If you’ve found this site by searching for Best LED TV or something similar, you’ve no doubt done your homework on the latest and greatest in television technology, the popular LED HDTV models currently being offered.

Although plasma screens dominated the television market for many years, that’s just not the current trend. There are some plasma televisions still being sold obviously, but their popularity is waning greatly. The individuals doing proper research before buying a new HDTV, are overwhelmingly opting to purchase an LED TV. Some prefer an LED LCD TV, others prefer an LED DLP HDTV model.

After Vizio (the second largest plasma supplier in the US) recently announced that they would no longer be manufacturing plasma screens, the handwriting seemed to be on the wall. LCD and DLP TV are the technologies of the future, and the LED versions of these technologies are the best HDTVs to be had.

Which LED TV is the the best LED TV though ? Well, there is really no single model that is the absolute best LED TV for every individual and installation requirement. There is however an extreme bias to those models being offered by Samsung. The Samsung LED HDTV models, whether it be a rear projection LED DLP HDTV or an LED LCD HDTV, offer incredible images. The lower power consumption realized when using LED (light emitting diode) technology, much better contrast ratios, better refresh rates, brighter images, and other improvements over the past generations of DLP and LCD television technology seem to be enough to make any decision a real no-brainer.

You’ve obviously seen and heard of the LED TV technology that everyone is so excited about. So, what is it exactly, and what does it have to do with all the DTV, HDTV, LCD, DLP, plasma and all of the other other acronyms and terms that are being used when talking about the state of modern television ?

Well, nothing has changed…much. Digital TV (DTV) is here to stay. That’s what all the recent hype was about in making sure that you either had a television with a digital tuner, was hooked-up to either a satellite or cable service, or had/have a converter box. It seems as though we all got through that milestone fairly easily. All of the broadcasters in the USA now transmit their television signals digitally, and we’re all either receiving the signal fine, or setting in front of a 20 year old television wondering what the heck is wrong with all of the TV stations.

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With 240Hz LCD TVs on the market now, the question is whether it’s worth the extra money to make that one of your shopping criteria.

Sure the manufacturers are going to have demonstrations and the numbers to suggest the real-world difference in 120Hz and 240Hz is extremely great. Sure the test patterns specifically designed to highlight these differences suggest that 240Hz is a “must have”, but in regular viewing

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The new LED DLP Rear Projection televisions have advanced in so many ways, but one great benefit is that the rainbow effect has been eliminated.

The rainbow effect is what you might expect, a displayed rainbow color pattern. This is best described as brief flashes of perceived red, blue, and green “shadows” observed most often when the projected content features high contrast areas of moving bright/white objects on a mostly dark/black background. The scrolling end credits of many movies are a common example, and also in animations where moving objects are surrounded by a thick black outline. Some people perceive these rainbow artifacts frequently, while others may never see them at all.. This was caused by the color wheel used in the DLP configuration. The color wheel was needed to color the light that was reflected off of the microscopic mirrors that produced the images in DLP.

The DLP system used in Samsung’s (our favorite)  new LED DLP TV sets no longer uses a color wheel, since the LED light sources are colored. There is a much longer lasting, cheaper to operate brighter, vibrant color system that has eliminated the rainbow effect.

Whether you choose a Samsung LED LCD TV, or an LED DLP TV, you’ll be getting the best in television technology.

If you haven’t yet seen the Samsung LED HDTV technology, prepare to be absolutely blown away!

Obviously HDTV is nothing new. Probably most people are familiar with plasma, LCD and DLP also when discussing the state of the art of television in the 21st. century. What is new however, and not just a catchy gimmick or passing fad, is LED technology in the latest HDTVs.

Anyone that’s ever looked at most any electronic device in the last few decades probably knows that LED is an acronym for Light Emitting Diode. It’s simply a semiconductor that puts out illumination when an electrical current is applied to it. In the past however, they were often used mainly as status indicators. The technology has grown by leaps and bounds however.

In a Samsung LED HDTV, the LED technology is not used as merely status indicators, it is actually used as the light source, whether it be in LCD or DLP (projection) televisions. HDTV has just gotten much better…much!

Why does this article only mention only the Samsung LED HDTV ? Simple, because Samsung is totally dominating the market, and this means leaving even Sony in it’s wake. Do a quick search on Amazon or any top electronics dealer’s website, and you’ll see the results for yourself.

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Where Did LED Technology Come From?
By Ben Anton

Light-emitting diodes (LEDs) were an accidental discovery at first. At the beginning of the 20th century, it was discovered that when electricity was applied to the semiconductor Silicon Carbide (SiC) it produced a light. This light was too dim to be of any use so the research was never distributed. This could have been the end for the LED, but it wasn’t content to die out.

Nearly 20 years later Russian and German scientists revisited the idea of light produced this way. The light was still of such poor luminance that the idea nearly died again. A report published in 1936, which helped to invent the term electroluminescence, revived the research for light from this source. The science of electroluminescence languished in obscurity for a while. It began to gain favor again in the 1950s when some British scientists started experimenting with it again. This led to the first infrared LED. From this technology came the first visible spectrum LED, in red, from Gallium Phosphide (GaP).

This was the start of the LED revolution. From that point each decade brought advances in the technology of light-emitting diodes. The use of different substrates brought brighter lights of different colors. The colors advanced from red to orange and on to pale green, then yellow and on to a brighter green. By the 1990s the use of Gallium Nitride helped usher in the era of blue LEDs. These blue lights became the basis for white light. The use of fluorescent phosphors helped change that blue light into high intensity white lights. Now LEDs can be found in almost every visible color of light.

This technology has led to additional uses for the LED as well. Due to their low light output they started out in indicator lights and display light applications only. The cost of materials was an issue at first and, therefore, they were used only in expensive laboratory and test equipment. They later began to be used in appliances, calculators and watches. The advent of additional colors increased their use in displays. They could be used in signs and digital display equipment.

The first LED flat panel television prototype was produced in 1977, by James P. Mitchell. This prototype was a red, monochromatic display. Later, in the 1990s, low-cost, efficient blue LEDs emerged moving this use along. Once a full spectrum of colors was realized in the late 1990s the flat panel LED television became a fully functional and popular option.

As the LED technology advanced and the luminescence increased, the uses for LEDs increased. LEDs began popping up in devices used to illuminate areas. Flashlights, landscape lighting, and other lighting sources became popular. Emergency lights began to use this technology. Traffic lights were replaced with LEDs. Interior lighting and headlights in vehicles became a common home for these lights, as well. As the cost of producing the lights decreased, and the availability of colors and brightness increased, the uses exploded.

From an accidental discovery to a common household name, the history of LEDs is a long one. The early discovery and limited uses of the light-emitting diode did not show much promise. Very few early researchers would probably have predicted the many, varied uses for this technology. The LED certainly earned its prominent spot in today’s society.

~Ben Anton, 2007

Ben Anton lives in Portland, OR and writes for DLK.
We invite you to read more about white LED light bulbs and fixtures available
at our quality wholesale LED products website.

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