• We’re currently investigating an issue related to the forum theme and styling that is impacting page layout and visual formatting. The problem has been identified, and we are actively working on a resolution. There is no impact to user data or functionality, this is strictly a front-end display issue. We’ll post an update once the fix has been deployed. Thanks for your patience while we get this sorted.

Vertical and Horizontal Scan Range of Monitors

B

Biggs

Diamond Member
Horizontal Scan Range = 30-121kHz
Vertical Scan Range = 48-160Hz

For example, what does these numbers mean? What's the math behind this which also concerns refresh rates and/or maximum resolutions? Can somebody enlighten me?
 
There is a relatively simple way to calculate the maximum refresh rate of a monitor (simple for me, I've been doing this for 15 years). You need to know the following. The maximum horizontal scan frequency, and the resolution that you want to run. All manufacturers publish this data. The formula below will give you an approximate refresh rate, to calculate the exact refresh rate the math gets harder and you need to know more details about the monitor such as the exact horizontal and vertical blanking time.

(1 / Horiz Scan Freq) * (Number of Vertical lines + 50) = x
(1 / x) = Refresh rate

So in the case of a 121Khz monitor it has a (121,000) 121Khz horizontal maximum scan rate. Lets assume that you want to run 1600 x 1200 resolution. What is the theoretical maximum refresh rate?

(1 / 121000) = .000008264 * (1200 + 50) =1250
Note: Add 50 lines to the total number of line to account for vertical blanking time.

0.000008264 * 1250 = 0..010330579

1 / 0..010330579 = 96.8Hz maximum vertical refresh rate (Convert back to time base)

As long as the horizontal and vertical refresh rates are within the range of the monitor the monitor will display an image.

All this math leads to the following.

There are classes of monitors based on the horizontal scan frequency. Typically as the HSF goes up so does the price of the monitor.

I'm amazed at how many people purchase monitors that are overkill for the resolution or application they want to run. If you need to run 1856 x 1392 or even 2048 x 1536 spend the bucks and buy a high-end monitor. If you are going to run 1280 x 1024 up to 1600 x 1200 on a 21" monitor you can save $$$ by purchasing a monitor that is optimized for those resolutions. Most games for example run at lower resolutions. There is little benefit in purchasing a monitor with higher resolution capabilities than the one you plan to use.

The horizontal scan frequency is the key specification to look at.
70 - 85Khz monitor is optimized for 1024 x 768 at 85Hz
92 - 96Khz class is optimized for 1280 x 1024 at 85Hz
107 - 110Khz monitor is optimized for 1600 x 1200 at 85Hz
115 - 117Khz Monitor is optimized for 1856 x 1392 at 85Hz
121Khz is optimized for 1900 x 1200 Cinema screen

Good Luck

Jim Witkowski
Chief Hardware Engineer
Cornerstone / Monitorsdirect.com
 
Thank you for the very informative analysis. One last question, assuming the monitor with the 121 HSF, if I force it to run at 89Mhz refresh rate, would that be still safe taking into consideration that it's a THEORETICAL maximum?
 
Yes!

As long as the video card stays within the ranges

Horizontal Scan Range = 30-121kHz
Vertical Scan Range = 48-160Hz

The monitor will be fine. What I have found is that when you run resolutions and refresh rates other than those programmed into the monitors memory, some amout of tweaking with the user controls will be nessassary. Size centering pinchushion etc.

Jim
 
You must log in or register to reply here.

TRENDING THREADS

Back
Top