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Akai MPC

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A music workstation is an electronic musical instrument providing the facilities of:

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106-496: The Akai MPC (originally MIDI Production Center , now Music Production Center ) is a series of music workstations produced by Akai from 1988 onwards. MPCs combine sampling and sequencing functions, allowing users to record portions of sound, modify them and play them back as sequences. The first MPCs were designed by the American engineer Roger Linn , who had designed the successful LM-1 and LinnDrum drum machines in

212-454: A refresh operation. Active-matrix addressed displays look brighter and sharper than passive-matrix addressed displays of the same size, and generally have quicker response times, producing much better images. Sharp produces bistable reflective LCDs with a 1-bit SRAM cell per pixel that only requires small amounts of power to maintain an image. Segment LCDs can also have color by using Field Sequential Color (FSC LCD). This kind of displays have

318-631: A 14-inch, active-matrix, full-color, full-motion TFT-LCD. This led to Japan launching an LCD industry, which developed large-size LCDs, including TFT computer monitors and LCD televisions. Epson developed the 3LCD projection technology in the 1980s, and licensed it for use in projectors in 1988. Epson's VPJ-700, released in January 1989, was the world's first compact , full-color LCD projector . In 1990, under different titles, inventors conceived electro optical effects as alternatives to twisted nematic field effect LCDs (TN- and STN- LCDs). One approach

424-681: A Fairlight. Having samples as the sound source is what made it possible to have various drum sounds in one patch. In contrast, a DX7 or a JX3P did not have the synthesis features to create all the sounds in a drum kit. Examples of early music workstations included the New England Digital Synclavier and the Fairlight CMI . The result was that music workstations evolved rapidly during this period, as new software releases could add more functionality, new voice cards developed, and new input technologies added. By 1982,

530-493: A Gen 8.5 mother glass, significantly reducing waste. The thickness of the mother glass also increases with each generation, so larger mother glass sizes are better suited for larger displays. An LCD module (LCM) is a ready-to-use LCD with a backlight. Thus, a factory that makes LCD modules does not necessarily make LCDs, it may only assemble them into the modules. LCD glass substrates are made by companies such as AGC Inc. , Corning Inc. , and Nippon Electric Glass . The origin and

636-572: A TN device in the voltage-on state is far less dependent on variations in the device thickness than that in the voltage-off state. Because of this, TN displays with low information content and no backlighting are usually operated between crossed polarizers such that they appear bright with no voltage (the eye is much more sensitive to variations in the dark state than the bright state). As most of 2010-era LCDs are used in television sets, monitors and smartphones, they have high-resolution matrix arrays of pixels to display arbitrary images using backlighting with

742-455: A blue polarizer, or birefringence which gives them their distinctive appearance. STN LCDs have to be continuously refreshed by alternating pulsed voltages of one polarity during one frame and pulses of opposite polarity during the next frame. Individual pixels are addressed by the corresponding row and column circuits. This type of display is called passive-matrix addressed , because the pixel must retain its state between refreshes without

848-528: A creative designer with ideas and I didn't want to do sales, marketing, finance or manufacturing, all of which Akai was very good at". Linn described the MPC as an attempt to "properly re-engineer" the Linn 9000. He disliked reading instruction manuals and wanted to create an intuitive interface that simplified music production. He designed the functions, including the panel layout and hardware specification, and created

954-419: A dark background. When no image is displayed, different arrangements are used. For this purpose, TN LCDs are operated between parallel polarizers, whereas IPS LCDs feature crossed polarizers. In many applications IPS LCDs have replaced TN LCDs, particularly in smartphones . Both the liquid crystal material and the alignment layer material contain ionic compounds . If an electric field of one particular polarity

1060-626: A default option with the Yamaha Motif line (introduced 2001), the Roland Fantom series (introduced 2001) and the Korg Triton (introduced 1999), Korg OASYS , and Korg M3 Workstations have a fairly large screen to give a comprehensive overview of the sound, sequencer and sampling options. Since the display is one of the most expensive components of these workstations, Roland and Yamaha initially chose to keep costs down by not using

1166-680: A democratizing effect on music production, allowing artists to create elaborate tracks without traditional instruments or recording studios. Its pad interface was adopted by numerous manufacturers and became standard in DJ technology. By the late 1980s, drum machines had become popular for creating beats and loops without instrumentalists, and hip hop artists were using samplers to take portions of existing recordings and create new compositions. Grooveboxes , machines that combined these functions, such as those by E-mu Systems , required knowledge of music production and cost up to $ 10,000. The original MPC,

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1272-414: A digital clock) are all examples of devices with these displays. They use the same basic technology, except that arbitrary images are made from a matrix of small pixels , while other displays have larger elements. LCDs can either be normally on (positive) or off (negative), depending on the polarizer arrangement. For example, a character positive LCD with a backlight has black lettering on a background that

1378-646: A few used plasma displays ) and the original Nintendo Game Boy until the mid-1990s, when color active-matrix became standard on all laptops. The commercially unsuccessful Macintosh Portable (released in 1989) was one of the first to use an active-matrix display (though still monochrome). Passive-matrix LCDs are still used in the 2010s for applications less demanding than laptop computers and TVs, such as inexpensive calculators. In particular, these are used on portable devices where less information content needs to be displayed, lowest power consumption (no backlight ) and low cost are desired or readability in direct sunlight

