Saturday, January 7, 2012

Closer Look: Mitsubishi 164 Series LED LCD TV Overview by OneCall

Get more product details here: www.onecall.com Want the ultimate, all-in-one, no hassle, easy to set up HDTV? We have it for you: the Mitsubishi 164 Series LCD HDTV! Coming in 40 inch, 46 inch, and 55 inch sizes, the 164 series is a full high-definition, 1080p resolution set. It comes with excellent TRUE 128hz and a built-in 16-speaker Dolby Digital Surround Sound system. No annoying wires for audio, either. The Mitsubishi 164 Series LCD HDTV also comes with a built-in wireless connection, great for all sorts of online streaming options. The Edge enhance picture system gives you optimal, smooth on-screen images. And all of this comes in a HDTV set that is only 2.9 inches thick!

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Wednesday, December 28, 2011

Mitsubishi WD-82738 82-Inch 3D DLP HDTV

!9#:Mitsubishi WD-82738 82-Inch 3D DLP HDTV

Brand : Mitsubishi
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Price : $1,769.99
Post Date : Dec 28, 2011 22:16:37
Usually ships in 1-2 business days



Mitsubishi WD-82738 3D DLP Home Cinema TV offers a larger than life, intensely vivid 2D, and fully immersive 3D viewing experience. In huge screen size of 73", Mitsubishi 3D DLP Home Cinema TVs deliver incredible picture performance at an exceptional value, and completely define the large screen 3D entertainment category.

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Monday, November 21, 2011

3-D HDTV With DLP

!9# 3-D HDTV With DLP

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3D is an exciting new feature for the home theater market. For some dramatic movies or soap operas, 3D might seem out of place. But for sports, action movies, etc. 3D makes as much difference as color vs. black and white. And the new 3D technology is superior to the 3D system that has been used in theaters.

The commercial successes of recent 3D films like "Beowulf", "Meet the Robinsons", and "Journey to the Center of the Earth", is sparking interest with the movie studios to produce more 3D content material. Disney, Universal, Philips, Samsung, Sony, Thomson and IMAX are currently exploring the potential 3D HDTV market. Disney said it would begin making all its computer-animated films in 3D. According to Dreamworks CEO Jeffrey Katzenberg, all of the major studios have 3D projects under way. There will be over 2,500 theatre screens equipped with the Digital 3D technology by the end of 2009. All of this content will be available to the home theater market. The Big Question: will the 3D market be pervasive enough for major networks, especially the sports subset, to broadcast in 3D?

3D Distribution

It will likely be the satellite TV companies like DirecTV and Dish Network that distribute 3D versions of HDTV programming first. 3D movies should take about the same bandwidth as other 120 fps (frame per second) high def movies. The satellite companies have enough broadcast bandwidth to support niche markets (the cable companies do not), and for now, 3D HDTV is a niche market.

"Satellite's going to be constrained not so much by how many channels they can carry than by how many they can get," said Bob Scherman, Satellite Business News.

By 2010, it is projected that 60% of TV receivers in the United States will use a satellite signal, up from 15% in 2002.

3D HDTV Home Theater Systems

Because of the high frame rate for 3D, and the need for synchronization, LCD screens are generally incompatible with advanced 3D. However, prototypes by Phillips have been demonstrated at upwards of ,000, and this technology does not require glasses. The Phillips technology is optically very complicated. Unlike electronics, it cannot be assumed that the price will come down.

By the end of this year (2008), more than one million 3D ready DLP HDTVs, manufactured by Mitsubishi and Samsung, will have been sold in the U.S. The technology functions by supplying a 60 Hz signal to each eye (equivalent to 120 Hz total). These sets can display standard HDTV, and are compatible with 3D material. Some source material is available for download, and Blu-Ray 3D discs are becoming available. "Hannah Montana and Miley Cyrus: Best of Both Worlds Concert" was the first 3D Blu-ray Disc.

