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Two OLED technologies: AMOLED and PMOLED

OLED is a new technology that can make thin, efficient and bright displays. OLEDs are made from organic light-emitting materials, and OLEDs do not require any backlight and filtering systems that are used in LCDs. So OLEDs are more simple to make and actually can be made flexible and transparent as well. OLEDs are also very efficient, and companies are working towards OLED lighting – an OLED “lightbulb” will be efficient and thin, opening the way for great new lighting designs.

There are two types of OLEDs used in displays – PMOLED and AMOLED. The difference is in the driving electronics – it can be either Passive Matrix (PM) or Active Matrix (AM).

With Passive-Matrix OLEDs, the display is controlled by switching on rows and columns. When you turn on row number x and column number y, the pixel at the intersection is lit – and emits light. Each time you can choose just one pixel to light. So you have to turn these on and off very quickly. You do so in a certain sequence, and create the desired image. This is somewhat like the interlace-system used in old CRTs, but the control is done pixel-by-pixel.

PMOLEDs are very easy and cheap to build, but they are limited to small sizes (up to 3″, typically). The image displaying is a bit complicated (because of the row/column method). Also the power consumption is not as good as AMOLEDs.

AMOLEDs have a different driver electronics – each pixel is controlled directly. AMOLEDs are more expensive, and much more difficult to create, but can be used for larger displays (current prototypes are up to 40″) and are very power efficient.

The first OLED products in the market used PMOLEDs – these were MP3 players, sub-displays on cellphones and radio decks for automobiles. The displays were small and usually with just one or two colors. When AMOLED panels started to emerge in 2007 and 2008 we have seen these larger displays in mobile video players, digital cameras, mobile phones main displays and even OLED TVs.

PMOLEDs are still very popular – there are more MP3 player sold today with PMOLED than with LCDs. But for larger displays, AMOLED is the best technology, and is growing much more quickly than PMOLED displays. Obviously for larger displays, such as TV, laptop monitors or PDAs, AMOLED is the only choice.

Today there are several companies that are working on technologies that actually close the gap between PMOLEDs and AMOLEDs – offering a sort of hybrid system. The promise is that these displays will be both easy to make and allow power efficient larger displays. We still have to wait and see whether these technologies actually work on commercial displays. One such technology is Dialog’s SmartXtend.

Debt free plan that can really help you solve your problems

The time comes to every battle, when the attack is to take the other side. You just can not accept a defensive mindset and must focus on protecting the area. Sooner or later you have to step out and try to win the region and push opponents into a corner.

Well, the same logic applies to the credit card debt consolidation as well. How long have you focus on just to keep debt under control? You behave as if the debt is wealth, which has secured an unsecured. Instead, you can take steps to enable it to zero as quickly as possible. It’s time to get out of debt and start living a debt free life.

Why are you wasting time trying to pay at least the chargers, so that credit card companies to stop worrying you? When you pay your hard earned interest payments, it does not sound absurd that you have to concentrate on more pressure to the collection agency factors put you?

Well, it’s one thing to decide that you should go for the offensive until the credit card debt. However, it is a completely different thing to know what to do. More often than not, people think that speaks harsh words to your credit card company and debt collection agency is enough to scare them away.

It does not work. You end up in court and you will be asked to answer why you did not back its debts on time. Instead, it makes sense to take advantage of the law and get help to eliminate your debt problems. How do you proceed? You should contact the debt relief professionals, who explain that you have paid a lot of money on the credit card issuer, and you will receive a generous discount.

OLED TV – Explained Simply

Back to Basics…. What’s OLED?

Lets start with the basics, OLED stands for: Organic Light Emitting Diodes. LEDs surround us in every day life these days, you’ll find LEDs used in a number of ways, in many of your devices in your home, for example they exist in digital clocks, forming the digits to indicate the time and also provide a way of visually indicating whether your electrical devices are powered on or in standby. The difference here is the O in OLED, which refers to the use of organic materials, these materials make up a thin film and when an electric charge is applied they then create light….Hence OLED.

