Large-screen television technology
Encyclopedia
Large-screen television
technology developed rapidly in the late 1990s and 2000s. Various thin screen technologies are being developed, but only the liquid crystal display
(LCD), plasma display
(PDP) and Digital Light Processing (DLP) were released on the public market. These technologies have almost completely displaced cathode ray tube
s (CRT) in television sales, due to the necessary bulkiness of the cathode ray tubes. However, just released technologies like organic light-emitting diode
(OLED) and not-yet released technologies like surface-conduction electron-emitter display
(SED) or field emission display
(FED) are making their way to replace the first flat screen technologies in picture quality. The diagonal screen size of a CRT television is limited to about 40 inches because of the size requirements of the cathode ray tube, which fires a beam of electrons onto the screen, creating a viewable image. A larger screen size requires a longer tube, making a CRT television with a large screen (50 to 80 inches) unrealistic because of size. The aforementioned technologies can produce large-screen televisions that are much thinner.
Before deciding on a particular display technology size, it’s very important to calculate at what distances it’s going to be viewed from. As the display size increases so does the ideal viewing distance. As a rule of thumb
, the viewing distance should be roughly two to three times the screen size for standard definition (SD) displays.
on an LCD consists of multiple layers of components: two polarizing filters, two glass plates with electrodes, and liquid crystal molecules. The liquid crystals are sandwiched between the glass plates and are in direct contact with the electrodes. The two polarizing filters are the outer layers in this structure. The polarity of one of these filters is oriented horizontally, while the polarity of the other filter is oriented vertically. The electrodes are treated with a layer of polymer
to control the alignment of liquid crystal molecules in a particular direction. These rod-like molecules are arranged to match the horizontal orientation on one side and the vertical orientation on the other, giving the molecules a twisted, helical structure. Twisted nematic liquid crystals are naturally twisted, and are commonly used for LCD’s because they react predictably to temperature variation and electric current.
When the liquid crystals are in its natural state, light passing through the first filter will be rotated (in terms of polarity) by the twisted molecule structure, which allows the light to pass through the second filter. When voltage is applied across the electrodes, the liquid crystal structure is untwisted to an extent determined by the amount of voltage. A sufficiently large voltage will cause the molecules to untwist completely, such that the polarity of any light passing through will not be rotated and will instead be perpendicular to the filter polarity. This filter will block the passage of light because of the difference in polarity orientation, and the resulting pixel will be black. The amount of light allowed to pass through at each pixel can be controlled by varying the corresponding voltage accordingly. In a color LCD each pixel consists of a red, green, and blue subpixel, which requires appropriate color filters in addition to the components mentioned previously. Each subpixel can be controlled individually to display a large range of possible colors for a particular pixel.
The electrodes on one side of the LCD are arranged in columns, while the electrodes on the other side are arranged in rows, forming a large matrix that controls every pixel. Each pixel is designated a unique row-column combination, and the pixel can be accessed by the control circuits using this combination. These circuits send charge down the appropriate row and column, effectively applying a voltage across the electrodes at a given pixel. Simple LCD’s such as those on digital watches can operate on what is called a passive-matrix structure, in which each pixel is addressed one at a time. This results in extremely slow response times and poor voltage control. A voltage applied to one pixel can cause the liquid crystals at surrounding pixels to untwist undesirably, resulting in fuzziness and poor contrast in this area of the image. LCD’s with high resolutions, such as large-screen LCD televisions, require an active-matrix structure. This structure is a matrix of thin-film transistor
s, each corresponding to one pixel on the display. The switching ability of the transistors allows each pixel to be accessed individually and precisely, without affecting nearby pixels. Each transistor also acts as a capacitor while leaking very little current, so it can effectively store the charge while the display is being refreshed.
The following are types of LC display technologies:
A plasma display
is made up of many thousands of gas-filled cells that are sandwiched in between two glass plates, two sets of electrodes, dielectric
material, and protective layers. The address electrodes are arranged vertically between the rear glass plate and a protective layer. This structure sits behind the cells in the rear of the display, with the protective layer in direct contact with the cells. On the front side of the display there are horizontal display electrodes that sit in between a magnesium-oxide (MgO) protective layer and an insulating dielectric layer. The MgO layer is in direct contact with the cells and the dielectric layer is in direct contact with the front glass plate. The horizontal and vertical electrodes form a grid from which each individual cell can be accessed. Each individual cell is walled off from surrounding cells so that activity in one cell does not affect another. The cell structure is similar to a honeycomb structure except with rectangular cells.
