touge_ae101 wrote:from my understanding of a LED is that it acts as a small resistor due to the voltage drop across the diode and that why you can run them straight off a 12V or similar source. its more about the characterstic of the diode rather than having a built in 'resistor'. this is probably a theoretical representation of the resistance the diode itself causes by dropping the voltage 0.7V.
haven't brushed up on my digital electronics in a while so correct me if i'm wrong, i just thought someone would have mentioned this by now.
You could not be more wrong.
Even if LED was linear device voltage drop across it would be exactly what the supply voltage is. So say 50 Ohm resistor plugged into 12V source will have 12V across it. same 100kOhm.
Closest thing what you describe is a light bulb - the hotter it is, more resistance it has. So light bulb is quiet tolerant of what voltage it runs off to a degree.
For LED it behaves same same way as standard diode more or less (except initial voltage is a bit higher), so more voltage you apply LESS resistance it has = more current goes through the LED. Imagine if you would connect a standard diode to 12V in conductive configuration. It would go "poof" within milliseconds. Semiconductors are not linear devices and exhibit a higher conductivity with higher voltage/temperature (temperature aids in electron-hole flow).
Unlike common misconception LED have operating current (not voltage), they only require a certain voltage to turn on, but when you calculate limiting resistor you calculate the current that will go through LED, because LED have certain current that they have peak efficiency at.