The Glasses: Field Sequential 3D

Special glasses are used with the DLP 3D system. The system is called "Field Sequential 3D" or HQFS (High Quality Field Sequential). This technology uses electronic shutter glasses instead of red-blue lenses we are used to at the movies. The effect is definitely superior. Our eyes see a slightly offset view of a scene. The two slightly different views are combined by the brain to result in our ability to see in 3D. Field Sequential 3D simulates this experience with shutter glasses. The shutter is not mechanical, but instead an LCD filter, that blocks vision when the opposite eye's view is shown.

A HDTV set with 120 Hz refresh rate is recommended for 3D viewing. The 3D system uses half of the total information for each eye. If we use a TV with a total of 60 Hz refresh rate, it would supply only 30 Hz to each eye, and that refresh rate would be visible (flicker).

When designing a 3D system with previous 3D techniques, we have the choice of either sending two equal bandwidth signals with full information, effectively doubling the signal bandwidth, or sending the signal such that either the horizontal or vertical resolution is halved, one half for each eye. Doubling the bandwidth would be a problem since the HDTV signal bandwidth capacity is already at a premium. Using the same bandwidth as non-3D material means that we can utilize the technology with current HDMI or DVI interfaces.

The alternative to cut resolution is unattractive, since we have worked to so hard to increase our system to high definition, we don't want to compromise. By using alternate frames for each eye, we see a high definition signal without flicker.

Two sets of wireless shutter glasses, with a control transmitter (InfraRed (IR), the same technology as the TV's remote control) cost about 0.

"Hang-Ups" Holding up DLP

Many consumers have a fascination with the idea of hanging their new big screen HDTV on the wall, like a painting. It's worth noting that most LCD and Plasma big screen TVs never actually get mounted on the wall. It is a significant challenge to mount something that weighs 60-150 pounds on the wall, and once installed, it's a continuing challenge for maintenance (for example, a 50 inch Pioneer PDP-5070HD weighs 128 pounds).

According to the NPD Group, only 13 percent of current LCD TV owners and 25 percent of plasma TV owners have their set mounted on the wall.

DLP is very popular among those who want larger high picture quality screens at affordable prices. For the money, DLP easily provides the highest quality-size value. An LCD of the same size and price will not have the picture quality of a DLP. DLP is also available in larger screen sizes then LCD televisions.

However, a DLP rear projection TV is a few inches thicker than an LCD or Plasma screen. LCD screens are usually 7-10 inches thick; DLP sets are usually 12-17 inches thick. Because of the fascination with mounting their sets on the wall, this difference of a few inches becomes the deciding factor for many consumers' purchase decisions.

Texas Instruments, who manufactures the DLP chips in a foundry in South Korea, sees renewed potential for the technology, which uses tiny mirrors on a semiconductor. The new LED Light Engine call "Phlatlight" (manufactured by Luminus) replaces the arc lamp and color wheel design of previous DLP HDTVs. Samsung has had their own proprietary LED lamp system for a couple of years. The LED Light Engine will need to be replaced infrequently (unlike the cold-cathode fluorescent lamps that had to be replaced every few years).

DLP HDTVs with an LED engine are more energy efficient than comparably sized flat panel displays, and the lack of a moving color wheel in the design means they perform with less noise. The DLP chip is faster than any other HDTV technology, with the mirrors switching on and off more than 15,000 times per second to deliver a picture without blur for fast moving images such as sports.

DLP HDTV sets are a very smart choice for most people, but be selective. Many of the HDTV sets in stores still do not have important technology, such as LED backlights.

The compatibility of the TV for 3D can be verified by looking for an input on the back of unit, marked "3D Ready".

Home Theater Personal Computer (HTPC)

An important trend in the home theater is the integration of the personal computer (PC) with the home theater. Integrating a PC into your home entertainment center has many advantages in addition to enabling 3D video. Downloading movies is one of the advantages. The HTPC should have a graphics card with a DVI connector (Digital Video Interface). Both XP and Vista will support Microsoft's product for the home theater.