To illuminate a particular cell, the electrodes that intersect at the cell are charged by control circuitry and electric current flows through the cell, stimulating the gas (typically xenon
and neon
) atoms inside the cell. These ionized gas atoms, or plasmas, then release ultraviolet
photons that interact with a phosphor
material on the inside wall of the cell. The phosphor atoms are stimulated and electrons jump to higher energy levels. When these electrons return to is natural state energy is released in the form of visible light. Every pixel on the display is made up of three subpixel cells. One subpixel cell is coated with red phosphor, another is coated with green phosphor, and the third cell is coated with blue phosphor. Light emitted from the subpixel cells is blended together to create an overall color for the pixel. The control circuitry can manipulate the intensity of light emitted from each cell, and therefore can produce a large spectrum of colors. Light from each cell can be controlled and changed rapidly to produce a high-quality moving picture.
is in some ways similar to that of a traditional television, the projector is contained inside the television box and projects the image from behind the screen.
The following are different types of rear-projection televisions, which differ based on the type of projector and how the image (before projection) is created:
The small layers of phosphors inside of the glass emit red, green or blue light when excited by a soft UV laser. This technology produces brilliant, high quality images on very large resolutions.
The laser can be varied in intensity or completely turned on or off without a problem, which means that a dark display would need less power to project its images.
Unlike most other imaging technologies, the LPD images have no motion blur or flicker.
According to Prysm, the brightness and color range of the LPD exceeds LCD and LED technologies. It also has a viewing angle of almost 180˚. Its frequency lies near the 240 Hz and it has a 1.6 mm dot pitch. Both of these aspects exceed the current technologies such as LED.
The technology is also very easy to assemble as all components, including the phosphors, mirrors and lasers are widely available. This makes development time short.
LPD is said to be eco-friendly throughout its manufacture. As well as greatly reduced power consumption, does not contain toxic components, has no consumables and generates little heat.
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Television
Television is a telecommunication medium for transmitting and receiving moving images that can be monochrome or colored, with accompanying sound...
technology developed rapidly in the late 1990s and 2000s. Various thin screen technologies are being developed, but only the liquid crystal display
Liquid crystal display
A liquid crystal display is a flat panel display, electronic visual display, or video display that uses the light modulating properties of liquid crystals . LCs do not emit light directly....
(LCD), plasma display
Plasma display
A plasma display panel is a type of flat panel display common to large TV displays or larger. They are called "plasma" displays because the technology utilizes small cells containing electrically charged ionized gases, or what are in essence chambers more commonly known as fluorescent...
(PDP) and Digital Light Processing (DLP) were released on the public market. These technologies have almost completely displaced cathode ray tube
Cathode ray tube
The cathode ray tube is a vacuum tube containing an electron gun and a fluorescent screen used to view images. It has a means to accelerate and deflect the electron beam onto the fluorescent screen to create the images. The image may represent electrical waveforms , pictures , radar targets and...
s (CRT) in television sales, due to the necessary bulkiness of the cathode ray tubes. However, just released technologies like organic light-emitting diode
Organic light-emitting diode
An OLED is a light-emitting diode in which the emissive electroluminescent layer is a film of organic compounds which emit light in response to an electric current. This layer of organic semiconductor material is situated between two electrodes...
(OLED) and not-yet released technologies like surface-conduction electron-emitter display
Surface-conduction Electron-emitter Display
A surface-conduction electron-emitter display is a display technology which is currently developing various flat panel displays by a number of companies as a electronic visual displays. SEDs use nanoscopic-scale electron emitters to energize colored phosphors and produce an image...
(SED) or field emission display
Field emission display
A field emission display is a display technology that incorporates flat panel display technology that uses large-area field electron emission sources to provide electrons that strike colored phosphor to produce a color image as a electronic visual display...
(FED) are making their way to replace the first flat screen technologies in picture quality. The diagonal screen size of a CRT television is limited to about 40 inches because of the size requirements of the cathode ray tube, which fires a beam of electrons onto the screen, creating a viewable image. A larger screen size requires a longer tube, making a CRT television with a large screen (50 to 80 inches) unrealistic because of size. The aforementioned technologies can produce large-screen televisions that are much thinner.
Viewing distances
Rule of thumb
A rule of thumb is a principle with broad application that is not intended to be strictly accurate or reliable for every situation. It is an easily learned and easily applied procedure for approximately calculating or recalling some value, or for making some determination...
