dan9999
04-22-2009, 01:43 PM
HDTV Trivia - Did You Know?
HDTV.ca
Did you know that there is no green in your component video connection?
Component video is the only analog connection for HD video. It is actually an RGB signal, compacted, very similar to the RGB connection between your computer and your monitor. The three elements in a Component connection are Luminance (“Y”), which is the brightness of the image, or the black and white portion of your picture, Red (“R-Y” or “Pr” or “Cr”) and Blue (“B-Y” or “Pb” or “Cb”). The human eye perceives all colour as combinations of red, green and blue. It seems natural that the best way to break down a video signal is in the same way. Unlike a true RGB signal, like your computer monitor uses, there is no Green present in the signal, only Luminance, Blue, and Red. The presence of Green is inferred; your HD display knows how bright the image is (from the “Y” component), and since it knows about the blue and the red (Pb & Pr), it figures the rest must be green and fills it in. It’s done this way to reduce the bandwidth of the signal, making the picture elements easier to process, and reduces the connections between component devices from four to three. RGB connections typically use separate channels for horizontal (H) and Vertical synch information, where component connections contain this information in the Y channel. This is known as “synch on green”. Unfortunately for the consumer, this means that computer RGB and Component connections are not interchangeable, unless your monitor specifically supports it.
Component video is further divided into two types – Y-PB-PR and Y-CB-CR, which are largely interchangeable. Y-PB-PR is an anaolog signal and Y-CB-CR is a digital signal. Most component connections support both types.
Did you know that there several resolutions for Plasma displays?
High definition plasmas come in several resolutions – 1024x768, 1366x768 and 1920x1080. Because they’re fixed resolution displays, meaning that the pixel count remains the same, video signals are always processed into the physical resolution of the display.
Did you know that NTSC analog video has remained essentially unchanged for almost 50 years?
NTSC is a set of standards governing transmission and display of video signals that has been in place since 1941. A separate colour signal was added for the “Tournament of Roses Parade”, broadcast on January 1, 1954. TV in North America will have remained unchanged for 52 years by the time we switch to DTV in 2006.
Did you know that the quality of 1080 HDTV is comparable to that of 35mm film?
The highest standard of HDTV, 1080i/p (1920x1080) is virtually indistinguishable from 35mm film stock, which is widely used for big budget action films and TV series alike. Viewed side by side, the two are virtually impossible to tell apart. 1080 HDTV has over two million pixels (2,073,600 pixels)! That’s almost seven times as many pixels as NTSC video!
Did you know that “Contrast Ratios” are very often a misleading statistic?
Most manufacturers of plasma and LCD displays advertise a Contrast Ratio, a number indicating the difference between the brightest area (Peak White) divided by the darkest area at any given moment. Contrast ratios can be enhanced by improving the black levels, the darker areas, more easily than the brighter areas. Unfortunately for the consumer, there are no standardized tests for contrast ratios. For instance, Panasonic advertises contrast ratios of 3000:1 or 4000:1 for their plasma displays. They artificially lower the black levels by a factor of 12 – anything below 12 IREs is lowered to one IRE. IREs are a unit of brightness, or luminance. 100 IREs equates to peak white, while 1 IRE equates to black . While this does extend contrast ratios, it can do so at the expense of detail in the areas being processed so heavily. Contrast can be further “improved” by testing on display panels that have had all of the optical coatings, like reflective and anti-glare filters found in the production versions, removed. Ambient light, either natural or artificial, can also affect contrast ratios.
Did you know that given average viewing habits, your plasma display can last for decades?
The life expectancy of you plasma is anywhere from 30,000 – 50,000 hours to half-life. That means that watching your plasma three hours a day, every day, gives you about 13,333 days, or about 37 years, to half-life! Half-life is that point in a plasma’s lifespan where the picture has degraded to 50% of its original brightness and colour.
Do you know the difference between “Commercial” and “Residential” Plasma Displays?
In spite of how they are marketed, most plasma displays are certified for use in your home (FCC Class B – see below). The chief difference between Commercial and Residential plasma displays is how they’re packaged; commercial units are most often just the display panel, while residential units often come with an analog NTSC tuner / media receiver, and side mounted speakers. This has its disadvantages. Firstly, the residential units cost more: you’re paying for the extras you might not need or want; plasma speakers are rated from 8 to 12 watts per channel, and the NTSC tuner is a soon to be an outdated, obsolete bit of electronics. The picture elements of both versions are identical. Generally speaking, you’re better off buying the “Commercial” model and a 500 watt home theater system, which will probably cost you less. Resolution from an NTSC tuner is about 250 lines (technically more, but you only see about 250 of the 425 lines available), but you will be able to access local programming easily.
The FCC has two broad classifications for electronics. FCC Class A indicates an “industrial” model, while FCC Class B denotes a “residential” model. The difference lies in the shielding. The assumption is that home electronics will be in close proximity to other devices, like radios, TV tuners, etc, and so require better shielding from interference.
Do you know what the plasma in your plasma display is made of?