HDTV and 3D video is computation intensive, meaning a high-performance computer. For 720p videos, a dual core microprocessor is needed; 1080p or 1080i videos require a quad core microprocessor for smooth playback. Video files are very large (!), so the larger the hard-drive, the better.

DirectX 9 graphics drivers (software) need to be installed, if they are not already present. To find your current version, Click "START" and then "RUN" from your Windows desktop. Type "dxdiag" in the "Run" box.

Software is available from several different vendors; "StereoPlayer" (Version 1.3.4) from 3DTV.at is available. Purchase of StereoPlayer is about . While you are at 3DTV.AT also download the GPL MPEG-1/2 Decoder. Alternatives to Stereoplayer include "Dynamic Digital Depth" (ddd.com), "Stereoscopic Player" and "Tridef Visualizer".

Summary

3D technology has become a major force in Hollywood. It is probable that this trend will repeat in the home theater. CRT and DLP work best with 3D technology, though plasma systems are also available. DLP offers the better value for big screens using HDTV, not just 3D HDTV.


3-D HDTV With DLP

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Tuesday, November 15, 2011

Home Theater Projector Packages

!9# Home Theater Projector Packages

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People are growing less enamored of going to the movies, dealing with loud crowds and paying high prices for refreshments. This can be eliminated with the help of a home theater. With home theaters gaining popularity as a viable option for domestic entertainment, standing in long lines is now a nightmare of the past. The high cost of tickets for entry into theaters, along with all related expenses, can be eliminated with the help of a home theater system. When installed in the home, viewing movies with family and friends can be fun. It's a thrill to watch a movie in your own home.

Another crucial aspect of a home theater system is the superior image quality generated by the theater system. Home theater systems have revolutionized the concept of modern theater. They have brought movie halls right into the home. It is an astounding experience that most people are willing to undergo over and over again.

There are numerous home theater packages available to meet individual requirements. The packages are convenient options for those who are concerned with all parts of the video in a home theater system. A diverse range of home theater packages is available in the market, and customers can choose according to their needs.

Here are some packages: Eiki EIP-1000T DLP Home Theater Projector; Da-Lite Model B HDTV Format High Contrast Screen - 106"" Diagonal; Ceiling Mount kit for Projector; and Oculus Home Theater Wiring Solution.

Another package in great demand includes an InFocus ScreenPlay 5000 DLP Home Theater Projector, Da-Lite Deluxe Model B HDTV Format High Contrast Screen - 106"" Diagonal, Ceiling Mount kit for Projector and Oculus Home Theater Wiring Solution.

One of the other popular packages includes a Mitsubishi HC3000U DLP Home Theater Projector, Da-Lite Perm-Wall HDTV Format High Contrast Screen - 110"" Diagonal, Ceiling Mount kit for Projector and the Oculus Home Theater Wiring Solution.


Home Theater Projector Packages

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Thursday, October 20, 2011

The Rapid Pace of Evolution in Consumer Electronics

!9# The Rapid Pace of Evolution in Consumer Electronics

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The evolution of consumer electronics, high definition displays, digital broadcasts, displays and media is happening at an increasingly rapid pace. Advancements in technology are occurring much faster than before, reducing the time to deliver new technologies to market at an exponential rate. The algorithm for designing and delivering new technology is nearly a fifty percent reduction in time with every significant breakthrough. With such a rapid race for invention the simultaneous introduction of diverse technologies is as inevitable as price erosion and shortened life cycles for what is considered "new" in consumer electronics.

A brief history of Television and the advancement of Display Devices underscores the incredibly increasing pace of developing technology.