, the viewing distance should be roughly two to three times the screen size for standard definition (SD) displays.
| Screen size (in) | Viewing distance (ft) | Viewing distance (m) |
|---|---|---|
| 15–26 | 5–8 | 1.5-2.4 |
| 26–32 | 8–11.5 | 2.4-3.5 |
| 32–42 | 11.5–13 | 3.5-4 |
| 42–55 | >13 | >4 |
Display specifications
The following are important factors for evaluating television displays:- Display size: This refers to the diagonal length of the display.
- Display resolutionDisplay resolutionThe display resolution of a digital television or display device is the number of distinct pixels in each dimension that can be displayed. It can be an ambiguous term especially as the displayed resolution is controlled by all different factors in cathode ray tube , flat panel or projection...
: This refers to the number of pixels in each dimension on a display. In general a higher resolution will yield a clearer, sharper image. - Dot pitchDot pitchDot pitch is a specification for a computer display, computer printer, image scanner, or other pixel-based device that describes the distance, for example, between dots of the same color on the inside of a display screen...
: This measures the size of an individual pixel, which includes the length of the subpixels and distances between subpixels. It can be measured as the horizontal or diagonal length of a pixel. A smaller dot pitch generally results in sharper images because there are more pixels in a given area. In the case of CRT based displays, pixels are not equivalent to the phosphor dots, as they are to the pixel triads in LC displays. Projection displays that use 3 monochrome CRTs do not have a dot structure, so this specification does not apply. - Response timeResponse timeIn technology, response time is the time a system or functional unit takes to react to a given input.- Data processing :In data processing, the response time perceived by the end user is the interval between the instant at which an operator at a terminal enters a request for a response from a...
: This is the time it takes for the display to respond to a given input. For an LC display it is defined as the total time it takes for a pixel to transition from black to white, and then white to black. A display with slow response times displaying moving pictures may result in blurring and distortion. Displays with fast response times can make better transitions in displaying moving objects without unwanted image artefacts. - BrightnessBrightnessBrightness is an attribute of visual perception in which a source appears to be radiating or reflecting light. In other words, brightness is the perception elicited by the luminance of a visual target...
: This is the amount of light emitted from the display. It is sometimes synonymous with the term luminanceLuminanceLuminance is a photometric measure of the luminous intensity per unit area of light travelling in a given direction. It describes the amount of light that passes through or is emitted from a particular area, and falls within a given solid angle. The SI unit for luminance is candela per square...
, which is defined as the amount of light per area and is measured in SI units as candelaCandelaThe candela is the SI base unit of luminous intensity; that is, power emitted by a light source in a particular direction, weighted by the luminosity function . A common candle emits light with a luminous intensity of roughly one candela...
per square meter. - Contrast ratioContrast ratioThe contrast ratio is a property of a display system, defined as the ratio of the luminance of the brightest color to that of the darkest color that the system is capable of producing...
: This is defined as the ratio of the luminance of the brightest color to the luminance of the darkest color on the display. High contrast ratios are desirable but the method of measurement varies greatly. It can be measured with the display isolated from its environment or with the lighting of the room being accounted for. Static contrast ratio is measured on a static image at some instant in time. Dynamic contrast ratio is measured on the image over a period of time. Manufacturers can market either static or dynamic contrast ratio depending on which one is higher. - Aspect ratioAspect ratioThe aspect ratio of a shape is the ratio of its longer dimension to its shorter dimension. It may be applied to two characteristic dimensions of a three-dimensional shape, such as the ratio of the longest and shortest axis, or for symmetrical objects that are described by just two measurements,...
: This is the ratio of the display width to the display height. The aspect ratio of a traditional television is 4:3, which is being discontinued, the television industry is currently changing to the 16:9 ratio typically used by large-screen, high-definition televisions. - Viewing angle: This is the maximum angle at which the display can be viewed with acceptable quality. The angle is measured from one direction to the opposite direction of the display, such that the maximum viewing angle is 180 degrees. Outside of this angle the viewer will see a distorted version of the image being displayed. The definition of what is acceptable quality for the image can be different among manufacturers and display types. Many manufacturers define this as the point at which the luminance is half of the maximum luminance. Some manufacturers define it based on contrast ratio and look at the angle at which a certain contrast ratio is realized.
- Color reproduction/gamutGamutIn color reproduction, including computer graphics and photography, the gamut, or color gamut , is a certain complete subset of colors. The most common usage refers to the subset of colors which can be accurately represented in a given circumstance, such as within a given color space or by a...
