Difference between revisions of "220-A3.1"
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[[File:NMOS char sch.png|thumb|300px|Figure 1: A circuit to obtain the V-I characteristics of an NMOS transistor.]] | [[File:NMOS char sch.png|thumb|300px|Figure 1: A circuit to obtain the V-I characteristics of an NMOS transistor.]] | ||
The transfer characteristics of an NMOS transistor is the relationship between the gate-source voltage, which serves as the "input" port of a common-source amplifier, and the "output" drain current. To simulate the transfer characteristic of our 45nm NMOS PTM model, we can use this SPICE file and this Python script. | The transfer characteristics of an NMOS transistor is the relationship between the gate-source voltage, which serves as the "input" port of a common-source amplifier, and the "output" drain current. To simulate the transfer characteristic of our 45nm NMOS PTM model, we can use this SPICE file and this Python script. | ||
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| + | == NMOS Output Characteristics == | ||
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| + | == Activity: PMOS V-I Characteristics == | ||
Revision as of 14:51, 14 October 2020
Activity: MOSFET Characteristic Curves
- Instructions: This activity is structured as a tutorial with an activity at the end. Should you have any questions, clarifications, or issues, please contact your instructor as soon as possible.
- At the end of this activity, the student should be able to:
- Generate the characteristic curves of NMOS and PMOS transistors.
NMOS Transfer Characteristics
The transfer characteristics of an NMOS transistor is the relationship between the gate-source voltage, which serves as the "input" port of a common-source amplifier, and the "output" drain current. To simulate the transfer characteristic of our 45nm NMOS PTM model, we can use this SPICE file and this Python script.
