A concept breadboard: The graticule is a piece of 0.093 inch thick acrylic plastic with lines scratched in it -- it fits nicely in the laptop's window. (The lines are on the side closest to the screen). The illumination comes from 4 red high-output T-1 3/4 Radio Shack LEDs sanded down to 0.093 thick and then super-glued to each corner cut at a diagonal -- a critical trick is to couple as much of the light into the plastic as possible. (For some unknown reason the upper right LED bit the dust after working for awhile -- hypothesis is these LEDs don't like reverse voltage accidentally applied to them.) Each LED is being driven with the +5 volts from the laptop through its own 499 ohm resistor. With these high-intensity LEDs this is more than enough light; a single potentiometer might serve to provide an overall intensity-adjustment.) As the bright corner LEDs are a bit distracting, a finished graticule requires a "mask" (partly visible at the top of the photo -- it is folded upward). The mask can also provide a good place to write numbers -- I'm writing with pencil on the laptop's bezel right now. I've found that red is the best color. I tried green and red (they mix to form yellow) but this did not have enough contrast. Blue might work and would look sharp-- e.g. a likely candidate is the high-intensity (1500 millicandellas) T-1 blue Kingbright LED lamp WP7104QBC/D gotten from www.mouser.com ($0.18 each in 100's.) A reddish-orange high-intensity T-1 LED (1300 millicandellas) is the WP7104SEC/E ($0.15 each in 100's). A red 900 millicandela T-1 is the WP7104SRC/E ($0.06 in 100's). Tinfoil along the edges to reflect the light back are visible on the laptop's keyboard -- not a very successful experiment. (I've polished the edges -- I've tried bevelling but the jury is out as to whether the LEDs' light can successfully enter at an angle.) The breadboard circuit shown here is a 1:50 attenuator plus an adjustable-gain amplifier -- final design TBD.