: This is the range of colors that the display can accurately represent.
LCD television
A pixelPixel
In digital imaging, a pixel, or pel, is a single point in a raster image, or the smallest addressable screen element in a display device; it is the smallest unit of picture that can be represented or controlled....
on an LCD consists of multiple layers of components: two polarizing filters, two glass plates with electrodes, and liquid crystal molecules. The liquid crystals are sandwiched between the glass plates and are in direct contact with the electrodes. The two polarizing filters are the outer layers in this structure. The polarity of one of these filters is oriented horizontally, while the polarity of the other filter is oriented vertically. The electrodes are treated with a layer of polymer
Polymer
A polymer is a large molecule composed of repeating structural units. These subunits are typically connected by covalent chemical bonds...
to control the alignment of liquid crystal molecules in a particular direction. These rod-like molecules are arranged to match the horizontal orientation on one side and the vertical orientation on the other, giving the molecules a twisted, helical structure. Twisted nematic liquid crystals are naturally twisted, and are commonly used for LCD’s because they react predictably to temperature variation and electric current.
When the liquid crystals are in its natural state, light passing through the first filter will be rotated (in terms of polarity) by the twisted molecule structure, which allows the light to pass through the second filter. When voltage is applied across the electrodes, the liquid crystal structure is untwisted to an extent determined by the amount of voltage. A sufficiently large voltage will cause the molecules to untwist completely, such that the polarity of any light passing through will not be rotated and will instead be perpendicular to the filter polarity. This filter will block the passage of light because of the difference in polarity orientation, and the resulting pixel will be black. The amount of light allowed to pass through at each pixel can be controlled by varying the corresponding voltage accordingly. In a color LCD each pixel consists of a red, green, and blue subpixel, which requires appropriate color filters in addition to the components mentioned previously. Each subpixel can be controlled individually to display a large range of possible colors for a particular pixel.
The electrodes on one side of the LCD are arranged in columns, while the electrodes on the other side are arranged in rows, forming a large matrix that controls every pixel. Each pixel is designated a unique row-column combination, and the pixel can be accessed by the control circuits using this combination. These circuits send charge down the appropriate row and column, effectively applying a voltage across the electrodes at a given pixel. Simple LCD’s such as those on digital watches can operate on what is called a passive-matrix structure, in which each pixel is addressed one at a time. This results in extremely slow response times and poor voltage control. A voltage applied to one pixel can cause the liquid crystals at surrounding pixels to untwist undesirably, resulting in fuzziness and poor contrast in this area of the image. LCD’s with high resolutions, such as large-screen LCD televisions, require an active-matrix structure. This structure is a matrix of thin-film transistor
Thin-film transistor
A thin-film transistor is a special kind of field-effect transistor made by depositing thin films of a semiconductor active layer as well as the dielectric layer and metallic contacts over a supporting substrate. A common substrate is glass, since the primary application of TFTs is in liquid...
s, each corresponding to one pixel on the display. The switching ability of the transistors allows each pixel to be accessed individually and precisely, without affecting nearby pixels. Each transistor also acts as a capacitor while leaking very little current, so it can effectively store the charge while the display is being refreshed.
The following are types of LC display technologies:
- Twisted Nematic (TN): This type of display is the most common and makes use of twisted nematic-phase crystals, which have a natural helical structure and can be untwisted by an applied voltage to allow light to pass through. These displays have low production costs and fast response times but also limited viewing angles, and many have a limited color gamut that cannot take full advantage of advanced graphics cards. These limitations are due to variation in the angles of the liquid crystal molecules at different depths, restricting the angles at which light can leave the pixel.
- In-Plane Switching (IPS): Unlike the electrode arrangement in traditional TN displays, the two electrodes corresponding to a pixel are both on the same glass plate and are parallel to each other. The liquid crystal molecules do not form a helical structure and instead are also parallel to each other. In its natural or "off" state, the molecule structure is arranged parallel to the glass plates and electrodes. Because the twisted molecule structure is not used in an IPS display, the angle at which light leaves a pixel is not as restricted, and therefore viewing angles and color reproduction are much improved compared to those of TN displays. However, IPS displays have slower response times. IPS displays also initially suffered from poor contrast ratios but has been significantly improved with the development of Advanced Super IPS (AS - IPS).
