Archive for March, 2010
HDTVs use more power than you might imagine. Because old tube televisions are starting to vanish, replaced by much larger plasma and LCD sets, TV watchers in general may note an increase in their electricity bills. And with the ever increasing popularity of TV-based entertainment options, such as video games, digital video recorders, more and more electricity is being utilized on TV-related activity. Those devices use a bit of power, but typically the biggest energy hog in your entertainment center is the TV itself.
The power used by an active television is determined by three factors: size of screen; type of technology, such as plasma or LCD; and picture brightness, which nearly always depends on selected picture settings.
Average plasma: 338 watts
Average LCD: 176 watts
PlayStation 3: 197 watts
Xbox 360 Elite 185 watts
Nintendo Wii: 19 watts
DirecTV HR20 DVR: 33 watts
Screen size: Larger TVs use more power. A 32-inch LCD uses about half as much power as a 52-inch LCD. Of course, the 52-incher’s screen is nearly three times as large as that of the 32-inch model, so the efficiency payoff for going down in screen size does tend to taper off. However, the chances are your new flat-screen TV will use more power than your old tube TV-if the new set is significantly larger.
Technology type: Plasma TVs use more power than LCD TVs, on average, roughly two to three times more electricity to produce a picture of the same brightness as LCD. In the last couple of years, plasma TV makers have made some progress–but they still can’t compete with LCD for energy efficiency. One problem is that in plasma sets, each pixel is a distinct light source (think of it as a tiny light bulb), so when resolution increases, say from 720p to 1080p, power use goes up also. The intensity of light from each pixel must be increased to brighten the picture as a whole.
LCD TVs, on the other hand, a backlight shines through an LCD panel to create the picture. Since the pixels reside in the panel, and not the backlight, the TV’s power use is largely independent of resolution. Many LCDs can conserve additional power by automatically turning the backlight down during dark scenes and up during bright scenes. Some models use a different backlight technology, such as LEDs, which are inherently more efficient than standard fluorescent backlights. And some “local dimming” models can even control the brightness of different parts of the LED backlight independently.
Picture settings: The brighter the picture, the more power is consumed, and since light output is primarily a function of the picture settings available on all TVs, this is the one factor that any user can control regardless of television. Reducing the light output of your TV can cut power use by as much as half, and as long as you don’t overdo it, you’ll still enjoy great picture quality.
The principal settings that matter are contrast and backlight. Both directly control light output. Nearly every TV has a contrast control, but backlight is generally restricted to LCD models but not every LCD has it. In LCDs with both backlight and contrast controls, backlight is the main determinant of light output and power use. The brightness control has less of an impact on TVs light output than the other two settings do.
Other controls are also often available, such as energy saver modes, which typically limit peak light output, dynamic settings that raise or lower the light output depending on the brightness or darkness of the image being displayed, and room lighting sensors that increase light output in dark rooms and lower it when the lights dim. Turning on any of these controls will generally reduce the TVs power use, but it will often sacrifice image fidelity. Automatic adjustments can be distracting, for example, and aggressive energy saver modes can make images too dim. No LCD tv repair is needed this is normal.
HDMI
By now almost everyone who has a high definition Television or a Home Theater System is familiar with an HDMI cable. If not, you should get acquainted with it ASAP! Check out this basic information about HDMI Cables which you should know. You may not need television service to get a more clear picture, you may just need a HDMI cable.
For starters, HDMI stands for High-Definition Multimedia Interface and the name is basically a description of what the cable does. It transmits high definition audio and video through one single cable. The cable is used with Audio and Video equipment such as Blu-ray DVD Players and HDTVs. The cable itself looks very similar to a USB cable, but you have 19 individual wires wrapped inside a single HDMI cable.
HDMI is a pure, uncompressed digital source while the others are all analog. The difference is simple, analog cables take a digital signal and converts it to a less clear analog signal which is then transmitted to your TV. This signal is then converted back to a digital signal to be displayed on the screen. With all this converting of the original signal, it starts to break down and loses clarity, resulting in a poorer picture and audio quality. A HDMI cable keeps the original digital signal, eliminating any need for conversion, thus giving you the clearest, sharpest images and audio possible.
The next thing you need to know about the HDMI cable is that it comes in different versions. Through its technical evolution different versions of the HDMI cable have appeared. They are as follows: HDMI 1.0, HDMI 1.1, HDMI 1.2, HDMI 1.2a, HDMI 1.3, and now HDMI 1.4. Any older audio/video equipment you have will work together with any newer equipment regardless of which HDMI cable version you use. Basically, all you should be aware of is that the HDMI version 1.4 will fit all your needs in both your older and newer equipment.
Ok what HDMI cable should you purchase? When you go to a store you will see HDMI cables ranging in price from $10 up to $100. Does the difference in price reflect the quality in the HDMI cable? Will you get a clearer picture or faster signals with a more expensive HMDI cable? The answer is NO. Regardless of what information you are given, most experts agree there is no difference in performance quality between the differently priced cables.