1484-460: A finely ground powdered pigment, with particles being just 40 nanometers across. The black resist is the first to be applied; this will create a black grid (known in the industry as a black matrix) that will separate red, green and blue subpixels from one another, increasing contrast ratios and preventing light from leaking from one subpixel onto other surrounding subpixels. After the black resist has been dried in an oven and exposed to UV light through

1590-415: A glass substrate to form the cell circuitry to operate the panel. It is usually not possible to use soldering techniques to directly connect the panel to a separate copper-etched circuit board. Instead, interfacing is accomplished using anisotropic conductive film or, for lower densities, elastomeric connectors . Monochrome and later color passive-matrix LCDs were standard in most early laptops (although

1696-514: A grid with vertical wires across the whole screen on one side of the screen and horizontal wires across the whole screen on the other side of the screen. To this grid each pixel has a positive connection on one side and a negative connection on the other side. So the total amount of wires needed for a 1080p display is 3 x 1920 going vertically and 1080 going horizontally for a total of 6840 wires horizontally and vertically. That's three for red, green and blue and 1920 columns of pixels for each color for

1802-412: A high speed passive segment LCD panel with an RGB backlight. The backlight quickly changes color, making it appear white to the naked eye. The LCD panel is synchronized with the backlight. For example, to make a segment appear red, the segment is only turned ON when the backlight is red, and to make a segment appear magenta, the segment is turned ON when the backlight is blue, and it continues to be ON while

1908-507: A keyboard music workstation housing a computer running a custom operating system built on the Linux kernel. OASYS was an acronym for Open Architecture SYnthesis Studio, underscoring Korg's ability to release new capabilities via ongoing software updates. OASYS not only included a synthesizer, sampling, and a sequencer, but the ability to digitally record multi-track audio. OASYS was discontinued in 2009, and Korg Kronos , an updated version built on

2014-482: A keyboard. The interface was simpler than those of competing instruments, and can be connected to a normal sound system, without the need for a studio. According to Vox , "Most importantly, it wasn't an enormous, stationary mixing panel with as many buttons as an airplane cockpit." Whereas artists had previously sampled long pieces of music, the MPC allowed them to sample smaller portions, assign them to separate pads and trigger them independently, similarly to playing

2120-449: A layer of molecules aligned between two transparent electrodes , often made of indium tin oxide (ITO) and two polarizing filters (parallel and perpendicular polarizers), the axes of transmission of which are (in most of the cases) perpendicular to each other. Without the liquid crystal between the polarizing filters, light passing through the first filter would be blocked by the second (crossed) polarizer. Before an electric field

2226-624: A leading position in the wristwatch market, like Seiko and its first 6-digit TN-LCD quartz wristwatch, and Casio 's 'Casiotron'. Color LCDs based on Guest-Host interaction were invented by a team at RCA in 1968. A particular type of such a color LCD was developed by Japan's Sharp Corporation in the 1970s, receiving patents for their inventions, such as a patent by Shinji Kato and Takaaki Miyazaki in May 1975, and then improved by Fumiaki Funada and Masataka Matsuura in December 1975. TFT LCDs similar to

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2332-468: A matrix consisting of electrically connected rows on one side of the LC layer and columns on the other side, which makes it possible to address each pixel at the intersections. The general method of matrix addressing consists of sequentially addressing one side of the matrix, for example by selecting the rows one-by-one and applying the picture information on the other side at the columns row-by-row. For details on

2438-409: A mini-LED backlight and quantum dot sheets. LCDs with quantum dot enhancement film or quantum dot color filters were introduced from 2015 to 2018. Quantum dots receive blue light from a backlight and convert it to light that allows LCD panels to offer better color reproduction. Quantum dot color filters are manufactured using photoresists containing quantum dots instead of colored pigments, and

2544-528: A new art form and allowed for new styles of music. Its affordability and accessibility had a democratizing effect; musicians could create tracks without a studio or music theory knowledge, and it was inviting to musicians who did not play traditional instruments or had no music education. Vox wrote that the MPC "challenged the notion of what a band can look like". The 4x4 grid of pads was adopted by numerous manufacturers and became standard in DJ technology. As of 2018,

2650-473: A photomask, the unexposed areas are washed away, creating a black grid. Then the same process is repeated with the remaining resists. This fills the holes in the black grid with their corresponding colored resists. Black matrices made in the 1980s and 1990s when most color LCD production was for laptop computers, are made of Chromium due to its high opacity, but due to environmental concerns, manufacturers shifted to black colored photoresist with carbon pigment as

2756-449: A plane parallel to the glass substrates. In this method, the electrical field is applied through opposite electrodes on the same glass substrate, so that the liquid crystals can be reoriented (switched) essentially in the same plane, although fringe fields inhibit a homogeneous reorientation. This requires two transistors for each pixel instead of the single transistor needed for a standard thin-film transistor (TFT) display. The IPS technology

2862-464: A reflective display. The common implementations of LCD backlight technology are: Today, most LCD screens are being designed with an LED backlight instead of the traditional CCFL backlight, while that backlight is dynamically controlled with the video information (dynamic backlight control). The combination with the dynamic backlight control, invented by Philips researchers Douglas Stanton, Martinus Stroomer and Adrianus de Vaan, simultaneously increases