- Multi-Domain Vertical Alignment (MVA): In this type of display the liquid crystals are naturally arranged perpendicular to the glass plates but can be rotated to control light passing through. There are also pyramid-like protrusions in the glass substrates to control the rotation of the liquid crystals such that the light is channeled at an angle with the glass plate. This technology results in wide viewing angles while boasting good contrast ratios and faster response times than those of TN and IPS displays. The major drawback is a reduction in brightness.
- Patterned Vertical Alignment (PVA): This type of display is a variation of MVA and performs very similarly, but with much higher contrast ratios
Plasma display
Plasma display
A plasma display panel is a type of flat panel display common to large TV displays or larger. They are called "plasma" displays because the technology utilizes small cells containing electrically charged ionized gases, or what are in essence chambers more commonly known as fluorescent...
is made up of many thousands of gas-filled cells that are sandwiched in between two glass plates, two sets of electrodes, dielectric
Dielectric
A dielectric is an electrical insulator that can be polarized by an applied electric field. When a dielectric is placed in an electric field, electric charges do not flow through the material, as in a conductor, but only slightly shift from their average equilibrium positions causing dielectric...
material, and protective layers. The address electrodes are arranged vertically between the rear glass plate and a protective layer. This structure sits behind the cells in the rear of the display, with the protective layer in direct contact with the cells. On the front side of the display there are horizontal display electrodes that sit in between a magnesium-oxide (MgO) protective layer and an insulating dielectric layer. The MgO layer is in direct contact with the cells and the dielectric layer is in direct contact with the front glass plate. The horizontal and vertical electrodes form a grid from which each individual cell can be accessed. Each individual cell is walled off from surrounding cells so that activity in one cell does not affect another. The cell structure is similar to a honeycomb structure except with rectangular cells.
To illuminate a particular cell, the electrodes that intersect at the cell are charged by control circuitry and electric current flows through the cell, stimulating the gas (typically xenon
Xenon
Xenon is a chemical element with the symbol Xe and atomic number 54. The element name is pronounced or . A colorless, heavy, odorless noble gas, xenon occurs in the Earth's atmosphere in trace amounts...
and neon
Neon
Neon is the chemical element that has the symbol Ne and an atomic number of 10. Although a very common element in the universe, it is rare on Earth. A colorless, inert noble gas under standard conditions, neon gives a distinct reddish-orange glow when used in either low-voltage neon glow lamps or...
) atoms inside the cell. These ionized gas atoms, or plasmas, then release ultraviolet
Ultraviolet
Ultraviolet light is electromagnetic radiation with a wavelength shorter than that of visible light, but longer than X-rays, in the range 10 nm to 400 nm, and energies from 3 eV to 124 eV...
photons that interact with a phosphor
Phosphor
A phosphor, most generally, is a substance that exhibits the phenomenon of luminescence. Somewhat confusingly, this includes both phosphorescent materials, which show a slow decay in brightness , and fluorescent materials, where the emission decay takes place over tens of nanoseconds...
material on the inside wall of the cell. The phosphor atoms are stimulated and electrons jump to higher energy levels. When these electrons return to is natural state energy is released in the form of visible light. Every pixel on the display is made up of three subpixel cells. One subpixel cell is coated with red phosphor, another is coated with green phosphor, and the third cell is coated with blue phosphor. Light emitted from the subpixel cells is blended together to create an overall color for the pixel. The control circuitry can manipulate the intensity of light emitted from each cell, and therefore can produce a large spectrum of colors. Light from each cell can be controlled and changed rapidly to produce a high-quality moving picture.
Projection television
A projection television uses a projector to create a small image from a video signal and magnify this image onto a viewable screen. The projector uses a bright beam of light and a lens system to project the image to a much larger size. A front-projection television uses a projector that is separate from the screen which could be a suitably prepared wall, and the projector is placed in front of the screen. The setup of a rear-projection televisionRear-projection television
Rear-projection television or RPTV is a type of large-screen television display technology. Up until the mid-2000s, most of the relatively affordable consumer large screen TVs up to used rear-projection technology...
is in some ways similar to that of a traditional television, the projector is contained inside the television box and projects the image from behind the screen.
Rear-projection television
- CRT rear-projection televisionCRT projectorA CRT projector is a video projector that uses a small, high-brightness CRT as the image generating element. The image is then focused and enlarged onto a screen using a lens kept in front of the CRT face. Most modern CRT projectors are color and have three separate CRTs , and their own lenses to...
