![]() One has been saying the same thing all along (me) the other 2 have convincingly disagreed, and you have not gotten your monitor calibrated following their directions. You are being given advice from three people. I will try again with Displa圜all now in a different User profile. RGB monitor settings to match the software suggestion: R97 - G100 - B94.Profile settings, I changed just the Version 2.Ambient Light Smart Control, not checked because to do this calibration I switched off all the lights and the other screens, should I activate it later?.Measure and adjust for flare, not checked because I'm in almost darkness to make this calibration.Contrast Ratio measured with a black patch on the screen, shuld I use the "Native" option?.White point D65, you all said to try with a different color temperature, do I have to put it here right? There is an option also to measure this with ambient light or a peace of paper, should these be other solutions?.I reset again the monitor and the native color profile of the monitor to try again with these settings: The generally usable range for whitepoint is between 5000K and 6500K so stay between those parameters unless you have a very good reason to stray outside that range.ĭefinitely try a V2 profile rather than V4 You may need to tweak and iterate the calibration to find a white that matches that of your printed images. With 'whitepoint' higher numbers are colder / bluer - lower are warmer - more yellow / orange (that’s a subtle tint of course). The "whitepoint" if targeted to the native white colour of the screen may be too cool (blueish) - if you see that when allowing native whitepoint (as you appear to have done which seems to have given you a result of 7061 K) then I suggest testing 6000 K as a whitepoint target, just as a starting point. Try a white luminance target level around 120 Cdm2 - your room light should be subdued which would make that acceptable. Checking the shadow and highlight detail on the display to the standard proof provides an easy way to tweak the brightness to get you to the proof. I have the same monitor, but am in a 5000k ISO standard lighting situation as the adapted white and have calibrated proofs to match, so for me dropping a proof in a light booth and checking and adjusting the monitors color temp to the CMYK standard profile displayed on Absolute colorimetric rendering is the easiest way to get to the monitors whitepoint. Then since measurement doesn't equal visual in these situations, just take note of where the monitor is calibrated when it completes. That will get you close the correct monitor brightness and color temp to the ambient light you have now. So Brightness can be adjusted by checking the ambient light check box in the calibration dialog. The reason being that color temperature and brightness are environmental factors that none of us can know, but you. I do not recommend a generic color temperature, nor do I recommend a generic brightness. Yes, he's correct in that you want to calibrate to the monitor's native white point, but getting there without a proof is more difficult. ![]() Fosse suggested try a different color temperature. That is why I recommended having a standard proof and CMYK profile. Unless you have a proof to match it will be a bit of guesswork to adjust the white point of your display. Ok, that's to be expected with a "General calibration" method. Then, when all this is done, run the calibration and profiling. Version 2 is normally safer if you run into issues. While that usually works well, some applications may have problems with that. I see i1Profiler is set to version 4 profiles. Do this in the monitor's OSD controls too. A white piece of paper is your visual reference. You want it to look neutral white, as if you looked at a piece of white paper. If it's too yellow, adjust it towards blue. ![]() There is no particular reason to accept the white point color that the software presents you with. The result is increased risk of banding (stairstepping) in smooth gradients. The reason you should do this natively in the monitor, instead of letting the calibration tables knock the brightness down, is that the latter operates at 8 bit color depth, and any brightness reduction eats from that limited bit depth. The software has a function for this, shown in one of your screenshots. Do this with the monitor's OSD controls for brightness, while monitoring with the i1Profiler software. First of all you need to dial down the white level to around 120 cd/m².
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