2968-526: A sharper threshold of the contrast-vs-voltage characteristic than the original TN LCDs. This is important, because pixels are subjected to partial voltages even while not selected. Crosstalk between activated and non-activated pixels has to be handled properly by keeping the RMS voltage of non-activated pixels below the threshold voltage as discovered by Peter J. Wild in 1972, while activated pixels are subjected to voltages above threshold (the voltages according to

3074-483: A significant role in this growth, including as a result of their investments in LCD manufacturers via state-owned investment companies. China had previously imported significant amounts of LCDs, and the growth of its LCD industry decreased prices for other consumer products that use LCDs and led to growth in other sectors like mobile phones. LCDs do not produce light on their own, so they require external light to produce

3180-401: A single mother glass size and as a result, different manufacturers would use slightly different glass sizes for the same generation. Some manufacturers have adopted Gen 8.6 mother glass sheets which are only slightly larger than Gen 8.5, allowing for more 50- and 58-inch LCDs to be made per mother glass, specially 58-inch LCDs, in which case 6 can be produced on a Gen 8.6 mother glass vs only 3 on

3286-499: A single piece of equipment that was affordable to high-end studios and producers, as well as being portable for performers. Prior to this, the integration between sequencing and synthesis was generally a manual function based on wiring of components in large modular synthesizers, and the storage of notes was simply based on potentiometer settings in an analog sequencer. Polyphonic synthesizers such as Sequential Circuit Prophet-5 and Yamaha DX7 were capable of playing only one patch at

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3392-625: A time (the DX7II could play 2 patches on 2 separate MIDI channels) There was some sequencing ability in some keyboards, but it was not MIDI sequencing. In the mid to late 80s, workstation synths were manufactured more than single-patch keyboards. A workstation such as the Korg M1 was able to play out 8 different patches on 8 different MIDI channels, as well as playing a drum track, and had an onboard MIDI sequencer. The patches were often samples, but users could not record their own samples, as they could on

3498-641: A total of 5760 wires going vertically and 1080 rows of wires going horizontally. For a panel that is 28.8 inches (73 centimeters) wide, that means a wire density of 200 wires per inch along the horizontal edge. The LCD panel is powered by LCD drivers that are carefully matched up with the edge of the LCD panel at the factory level. The drivers may be installed using several methods, the most common of which are COG (Chip-On-Glass) and TAB ( Tape-automated bonding ) These same principles apply also for smartphone screens that are much smaller than TV screens. LCD panels typically use thinly-coated metallic conductive pathways on

3604-422: A touch screen or high-resolution display, but have added such in later models. Another path of music product development that started with the feature set of music workstations is to provide entirely software-based products, using virtual instruments. This is the concept of the digital audio workstation , and many of these products have emulated the multitrack recording metaphors of sequencers first developed in

3710-773: A traditional instrument such as a keyboard or drum kit. Rhythms can be built not just from percussion samples but any recorded sound, such as horns or synthesizers. The MPC60 only allows sample lengths of up to 13 seconds, as sampling memory was expensive at the time and Linn expected users to sample short sounds to create rhythms rather long loops. Functions are selected and samples are edited with two knobs. Red "record" and "overdub" buttons are used to save or loop beats. The MPC60 has an LCD screen and came with floppy disks with sounds and instruments. Linn anticipated that users would sample short sounds, such as individual notes or drum hits, to use as building blocks for compositions. However, users began sampling longer passages of music. In

3816-531: A video speed-drive scheme that solved the slow response time of STN-LCDs, enabling high-resolution, high-quality, and smooth-moving video images on STN-LCDs. In 1985, Philips inventors Theodorus Welzen and Adrianus de Vaan solved the problem of driving high-resolution STN-LCDs using low-voltage (CMOS-based) drive electronics, allowing the application of high-quality (high resolution and video speed) LCD panels in battery-operated portable products like notebook computers and mobile phones. In 1985, Philips acquired 100% of

3922-416: A visible image. In a transmissive type of LCD, the light source is provided at the back of the glass stack and is called a backlight . Active-matrix LCDs are almost always backlit. Passive LCDs may be backlit but many are reflective as they use a reflective surface or film at the back of the glass stack to utilize ambient light. Transflective LCDs combine the features of a backlit transmissive display and

4028-496: A voltage to a DSM display switches the initially clear transparent liquid crystal layer into a milky turbid state. DSM displays could be operated in transmissive and in reflective mode but they required a considerable current to flow for their operation. George H. Heilmeier was inducted in the National Inventors Hall of Fame and credited with the invention of LCDs. Heilmeier's work is an IEEE Milestone . In

4134-521: A widely known and popular music workstation, and became the world's best-selling digital keyboard synthesizer of all time. During its six-year production period, more than 250,000 units were sold. Although many music workstations have a keyboard, this is not always the case. In the 1990s, Yamaha and Roland released a series of portable music workstations (starting with the Yamaha QY10 (1990)). These are sometimes called walkstations . The concept of

4240-554: Is a flat-panel display or other electronically modulated optical device that uses the light-modulating properties of liquid crystals combined with polarizers to display information. Liquid crystals do not emit light directly but instead use a backlight or reflector to produce images in color or monochrome . LCDs are available to display arbitrary images (as in a general-purpose computer display) or fixed images with low information content, which can be displayed or hidden: preset words, digits, and seven-segment displays (as in

