Homework SourseMOSFET Transistor CurrentVoltage Characteristics USE PSPICE
MOSFET Transistor Current-Voltage Characteristics (USE PSPICE)
Objective:
To study the transfer characteristics of the Metal Oxide Semiconductor Field Effect Transistor (MOSFET) through laboratory experimentation.
Pre-Lab:
Acquire the necessary parts to perform the experiment. Note the instructor will supply the MOSFET.
List of Parts:
Obtain a CD4007 integrated circuit from the instructor.
Resistor; 1KW
Procedure:
1) To determine the relationship between the drain current ID and the gate-source voltage VGS for an N-Channel MOSFET, construct the circuit in Figure 1, using a 1K resistor. Connect pin 14 to 10V and pin 7 (the body) to 0V. Apply a sinusoidal waveform varying from 0 to 5V with a frequency of roughly 1kHz to Vin so that Vin is swept from 0 to 5V. Take measurements to form a plot of ID vs Vgs. From this curve determine VTN.
2) To determine the relationship between the drain current ID and the drain-source voltage, VDS, for an N-Channel MOSFET, connect the circuit in Figure 2 using the MOSFET and a 1Kohm resistor. Connect pin 14 to 10V and pin 7 (the body) to 0V. Adjust the gate-source voltage to VTN + 1V. Vary Vin from 0 to 10V using a function generator (~1kHz again). Take measurements to plot ID vs Vds.
3) Repeat Step #2 for additional values of VGS = VTH + 1.25V, VGS = VTH + 1.5V, VGS = VTH + 1.75V, VGS = VTH + 2V (You should have 5 traces, including those from step 2)
Figure 2
Figure 1
| Figure 2 |
Solution
It is all experimental, the traces that are seen are on the CRO , so actually regarding your question you need to be more specific.
I can tell you the equations with which you can solve it, but it is practical stuff and I can not guide you to that like this.
