BenQ E2400HD Specifications

BenQ E2400HD Specifications
Video Inputs DVI with HDCP support
HDMI
Analog (VGA)
Panel Type TN (Unknown Manufacturer)
Pixel Pitch 0.276mm
Colors 16.7 million (6-bit with dithering/interpolation)
Brightness 300 cd/m2
Contrast Ratio 1000:1
10000:1 Dynamic
Response Time 5ms, 2ms GTG
Viewable Size 24" diagonal
Resolution 1920x1080 (1080P)
Viewing Angle 170 horizontal/160 vertical
Power Consumption <57W max stated
43W max, 16W min measured
Power Savings <2W
Screen Treatment Matte (non-glossy)
Height-Adjustable No
Tilt Yes - 20 degrees back/5 degrees forward
Pivot No
Swivel No
VESA Wall Mounting 100mm x 100mm
Dimensions w/ Base (WxHxD) 22.94" x 17.76" x 7.77" (WxHxD)
Weight w/ Stand 15.4 lbs.
Additional Features None
Audio 2 x 1W Speakers
Audio in, Line out
Limited Warranty 3-year limited warranty, M-F 8:30AM-5:30PM PST
Accessories VGA cable, audio input cable, driver CD
Price Online starting at ~$350

Déjà vu. Given the price, it should come as no surprise that this is also a 24" LCD with a TN panel. Once again, that means viewing angles are worse than other panel technologies, but with less input lag compared to S-PVA panels. The only difference other than price, size, and weight is power requirements, but that goes along with the larger backlight and panel.

The on-screen display (OSD) for the E2400HD is virtually the same as the E2200HD, with one or two minor differences. However, while most of the options are the same, the resulting functionality is different. Specifically, support for non-native resolutions was substantially better on the E2200HD for whatever reason. Perhaps the E2400HD we received didn't come with the latest firmware installed. Anyway, you get the same brightness, contrast, aspect ratio, color correction, and several preset viewing settings. Again we found that using the "Standard" viewing mode and "Normal" color gave the most pleasing experience, and we avoided using dynamic contrast. Let's look at the OSD menus.

All of the OSD functionality is the same, with only two changes we noticed. First, the E2200HD has a setting where you can enable/disable AMA (Advanced Motion Accelerator). AMA is supposed to improve pixel response times by overdriving state changes, resulting in a 2ms GTG (Grey to Grey) response time. We didn't notice any significant difference, but perhaps our eyes are just too old/slow [Ed: Go easy on him - he just turned 35 last week…]. The other change is in the scaling options, where the E2400HD offers "Full", "16:9", and "4:3" as well as the ability to enable an overscan mode on certain resolutions. Here is a summary of our resolution testing results for all three inputs:

BenQ E2400HD Resolution and Input Notes
  DVI HDMI VGA
800x600 Yes Yes Yes
1024x768 Yes Yes Yes
1152x864 Yes Wrong AR Yes
1280x720 Wrong AR (Hor. Stretch), no Fill Wrong AR (sometimes) Always Fill
1280x800 Always Fill Yes Yes
1280x960 Yes Yes Yes
1280x1024 4:3 AR 4:3 AR 4:3 AR
1440x900 Always Fill Hor. Stretch/Overscan Always Fill
1600x1200 Interference / Non-functional Yes Yes
1680x1050 Always Fill Hor. Stretch/Overscan Always Fill
1920x1080 Yes Yes Yes

Clearly there are some differences in how the two LCDs handle non-native resolutions, and the E2200HD is by far superior. Native resolution worked without difficulty, naturally, but on the HDMI input quite a few of the resolutions were stretched horizontally. All the 16:10 AR resolutions would either fill the whole LCD or else overscan in the horizontal dimension -- so the left and right parts of the display weren't visible. Several other resolutions had an incorrect aspect ratio, for example 1280x1024 used a 4:3 ratio instead of 5:4, regardless of the choice of video input. On our DVI input, 1600x1200 failed to work properly on at least one system, with static and a message on the display indicating that the signal was out of range. Finally, quite a few resolutions didn't allow any changes to the aspect ratio setting, defaulting to filling the whole screen -- although that's not as bad as some of the other issues we encountered.

What's somewhat odd is that resolution support is dependent upon more than the LCD panel and scaler, and there were other systems where we encountered different resolution issues. For example, a couple laptops refused to support higher resolutions using HDMI. We're hesitant to blame BenQ on issues like that, but using the same test systems we did feel the E2200HD was the better option for resolution support.

Outside of resolution support problems, the built-in resolution scaler works well, just like the E2200HD. Again, results are better for resolutions that are at least 33% lower than the native resolution -- so 1440x900 and lower look decent. Overall, the VGA input offered the best support for non-native resolutions, but that's the least desirable input choice for signal quality. Whatever the cause, BenQ should look into applying some of the firmware microcode from the E2200HD to the E2400HD.

BenQ E2400HD Overview BenQ E2400HD Evaluation
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  • Meaker10 - Tuesday, November 4, 2008 - link

    It's not having black bars or not, it's having black bars or no screen at all, I would rather have the black bars and the extra desktop space thanks.
  • JarredWalton - Tuesday, November 4, 2008 - link

    It's not a "rip-off" - it's a choice between two compromises. If you watch a 16:9 AR movie on a 16:10 LCD, the total size of the movie will be smaller than on a 16:9 AR LCD. FWIW, I'd go for the WUXGA 24" panels in most cases as well, but there are reasons to get native 16:9 instead. Since WUXGA is not an option on any current 22" panels, you get a higher desktop resolution and 1080P support - so you win both ways. That's one reason I gave it a Bronze award.

    Just for those who might be curious:
    24" WUXGA = 259 in^2 screen area
    24" 1080P = 246 in^2 screen area
    1080P content on 24" WUXGA = 233 in^2 area
  • MadMan007 - Wednesday, November 5, 2008 - link

    Lenovo makes a 22" WUXGA monitor.

    The reason people feel it's a ripoff is because it adds nothing to the value of a screen and is just a move for panel makers to reduce costs. Reduced cost is also part of the reason behind 16:10 widescreens but at least there's a benefit or reasonable tradeoff from 4:3 in terms of filling field of vision.

    If 1920x1080 video content is the primary use for a display a TV would be a better purchase anyway.

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