objective measurement of LED luminosity

https://tinyurl.com/s9dqxkm

IMG_1487 by Edmund, on Flickr

IMG_1474 by Edmund, on Flickr

And if you were wondering what a footcandle is:

GE_Footcandle by Edmund, on Flickr

Cheers, Ed

 On reading the article the chart comes from, it does say the CdS cell matches the response of the human eye - hmmm. Though it still does respond to frequencies outside the human range, with a steep dropoff. Perhaps a little filtering to eliminate the effects of non-visible (to humans) light would make it a near perfect match.

                                  --Randy

rrinker

The human eye sees certain wavelnghts better than others

the spectrum on the right is for the human eye

 The image on the left indicates that the CDS cell also favors the center of the visibnle spectrum

 It may be able to tell the relative light intensity, but that's almost meaningless when it comes to human perception. The human eye sees certain wavelnghts better than others. Most greeen LEDs, for example, are way less bright even with the same current than a similar red LED, but the green appears MUCH brighter. The curve for the CdS LOOKS similar to the human eye response, but the scale of the two charts is massively different - I'm not so sure the CdS cell is that identical to the human eye. 

So while a light meter (and the data sheet) may say one LED is 60mcd and another is only 20mcd, to the human eye, the 20mcd might appear brighter, depending on the color. 

                                      --Randy

only -roughly- ...

there is no way a cds cell can measure angle [of the emitter] with any certainty ...

it is limited to the angle obtained in the setup ...