How OLED Technology Is Used Within The Television.

Now for the techy part…… We’ve established that OLED is based on paper thin sheets of organic materials. These sheets, typically polymer plastic, are placed within the display. Images are then produced from these organic materials which illuminate as a result of the small electric charge being applied.

OK great, but what does this mean to the average consumer?….Well, here’s the interesting part…

Each pixel (Pixel = digital picture element) has its own light source, without a need for a backlight. If you consider that traditionally the rear of a TV would contain the backlight, with OLED there is no need. This now means that we can have truly ultra thin TVs, with OLED we are talking millimeter thinness!

What about picture quality?

The picture quality is where these TVs truly separate themselves from the technologies we’ve become accustomed to. When choosing a TV and assessing a good display you should focus on the contrast level, since the target for manufacturers is to achieve the blackest contrast level possible and at the other end of the scale the whitest (lightest), this then creates a wider contrast of colors in between. Above all else black levels are very important. An LCD TV possess good black levels but utilizes a white backlight behind the display which manufacturers work pretty hard to hide. Your old widescreen TV, which probably weighed more than your body weight, would have had black levels deeper than current LCD screens, however space saving flatscreens and the option of high definition make the LCD an attractive advance in technology.

OLED provides black levels far more advanced than your old, weighty widescreen. It does this by completely turning off individual pixels when producing black, since each pixel has its own light source. The pixels completely turn off in different areas of the picture, improving image quality and as a result consuming less power.
For those of you who enjoy figures, OLED technology gives an astounding display with a contrast ratio of 1,000,000 :1, consider this against the best LCD screens whose contrast levels are of 50,000 :1 you can begin to see that we are dealing with a whole different ball game! With superior picture quality, crisper and brighter displays you get a very wide viewing angle of 180 degrees through which the picture does not degrade or distort, this means you can be very flexible where we place the TV in the home and how you tilt the display.

What are the other advantages of OLED over LCD and plasma?

- OLED TVs are more light weight and cost less to manufacture due to the technology being less complicated than LCD or plasma.

- As touched on before OLED TV will save on your energy bills due to the way they operate.

The Concern

All these great points make OLED seem the perfect TV technology, however there is currently a downside. A concern with the life span of OLED TVs is present. Reports suggest that the picture can fade severely after a few thousand hours of watching. Currently Kodak claim that they have solved this issue with an OLED TV that has a lifespan of around 65,000 viewing hours. This technology is still being perfected by manufacturers so expect this challenge to be overcome in the near future.

Sony XEL-1 – The First OLED TV On Sale

Sony is the first manufacturer to release this type of TV, which is now on sale for around $2500 Dollars currently. The Sony XEL-1 is a world first with a screen measuring 11 inches, it is impressively thin at 3mm and weighs just 1.9kg. Although the screen size isn’t exactly large enough to be the centre piece of our homes, we can expect that as the technology develops larger screens will inevitably appear. Samsung are reported to be manufacturing a 40 inch shortly.

The Future

So The future of OLED TV is bright (excuse the pun), however OLED technology is not just limited to TV, it is essentially a light source and its uses can be expansive and exciting. Imagine the end to the light bulb as we know it. Talk of OLED technology replacing the light bulb filament is real. It is possible that the traditional light bulb could be replaced by a thin sheet of polymer, offering full dimming capabilities and great efficiency. Imagine screens which bend, curve and fold for handheld devices and large displays, add to this see through screens for heads up displays in cars, its all possible with OLED.

Want One?…. What You Should Do Now

Are you excited now? You probably are, its a fantastic technology, however the key here is to allow the manufacturers to battle amongst themselves to produce the products to a standard we demand. We can only sit back and wait for this technology to truly develop. One day your LCD or Plasma WILL be replaced by an OLED TV.