4346-663: Is applied for a long period of time, this ionic material is attracted to the surfaces and degrades the device performance. This is avoided either by applying an alternating current or by reversing the polarity of the electric field as the device is addressed (the response of the liquid crystal layer is identical, regardless of the polarity of the applied field). Displays for a small number of individual digits or fixed symbols (as in digital watches and pocket calculators ) can be implemented with independent electrodes for each segment. In contrast, full alphanumeric or variable graphics displays are usually implemented with pixels arranged as

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4452-407: Is applied to a TN liquid crystal cell, polarized light passes through the 90-degrees twisted LC layer. In proportion to the voltage applied, the liquid crystals untwist changing the polarization and blocking the light's path. By properly adjusting the level of the voltage almost any gray level or transmission can be achieved. In-plane switching is an LCD technology that aligns the liquid crystals in

4558-422: Is applied, the orientation of the liquid-crystal molecules is determined by the alignment at the surfaces of electrodes. In a twisted nematic (TN) device, the surface alignment directions at the two electrodes are perpendicular to each other, and so the molecules arrange themselves in a helical structure, or twist. This induces the rotation of the polarization of the incident light, and the device appears gray. If

4664-475: Is based on an electro-hydrodynamic instability forming what are now called "Williams domains" inside the liquid crystal. Building on early MOSFETs , Paul K. Weimer at RCA developed the thin-film transistor (TFT) in 1962. It was a type of MOSFET distinct from the standard bulk MOSFET. In 1964, George H. Heilmeier , who was working at the RCA laboratories on the effect discovered by Richard Williams, achieved

4770-528: Is composed entirely of samples. The producer J Dilla disabled the quantize feature on his MPC to create his signature "off-kilter" sampling style. After J Dilla's death in 2006, his MPC was preserved in the Smithsonian National Museum of African American History and Culture in 2014. The rapper Kanye West used the MPC to compose several of his best-known tracks and much of his breakthrough 2004 album The College Dropout . West closed

4876-463: Is needed. Displays having a passive-matrix structure use super-twisted nematic STN (invented by Brown Boveri Research Center, Baden, Switzerland, in 1983; scientific details were published ) or double-layer STN (DSTN) technology (the latter of which addresses a color-shifting problem with the former), and color-STN (CSTN), in which color is added by using an internal color filter. STN LCDs have been optimized for passive-matrix addressing. They exhibit

4982-845: Is the color of the backlight, and a character negative LCD has a black background with the letters being of the same color as the backlight. LCDs are used in a wide range of applications, including LCD televisions , computer monitors , instrument panels , aircraft cockpit displays , and indoor and outdoor signage. Small LCD screens are common in LCD projectors and portable consumer devices such as digital cameras , watches , calculators , and mobile telephones , including smartphones . LCD screens have replaced heavy, bulky and less energy-efficient cathode-ray tube (CRT) displays in nearly all applications. LCDs are not subject to screen burn-in like on CRTs. However, LCDs are still susceptible to image persistence . Each pixel of an LCD typically consists of

5088-465: Is used in everything from televisions, computer monitors, and even wearable devices, especially almost all LCD smartphone panels are IPS/FFS mode. IPS displays belong to the LCD panel family screen types. The other two types are VA and TN. Before LG Enhanced IPS was introduced in 2001 by Hitachi as 17" monitor in Market, the additional transistors resulted in blocking more transmission area, thus requiring

5194-423: Is written to the display, the display may be cut from the power while retaining readable images. This has the advantage that such ebooks may be operated for long periods of time powered by only a small battery. High- resolution color displays, such as modern LCD computer monitors and televisions, use an active-matrix structure. A matrix of thin-film transistors (TFTs) is added to the electrodes in contact with

5300-527: The super-twisted nematic (STN) structure for passive matrix -addressed LCDs. H. Amstutz et al. were listed as inventors in the corresponding patent applications filed in Switzerland on July 7, 1983, and October 28, 1983. Patents were granted in Switzerland CH 665491, Europe EP 0131216, U.S. patent 4,634,229 and many more countries. In 1980, Brown Boveri started a 50/50 joint venture with

5406-523: The 2010 MTV Video Music Awards with a performance of his 2010 track " Runaway " on an MPC. Music workstation#Third generation music workstations It enables a musician to compose electronic music using just one piece of equipment. The concept of a music sequencer combined with a synthesizer originated in the late 1970s with the combination of microprocessors, mini-computers, digital synthesis, disk-based storage, and control devices such as musical keyboards becoming feasible to combine into

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5512-546: The Engineering and Technology History Wiki . In 1888, Friedrich Reinitzer (1858–1927) discovered the liquid crystalline nature of cholesterol extracted from carrots (that is, two melting points and generation of colors) and published his findings. In 1904, Otto Lehmann published his work "Flüssige Kristalle" (Liquid Crystals). In 1911, Charles Mauguin first experimented with liquid crystals confined between plates in thin layers. In 1922, Georges Friedel described

5618-536: The Fairlight CMI Series II represented another advance as it now offered more RAM-based sample memory than any other system with an improved sample rate, and in the Series III (1985) changed from 8-bit to 16-bit samples. The Synclavier introduced hard-disk based sampling in 1982, storing megabytes of samples for the first time. Other products also combined synthesis and sequencing. For instance

