Electronic paper - Wikipedia, the free encyclopedia
en.wikipedia.org/wiki/Electronic_paperCachedElectronic paper, e-paper and electronic ink are display technologies that mimic the appearance of ordinary ink on paper. Unlike conventional backlit flat panel ...- computer.howstuffworks.com
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Electronic Paper. For a thin and bendable display, Fabric PCs will rely on a cutting-edge technology called e-paper, or electronic paper. The technology behind e ...Electronic paper
From Wikipedia, the free encyclopedia"Intelligent paper" redirects here. For the type of electronic form, see Intelligent form.For patterned paper used with a digital pen, see digital paper.Electronic paper, e-paper and electronic ink are display technologies that mimic the appearance of ordinary ink on paper.[1] Unlike conventional backlit flat panel displays that emit light, electronic paper displays reflect light like paper. This may make them more comfortable to read, and provide a wider viewing angle than most light-emitting displays. The contrast ratio in electronic displays available as of 2008 approaches newspaper, and newly developed displays are slightly better.[2] An ideal e-paper display can be read in direct sunlight without the image appearing to fade.
Many electronic paper technologies hold static text and images indefinitely without electricity. Flexible electronic paper uses plastic substrates and plastic electronics for the display backplane. There is ongoing competition among manufacturers to provide full-color ability.
Applications of electronic visual displays include electronic pricing labels in retail shops, and digital signage,[3] time tables at bus stations, electronic billboards,[4] mobile phone displays, and e-readers able to display digital versions of books and e-paper magazines.
Contents
Technologies
Gyricon
Electronic paper was first developed in the 1970s by Nick Sheridon at Xerox's Palo Alto Research Center. The first electronic paper, called Gyricon, consisted of polyethylene spheres between 75 and 106 micrometers across. Each sphere is a janus particle composed of negatively charged black plastic on one side and positively charged white plastic on the other (each bead is thus a dipole).[5] The spheres are embedded in a transparent silicone sheet, with each sphere suspended in a bubble of oil so that they can rotate freely. The polarity of the voltage applied to each pair of electrodes then determines whether the white or black side is face-up, thus giving the pixel a white or black appearance.[6] At the FPD 2008 exhibition, Japanese company Soken demonstrated a wall with electronic wall-paper using this technology.[7] From 2007 Estonian company Visitret Displays is developing this kind of displays using PVDF as material for spheres dramatically improving the video speed and decreasing the control voltage.[8]
Electrophoretic
Electrophoretic displays are considered prime examples of the electronic paper category, because of their paper-like appearance and low power consumption.
Examples of commercial electrophoretic displays include the high-resolution active matrix displays used in the Amazon Kindle, Barnes & Noble Nook, Sony Librie, Sony Reader, Kobo eReader and iRex iLiad e-readers. These displays are constructed from an electrophoretic imaging film manufactured by E Ink Corporation. A mobile phone that used the technology is the Motorola Fone.
Electrophoretic Display technology has also been developed by Sipix and Bridgestone/Delta. SiPix is now part of E Ink. The Sipix design uses a flexible 0.15mm Microcup architecture, instead of E Ink's 0.04mm diameter microcapsules.[9][10] Bridgestone Corp.'s Advanced Materials Division cooperated with Delta Optoelectronics Inc. in developing the Quick Response Liquid Powder Display (QR-LPD) technology.[11][12]
Electrophoretic displays can be manufactured using the Electronics on Plastic by Laser Release (EPLaR) process developed by Philips Research to enable existing AM-LCD manufacturing plants to create flexible plastic displays.
Electrophoretic display
Electrowetting
Main article: ElectrowettingElectro-wetting display (EWD) is based on controlling the shape of a confined water/oil interface by an applied voltage. With no voltage applied, the (coloured) oil forms a flat film between the water and a hydrophobic (water-repellent) insulating coating of an electrode, resulting in a coloured pixel.
When a voltage is applied between the electrode and the water, the interfacial tension between the water and the coating changes. As a result the stacked state is no longer stable, causing the water to move the oil aside.
This makes a partly transparent pixel, or, if a reflective white surface is under the switchable element, a white pixel. Because of the small pixel size, the user only experiences the average reflection, which provides a high-brightness, high-contrast switchable element.
Displays based on electro-wetting provide several attractive features. The switching between white and coloured reflection is fast enough to display video content.[16]
It's a low-power and low-voltage technology, and displays based on the effect can be made flat and thin. The reflectivity and contrast are better than or equal to other reflective display types and approach the visual qualities of paper.