: Small cathode ray tubeCathode ray tubeThe cathode ray tube is a vacuum tube containing an electron gun and a fluorescent screen used to view images. It has a means to accelerate and deflect the electron beam onto the fluorescent screen to create the images. The image may represent electrical waveforms , pictures , radar targets and...
s create the image in the same manner that a traditional CRT television does, which is by firing a beam of electrons onto a phosphor-coated screen and then the image is projected to a large screen. This is done to overcome the limit of size of cathode ray tube which is about 40 inches which is the maximum size a normal CRT television set (see image). The cathode ray tubes can be arranged in various ways. One arrangement is to use one tube and three phosphor (red, green, blue) coatings. Alternatively, one black-and-white tube can be used with a spinning color wheel. A third option is to use three CRT's, one for red, green, and blue. - LCD rear-projection televisionLCD projectorAn LCD projector is a type of video projector for displaying video, images or computer data on a screen or other flat surface. It is a modern equivalent of the slide projector or overhead projector...
: A lamp transmits light through a small LCD chip made up of individual pixels to create an image. The LCD projector uses mirrors to take the light and create three separate red, green, and blue beams, which are then passed through three separate LCD panels. The liquid crystals are manipulated using electric current to control the amount of light passing through. The lens system takes the three color beams and projects the image. - DLP rear-projection television: A DLP projector creates an image using a digital micromirror deviceDigital micromirror deviceA digital micromirror device, or DMD, is an optical semiconductor that is the core of DLP projection technology, and was invented by Dr. Larry Hornbeck and Dr. William E. "Ed" Nelson of Texas Instruments in 1987....
(DMD chip), which on its surface contains a large matrix of microscopic mirrors, each corresponding to one pixel in an image. Each mirror can be rotated to reflect light such that the pixel appears bright, or the mirror can be rotated to direct light elsewhere and make the pixel appear dark. The mirror is made of aluminum and is rotated on an axle hinge. There are electrodes on both sides of the hinge controlling the rotation of the mirror using electrostatic attraction. The electrodes are connected to an SRAM cell located under each pixel, and charges from the SRAM cell drive the movement of the mirrors. Color is added to the image-creation process either through a spinning color wheel (used with a single-chip projector) or a three-chip (red, green, blue) projector. The color wheel is placed between the lamp light source and the DMD chip such that the light passing through is colored and then reflected off a mirror to determine the level of darkness. A color wheel consists of a red, green, and blue sector, as well as a fourth sector to either control brightness or include a fourth color. This spinning color wheel in the single-chip arrangement can be replaced by red, green, and blue light-emitting diodes (LED). The three-chip projector uses a prism to split up the light into three beams (red, green, blue), each directed towards its own DMD chip. The outputs of the three DMD chips are recombined and then projected.
Laser Phosphor Display
In this newest television technology, first unveiled in June 2010 at InfoComm, the image is provided by the use of lasers, which are located on the back of the television, reflected off a rapidly moving bank of mirrors to excite pixels on the television screen in a similar way to cathode ray tubes. The mirrors reflect the lasers across the screen and so produce the necessary number of image lines.The small layers of phosphors inside of the glass emit red, green or blue light when excited by a soft UV laser. This technology produces brilliant, high quality images on very large resolutions.
The laser can be varied in intensity or completely turned on or off without a problem, which means that a dark display would need less power to project its images.
Unlike most other imaging technologies, the LPD images have no motion blur or flicker.
According to Prysm, the brightness and color range of the LPD exceeds LCD and LED technologies. It also has a viewing angle of almost 180˚. Its frequency lies near the 240 Hz and it has a 1.6 mm dot pitch. Both of these aspects exceed the current technologies such as LED.
The technology is also very easy to assemble as all components, including the phosphors, mirrors and lasers are widely available. This makes development time short.
LPD is said to be eco-friendly throughout its manufacture. As well as greatly reduced power consumption, does not contain toxic components, has no consumables and generates little heat.
LCD
Advantages:- Slim profile
- Lighter and less bulky than rear-projection televisions
- Is less susceptible to burn-in: Burn-in refers to the television displaying a permanent ghost-like image due to constant, prolonged display of the image. Light-emitting phosphors lose their luminosity over time and, when frequently used, the low-luminosity areas become permanently visible.
- LCDs reflect very little light, allowing them to maintain contrast levels in well-lit rooms and not be affected by glare.
- Slightly lower power usage than equivalent sized Plasma displays.
- Can be wall-mounted.
