To investigate the variation of current ( I ) with pd ( V ) for a semiconductor diode
When a voltage source is connected to a semiconductor diode a current flows through the diode. In this experiment we investigate how the current flowing through the diode varies with different voltages applied across it when it is forward biased and when it is reverse biased..
Procedure:
- Note that the diode is forward biased and that current is 0 when voltage is 0. Record voltage and current values in a table as shown below.
- Click on the right hand side of the slider at the top to increase the voltage from the potentiometer
- Record the voltage and current readings from the voltmeter and milliammeter
- Repeat steps 2 and 3 until you have exceeded the junction voltage and the current increases rapidly.
- Set the slider to minimum (left hand side)
- Click on the "Reverse Bias" button to reverse bias the diode. Note the changed positions of the meters.
- Click on the "12 Volt Supply" button
- Repeat steps 2 to 4 for the reverse biased diode
Analysis:
Draw a graph of current (y-axis) against voltage to determine the relationship between them. When the diode is forward biased the current is measured in milliamps, when reverse biased the current is measured in microamps. Make sure you understand the significance of the graph in terms of forward and reverse bias and junction voltage.
Precautions:
- Use a microammeter when the diode is reverse biased as the current flowing is extremely small
- Change the positions of the microammeter and voltmeter (reverse biased) so that the current flowing through the diode is the only one registered in the microammeter (not current through the voltmeter)