For more info on OLED TV and any other OLED based hardware please check out the site: OLED TV – Explained Simply

Advantages of Storage Capacity Reporting

This is a method companies use to determine the levels at which their storage system is being utilized and handled. This helps an IT department know exactly how to manage their resources when it comes to data recording.

Those who are given the task of dealing with the information in this kind of a company are required to come up with the Storage Capacity Reporting in the exact locations in the system that need a look up.

When there is an area in the system that is not being utilized well; it means that the company uses a lot of money on resources that are not being utilized well. Storage Capacity Reporting is meant to look into these areas and make sure that there are no areas in their data storage areas that are not being utilized or being over used.

Some companies have external storage systems which range from shared networks drives. All these need to be looked at with much keen. Having under utilized storage capacity can not only cost the company a lot of money but also implies that there is a lack of good management in the IT department. You may find some applications having been allocated more storage capacity than they actually need and that is never good for business.

Another importance of Storage Capacity Reporting has a lot to do with a company’s growth. As the company expands, there is sure to be a need for an expansion of the storage areas. Without the reports, one might end up having less or more space than is needed.

Car TV Antenna- Interrelated Facts About Radio Antenna

As you search for car TV antenna related information or other information about antenna band or homemade fm antennas, take your time to view the below article. It will provide you with a really refreshing insight into the car TV antenna information that you need. After going through it, you will also be better informed about information in some way related to car TV antenna, such as directional antenna or even monopole antenna.

Telescoping TV Antenna: This kind of antenna can be mounted on either the exterior or interior of your car and is similar to a telescoping radio antenna in the way it appears. The exterior kind of this antenna however is unstable, not being able to withstand stronger winds.

Antenna toppers are very popular with sports fans. Look for antenna toppers representing your favorite pro-team in the NBA, NFL, NHL and Major League Baseball. College Football, Baseball, NCAA Basketball fans can also find antenna toppers depicting their favorite team. Are you a NASCAR or racing fan, find antenna toppers with old number 3, and many other popular drivers?

We will use technology now available in the Cell Phone Telecom Industry, which allows for non-verbal communication via the vocal cords vibrations and uses the inner ear for direct transfer, with a micro recording device on the Shoulder of the soldier. It is theorized that this can be used for human sonar, hyper wave generation, microwave defense, communication, and rescue, emergency or as a warning device.

Don’t forget that even if your immediate car TV antenna quest isn’t answered in this article, you could even take it further by doing a search on Google Dot Com to get specific car TV antenna information.

Another type of external antenna can be used to extend your wireless router or wireless access point. Adding a proper antenna to your wireless access point will make your LAN perform like it is on crack. If you really want to extend your range you will have to add an external wireless antenna on your wireless access point and your laptop. Remember that wireless LAN communication is not like an AM/FM radio, you need to be able to hear and talk. If you have a huge antenna and amplifier on one end you need the almost the same setup on the other end to talk back.

Marine TV Antenna- Free Important Guidepost For Outdoor TV Antenna

As you devour this article, remember that the rest of it contains valuable information related to marine TV antenna and in some way related to satellite dish antenna, plasma TV, best antennas or extend antenna for your reading pleasure.

Wireless Antenna – First you need to decide what type of antenna you are going to use. If you are going to use a directional antenna then you will be able to tilt it downward if needed to cover you needed area. However, if you mount the antenna too high you will have a dead zone between the building and ceiling to the ground level. You will not want to tilt an omni directional antenna downward because you will be sending half of your signal up in the sky.

People have this perception that they need a more powerful HDTV antenna due to directivity and amplification. This is not true. HDTV is actually more noise immune than analog television and will be able to produce high quality video at significantly lower signal-to-noise ratios. Digital TV needs less antenna gain and can tolerate higher noise levels. A HDTV antenna and a regular antenna have similar directivity/gain properties so you should receive analog or digital broadcasts with the same good quality.

Using Orlando, Florida as a test area, Antenna Web suggests that a medium directional antenna will get you almost every digital signal in the area. The site is very useful and extremely customizable to take things like trees, the floor you live on and buildings that might be in the way into consideration.