In 1876 Eugene Goldstein coined the term "Cathode Ray" to describe light emitted when an electric current is forced through a vacuum tube. Fifty years later in 1928, GE introduced the Octagon, a television with a spinning disc and a neon lamp that created a reddish orange picture that was half the size of a business card. By 1948, twenty years later, the demand for black & white television began a transformation in communications and entertainment. By 1949, several familiar brand names fought for a share of the booming market. These brands included familiar names like Admiral, Emerson, Motorola, Philco, Raytheon, RCA, and Zenith. The market was also saturated with brands like Crosley, Du Mont, Farnsworth, Hallicrafters, Sparton and Tele-Tone. In 1951 CBS broadcasted a one hour Ed Sullivan show in color, but there were only two dozen CBS television sets that could process the color broadcast. In 1954, RCA brought the first color television to market, but only 1,000 units were sold to the public that year. In 1956, Time Magazine called color TV the "most resounding industrial flop of 1956".

The Plasma Display Panel was invented at the University of Illinois in 1964 by Donald H Bliter, H Gene Slottow and student Robert Wilson. The original monochrome displays were popular in the early 1970's because they did not require memory or circuitry to refresh the images. By 1983, IBM introduced a 19 inch monochrome display that was able to show four virtual sessions simultaneously. By 1997, Pioneer started selling the first color Plasma televisions to the public. Screen sizes increased to 22 inches by 1992, and in 2006 Matsushita unveiled the largest Plasma video display of 103 inches at the Consumer Electronics Show (CES) in Las Vegas, Nevada.

DLP was developed at Texas Instruments in 1987 by Dr. Larry Hornbeck. The image is created by selective reflection of colored beams of light on a Digital Micromirror Device (DMD Chip). Each mirror represents one pixel on the projected image. The number of pixels represents the resolution. For example, 1920 x 1080 resolution refers to a grid of individual dots of light that are 1920 wide x 1080 high, created from the beam of light reflected off of the same number of tiny mirrors on chip that is smaller than a postage stamp. Concentrated light from a bright Mercury Arc Lamp is beamed through a small rotating color wheel of red, green, blue and sometimes white. The light passing through the color wheel is reflected on the tiny mirrors act independently to point the colored light at or away from the pixel target. The colors perceived by the human eye are a blending of combinations of the red, green and blue reflections in each pixel, and the combination of pixels create the total image. This technology was widely used in Digital Projectors and gradually became a competing technology to Cathode Ray Tube projection television sets, at least until consumers discovered the cost of replacing the high intensity projector lamps.

In 1904 Otto Lehman published a work on Liquid Crystals. By 1911, Charles Mauguin described the structures and properties of liquid crystals. In 1926, Marconi Wireless Telegraph company patented the first practical application of the technology. It was not until 1968 that George Heilmeier and a group at RCA introduced the first operational LCD Display. In December 1970, M. Schadt and W. Helfrich of the Central Research Laboratories of Hoffman-LaRoche in Switzerland filed a patent for the twisted nematic field effect in liquid crystals, and licenses the invention to the Japanese electronics industry for digital quartz wrist watches. By 2004. 40 inch to 45 inch LCD Televisions became widely available on the market, and Sharp introduced a 65 inch display. By March 2005, Samsung introduced an 82 inch LCD panel. Then in August 2006, LG Philips unveiled a 100 inch LCD display. At the Consumer Electronics Show (CES) in Las Vegas, Nevada in January 2007, Sharp once again claimed the top spot for size as they introduced the 108 inch LCD panel under the brand name AQUOS. From tiny liquid crystals to the battle for supremacy and 108" displays, the demand for bigger size and sharper contrast in high definition video has proved once again that Size Matters.

By 2006 there have been more than 220 manufacturers of television sets, and the list is growing just as the types of technology for displays is expanding. Other display technologies include Vacuum Flourescent Display (VFD), Light Emitting Diode (LED), Field Emission Display (FED), not to be confused with K-FED, and Liquid Crystal on Silicon (SED). As the ability to generate and provide high definition broadcast on demand continues to develop, the demand for improved quality and larger displays will continue to increase proportionally. The technology to watch for the next significant leap in high definition and quality image reproduction will be the Surface Conduction Electronic Emitter Display (SED).