5724-599: The Sequential Circuits Six-Trak provided this possibility. The Six-Trak was a polyphonic analog synthesizer, which featured an on-board six-track sequencer. Still other products focused on combining sampling and sequencing. For instance the E-mu Emulator models, first introduced in 1981, combined sample memory (read from floppy disks) with a simple sequencer in the initial model, and an 8-track sequencer in later models. The biggest change in

5830-710: The Wayback Machine ) with Wolfgang Helfrich and Martin Schadt (then working for the Central Research Laboratories) listed as inventors. Hoffmann-La Roche licensed the invention to Swiss manufacturer Brown, Boveri & Cie , its joint venture partner at that time, which produced TN displays for wristwatches and other applications during the 1970s for the international markets including the Japanese electronics industry, which soon produced

5936-502: The "Alt & Pleshko" drive scheme). Driving such STN displays according to the Alt & Pleshko drive scheme require very high line addressing voltages. Welzen and de Vaan invented an alternative drive scheme (a non "Alt & Pleshko" drive scheme) requiring much lower voltages, such that the STN display could be driven using low voltage CMOS technologies. White-on-blue LCDs are STN and can use

6042-407: The 1980s. Linn aimed to create an intuitive instrument, with a grid of pads that can be played similarly to a traditional instrument such as a keyboard or drum kit. Rhythms can be created using samples of any sound. The MPC had a major influence on the development of electronic and hip hop music . It led to new sampling techniques, with users pushing its technical limits to creative effect. It had

6148-485: The CRT-based sets, leading to a worldwide energy saving of 600 TWh (2017), equal to 10% of the electricity consumption of all households worldwide or equal to 2 times the energy production of all solar cells in the world. A standard television receiver screen, a modern LCD panel, has over six million pixels, and they are all individually powered by a wire network embedded in the screen. The fine wires, or pathways, form

6254-463: The Dutch Philips company, called Videlec. Philips had the required know-how to design and build integrated circuits for the control of large LCD panels. In addition, Philips had better access to markets for electronic components and intended to use LCDs in new product generations of hi-fi, video equipment and telephones. In 1984, Philips researchers Theodorus Welzen and Adrianus de Vaan invented

6360-409: The LC layer. Each pixel has its own dedicated transistor , allowing each column line to access one pixel. When a row line is selected, all of the column lines are connected to a row of pixels and voltages corresponding to the picture information are driven onto all of the column lines. The row line is then deactivated and the next row line is selected. All of the row lines are selected in sequence during

6466-539: The LCD industry. These six companies were fined 1.3 billion dollars by the United States, 650 million Euro by the European Union, and 350 million RMB by China's National Development and Reform Commission . In 2007 the image quality of LCD televisions surpassed the image quality of cathode-ray-tube-based (CRT) TVs. In the fourth quarter of 2007, LCD televisions surpassed CRT TVs in worldwide sales for

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6572-529: The MPC continued to be used even with the advent of digital audio workstations , and used models fetched high prices. Engadget wrote that the impact of the MPC on hip hop could not be overstated. The rapper Jehst saw it as the next step in the evolution of the hip hop genre after the introduction of the TR-808 , TR-909 and DMX drum machines in the 1980s. The producer DJ Shadow used an MPC60 to create his influential 1996 album Endtroducing , which

6678-526: The MPC-60, was a collaboration between the Japanese company Akai and the American engineer Roger Linn. Linn had designed the successful LM-1 and LinnDrum, two of the earliest drum machines to use samples (prerecorded sounds). His company, Linn Electronics, had closed following the failure of the Linn 9000 , a drum machine and sampler. According to Linn, his collaboration with Akai "was a good fit because Akai needed

6784-753: The Videlec AG company based in Switzerland. Afterwards, Philips moved the Videlec production lines to the Netherlands. Years later, Philips successfully produced and marketed complete modules (consisting of the LCD screen, microphone, speakers etc.) in high-volume production for the booming mobile phone industry. The first color LCD televisions were developed as handheld televisions in Japan. In 1980, Hattori Seiko 's R&D group began development on color LCD pocket televisions. In 1982, Seiko Epson released

6890-401: The addressing method of these bistable displays is rather complex, a reason why these displays did not make it to the market. That changed when in the 2010 "zero-power" (bistable) LCDs became available. Potentially, passive-matrix addressing can be used with devices if their write/erase characteristics are suitable, which was the case for ebooks which need to show still pictures only. After a page

6996-407: The applied voltage is large enough, the liquid crystal molecules in the center of the layer are almost completely untwisted and the polarization of the incident light is not rotated as it passes through the liquid crystal layer. This light will then be mainly polarized perpendicular to the second filter, and thus be blocked and the pixel will appear black. By controlling the voltage applied across

7102-410: The backlight becomes red, and it turns OFF when the backlight becomes green. To make a segment appear black, the segment is always turned ON. An FSC LCD divides a color image into 3 images (one Red, one Green and one Blue) and it displays them in order. Due to persistence of vision , the 3 monochromatic images appear as one color image. An FSC LCD needs an LCD panel with a refresh rate of 180 Hz, and