Don’t forget to realize that this article can cover information related to marine TV antenna but can still leave some stones unturned. Head on over to the search engines like Ask Dot Com for more specific marine TV antenna information.

External wireless antennas can be used to find more networks to connect to, penetration testing, extending outdoor wireless networks, security testing for site surveys and over all just looking cool.

It does not matter which satellite radio provider you choose, the antenna should have a magnet on one end. This works great while attaching it to sheet metal on the external side of the vehicle. The sheet metal actually helps the reception by turning the whole vehicle into an extension of the antenna. The antenna uses the antenna currents of the vehicle to boost the reception power of the antenna.

An HDTV antenna is the ticket to receive free HDTV reception over the air. If you’ve decided to buy a HDTV, there is a low cost alternative to paying cable or satellite providers monthly for HDTV broadcasts, a simple HDTV antenna hookup is all that is required. You can receive a crystal clear high definition local and network broadcasts. All you need is an ATSC tuner built in your new HDTV or an external HD tuner connected to your HDTV to start getting free HDTV over the air. If you presently own a good VHF/UHF antenna for indoors or out doors you may be able to use it. Digital TV uses the same antennas as analog TV, manufacturers have been just labeled them HD to take advantage of the HDTV buzz.

Many people that searched for marine TV antenna also searched online for 900 MHz antenna, 3g mobile phone news, and even make an fm antenna.

So here is chance to get your free tips on cell phone antenna booster and in addition to that get basic information on saving money visit http://advice4unow.com/antennanews

Himfr.com reports Global OLED output, will be an annual growth rate of 33% growth

Professional Research
firm DisplaySearch recently pointed out that the second quarter of the global organic light-emitting diode displays (OLED) the amount shipped a record high, reaching 100 million 92 million U.S. dollars, representing growth of 32% the previous quarter, with growth of 22% compared to same period last year.

DisplaySearch predicts that the global OLED output value 600 million U.S. dollars from 2008 to an annual 33% compound annual growth rate, it is estimated that by 2016 total output value will reach 6.2 billion U.S. dollars; of these phones is still the main screen is the most important application, the amount shipped in 2016 is estimated at 3 billion U.S. dollars, while OLED TV production to reach 2 billion U.S. dollars, becoming the first two largest OLED applications.

In addition, as mobile phone brands such as SamsungElectronics (Samsung), Nokia (Nokia) and Sony_Ericsson (Sony Ericsson) active in the mobile phone into the main screen active-matrix organic light-emitting diode displays (AMOLED) panel, driven mobile device home screen AMOLED surface panel shipments increased dramatically.

In 2009, for example, there are at least 15 currently on the market adoption of AMOLED panels for mobile phones. But shipments of view, passive-matrix organic light-emitting diode displays (PMOLED) is still the main application technology.

Although the first quarter, shipments PMOLED less satisfactory, with the second quarter increased demand for mobile phone sub-screen, making PMOLED shipments also increased.

From the firm’s ranking in terms of shipments in the second quarter Samsung MobileDisplay (SMD) have a good growth to 38% volume market share leader in group-lun, Taiwan RiTdisplay (RiTdisplay) ranked second.

Display technology, according to DisplaySearch, research director JenniferColegrove said, AMOLED panel has become a high-end electronic products to highlight one of the main ways to differentiate. At the same time mobile phone display technology can be applied not only to the main screen, the current has been gradually used in personal multimedia display device (PMP), digital cameras.

DisplaySearch estimates that the world will have the next three years, about 20, old or new AMOLED production line is ready to upgrade. Most OLED manufacturers goal is still to produce large-size OLED TVs to LGDisplay (LG Display), for example, has a smooth mass production of small size AMOLED panels, also announced the end of the year to 15-inch TV panel production.

