Concept

JFET

Related lectures (65)

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Explores the convergence analysis of the Explicit Runge-Kutta scheme for accurate numerical solutions.

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Covers the simulation of 2D and 1D Field-Effect Transistors using the Non-Equilibrium Green's Function method.

MOS in Saturation

Explores MOS transistors in saturation, covering I/V characteristics, pinch-off behavior, and transconductance.

MOS Parasitics

Covers the MOS I/V characteristics, including triode and saturation regions, deep triode, and second-order effects.

MOS Transconductance: Saturation

Explains MOS transistors in saturation, focusing on transconductance and different operation regions.

Quantum Entanglement

Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.

Modeling of MOS Transistor for Low-power Design

Revisits the modeling of the MOS transistor for low-voltage and low-power analog circuit design, focusing on the EKV charge-based model.

Contacts: Semiconductor Devices II

Explores semiconductor devices historical development, contact resistance, FET characteristics, quantum limit, 2D materials contacts, and charge-injection mechanisms.

Basic Electronics: PN Junction and BJT

Introduces the PN junction, BJT operation modes, and MOS transistor basics.

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Explores MOSFET transconductance, output conductance, and resistance to access in small signal models.

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