The gas inside your plasma display is made up of a mixture of three different gasses, Neon, Xenon, and Helium. The gas lights up when a current is applied to the pocket, or pixel, containing the gas mixture. These gases are inert, and harmless if released. Helium is the second most common element in the universe, and is very handy for balloons and funny voices. Xenon is present in our atmosphere, so we draw it in with every breath. Neon is a gas we’re all familiar with; no surprise it’s used in a plasma display. Manufacturers use various combinations of these gases in their plasmas. Combined with cell, or pixel, geometry, the gas mixture is the most important element in determining the brightness and colour reproduction of your plasma displays.
Did you know that Plasma screens can never be “re-charged”?
Plasma display panels are composed of millions of Xenon gas pockets etched into a glass substrate. So called “ribs” within the glass substrate separate the pixels further, then the whole thing is sandwiched with another layer of glass, making “re-gassing” impossible.
Did you know that plasma displays are prone to “burn in”?
Plasma displays, like early CRT televisions, are prone to burn in. Burn in is an afterimage that has been “burned” into your plasma display. Burn in is permanent, and is not repairable. Prolonged display of static images, like network IDs, stock tickers, scores on video games, that sort of thing, contribute to this effect. As a result, most major plasma display manufacturers, like Pioneer and NEC, build in a variety of features to reduce the possibility and severity of burn in. These features include orbiters, which will “wave” the picture slightly, screen wipers, which wipe a white bar across the screen when activated, the white flash utility, where the screen will flash a 100 IRE white, “resetting” the pixels. As well, you can reduce the potential for burn in by never setting the picture so it’s over-bright. In addition, you can play a dynamic, moving image after prolonged display of static images (for example, watch a DVD after playing a video game.) The bottom line is this: treat your plasma like a fine automobile. Some manufacturers, like Panasonic, have claimed that their displays won’t burn. Be cautious - Treat it well, take care of it, and it will last for decades.
Did you know that the world’s largest plasma is a Panasonic?
The world largest single screen plasma display panel is the Panasonic TH-103PF9UK. It has an active screen area of 89.3” by 50.3”, which translates to 31.19 square feet! It weighs 474 pounds and costs up to $70,000 before installation! The display boasts a resolution of 1920x1080P and a contrast ratio of 4000:1. The unit is so big it requires special modifications to your wall to hang it. Even getting the display to you can be a bit of a challenge, given the crate size is 8 feet 8 inches by 5 feet 8 inches by 2 feet 4 inches, and needs to be shipped on a flat bed truck.
Cont'd on Next Post...
HDTV.ca
Did you know that there is no green in your component video connection?
Component video is the only analog connection for HD video. It is actually an RGB signal, compacted, very similar to the RGB connection between your computer and your monitor. The three elements in a Component connection are Luminance (“Y”), which is the brightness of the image, or the black and white portion of your picture, Red (“R-Y” or “Pr” or “Cr”) and Blue (“B-Y” or “Pb” or “Cb”). The human eye perceives all colour as combinations of red, green and blue. It seems natural that the best way to break down a video signal is in the same way. Unlike a true RGB signal, like your computer monitor uses, there is no Green present in the signal, only Luminance, Blue, and Red. The presence of Green is inferred; your HD display knows how bright the image is (from the “Y” component), and since it knows about the blue and the red (Pb & Pr), it figures the rest must be green and fills it in. It’s done this way to reduce the bandwidth of the signal, making the picture elements easier to process, and reduces the connections between component devices from four to three. RGB connections typically use separate channels for horizontal (H) and Vertical synch information, where component connections contain this information in the Y channel. This is known as “synch on green”. Unfortunately for the consumer, this means that computer RGB and Component connections are not interchangeable, unless your monitor specifically supports it.
Component video is further divided into two types – Y-PB-PR and Y-CB-CR, which are largely interchangeable. Y-PB-PR is an anaolog signal and Y-CB-CR is a digital signal. Most component connections support both types.
Did you know that there several resolutions for Plasma displays?
High definition plasmas come in several resolutions – 1024x768, 1366x768 and 1920x1080. Because they’re fixed resolution displays, meaning that the pixel count remains the same, video signals are always processed into the physical resolution of the display.
Did you know that NTSC analog video has remained essentially unchanged for almost 50 years?
NTSC is a set of standards governing transmission and display of video signals that has been in place since 1941. A separate colour signal was added for the “Tournament of Roses Parade”, broadcast on January 1, 1954. TV in North America will have remained unchanged for 52 years by the time we switch to DTV in 2006.
Did you know that the quality of 1080 HDTV is comparable to that of 35mm film?
The highest standard of HDTV, 1080i/p (1920x1080) is virtually indistinguishable from 35mm film stock, which is widely used for big budget action films and TV series alike. Viewed side by side, the two are virtually impossible to tell apart. 1080 HDTV has over two million pixels (2,073,600 pixels)! That’s almost seven times as many pixels as NTSC video!
Did you know that “Contrast Ratios” are very often a misleading statistic?