LGElectronics end of the year holiday to be introduced 15-inch OLED TVs, Sony (Sony) was released in 2008 after a 20-inch OLED TVs in 2009, has not yet plans to launch 20-inch OLED TV over.

DisplaySearch forecast AMOLED will further develop in the direction North Korea and large-size notebook PC makers will be AMOLED applications under the direction of a concern. Estimates that, since 2010, the vendors the opportunity to AMOLED used in notebook computers.

http://www.himfr.com/

How to invest in the OLED display revolution

OLED is a new exciting technology, enabling thin, efficient and bright displays and lighting. Many people consider OLEDs to be the next-generation display, television and lighting tech. The potential sales of OLEDs in the next few years is billion of dollars. In fact, the OLED display market today is estimated at 600M$, and is forecasted to grow to 5.5B$ by 2015. OLED lighting will take off (hopefully) by 2011, and reach 6B$ in revenue in 2018.

There are many companies working on OLEDs, from big corporations likeSony, Samsung, LG, Kodak and GE, to small research and IP companies.

There are several types of companies involved in this market:

* Research / IP companies: researching OLEDs, trying to get hold of important patents relating to OLED manufacture, OLED materials and related inventions.

* Chemical companies: mostly involved in OLED material production and IP

* OLED manufacturers: the actual panel makers

* OLED gadget companies or resellers: companies that embed OLEDs in their products (cell phones, TVs, etc.) or simply resell those panels.

Another thing to keep in mind is that there are competing techs within the OLED world – Polymer based OLEDs vs Small Molecules, for examples. So even if OLED are booming, it might be that not all OLED companies will benefit…

Here are some suggestions for publicly traded OLED companies:

Small companies, who focus on OLEDs are more risky, but the rewards here may be larger.

* Universal Display Corporation: UDC is an OLED research company, and one of the field’s pioneers. UDC is involved in OLED IP, and holds many patent, related to the commercialization of OLEDs, and also related to flexible,t ransparent, stacked and phosphorescent (PHOLED) displays and lighting panels.

UDC licenses its OLED production IP, and also sells chemical materials to be used in the production process. UDC lists Samsung SDI, CMEL, Konica Minolta and Kyocera as its licensees. UDC is working with many other companies, including LG, Sony, DuPont and Novaled. UDC claims that “all AMOLEDs on the market use our technology”.

Universal Display lists in the NASDAQ (ticker PANL).

# eMagin: eMagin is engaged in virtual imaging products that utilize OLEDs, OLED-on-silicon micro displays and information technology solutions. Focused on Micro displays, eMagin is selling its micro displays to companies that incorporate them into products such as cameras, army helmets or headsets, etc. eMagin trades in the AMEX Stock Exchange (Ticker is EMAN.OB, OTC).

Other companies: (note that some of these companies are very large, and the OLED business is only a small part and is not expected to make a major impact on the stock price)

* AixtronAG: a provider of deposition equipment to the semiconductor industry. The Company’s technology solutions are used by a diverse range of customers world wide to build advanced components for electronic and opto-electronic applications based on compound, silicon, or organic semiconductor materials. Aixtron has introduced Organic Vapor Phase Deposition (OVPD) Equipment, which was exclusively licensed to Aixtron by UDC.
Aixtron trades in the NASDAQ (ticker AIXG) and in the Frankfurt Stock Exchange.

* AU Optronics: AUO was formed in 2001, by the merger of Acer Display and Unipac Optoelectronics. Later in 2006 AUO merged with Quanta Display. AUO is the world’s number 3 manufacture of TFT-LCDs, and has renewed its AMOLED program in 2009 (they are currently not selling any OLEDs). AUO trades in Taiwan’s stock exchange (2409) and in the NYSE (ticker AUO).

* Densitron Display Solutions: a manufacturer and supplier of standard and customised display modules utilising OLED, TFT, CSTN, Monochrome and Touch Screen technology. Densitron lists on UK’s AIM stock exchange.