In addition, the technology offers a unique path toward high-brightness full-colour displays, leading to displays that are four times brighter than reflective LCDs and twice as bright as other emerging technologies.[17]
Instead of using red, green and blue (RGB) filters or alternating segments of the three primary colours, which effectively result in only one third of the display reflecting light in the desired colour, electro-wetting allows for a system in which one sub-pixel can switch two different colours independently.
This results in the availability of two thirds of the display area to reflect light in any desired colour. This is achieved by building up a pixel with a stack of two independently controllable coloured oil films plus a colour filter.
The colours are cyan, magenta and yellow, which is a subtractive system, comparable to the principle used in inkjet printing for example. Compared to LCD another factor two in brightness is gained because no polarisers are required.[18]
Examples of commercial electrowetting displays include Liquavista,[19] ITRI,[20] PVI and ADT.[21][22]
Miortech’s 2nd generation electrowetting display technology solves a number of issues of 1st generation electrowetting display technology and large-area devices are easy to manufacture since the pixel walls act as spacers. Miortech develops rearview mirrors using its 2nd generation EWD technology.[23]
Electrofluidic
Electrofluidic displays are a variation of an electrowetting display. Electrofluidic displays place an aqueous pigment dispersion inside a tiny reservoir. The reservoir comprises <5-10 and="" area="" class="reference" from="" hidden="" id="cite_ref-24" is="" of="" pigment="" pixel="" substantially="" sup="" the="" therefore="" view.="" viewable="">[24]5-10>
Interferometric modulator (Mirasol)
Main article: Interferometric modulator display
Technology used in electronic visual displays that can create various colors via interference of reflected light. The color is selected with an electrically switched light modulator comprising a microscopic cavity that is switched on and off using driver integrated circuits similar to those used to address liquid crystal displays (LCD).Other bistable displays
See also: Bistable
- Plastic Logic, manufacturer of flexible plastic electrophoretic displays[25]
- Kent Displays, manufacturer of cholesteric liquid crystal display (ChLCD)[26]
- Nemoptic, nematic materials[27]
- TRED[28]
- Sharp Memory LCD, used in Pebble smartwatch.
Other technologies
Other research efforts into e-paper have involved using organic transistors embedded into flexible substrates,[29][30] including attempts to build them into conventional paper.[31] Simple color e-paper[32] consists of a thin colored optical filter added to the monochrome technology described above. The array of pixels is divided into triads, typically consisting of the standard cyan, magenta and yellow, in the same way as CRT monitors (although using subtractive primary colors as opposed to additive primary colors). The display is then controlled like any other electronic color display.Examples of electrochromic displays include Acreo,[33] Ajjer,[34] Aveso[35] and Ntera.[36][37]
Disadvantages
Electronic paper technologies have a very low refresh rate compared to other low-power display technologies, such as LCD. This prevents producers from implementing sophisticated interactive applications (using fast moving menus, mouse pointers or scrolling) like those common on standard mobile devices. An example of this limit is that a document cannot be smoothly zoomed without either extreme blurring during the transition or a very slow zoom.No company has yet successfully brought a full color display to market.
Electronic paper is still a topic in the R&D community and remains under development for manufacturability, marketability, and reliability considerations.[citation needed]
Applications
This article's factual accuracy may be compromised due to out-of-date information. (October 2011) |
- A method for encapsulation
- An ink or active material to fill the encapsulation
- Electronics to activate the ink
There are many approaches to electronic paper, with many companies developing technology in this area. Other technologies being applied to electronic paper include modifications of liquid crystal displays, electrochromic displays, and the electronic equivalent of an Etch A Sketch at Kyushu University. Advantages of electronic paper includes low power usage (power is only drawn when the display is updated), flexibility and better readability than most displays. Electronic ink can be printed on any surface, including walls, billboards, product labels and T-shirts. The ink's flexibility would also make it possible to develop rollable displays for electronic devices.
Wristwatches
In December 2005 Seiko released the first electronic ink based watch called the Spectrum SVRD001 wristwatch, which has a flexible electrophoretic display[38] and in March 2010 Seiko released a second generation of this famous e-ink watch with an active matrix display.[39] The Pebble smart watch (2013) uses a low-power memory LCD manufactured by Sharp for its e-paper display.[40]e-Books
Main article: List of e-book readers
In 2004 Sony released Librié EBR-1000EP in Japan, the first e-book reader with an electronic paper display. In September 2006 Sony released the PRS-500 Sony Reader
e-book reader in the USA. On October 2, 2007, Sony announced the
PRS-505, an updated version of the Reader. In November 2008, Sony
released the PRS-700BC, which incorporated a backlight and a
touchscreen.In late 2007, Amazon began producing and marketing the Amazon Kindle, an e-book reader with an e-paper display. In February 2009, Amazon released the Kindle 2 and in May 2009 the larger Kindle DX was announced. In July 2010 the third generation Kindle was announced, with notable design changes.[41] The fourth generation of Kindles were announced in September 2011. This generation was unique as it marked the Kindle's first departure from keyboards in favor of touchscreens. In September 2012, Amazon announced the fifth generation of the Kindle, which incorporates a LED frontlight and a higher contrast display.[42]
In November 2009 Barnes and Noble launched the Barnes & Noble Nook, running an Android operating system. It differs from other big name readers in having a replaceable battery, and a separate touch-screen color LCD below the main electronic paper reading screen.
