Doug S
Flashlight Enthusiast
Thanks to Wayne J I have a few more 1W Luxeons on my workbench. I have a total of 7 Luxeon InGaN LEDs that are not permanently in use somewhere. While not a large sample, I decided nonetheless to look at the range of dynamic resistance that they had. Dynamic resistance is a simplified [linearized] model of the IV characteristic applied over a small range of I or V. The Luxeon datasheets list a typical of 1 ohm for the InGaN LEDs [green, cyan, blue, royal blue, and white] but do not specify a min/max range. You need two points to draw a line. I choose test currents of 90 and 400 mA. Voltage measurements were made immediately upon application of current while the die was still close to room temperature. Dynamic resistance, Rd, is calculated as deltaV/deltaI.
Here are the results;
Sample#**Vf90**Vf400**Rd
***1*****3.41**3.82***1.32
***2*****2.99**3.30***1.00
***3*****3.15**3.52***1.19
***4*****2.71**3.21***1.61
***5*****2.74**3.27***1.71
***6*****2.98**3.51***1.71
***7*****2.86**3.11***0.81
Samples 1-3 are recent production whites
Samples 4&5 are recent production cyans
Sample 6 is an early production RB
Sample 7 is an early production white
Other observation, bin codes were known for samples 1-5. Samples 1 and 4 would have had Vf at 350mA outside of their marked code for Vf.
It is interesting that even with this small sample size, over a 2:1 range of dynamic resistance is measured. It is likely that a larger sample would have shown a greater range.
What is the significance of dynamic resistance anyway, you may be asking? It is probably most important to those who are doing mods involving resistive current limiting or direct drive. Direct drive is a special case of resistive current limiting where the only resistance used to limit current is the sum of the battery internal resistance and the LED dynamic resistance. Here is how not accounting for the variability of dynamic resistance can get you in trouble. Say that you build a direct drive mod with a given type of battery. You know the Vf bin code for the LED you use. You run your mod for several sets of batteries and no magic smoke is released. This meets your standards for reliability. You replicate your mod using another LED with the same Vf bin code figuring that if it worked OK once it should again. If it turns out that the first LED had a relatively high dynamic resistance and the second a relatively low dynamic resistance, even though they both had identical Vf bin codes, the second will draw more, possibly much more, current and the magic smoke may show itself.
Here are the results;
Sample#**Vf90**Vf400**Rd
***1*****3.41**3.82***1.32
***2*****2.99**3.30***1.00
***3*****3.15**3.52***1.19
***4*****2.71**3.21***1.61
***5*****2.74**3.27***1.71
***6*****2.98**3.51***1.71
***7*****2.86**3.11***0.81
Samples 1-3 are recent production whites
Samples 4&5 are recent production cyans
Sample 6 is an early production RB
Sample 7 is an early production white
Other observation, bin codes were known for samples 1-5. Samples 1 and 4 would have had Vf at 350mA outside of their marked code for Vf.
It is interesting that even with this small sample size, over a 2:1 range of dynamic resistance is measured. It is likely that a larger sample would have shown a greater range.
What is the significance of dynamic resistance anyway, you may be asking? It is probably most important to those who are doing mods involving resistive current limiting or direct drive. Direct drive is a special case of resistive current limiting where the only resistance used to limit current is the sum of the battery internal resistance and the LED dynamic resistance. Here is how not accounting for the variability of dynamic resistance can get you in trouble. Say that you build a direct drive mod with a given type of battery. You know the Vf bin code for the LED you use. You run your mod for several sets of batteries and no magic smoke is released. This meets your standards for reliability. You replicate your mod using another LED with the same Vf bin code figuring that if it worked OK once it should again. If it turns out that the first LED had a relatively high dynamic resistance and the second a relatively low dynamic resistance, even though they both had identical Vf bin codes, the second will draw more, possibly much more, current and the magic smoke may show itself.