backplane.
Unfortunately, according to TechOn, the Japanese company has only showcased this thing as some sort of «proof of concept» (in other words, trying to get some time in the media spotlight), because they've refrained from providing any technical details regarding the flexible ePaper module (no resolution or backplane details have been provided).
The facility comprises of a 3800m ² clean room area, for backplane processing and test and assembly processes as well as a pilot production line for large area, smart, flexible electronic applications on plastic substrates,» says the company's CEO Tim Burne.
They are more flexible than many other companies offerings because instead of using traditional silicon transistors, their active - matrix backplane consists of organic thin film transistors (OTFTs) on PET; that's exactly the same plastic used to make cola bottles.
This means that flexible backplanes can be coupled with a flexible display medium, such as electronic ink or OLEDs, to create a fully flexible display.
When PVI or other partners receive our imaging film, the remove the protective sheet and laminate it to their backplane electronics to make the display module
Backplane circuits with gates formed by using each of these three methods showed identical performance.
The result, a flexible, transmissive backplane, represents a significant breakthrough in the manufacture of new large area image sensors and demonstrates the potential use of Plastic Logic's unique flexible transistor technology beyond plastic displays.
This paper summarizes work that demonstrates many of these characteristics in a realistic system: organic active matrix backplane circuits (256 transistors) for large (≈ 5 × 5 - inch) mechanically flexible sheets of electronic paper, an emerging type of display.
The active matrix displays have a glass based backplane whereas the SURF and Ink - In - Motion displays use flexible backplanes.