7208-622: The benefit of a steady electrical charge. As the number of pixels (and, correspondingly, columns and rows) increases, this type of display becomes less feasible. Slow response times and poor contrast are typical of passive-matrix addressed LCDs with too many pixels and driven according to the "Alt & Pleshko" drive scheme. Welzen and de Vaan also invented a non RMS drive scheme enabling to drive STN displays with video rates and enabling to show smooth moving video images on an STN display. Citizen, among others, licensed these patents and successfully introduced several STN based LCD pocket televisions on

7314-408: The black matrix material. Another color-generation method used in early color PDAs and some calculators was done by varying the voltage in a Super-twisted nematic LCD, where the variable twist between tighter-spaced plates causes a varying double refraction birefringence , thus changing the hue. They were typically restricted to 3 colors per pixel: orange, green, and blue. The optical effect of

7420-497: The company and its assets were purchased by Numark . Akai has continued to produce MPC models without Linn. Linn was critical, saying: "Akai seems to be making slight changes to my old 1986 designs for the original MPC, basically rearranging the deck chairs on the Titanic ." Instead of the switches and small hard buttons of earlier devices, the MPC has a 4x4 grid of large pressure-sensitive rubber pads which can be played similarly to

7526-703: The complex history of liquid-crystal displays from the perspective of an insider during the early days were described by Joseph A. Castellano in Liquid Gold: The Story of Liquid Crystal Displays and the Creation of an Industry . Another report on the origins and history of LCD from a different perspective until 1991 has been published by Hiroshi Kawamoto, available at the IEEE History Center. A description of Swiss contributions to LCD developments, written by Peter J. Wild , can be found at

7632-457: The dominant LCD designs through 2006. In the late 1990s, the LCD industry began shifting away from Japan, towards South Korea and Taiwan , and later on towards China. In this period, Taiwanese, Japanese, and Korean manufacturers were the dominant firms in LCD manufacturing. From 2001 to 2006, Samsung and five other major companies held 53 meetings in Taiwan and South Korea to fix prices in

7738-412: The driving circuitry from the borders of the display to in between the pixels, allowing for narrow bezels. In 2016, Panasonic developed IPS LCDs with a contrast ratio of 1,000,000:1, rivaling OLEDs. This technology was later put into mass production as dual layer, dual panel or LMCL (Light Modulating Cell Layer) LCDs. The technology uses 2 liquid crystal layers instead of one, and may be used along with

7844-413: The dynamic range of the display system (also marketed as HDR , high dynamic range television or FLAD , full-area local area dimming ). The LCD backlight systems are made highly efficient by applying optical films such as prismatic structure (prism sheet) to gain the light into the desired viewer directions and reflective polarizing films that recycle the polarized light that was formerly absorbed by

7950-596: The first LCD television, the Epson TV Watch, a wristwatch equipped with a small active-matrix LCD television. Sharp Corporation introduced dot matrix TN-LCD in 1983. In 1984, Epson released the ET-10, the first full-color, pocket LCD television. The same year, Citizen Watch , introduced the Citizen Pocket TV, a 2.7-inch color LCD TV, with the first commercial TFT LCD . In 1988, Sharp demonstrated

8056-459: The first digital quartz wristwatches with TN-LCDs and numerous other products. James Fergason , while working with Sardari Arora and Alfred Saupe at Kent State University Liquid Crystal Institute , filed an identical patent in the United States on April 22, 1971. In 1971, the company of Fergason, ILIXCO (now LXD Incorporated ), produced LCDs based on the TN-effect, which soon superseded

8162-511: The first flat active-matrix liquid-crystal display (AM LCD) in 1974, and then Brody coined the term "active matrix" in 1975. In 1972 North American Rockwell Microelectronics Corp introduced the use of DSM LCDs for calculators for marketing by Lloyds Electronics Inc, though these required an internal light source for illumination. Sharp Corporation followed with DSM LCDs for pocket-sized calculators in 1973 and then mass-produced TN LCDs for watches in 1975. Other Japanese companies soon took

8268-413: The first major English language publication Molecular Structure and Properties of Liquid Crystals was published by Dr. George W. Gray . In 1962, Richard Williams of RCA found that liquid crystals had some interesting electro-optic characteristics and he realized an electro-optical effect by generating stripe patterns in a thin layer of liquid crystal material by the application of a voltage. This effect

8374-409: The first polarizer of the LCD (invented by Philips researchers Adrianus de Vaan and Paulus Schaareman), generally achieved using so called DBEF films manufactured and supplied by 3M. Improved versions of the prism sheet have a wavy rather than a prismatic structure, and introduce waves laterally into the structure of the sheet while also varying the height of the waves, directing even more light towards

8480-476: The first time. LCD TVs were projected to account 50% of the 200 million TVs to be shipped globally in 2006, according to Displaybank . In October 2011, Toshiba announced 2560 × 1600 pixels on a 6.1-inch (155 mm) LCD panel, suitable for use in a tablet computer , especially for Chinese character display. The 2010s also saw the wide adoption of TGP (Tracking Gate-line in Pixel), which moves

8586-561: The industry was the development of the MIDI standard in 1983 for representing musical note sequences. For the first time, sequences could be moved from one digitally controlled music device to another. The Ensoniq ESQ-1 , released in 1985, combined for the first time a multi-track, polyphonic MIDI sequencer with a dynamically-assigned multi-timbral synthesizer. In the late 1980s, on-board MIDI sequencers began to appear more frequently on professional synthesizers. The Korg M1 (released 1988)

