LED Junction temperature measurement using forward voltage method

LED performance highly dependence to junction temperature. Therefore, LED junction temperature is one of the important parameter in LED. Until now, there are two kinds of measurement method which can be used for determining LED Junction temperature, Forward voltage method and Shift wavelength method. This article will discuss about LED junction measurement temperature using forward voltage method.

Forward voltage method based on the temperature dependence of diode forward voltage. Since LED is diode, this dependence also occurs at LED. The simple explanation of this dependence is the difference temperature will result different forward voltage, although current flows are same. For example, let’s say LED junction temperature is 20 Celsius and current is 20 mA, the forward voltage 2 Volt. Then when the junction temperature increase, let’s say 40 Celsius, the forward voltage will decrease, may be 1.96 volt. This kind of relation can be used for determining junction temperature.

This method contains two steps, calibration measurement and actual measurement. The function of calibration measurement is to get the reference data. For calibration measurement, we need several equipments: oven, pulse generator, oscilloscope, thermocouple, resistor (if using pulse voltage generator).

LED is put and heated inside oven until certain temperature. Then it is injected by pulsed current using pulse generator. The current must be same with the operating current of the LED. Then, measure forward voltage of LED. This measurement is repeated again with different temperature by increasing set point temperature of oven. It can be done by choosing several temperatures, such as: 20, 40, 60,..,120 Celsius. By this way we will get the relation between temperature and forward voltage.

There are several important things that we have to consider:

1.        Duty cycle from pulse generator must be very low, such as 0.1%. By using very low duty cycle, so heat dissipated from LED can be neglected, thus oven temperature can be assumed is same with LED Junction temperature. Finally, we can establish relation between Junction temperature and forward voltage.
2.    Thermocouple is used to make sure the oven temperature. Thermocouple must be put close to the LED. 
3. To make sure that LED temperature is same with oven temperature, LED must be waited inside oven for while after oven has achieved set point temperature. It can be 30 minutes or longer. 
4. If there are differences between set point temperature and temperature shown by thermocouple, so choose the temperature which is shown by thermocouple. It is because thermocouple is put close to LED, while temperature sensor at oven system may be at the other place.

The data from calibration measurement can be drawn as a graph. This graph is usually very linear. We can do the linear regression.

Next step is actual measurement. At this measurement, LED is put at the operating place and supplied by operating current. It may be DC current. When the LED is supplied by DC current, its voltage will decrease and achieve stable condition after a while. So, at this measurement, LED must be waited until it achieves stable condition. Approximately it will take 2 minutes. After that we can measure the forward voltage of LED by voltmeter or multimeter.

This forward voltage can be used to determine junction temperature measurement. Data from calibration measurement is used as reference. For example, the voltage from actual measurement is 1.7 Volt. Then, we can search what temperature shown when the forward voltage is 1.7 Volt.