So where will the high definition images come from? This pace of technology and battle for formats is racing even faster than the development of the display devices.

Ampex introduced the first commercial Video Cassette Recorder in 1956, with a price tag of US,000. The worlds first Video Cassette Recorder for home use was introduced by Philips in 1972. By 1975, SONY introduced Betamax. The first VHS VCR arrived to market in 1977, JVC's HR-3300, creating a format war that raged for market share during the 19080's. By the 1990's the battle for dominance between VHS and Beta was replaced by a new battle between the MultiMedia Compact Disc from SONY and Philips, versus the Super Density Disc supported by Time Warner, Matsushita, Hitachi, Mitsubishi, Pioneer, Toshiba and Thomson. Amazingly enough, it was Lou Gerstner, president of IBM, who stepped forward and acted as matchmaker to convince the rival camps to collaborate and combine the best of both technologies into a single standard. The result of which became the DVD Consortium, later became known as the DVD Forum. The competing technologies collaborated on standards for manufacturing DVD products with common format until the battle for supremacy was revived in 2006 between HD DVD and Blu-Ray high definition video.

It took 20 years to migrate from a ,000 commercial device to a Video Cassette Recorder for the home. It was almost a 20 year battle in the format war between VHS and Beta, until rival camps under the guiding hand of Lou Gerstner collaborated on a common DVD format. The common DVD format lasted for a mere ten years until the competing technologies once again took the field of battle to claim dominance in the high definition video market, as HD DVD and Blu-Ray fight for supremacy, movie titles, profit and the bragging rights to define the next standard in the evolution of video. At this pace of technology evolution, advancement occurs twice as fast or in half the time of the proceeding era. At this rate we can anticipate the announcement of the next significant advancement in technology and another format within the next five years. Will the next format combine the best technologies of HD DVD and Blu-Ray? Will the next step in evolution be based on utilization of more colors from the spectrum to create even greater definition? Will the format war for storage medium like VHS tapes and Blu-Ray discs become obsolete as the new medium transforms to wireless video streaming on demand? One thing is for sure, it will not take long to find out. Hold on to your VHS movies, compact discs and DVD's, as these will be collector's items and museum pieces before a child born today will graduate from college.

Are you concerned about having the latest technology when you make your next purchase in consumer electronics? Are you worried about selecting the right format, so your library of movies and collection of media will last longer than your pile of LP records and eight track tapes? Choose a display that supports Digital High Definition, learn about the types of INPUTS for your display device or television, and then pick the one that fits your budget. The types of INPUT and connections are important for being able to take advantage of the best display possible from your television or display device. As for recorded media, take your chances on the media that has the most selection of titles and is compatible with your other entertainment devices. There is a good chance that the state-of-the-art technology you purchase today will be obsolete before your extended warranty expires, so sit back and enjoy the evolution.

Words of Wisdom

"The theory of evolution by cumulative natural selection is the only theory we know of that is in principle capable of explaining the existence of organized complexity."
- Richard Dawkins

"Television is the first truly democratic culture - the first culture available to everybody and entirely governed by what the people want. The most terrifying thing is what people do want."
- Clive Barnes

"Any sufficiently advanced technology is indistinguishable from magic."
- Arthur C. Clarke


The Rapid Pace of Evolution in Consumer Electronics

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Saturday, October 8, 2011

Mitsubishi 915P028010 Lamp for Mitsubishi DLP TV

!9# Mitsubishi 915P028010 Lamp for Mitsubishi DLP TV

Brand : Mitsubishi | Rate : | Price : $66.99
Post Date : Oct 09, 2011 03:50:14 | Usually ships in 1-2 business days


  • Mitsubishi 915P028010 Lamp for Mitsubishi DLP TV

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Mitsubishi 915P028010 Lamp for Mitsubishi DLP TV

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