* Dupont: DuPont is developing innovative and sustainable solutions that improve display performance, reduce production costs and enable next-generation technologies across a broad range of applications, including LCDs, OLEDs, plasma display panels (PDPs) and field emission displays (FEDs). Dupont trades on the NYSE (ticker DD).

* Eastman Kodak: Eastman Kodak Company is engaged primarily in developing, manufacturing and marketing traditional and digital imaging products, services and solutions. OLEDs were originally found and patented by Kodak, which are working on OLEDs for displays and lighting. Kodak aims to license its technology with partners, and will not manufacture OLED panels directly. Kodak trades in the NASDAQ (ticker EK).

* General Electric: GE is a diversified industrial corporation, and operations include engines, military, wind turbines, locomotives, lighting and financial services. GE are working towards OLED Lighting. GE trades in the NYSQ (ticker GE).

* Idemitsu Kosan: is a Japanese company, founded in 1911, to engage in oil distribution, and over the years they have gained experience in fuel products and basic chemicals, plastics, electronic materials and OLED materials. Idemitsu Kosan are working with Sony, LG Display and UDC. IK trades in the Tokyo stock exchange, ticker is 5019.

* Konica Minolta: Konica Minolta is a japanese company, involved in copiers, printers, medical equipment, optical devices and a film used to enhance picture quality in liquid crystal displays. KM is researching OLED for lighting, announced a partnership with GE and aims to have product on the market before 2010. KM has licenced OLED IP from UDC. KM trades in Tokyo’s stock exchange (ticker 4902).

* LG Display: LG Display is a large maker of displays for TVs, computer screens and mobile devices. LG Display is making AMOLED displays, and are also working toward flexible OLEDs. LG display trades in the Korean Exchange, ticker 034220. It also trades as an ADR in the NYSE (ticker LPL).

* OSRAM Opto Semiconductors: a wholly owned subsidiary of OSRAM – who employs more than 35,000 people throughout the world. OSRAM is a leading supplier and manufacturer of solid-state lighting solutions with a strategic focus on OLED technology.

* Philips: one of the world’s biggest electronics companies and Europe’s largest. It is involved in many areas, and one of the world’s leaders in lighting. Philips is working on OLED lighting, and are already shipping samples. Philips trades in both the Euronext (ticker PHIA) and the NYSE (ticker PHG).

* Seiko Epson: Seiko Epson is a global corporation based in Japan that is at the forefront of technological revolutions in imaging, robotics, precision machinery and electronics. Seiko Epson are working towards inkjet printable OLEDs. Seiko Epson lists on the Tokyo Stock Exchange (Ticker is JP:6724).

* Samsung Mobile Displays: SMD is a wholly owned subsidiary of Samsung. This company was formed from Samgung SDI’s and Electronics’ OLED units in 2008. Samsung MD is mass-producing color OLED displays, and is involved in both AMOLED and PMOLED, primarily for the mobile phone display market. It is the largest AMOLED panel maker, and are also working on larger panels, OLED lighting, flexible and transparent OLEDs. Samsung lists on the Korean Stock Exchange (Ticker is SSNGY), and SMD lists as Samsung SDI (006400.KS).

* Sony: Sony is one of the leading consumer electronics companies in the world. Sony has an OLED research program, mostly geared towards large displays (OLED TVs). Sony trades as an ADR in the NYSE (ticker SNE).

* Sumitomo Chemicals: has been established in 1913, and since then has been researching and producing industrial chemicals and materials. Sumitomo has been working with CDT on PLED materials, and has acquired the company in July 2007. Sumitomo plans to produce OLED TVs, and have teamed up with Panasonic to make 40″ and larger sets by 2010. Sumitomo trades in the Tokyo stock exchange (ticker 4005).

Laser TV Versus OLED TV – Which Technology Wins?

Laser TV – What Is It?

