Interpreting the Data Sheet for the LED

The data sheet for the LEDs may seem a little mysterious if you're not used to the units being used. The red LED that we are using has the model number MV5753.Diode Data Sheet

To determine the typical power output of the MV5753, we use the typical value of the Luminous Intensity. What is the Luminous Intensity? It's the amount of power fluxing through one Steradian (assuming a point-like source). So we look at the data sheet and see that for the MV5753 running with 20 mA of forward current, the Luminous Intensity is about 6 mcd.

So what's a cd? It's a unit called the candella (or candle, used loosly). One candela is equal to a , where a lumen is a unit of power. However, the conversion factor between lumens and Watts is a function of the wavelength of the light being discussed. For historical reasons, light intensity was measured with the eyeball and recorded in (basically they didn't have photodiodes way back when. Why they continue to use this unit is a mystery to me). So to convert between the lumen and the Watt, we need to know the response of the human eye. The French have a "standard eyeball" curve, shown below (it's reproduced from the General Instrument Catalog of Optoelectronic Products (1980)).

Here's a sample conversion. Say we're talking about the MV5020, which emits (the minimum according to the data sheet) of radiation at 660 nm. Looking at the "eyeball" curve, we see that at this wavelength, one Watt is equivalent to 41.4 lumens. So to express the power of the MV5020 in lumens, we just crank out the math:

So, just to bring everything together, let's do another sample calculation. Say we want to find the typical power output of the MV5020 in Watts, given a typical luminous intensity of 2.0 mcd. Here's how it goes: