Lectures related to Diode Junction PN: Fundamentals and Applications

Diodes and Applications

Explores the operation of diodes, including Zener diodes and LEDs, and their applications in rectifiers and voltage stabilization circuits.

Diode Schottky and PN Heterojunctions: Band Structure Analysis

Covers the construction of band diagrams for Schottky diodes and PN heterojunctions in semiconductor physics.

Temperature Analysis: Reference Circuits

Explores temperature-independent biasing circuits, negative-TC references, diode-referenced self-biasing circuits, and bandgap references in low-voltage ICs.

Diodes and Transistors: Electrical Characteristics and Applications

Discusses the principles of diodes and transistors, focusing on their electrical characteristics and applications in electronics and solar energy.

Semiconductor Physics: Diodes and Solar Cells

Explores semiconductor physics, diodes, breakdown voltage, and solar cell efficiency, emphasizing the real I-V characteristics and the features of specific diodes and solar cells.

Electrical Circuit: Fixed Point Methods

Explores applying fixed point methods to solve electrical circuit equations and find diode voltage.

Semiconductor Junctions: Electric Fields and Currents

Covers semiconductor junctions, focusing on electric fields, current flow, and diode characteristics.

Introduction to Electronics: Passive and Active Components

Introduces passive and active electronic components and their behavior in circuits.

Diode Characteristics: Ideal p-n Junction Analysis

Explains the analysis of ideal p-n junction diodes, focusing on current calculations and minority carrier behavior under different bias conditions.

Real PN Diodes: Generation and Recombination Currents

Covers the behavior of real PN diodes, focusing on generation and recombination currents and their implications in various operational conditions.

Diodes and Transistors: Principles and Characteristics

Provides an overview of diodes and transistors, focusing on their principles, characteristics, and operational mechanisms in electronic circuits.

Diode and Its Applications

Explores diode characteristics, rectification, AC-DC conversion, and voltage regulation applications.

PN Junctions: Equilibrium and Band Diagrams

Covers the behavior of p-n junctions at equilibrium, including voltage effects on Fermi energy and depletion regions.

Junction Diode: Physical Principles

Explores the physical principles of the junction diode, including energy levels, doping, conduction mechanisms, and diode characteristics.

Semiconductor Components: Band Diagram Interpretation

Covers the interpretation of band diagrams in semiconductor components, focusing on pn junction diodes and their behavior under applied voltage.

Rectifiers and Amplifiers

Explores rectifiers, amplifiers, peak detectors, and sample-and-hold circuits in analog systems.

Breakdown Voltage in NPN Transistors: Analysis and Examples

Covers the breakdown voltage in NPN transistors, focusing on the avalanche effect in common base and common emitter configurations.

Understanding Ohmic Contacts: Schottky and Avalanche Effects

Covers the principles of ohmic contacts and their significance in semiconductor devices.

Photovoltaic Devices and Light Emitting Diodes

Provides an overview of photovoltaic devices and light emitting diodes, focusing on their mechanisms, efficiency factors, and material considerations.

Diode Schottky: Electrical Characteristics and Modeling

Covers the Schottky diode's structure, electrical characteristics, and modeling under various biasing conditions.