brightness settings, both its white luminance and black level compare favorably with those of traditional CRT displays. (At the low end of this range, the monitor’s black level will typically be approximately 0.05 cd/m2.)
As with several other parameters set in the color space presets, the programming of the backlight controller is managed either through the LP2480zx’s
Transfer Function (Gamma)
As noted briefly in the previous section on Color Space Emulation on page 34 in this Appendix, display devices typically impose a
Figure A-6 Gamma Curve Response Characteristic
This model, with a “gamma” value of about 2.2 – 2.5, describes the actual response of a standard CRT display fairly well,* and so was assumed for years to be the typical response curve of an electronic display device. As it turns out, encoding image information under the assumption of an output device response of this nature has other advantages, and so it remains very common for standard output device specifications to require a transfer function or response curve which is of this general nature. The most common modification to this simple model as seen in many current output device or image encoding standards is the addition of a linear region at the lower end of the response curve, as shown in the following diagram. This linear region avoids problems, which otherwise would result from applying the inverse of the response curve (in image encoding), as otherwise the slope of the curve would be changing very rapidly in the low-luminance regions of the image.
NOTE: * The biggest shortcoming of the simple gamma curve model as given, with respect to CRT displays, is that the black level of the input signal (assumed to be zero) does not generally result in exactly zero luminance for a