8692-478: The inventors worked, assigns these patents to Merck KGaA, Darmstadt, a supplier of LC substances. In 1992, shortly thereafter, engineers at Hitachi work out various practical details of the IPS technology to interconnect the thin-film transistor array as a matrix and to avoid undesirable stray fields in between pixels. The first wall-mountable LCD TV was introduced by Sharp Corporation in 1992. Hitachi also improved

8798-587: The late 1960s, pioneering work on liquid crystals was undertaken by the UK's Royal Radar Establishment at Malvern , England. The team at RRE supported ongoing work by George William Gray and his team at the University of Hull who ultimately discovered the cyanobiphenyl liquid crystals, which had correct stability and temperature properties for application in LCDs. The idea of a TFT -based liquid-crystal display (LCD)

8904-705: The light of the backlight uniformly, while a mirror is placed behind the light guide plate to direct all light forwards. The prism sheet with its diffuser sheets are placed on top of the light guide plate. The DBEF polarizers consist of a large stack of uniaxial oriented birefringent films that reflect the former absorbed polarization mode of the light. DBEF polarizers using uniaxial oriented polymerized liquid crystals (birefringent polymers or birefringent glue) were invented in 1989 by Philips researchers Dirk Broer, Adrianus de Vaan and Joerg Brambring. The combination of such reflective polarizers, and LED dynamic backlight control make today's LCD televisions far more efficient than

9010-451: The liquid crystal layer in each pixel, light can be allowed to pass through in varying amounts thus constituting different levels of gray. The chemical formula of the liquid crystals used in LCDs may vary. Formulas may be patented. An example is a mixture of 2-(4-alkoxyphenyl)-5-alkylpyrimidine with cyanobiphenyl, patented by Merck and Sharp Corporation . The patent that covered that specific mixture has expired. Most color LCD systems use

9116-468: The market. Bistable LCDs do not require continuous refreshing. Rewriting is only required for picture information changes. In 1984 HA van Sprang and AJSM de Vaan invented an STN type display that could be operated in a bistable mode, enabling extremely high resolution images up to 4000 lines or more using only low voltages. Since a pixel may be either in an on-state or in an off state at the moment new information needs to be written to that particular pixel,

9222-668: The mid-1990s, Roland entered the market with the MC-303 (1996), and Korg and Yamaha re-entered the market, Korg with the Electribe series (1999–). Akai developed and refined the idea of the keyboard-less workstation with the Music Production Center series (1988–) of sampler workstations. The MPC breed of sampler freed the composer from the rigidity of step sequencing, which was a limitation of earlier groove machines. Yamaha , Roland and Korg now have sampling as

9328-592: The music workstations. Open Labs introduced the Production Station in 2003, which changed the relationship of the music workstation and the personal computer from a model where the music workstation interfaces to the PC into one where the music workstation is a PC with a music keyboard and a touch screen display. A variation on Open Labs' approach, Korg released the Korg OASYS in 2005. OASYS housed inside

9434-476: The poor-quality DSM types due to improvements of lower operating voltages and lower power consumption. Tetsuro Hama and Izuhiko Nishimura of Seiko received a US patent dated February 1971, for an electronic wristwatch incorporating a TN-LCD. In 1972, the first wristwatch with TN-LCD was launched on the market: The Gruen Teletime which was a four digit display watch. In 1972, the concept of the active-matrix thin-film transistor (TFT) liquid-crystal display panel

9540-561: The prototypes developed by a Westinghouse team in 1972 were patented in 1976 by a team at Sharp consisting of Fumiaki Funada, Masataka Matsuura, and Tomio Wada, then improved in 1977 by a Sharp team consisting of Kohei Kishi, Hirosaku Nonomura, Keiichiro Shimizu, and Tomio Wada. However, these TFT-LCDs were not yet ready for use in products, as problems with the materials for the TFTs were not yet solved. In 1983, researchers at Brown, Boveri & Cie (BBC) Research Center, Switzerland , invented

9646-456: The quantum dots can have a special structure to improve their application onto the color filter. Quantum dot color filters offer superior light transmission over quantum dot enhancement films. In the 2020s, China became the largest manufacturer of LCDs and Chinese firms had a 40% share of the global market. Chinese firms that developed into world industry leaders included BOE Technology , TCL-CSOT, TIANMA, and Visionox. Local governments had

9752-535: The response time is reduced to just 5 milliseconds when compared with normal STN LCD panels which have a response time of 16 milliseconds. FSC LCDs contain a Chip-On-Glass driver IC can also be used with a capacitive touchscreen. This technique can also be applied in displays meant to show images, as it can offer higher light transmission and thus potential for reduced power consumption in the backlight due to omission of color filters in LCDs. Samsung introduced UFB (Ultra Fine & Bright) displays back in 2002, utilized

9858-399: The same concept, was introduced in January, 2011. While advances in digital technology have greatly reduced the price of a professional-grade music workstation, the 'time cost' of learning to operate a complex instrument like this cannot be underestimated. Hence, product selection is critical, and is typically based upon: Liquid-crystal display A liquid-crystal display ( LCD )

