#### 20 Apr 2007 jkkroll»(Master)

Spoka Pt. III - Choosing current limit resistors & color mapping

I was just realizing that I didn’t put values in for the LED current limiting resistors on the schematic, so I thought I would add a little detail regarding their values and how I chose them. I decided from the start to limit the current through each LED to 15 mA. Each PIN on the AVR can source 40 mA so no problem there, but the entire chip can only source 200 mA total. 7 LEDs X 15 mA = 105 mA. Should be no problem. Plus room to spare when the device is AC powered.

First and easiest was the red. I placed my meter in diode check mode and measured the voltage drop across the LED (Vf) as 1.74V. Measuring the battery output as 3.8V, we get a margin of (3.8-1.74=2.06V) which must be limited to .015A. Dividing the two we get (2.06V/.015A=137Ohms). Putting a 220 and a 330 in parallel gives me (220*330)/(220+330)=132. Close enough.

The blue and green LEDs had too high of a Vf for my meter to read in diode check mode. I knew however that the blue LEDs in the original circuit had a 20 Ohm resistor, so I figured that anything larger should be OK, so I scrounged around and found some 47 Ohm resistors. I soldered these to the LEDs and applied the power, then used the meter to measure the voltage across them. I got 3.16V for the green and 3.07 for the blue.

Green: (3.8V-3.16V=0.64V) (0.64V/0.015A=42 Ohms) Just leave in the 47 Ohms.

Blue: (3.8V-3.07V=.73V) (.73V/.015A=49 Ohms) Again, just leave in the 47 Ohms.

Worst case voltage should be 4.8V when the AC is plugged in. This will give (4.8-1.74)/132= 23mA for the red, (4.8-3.16)/47=35mA for the green, and (4.8-3.07)/47=37mA for the blue. All within the per-pin limit of 40mA. Total output would be (3*23)+(2*35)+(2*37)=213mA. Hmmm, I wouldn’t put out a production unit with numbers like that, but for a hack, it’s not too far off.

I was explaining to my wife the kinds of things I could do with this when it is PC controlled, like changing color according to the speed of a download. This reminded me of an article I saw a while back, “Rainbow LED Indicates Voltage with Color.” This article gives a nice mapping of value to color for the range of 0-255, but it is centered around 128. In other words 128 gives black (all off), 128 gives reddish tints. This might be handy for some things, but not for others. So I did some research on “color scales” and here are a few interesting links:

Syndicated 2007-02-12 20:53:01 from robotguy.net/Blog

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