HDTV ? The High Resolution Television
The expansion of hdtv is High-definition television. The hdtv means television signals broadcast with a higher resolution than traditional formats like NTSC, S?CAM, PAL. The hdtv is broadcasted digitally, except for early analog formats in Europe and Japan.
Historically, the term high-definition television was also used to refer to television standards developed in the 1930s to replace the early experimental systems, although, not so long afterwards, Philo T. Farnsworth, John Logie Baird and Vladimir Zworkin had each developed competing TV systems but resolution was not the issue that separated their substantially different technologies.
It was patent interference lawsuits and deployment issues given the tumultuous financial climate of the late 20's and 30's. Most patents were expiring by the end of WW2 leaving the market wide open and no worldwide standard for television agreed upon. The world used analog PAL, NTSC, SECAM and other standards for over half a century.
The terms HD ready and HD compatible are being used around the industrial world for marketing purposes. They indicate that a TV or display is able to accept video over an HDMI connection, using a new connector design, the main purpose of which seems to be to ensure that digital video is only passed over an interface which, by agreement, incorporates copyright protection. Even HD-ready sets do not necessarily have enough pixels to display video to the 1080-line (1920x1080) or 720-line (1280x720) HD standards in full resolution without interpolation, and HD-compatible sets are often just standard-definition sets with an HDMI input.
This is a confusing use of the terms HD and hdtv.
MPEG-2 is most commonly used as the compression codec for digital hdtv broadcasts. The hdtv is capable of "theater quality" audio because it uses the Dolby Digital (AC-3) format to support "5.1" surround sound.
Japan has the earliest working hdtv system still in use, with design efforts going back to 1979. Japan began broadcasting analog hdtv signals in the early 1990s using an interlaced resolution of 1035 lines (1035i). The Japanese MUSE (Multiple sub-nyquist sampling Encoding) system, developed by NHK Science and Technical Research Laboratories (STRL) in the 1980s, employed filtering tricks to reduce the original source signal to decrease bandwidth utilization.
Japan is forerunner of hdtv in the world. Japan terrestrial broadcast of HD via ISDB-T started in December 2003.
The hdtv transmission in Europe started in 2004.
Euro1080 is the pioneer in hdtv transmission in Europe. Australia started HD broadcasting in January 2001.
CHUM Limited's Citytv in Toronto was the first hdtv broadcaster in Canada and CBC (Canadian Broadcasting Corporation) officially launched hdtv programming on March 5, 2005.
Mexican television company Televisa experimented hdtv broadcasts in the early 1990s, in collaboration with Japan's NHK.
The hdtv specifications are defined by the ATSC in the United States. An hdtv-compatible TV usually uses a 16:9 aspect ratio display with an integrated ATSC tuner. Lower resolution sources like regular DVDs may be upscaled to the native resolution of the TV.
The hdtv services were made available in the Republic of Korea in 2005 and Brazil is expected to go for it in 2006.
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Why You Should Buy A Plasma Television
The plasma television has many advantages and benefits for you and your entertainment needs and wants. The plasma tv gives you incredible picture quality, it has a sleek design, and it is HDTV compatible. Plasmas provide sharper images and more vibrant colors. You can display both HDTV and DTV signals as well as computer signals such as XGA, SVGA, and VGA. Plasmas Superior to Both CRT's and LCD Plasma screen televisions provide sharp, clear pictures, plus no image distortion.
CRTs can't match this. Plasma tvs have brighter pictures and provide a better viewing angle at 160 degrees, than LCDs. For the best technology in display panels, choose plasma technology. High Resolution Plasma display televisions have higher resolution than most standard TV sets. They are able to display full HDTV and DTV signals as well as XGA, SVGA, and VGA signals from a computer.
If a plasma has a resolution of 1024x1024 it can display images from 1080i and 720i HDTV resolution, plus 480i and...
Why You Should Buy A Plasma Television
Hdtv > Why You Should Buy A Plasma Television
Blu-ray: A Primer
Blu-ray is an optical disc format which is set to rival HD-DVD (http://www.the-hdtv-tuner.com/high-definition-dvd.html) in the race to be the de-facto standard storage medium for HDTV. The HD-DVD vs Blu-ray battle resembles that between Betamax and VHS and DVD+RW and DVD-RW.Currently, the major Hollywood film studios are split evenly in their support fro Blu-ray and HD-DVD, but most of the electronics industry is currently in the Blu-ray camp. The key difference between Blu-ray disc players and recorders and current optical disc technology is that Blu-ray, as its name suggests, uses a blue-violet laser to read and write data rather than a red one. Blue light has a shorter wavelength than red light, and according to the Blu-ray Disc Association (BDA), which is made up of, amongst others, Sony, Philips, Panasonic, and Pioneer, this means that the laser spot can be focussed with greater precision.Blu-ray discs...
Blu-ray: A Primer
Hdtv > Blu-ray: A Primer