Disadvantages:
- Poor black levelBlack levelVideo black level is defined as the level of brightness at the darkest part of a visual image or the level of brightness at which no light is emitted from a screen, resulting in a pure black screen....
: Some light passes through even when liquid crystals completely untwist, so the best black color that can be achieved is varying shades of dark gray, resulting in worse contrast ratios and detail in the image. This can be mitigated by the use of a matrix of LEDs as the illuminator to provide nearly true black performance. - Narrower viewing angles than competing technologies. It is nearly impossible to use an LCD without some image warping occurring.
- LCDs rely heavily on thin-film transistors, which can be damaged, resulting in a defective pixelDefective pixelDefective pixels are pixels on a liquid crystal display that are not performing as expected. The ISO standard ISO 13406-2 distinguishes between three different types of defective pixels, while hardware companies tend to have further distinguishing types. Similar defects can also occur on CCD or...
. - Typically have slower response times than Plasmas, which can cause ghostingGhostingGhosting may refer to:* ghosting , a form of identity theft, whereby a person takes on the identity of a deceased person* ghosting , a double image when receiving a distorted or multipath input signal in analog television broadcasting* motion blur, "ghosting" is a term often used when slow response...
and blurring during the display of fast-moving images. This is also improving by increasing the refresh rate of LCD displays
Plasma display
Advantages:- Slim profile
- Can be wall mounted
- Lighter and less bulky than rear-projection televisions
- Achieves better and accurate color reproduction than LCDs (68 billion (236) versus 16.7 million (224))
- Produces deep, true blacks allowing for superior contrast ratioContrast ratioThe contrast ratio is a property of a display system, defined as the ratio of the luminance of the brightest color to that of the darkest color that the system is capable of producing...
s (up to 1:1,000,000) - Far wider viewing angles than those of LCD (up to 178°), images do not suffer from degradation at high angles unlike LCD's
- Absence of motion blurMotion blurMotion blur is the apparent streaking of rapidly moving objects in a still image or a sequence of images such as a movie or animation. It results when the image being recorded changes during the recording of a single frame, either due to rapid movement or long exposure.- Photography :When a camera...
, because of very high refresh rateRefresh rateThe refresh rate is the number of times in a second that a display hardware draws the data...
s and faster response times (up to 0.001 milliseconds) make plasmas ideal for fast motion video (films or sports viewing)
Disadvantages:
- Susceptible to Screen burn-in and image retention (however, newer models have built-in technologies to prevent this such as pixel shiftingPixel shiftingPixel shifting is a method implemented by plasma TV Manufacturers that prevents static images from causing image retention and burn-ins. The entire video frame is moved periodically so there are effectively no static images...
) - Phosphors lose luminosity over time, resulting in gradual decline of absolute image brightness (newer models are less susceptible to this, having lifespans exceeding 60,000 hours, far longer than older CRTCathode ray tubeThe cathode ray tube is a vacuum tube containing an electron gun and a fluorescent screen used to view images. It has a means to accelerate and deflect the electron beam onto the fluorescent screen to create the images. The image may represent electrical waveforms , pictures , radar targets and...
technology) - Generally do not come in sizes smaller than 32 inches
- Susceptible to reflection glare in bright rooms
- High power consumption
- Heavier than LCDs due to the requirement of a glass screen to hold the gases
- Damage to the glass screen can be permanent and far more difficult to repair than an LCD
Front-projection television
Advantages:- Significantly cheaper than flat-panel counterparts
- Front-projection picture quality approaches that of movie theater
- Front-projection televisions take up very little space because a projector screen is extremely slim, and even a suitably prepared wall can be used
- Display size can be extremely large, typically limited by room height.
Disadvantages:
- Front-projection more difficult to set up because projector is separate and must be placed in front of the screen, typically on the ceiling
- Lamp may need to be replaced after heavy usage
- Image brightness is an issue, may require darkened room.