There is much hype around this type of TV, yet the technology has been around for a number of years. The term Laser TV refers to the principle of literally firing a laser onto the inside of a TV screen in order to produce an excellent quality image. This process is more efficient in producing an image compared to our current plasma and LCD TVs. When you consider the range of colors that are visible to the a human eye (known as color gamut), plasma and LCD can only manage to produce 40% of these colors, whereas laser TV technology can produce an excellent 90%.

The Technology Behind Laser TV

Lets take a simple look at the principle behind the technology, to truly understand how it works.

Current TV technology produces red, green and blue light (RGB). In principle it is possible to combine these three colors to produce a complete full range of visible colors, however in reality, visual displays are only capable of displaying a limited range of these colors. However, in a Laser TV, three distinct wavelengths are used, these are simply light beams which project accurately and brightly onto the screen, producing brilliant blacks.

The whole technology is based around the principle of projection, with this in mind Laser TVs are a perfect improvement on our current rear projection TVs, these are TVs whose images are projected from the rear of the TV on to the back of the screen. A typical rear projection display tends to measure from 50 inchs to 100 inches and are regularly used in public spaces. It is the ultra High Performance Lamp (UHP) which is the basis for the technology, however laser technology essentially replaces this and as a result very much suits the larger screen size.

What Laser TVs Are Available To Buy?

Mitsubishi became the first manufacturer ever to make a commercial Laser TV available to consumers in stores in November 2008. Aptly named Laservue, this TV was priced at around $7,000. A little pricey for today’s market. The Laservue is available in 65 inch or 73 inch versions and is also 3D ready and as you would expect these days it is perfect for wall mounting.

Rumors of Toshiba entering the market are spreading rapidly. Whether many other manufacturers wish to enter the race remains to be seen.

LASER TV vs. OLED – How They Stack Up?

To be honest, as the two technologies stand at the moment, Laser TV is suited to one end of the TV market and OLED the other. Laser TV technology currently suits the large display market and at present OLED technology suits the smaller display market, of course this will change as both develop over time. The two technologies are not yet going head to head in the TV market.

Take a look at the features of each:

LASER TV:
- Wider range of colors displayed (roughly doubling standard HDTV’s)
- The intensity of the laser is maintained for the lifespan of the TV, meaning a high

quality image is maintained throughout the life of the TV, unlike current HDTV
technology

- Laser TVs utilize roughly a quarter of power used by current TV technology

- Laser TVs tend to be half the weight of current HDTV’s

- First TV commercially available in 65 and 73 inch versions

OLED TV:
- Excellent image quality at 1000000:1 contrast ratio
- Better image quality means wider viewing angle of 180 degrees
- Ultra thin screens measuring 3mm thin
- Power consumption is less that current technology since no backlight is required
- First TV commercially available in 11inchs

So What Are The Disadvantages?

There always seems to be a worry around any laser technology, scare mongers will raise issues around potential eye damage from a laser should a Laser TV become damaged. These concerns are yet to be proven. However it is suggested that special filters can be fitted within the TV to remove this potential fret.

Another concern is the speckle effect. Laser TV technology can produce an effect on the human eye which resembles speckling, this is caused by a number of waves joining together to produce a wave with varying intensity. This issue is being addressed by manufacturers, expect this to be overcome in near future.

Which Technology Wins? – Laser Or OLED

Laser TVs are on sale now and available to all….well to most, if your bank balance can support it and your home is large enough. If this suits your circumstance then Laser TV is a possibility for you at this time. OLED TV is cheaper by comparison, but not at the prices the average consumer would be happy with and screen sizes do not reflect what we have become used to for our homes.

As yet, laser technology has a way to develop, as more manufacturers take up the challenge. Prices should decrease and so will screen sizes. Likewise OLED screen sizes are set to increase. There does seem to be more of a buzz and excitement in the industry around OLED. Image wise these two technologies are truly head and shoulders above the rest and once these TVs truly develop and become TVs we can afford and want in our homes then there could be more of a head to head battle.

Which technology is better you ask? Considering all other factors, at this stage, it is just too early to tell.

Oled Pictures