9964-508: The same technique, with color filters used to generate red, green, and blue subpixels. The LCD color filters are made with a photolithography process on large glass sheets that are later glued with other glass sheets containing a thin-film transistor (TFT) array, spacers and liquid crystal, creating several color LCDs that are then cut from one another and laminated with polarizer sheets. Red, green, blue and black colored photoresists (resists) are used to create color filters. All resists contain

10070-413: The screen and reducing aliasing or moiré between the structure of the prism sheet and the subpixels of the LCD. A wavy structure is easier to mass-produce than a prismatic one using conventional diamond machine tools, which are used to make the rollers used to imprint the wavy structure into plastic sheets, thus producing prism sheets. A diffuser sheet is placed on both sides of the prism sheet to distribute

10176-627: The software with his team. He credited the circuitry to a team led by the English engineer David Cockerell. Akai handled the production engineering, making the MPC "more manufacturable". The first model, the MPC60 ( MIDI Production Center), was released on December 8, 1988, and retailed for $ 5,000. It was followed by the MPC60 MkII and the MPC3000. After Akai went out of business in 2006, Linn left

10282-574: The structure and properties of liquid crystals and classified them in three types (nematics, smectics and cholesterics). In 1927, Vsevolod Frederiks devised the electrically switched light valve, called the Fréedericksz transition , the essential effect of all LCD technology. In 1936, the Marconi Wireless Telegraph company patented the first practical application of the technology, "The Liquid Crystal Light Valve" . In 1962,

10388-524: The super-birefringent effect. It has the luminance, color gamut, and most of the contrast of a TFT-LCD, but only consumes as much power as an STN display, according to Samsung. It was being used in a variety of Samsung cellular-telephone models produced until late 2006, when Samsung stopped producing UFB displays. UFB displays were also used in certain models of LG mobile phones. Twisted nematic displays contain liquid crystals that twist and untwist at varying degrees to allow light to pass through. When no voltage

10494-400: The switching of colors by field-induced realignment of dichroic dyes in a homeotropically oriented liquid crystal. Practical problems with this new electro-optical effect made Heilmeier continue to work on scattering effects in liquid crystals and finally the achievement of the first operational liquid-crystal display based on what he called the dynamic scattering mode (DSM). Application of

10600-625: The various matrix addressing schemes see passive-matrix and active-matrix addressed LCDs . LCDs are manufactured in cleanrooms borrowing techniques from semiconductor manufacturing and using large sheets of glass whose size has increased over time. Several displays are manufactured at the same time, and then cut from the sheet of glass, also known as the mother glass or LCD glass substrate. The increase in size allows more displays or larger displays to be made, just like with increasing wafer sizes in semiconductor manufacturing. The glass sizes are as follows: Until Gen 8, manufacturers would not agree on

10706-499: The viewing angle dependence further by optimizing the shape of the electrodes ( Super IPS ). NEC and Hitachi become early manufacturers of active-matrix addressed LCDs based on the IPS technology. This is a milestone for implementing large-screen LCDs having acceptable visual performance for flat-panel computer monitors and television screens. In 1996, Samsung developed the optical patterning technique that enables multi-domain LCD. Multi-domain and In Plane Switching subsequently remain

10812-499: The words of Greg Milner, the author of Perfecting Sound Forever , musicians "didn't just want the sound of John Bonham's kick drum, they wanted to loop and repeat the whole of ' When the Levee Breaks '." Linn said: "It was a very pleasant surprise. After 60 years of recording, there are so many prerecorded examples to sample from. Why reinvent the wheel?" The MPC's ability to create percussion from any sound turned sampling into

10918-553: The workstation evolved in the mid-1990s with the emergence of the groove machine concept that began in the mid-1980s – a keyless version of a workstation, still with a self-contained sound source and sequencer, mostly intended for dance music. Nowadays, these devices feature a sampler . The groove machines that emerged in the mid-1980s include the Linn 9000 (1984), SCI Studio 440 (1986), Korg DDD-1 (1986), Yamaha RX5 (1986), Simmons SDX (1987)), Kawai R-50e (1987), E-mu SP-12 / SP-1200 (1985/1987), and Akai MPC60 (1988). In

11024-441: Was conceived by Bernard Lechner of RCA Laboratories in 1968. Lechner, F.J. Marlowe, E.O. Nester and J. Tults demonstrated the concept in 1968 with an 18x2 matrix dynamic scattering mode (DSM) LCD that used standard discrete MOSFETs . On December 4, 1970, the twisted nematic field effect (TN) in liquid crystals was filed for patent by Hoffmann-LaRoche in Switzerland, ( Swiss patent No. 532 261 Archived March 9, 2021, at

11130-510: Was prototyped in the United States by T. Peter Brody 's team at Westinghouse , in Pittsburgh, Pennsylvania . In 1973, Brody, J. A. Asars and G. D. Dixon at Westinghouse Research Laboratories demonstrated the first thin-film-transistor liquid-crystal display (TFT LCD). As of 2013 , all modern high-resolution and high-quality electronic visual display devices use TFT-based active matrix displays. Brody and Fang-Chen Luo demonstrated

11236-557: Was to use interdigital electrodes on one glass substrate only to produce an electric field essentially parallel to the glass substrates. To take full advantage of the properties of this In Plane Switching (IPS) technology further work was needed. After thorough analysis, details of advantageous embodiments are filed in Germany by Guenter Baur et al. and patented in various countries. The Fraunhofer Institute ISE in Freiburg, where

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