Rear-projection television
Advantages:- Significantly cheaper than flat-panel counterparts
- Projectors that are not phosphor-based (LCD/DLP) are not susceptible to burn-in
- Rear-projection is not subject to glare
Disadvantages:
- Rear-projection televisions are much bulkier than flat-panel televisions
- Lamp may need to be replaced after heavy usage
- Rear-projection has smaller viewing angles than those of flat-panel displays
Comparison of different types of rear-projection televisions
CRT projector
Advantages:- Achieves excellent black level and contrast ratio
- Achieves excellent color reproduction
- CRTs have generally very long lifetimes
- Greater viewing angles than those of LCDs
Disadvantages:
- Heavy and large, especially depth-wise
- If one CRT fails the other two should be replaced as well to maintain color and brightness balance
- Susceptible to burn-in because CRT is phosphor-based
- Needs to be 'converged' about every year
- Has focus problems
LCD projector
Advantages:- Smaller than CRT projectors
- LCD chip can be easily repaired or replaced
- Is not susceptible to burn-in
Disadvantages:
- The Screen-door effectScreen-door effectThe screen-door effect or fixed-pattern noise is a visual artifact of the projection technology used in digital projectors, where the fine lines separating the projector's pixels become visible in the projected image...
: Individual pixels may be visible on the large screen, giving the appearance that the viewer is looking through a screen door. - Possibility of defective pixelDefective pixelDefective pixels are pixels on a liquid crystal display that are not performing as expected. The ISO standard ISO 13406-2 distinguishes between three different types of defective pixels, while hardware companies tend to have further distinguishing types. Similar defects can also occur on CCD or...
s - Poor black levelBlack levelVideo black level is defined as the level of brightness at the darkest part of a visual image or the level of brightness at which no light is emitted from a screen, resulting in a pure black screen....
: Some light passes through even when liquid crystals completely untwist, so the best black color that can be achieved is a very dark gray, resulting in worse contrast ratios and detail in the image. Some newer models use an adjustable irisApertureIn optics, an aperture is a hole or an opening through which light travels. More specifically, the aperture of an optical system is the opening that determines the cone angle of a bundle of rays that come to a focus in the image plane. The aperture determines how collimated the admitted rays are,...
to help offset this. - Not as slim as DLP projection television
- Uses lamps for light, lamps may need to be replaced
- Fixed number of pixels, other resolutions need to be scaled to fit this
- Limited viewing angles
DLP projector
Advantages:- Slimmest of all types of projection televisions
- Achieves excellent black level and contrast ratio
- DMD chip can be easily repaired or replaced
- Is not susceptible to burn-in
- Better viewing angles than those of CRT projectors
- Image brightness only decreases due to the age of the lamp
- defective pixelDefective pixelDefective pixels are pixels on a liquid crystal display that are not performing as expected. The ISO standard ISO 13406-2 distinguishes between three different types of defective pixels, while hardware companies tend to have further distinguishing types. Similar defects can also occur on CCD or...
s are rare - Does not experience the screen-door effectScreen-door effectThe screen-door effect or fixed-pattern noise is a visual artifact of the projection technology used in digital projectors, where the fine lines separating the projector's pixels become visible in the projected image...
Disadvantages:
- Uses lamps for light, lamps need to be replaced on average once every year and a half to two years. Current models with LED lamps reduce or eliminate this. Estimated lifetime of LED lamps is over 100,000 hours.
- Fixed number of pixels, other resolutions need to be scaled to fit this. This is a limitation only when compared with CRT displays.
- The Rainbow Effect: This is an unwanted visual artifact that is described as flashes of colored light seen when the viewer looks across the display from one side to the other. This artifact is unique to single-chip DLP projectors. The Rainbow Effect is significant only in DLP displays that use a single white lamp with a "color wheel" that is synchronized with the display of red, green and blue components. LED illumination systems that use discrete red, green and blue LEDs in concert with the display of red, green and blue components at high frequency reduce, or altogether eliminate, the Rainbow effect.
See also
- Comparison of display technologiesComparison of display technologyThis is a comparison of various properties of different display technologies.- General characteristics :- Temporal characteristics :Different display technologies have vastly different temporal characteristics, leading to claimed perceptual differences for motion, flicker, etc.The figure shows a...
- Video wallVideo wallA video wall consists of multiple computer monitors, video projectors, or television sets tiled together contiguously or overlapped in order to form one large screen...
- LED TV
- Single source dataSingle source dataSingle-source data is the measurement of TV and other media/marketing exposure, and purchase behavior, over time for the same individual or household . This measurement is gauged through the collection of data components supplied by one or more parties overlapped through a single, integrated...
- TFT-LCDTFT LCDThin film transistor liquid crystal display is a variant of liquid crystal display which uses thin-film transistor technology to improve image quality . TFT LCD is one type of Active matrix LCD, though all LCD-screens are based on TFT active matrix addressing...
, a detailed discussion of LCD panels technology
External links
- "Plasma Display Panels." Plasmacoalition.org. Coalition for Plasma Science. 20 Mar 2007