Brightness and Contrast Ratio

For the brightness, contrast, and color accuracy tests we depend on the hardware colorimeter and software to help calibrate the displays. As previously stated, we use a Monaco Optix XR (DTP-94) colorimeter and Monaco Optix XR Pro software. The software and hardware help users to get more accurate color from their displays. Before we get to the calibrated results, we took a quick look at the range of brightness and contrast without any color calibration.

Monaco Optix XR Pro

Monaco Optix XR Pro

Monaco Optix XR Pro

In the past we have seen LCDs that crank up the brightness level in order to increase the contrast ratio, but it's good to see that HP didn't go that route with the w2207. A maximum brightness level of 300 nits is pretty reasonable, and we don't see much reason to go beyond that. In practice, we tend to prefer a brightness level of around 200 nits, though others may prefer slightly brighter or darker. The HP w2207 can accommodate pretty much any desired brightness setting, and it does so while maintaining its exceptional ~1000:1 contrast ratio. That's one more item that sets it apart from the less-expensive Acer 22" LCD.

Color Accuracy

The problem with calibrating a display is that it doesn't help all applications. Specifically, the video overlay used when watching DVDs or other movies completely bypasses any color profiles, so you are stuck with the uncalibrated colors. Playing games and Windows Vista may also use the default color options - though in the case of the latter it's more a problem of determining how to set up your color profile properly. It is possible to tweak things somewhat on many LCDs using the OSD, but the amount of color correction that can be done via the OSD pales in comparison to color correction tables, and some LCDs (the Dell 3007WFP and HP LP3065 for example) are unable to adjust anything but brightness outside of software. Ideally, we would like to see video drivers begin to apply color profiles to all output - office applications, movies, games, or anything else.

For uncalibrated color accuracy, we adjusted the brightness as well as the contrast and colors (where applicable) using a "calibrate by eye" chart and the OSD controls. Also remember that color accuracy can vary from panel to panel even within the same model, and the results we are reporting are only from testing a single LCD. During testing, Monaco Optix XR Pro sends 24 color patches to the display with the colorimeter measuring the resulting values. The difference between what is requested and what the LCD actually shows is known as Delta E, with lower values being better. Any score less than one is basically "perfect" - the naked eye is not going to be able to tell the difference - and scores less than 2.0 are nearly perfect.

Ideally, you would want all of the tested colors to have a Delta E of less than 1.0, but almost no one is likely to have problems with anything scoring below 2.0. From 2.0 to 4.0, most people still won't notice the slight inaccuracies in the color palette, but when comparing displays side by side differences may be apparent - multimedia professionals in particular would prefer something better. Anything above 4.0 begins to represent a more significant deviance, and numerous scores above 6.0 will almost certainly be noticeable by just about anyone using the display. Consistency is also important, so a display that has very good scores overall but with high spikes on some colors may actually be less desirable than a display with a slightly higher but more consistent average Delta E. Note also that fluctuations of as much as one point in Delta E are possible during a short amount of time. It generally takes as much as 30 minutes for a display to warm up after it's first powered on, and all of our calibration and testing is performed after the displays have been running for at least one hour with the screensaver disabled.

Monaco Optix XR Pro


Without any form of color correction, the color accuracy of all of these displays is generally mediocre. The human eye will compensate quite a bit for differences between displays, so for most people even an average Delta E of 6.0 isn't going to be terrible. The HP w2207 rates a pretty poor 7.7 before calibration, besting only the two year old Dell 2405FPW. There are also quite a few spikes, with several colors having a Delta E of greater than 10.0. If you don't have color calibration equipment and you depend on accurate colors, the w2207 probably isn't the best choice. In fact, out of all of the LCDs we've tested so far, only the Acer AL2216W generates an uncalibrated Delta E result of less than 3.0. That particular display has other drawbacks, and we really wish that more of the displays could generate acceptable uncalibrated Delta E results.

Response Times Calibrated Results
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  • JarredWalton - Wednesday, August 1, 2007 - link

    For $1700, I would definitely pick up one of the HP 30 inch LCDs -- or the Dell that matter. Both of those used S-IPS panels and provide back lighting that has an improved color gamut. I certainly couldn't tell you what the NEC offers that would make it worth the price of entry, but unfortunately I have never been able to use one in person.
  • nilepez - Wednesday, August 1, 2007 - link

    I think the difference is that the HP apparently has a lot of adjustments that you can make.

    I'm just guessing, but it may be something like the the old Sony Artisan or Barco monitors, where you could make adjustments to many different areas of the screen, not just the usual 4 (or less) that most had.
  • strikeback03 - Thursday, August 2, 2007 - link

    IIRC some of the high-end Eizo and NEC displays can interface directly with color calibration equipment, and probably have better controls. Who knows, they migh hold their color longer or come with a calibration sheet from NIST or something too. Conceptually similar to the Artisans as a monitor designed to be very good for color-sensitive work.

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