LCD – For the Novice and the Expert
by Kristopher Kubicki on September 4, 2003 12:13 AM EST- Posted in
- Displays
Testing procedures
Manufacturers often post specifications that bring them the largest advantage. Below is a small cross-section of how some of those specifications are obtained in the lab (and what they mean).Luminescence [cd/m2]: This measurement is the basis for most other measurements concerning displays. Candela per meter squared basically just lets us know how bright the image is.
Contrast Ratio [N/A]: This is a unique measurement in the respect that it has no units. Purists argue that this is one of the most confusing and misleading specifications on an LCD. In any case, the Full Screen Contrast Ratio is obtained by placing the display in a dark room. The screen is turned to black and the luminescence obtained (Lb). The screen is then turned to white and the luminescence obtained (Lw). The ratio is then a measurement of the Lw versus Lb. Manufacturers sometimes skew this number by not taking the luminescence values on center.
Response Time [milliseconds]: This is a very important figure for gamers. LCDs do not rely on refresh rates for screen redraws. Instead, they rely on the time it takes a single pixel to power on and off. This measurement is done by placing the screen in a dark room and turning the screen to black. The time it takes the screen to go from black to white is the “Rising” response time, and the time it takes to go from white back to black is the “Falling” response time. Adding both of these together gives the average/typical response time. The important fact to remember is that even though it takes 16ms for the pixel to completely untwist and then twist, most media do not solely consist of extreme shades of color.
For example, a pixel may be illuminated in a grey fashion (i.e. all sub-pixels are half untwisted). According to a lot of our substrate insiders, the Gray-to-Gray response time is much more important. Due to electrical modulation, the response time from one gray half tone to another gray half tone can be as high as 100ms on a typical VA monitor!
Viewing Angle [degrees]: Viewing angle is a very straightforward measurement that can be done very easily with very little equipment. Because the LCD twists and untwists, the human eye has trouble seeing the crystal at different angles. At extreme angles, usually around 80 degrees from center, the human eye cannot determine if the crystal is twisted or untwisted and thus, the image doesn’t really look like anything. Using a protractor, you can determine the viewing angle of your monitor by rotating it until you cannot see the image anymore – then measuring the angle.
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spikemike - Thursday, September 4, 2003 - link
Just got the deal on passive displays from the LCD expert(my dad, he worked at RCA on LCDs just a couple years after they first invented it) and here is what he saidPassive displays do operate in either twisted or untwisted mode; data is supplied as on or off signal. However because the response time of STN is slow, they get gray scale by pulse width modulation techniques. Usually they get 16 shades of gray (4096 colors) with time modulation, and additonal gray levels by spatial modulation (using 2-4 pixels to achieve
1-2 bits additonal gray scale). Right now, the best STN color displays achieve 65K colors.
So basically if they need a gray scale they just turn it on and then turn it off before it gets all the way on. So technically the way it was written was correct. (by the way the last two posts were also mine)
Anonymous User - Thursday, September 4, 2003 - link
"Take a piece of lint free cloth and wrap it around your index finger. Push about 1/4 of an inch above the broken pixel with about as much force as would take to depress a doorbell. Pull your finger down past the pixel to about 1/4 of an inch below the broken pixel. Repeat in a left to right manner as well. If you’ve tried it about 10 times and are still without success, then you most likely are not going to be able to bring that pixel back to life (and you will probably have a light scuff mark on your anti-glare coating as well).">>>are you supposed to press the pixels while it's on? couldn't it cause the neighboring pixels to become stuck in the on position?
Anonymous User - Thursday, September 4, 2003 - link
I have a Cornea Mp704B 17" LCD. It has the 20ms Hyundai Panel. It's very nice, colors look great, sharp text and images, and no trailing or ghosting at all. I did notice that the backlight isn't perfect (just slightly, and i mean slightly, brighter in middle and bottom of LCD than on the top) and I did have 1 dead pixel and 2 dead subpixels (they weren't stuck on red though). I haven't tried rubbing, it sounds a little fisky, but I may eventually. But yeah, the Hitachi panels are nice overall.Anonymous User - Thursday, September 4, 2003 - link
#25 is right, passive displays are capable of color, every color cell phone today available in the US uses a passive STN display, as far as i know. It is still a much cheaper technology. As does gameboys and palm pilots. Thats why the color seems like pastels and not vivid colors.Anonymous User - Thursday, September 4, 2003 - link
i think 16 and 17 make a point, #16 almost all monitors use the 18bit color he is right about that. A 6 bit driver is much cheaper then an 8 bit driver. And maybe only a few very high end models use an 8 bit driver. #17 discusses the TV LCDs these in fact are the best LCDs you can buy, they have the widest viewing angles, best color, and the fastest response times, because all people do is watch video on them, Although they tend to be lower dpi so if you are thinking about getting one for a computer monitor be sure to sit far a way or you will be able to see the pixels. Some 60" LCDs shown at SID conferences are the best ever made. They look absolutely amazing.A third note is that high res high color displays are a requirement for longhorn. Sharp announced they would be the first to offer longhorn compatible displays. They need high res(UXGA probably) and high color(10bit i believe). These products are still about 2 years off but if you look at displays in laptops they have no problem making high DPI displays, for some reason companies don't think people want a UXGA 17" panels.(they should look at forums like this). There is also a company working on ways to get higher res out of the same number of drivers and subpixels by arranging the pixels differently, (www.clarivoyante.com) this could lead to lower cost for the same resolution potentially allowing the better substrates to be used. There are substrates that use high response time, wide viewing angle technology, its just considerably more expensive.
Anonymous User - Thursday, September 4, 2003 - link
#14No I, run my CRt at 85 hz .Well that's as far as my card will go .old card TNT2
Anonymous User - Thursday, September 4, 2003 - link
No.I run it at 85 Hz.Well that's the maximum my card will go .OLd card TNT2.Live - Thursday, September 4, 2003 - link
Very Good article! Anandtech is really getting back in good shape. I for one would like to read one about CRTs as well. While you’re at it why not cover monitors in your price guides as well what’s the use of all this computer power and fancy graphics cards without a good output of it all?Anonymous User - Thursday, September 4, 2003 - link
The parts about passive and TFT technology is confusing and perhaps misleading. If you're talking about passive matrix STN or DSTN LCD displays, they were indeed able to turn a pixel partially on, or partially off. However, they're biggest downside was they were always fuzzy because manipulating one pixel, often caused the ones surrounding it to discolour, too. The biggest benefit from TFTs, I believe, was that each individual subpixel was uniquely addressable.Anonymous User - Thursday, September 4, 2003 - link
samsung still not offering up their 'X' line of 16ms panels for review? Apparently they are available for sale in Europe...