Newspapers
In February 2006, the Flemish daily De Tijd distributed an electronic version of the paper to select subscribers in a limited marketing study, using a pre-release version of the iRex iLiad. This was the first recorded application of electronic ink to newspaper publishing.The French daily Les Échos announced the official launch of an electronic version of the paper on a subscription basis, in September 2007. Two offers were available, combining a one year subscription and a reading device. The offer included either a light (176g) reading device (adapted for Les Echos by Ganaxa) or the iRex iLiad. Two different processing platforms were used to deliver readable information of the daily, one based on the newly developed GPP electronic ink platform from Ganaxa, and the other one developed internally by Les Echos.
Displays embedded in smart cards
Flexible display cards enable financial payment cardholders to generate a one-time password to reduce online banking and transaction fraud. Electronic paper offers a flat and thin alternative to existing key fob tokens for data security. The world’s first ISO compliant smart card with an embedded display was developed by Innovative Card Technologies and nCryptone in 2005. The cards were manufactured by Nagra ID.Status displays
Mobile phones
Motorola's low-cost mobile phone, the Motorola F3, uses an alphanumeric black-and-white electrophoretic display.The Samsung Alias 2 mobile phone incorporates electronic ink from E Ink into the keypad, which allows the keypad to change character sets and orientation while in different display modes.
On December 12, 2012, Yota Devices announced the first "YotaPhone" prototype and was later released on December 2013, a unique double-display smartphone. It has an 4.3-inch, HD LCD display on the front and an e-ink display on the back with smart battery usage.
Electronic shelf labels
Main article: Electronic shelf label
E-Paper based electronic shelf labels
(ESL) are used to digitally display the prices at retail stores.
Electronic paper based labels are updated via two-way infrared or radio
technology.Other
Other proposed applications include clothes, digital photo frames, information boards and keyboards. Keyboards with dynamically changeable keys are useful for less represented languages, non-standard keyboard layouts such as Dvorak, or for special non-alphabetical applications such as video editing or games.Display manufacturers
- Delta Electronics
- LG
- NEC
- Plastic Logic
- E Ink Holdings, flexible EPLaR
- Samsung
- Seiko Epson
- Displaydata
- Liquavista, an Amazon Company
- Pervasive Displays Inc.
See also
References
- "LEXAR ADDS INNOVATIVE STORAGE CAPACITY METER WITH ELECTRONIC PAPER DISPLAY FROM E INK". Eink - Press Release. Retrieved 1 April 2012.
Further reading
- Electric paper, New Scientist, 2003
- E-paper may offer video images, New Scientist, 2003
- Paper comes alive New Scientist, 2003
- Most flexible electronic paper yet revealed, New Scientist, 2004
- Roll-up digital displays move closer to market New Scientist, 2005
- Seiko Epson develops ultra-dense e-paper display Electronista, 11-2007
- Unidym and Samsung Electronics demonstrate the world's first colour carbon-nanotube-based electrophoretic display Unidym Press Room, 10-2008
External links
Wikimedia Commons has media related to Electronic paper. |
- Epaper Central, electronic paper news, information, analysis
- E-paper display market reaches $1.17 billion in 2014
- Electronic Paper: Merging between Traditional Publishing and E-Publishing[dead link]
- Wired article on E Ink-Philips partnership, and background
- Bosner, Kevin. How Electronic Ink Will Work at HowStuffWorks, retrieved 2007-08-26
- MIT ePaper Project
- Xerox PARC epaper project
- Gamma Dynamics: Commercializing a New Pigment-Based Electrowetting Display[dead link]
- Office of Tomorrow
- Tanaka, Naoki (2007-12-06). "Fuji Xerox Exhibits Color Electronic Paper w/ Optical Writing System". Japan: Tech-On. Retrieved 2007-12-10.
- The Future of Electronic Paper, Past, present and future of e-paper, includes interview with Nick Sheridon, father of e-paper at Xerox
- Fujitsu Develops World's First Film Substrate-based Bendable Color Electronic Paper featuring Image Memory Function
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