Most manufacturers of plasma and LCD displays advertise a Contrast Ratio, a number indicating the difference between the brightest area (Peak White) divided by the darkest area at any given moment. Contrast ratios can be enhanced by improving the black levels, the darker areas, more easily than the brighter areas. Unfortunately for the consumer, there are no standardized tests for contrast ratios. For instance, Panasonic advertises contrast ratios of 3000:1 or 4000:1 for their plasma displays. They artificially lower the black levels by a factor of 12 – anything below 12 IREs is lowered to one IRE. IREs are a unit of brightness, or luminance. 100 IREs equates to peak white, while 1 IRE equates to black . While this does extend contrast ratios, it can do so at the expense of detail in the areas being processed so heavily. Contrast can be further “improved” by testing on display panels that have had all of the optical coatings, like reflective and anti-glare filters found in the production versions, removed. Ambient light, either natural or artificial, can also affect contrast ratios.
Did you know that given average viewing habits, your plasma display can last for decades?
The life expectancy of you plasma is anywhere from 30,000 – 50,000 hours to half-life. That means that watching your plasma three hours a day, every day, gives you about 13,333 days, or about 37 years, to half-life! Half-life is that point in a plasma’s lifespan where the picture has degraded to 50% of its original brightness and colour.
Do you know the difference between “Commercial” and “Residential” Plasma Displays?
In spite of how they are marketed, most plasma displays are certified for use in your home (FCC Class B – see below). The chief difference between Commercial and Residential plasma displays is how they’re packaged; commercial units are most often just the display panel, while residential units often come with an analog NTSC tuner / media receiver, and side mounted speakers. This has its disadvantages. Firstly, the residential units cost more: you’re paying for the extras you might not need or want; plasma speakers are rated from 8 to 12 watts per channel, and the NTSC tuner is a soon to be an outdated, obsolete bit of electronics. The picture elements of both versions are identical. Generally speaking, you’re better off buying the “Commercial” model and a 500 watt home theater system, which will probably cost you less. Resolution from an NTSC tuner is about 250 lines (technically more, but you only see about 250 of the 425 lines available), but you will be able to access local programming easily.
The FCC has two broad classifications for electronics. FCC Class A indicates an “industrial” model, while FCC Class B denotes a “residential” model. The difference lies in the shielding. The assumption is that home electronics will be in close proximity to other devices, like radios, TV tuners, etc, and so require better shielding from interference.
Do you know what the plasma in your plasma display is made of?
The gas inside your plasma display is made up of a mixture of three different gasses, Neon, Xenon, and Helium. The gas lights up when a current is applied to the pocket, or pixel, containing the gas mixture. These gases are inert, and harmless if released. Helium is the second most common element in the universe, and is very handy for balloons and funny voices. Xenon is present in our atmosphere, so we draw it in with every breath. Neon is a gas we’re all familiar with; no surprise it’s used in a plasma display. Manufacturers use various combinations of these gases in their plasmas. Combined with cell, or pixel, geometry, the gas mixture is the most important element in determining the brightness and colour reproduction of your plasma displays.
Did you know that Plasma screens can never be “re-charged”?
Plasma display panels are composed of millions of Xenon gas pockets etched into a glass substrate. So called “ribs” within the glass substrate separate the pixels further, then the whole thing is sandwiched with another layer of glass, making “re-gassing” impossible.
Did you know that plasma displays are prone to “burn in”?
Plasma displays, like early CRT televisions, are prone to burn in. Burn in is an afterimage that has been “burned” into your plasma display. Burn in is permanent, and is not repairable. Prolonged display of static images, like network IDs, stock tickers, scores on video games, that sort of thing, contribute to this effect. As a result, most major plasma display manufacturers, like Pioneer and NEC, build in a variety of features to reduce the possibility and severity of burn in. These features include orbiters, which will “wave” the picture slightly, screen wipers, which wipe a white bar across the screen when activated, the white flash utility, where the screen will flash a 100 IRE white, “resetting” the pixels. As well, you can reduce the potential for burn in by never setting the picture so it’s over-bright. In addition, you can play a dynamic, moving image after prolonged display of static images (for example, watch a DVD after playing a video game.) The bottom line is this: treat your plasma like a fine automobile. Some manufacturers, like Panasonic, have claimed that their displays won’t burn. Be cautious - Treat it well, take care of it, and it will last for decades.
Did you know that the world’s largest plasma is a Panasonic?
The world largest single screen plasma display panel is the Panasonic TH-103PF9UK. It has an active screen area of 89.3” by 50.3”, which translates to 31.19 square feet! It weighs 474 pounds and costs up to $70,000 before installation! The display boasts a resolution of 1920x1080P and a contrast ratio of 4000:1. The unit is so big it requires special modifications to your wall to hang it. Even getting the display to you can be a bit of a challenge, given the crate size is 8 feet 8 inches by 5 feet 8 inches by 2 feet 4 inches, and needs to be shipped on a flat bed truck.
Cont'd on Next Post...