Akademik Dersler - İçerik

Identifies the operation principles of basic electronic circuit elements.
Identifies and explains the operation principles of the diodes. Analyze the diode circuits by utilizing the diode models.
Identifies and explains the operation principles of the BJT transistors.
Identifies and explains the operation principles of the MOSFET transistors.
Identify the commonly used diode circuits.
Explains the diode current-voltage curve.
Composes the diode models using the diode current-voltage curve.
Solves the basic diode circuits using the diode models.
Identifies the commonly used diode circuits.
Designs basic diode circuits.
Analyze basic BJT transistor amplifier circuits.
Explains the BJT transistor large signal current-voltage curve.
Identifies different operating areas of the BJT transistors.
Composes the small signal model of the BJT transistors.
Analyzes the basic BJT amplifier circuits.
Designs larger BJT amplifier circuits by using the basic BJT amplifiers.
Analyze basic MOSFET amplifier circuits.
Explains the MOSFET transistor large signal current-voltage curve.
Identifies different operating areas of the MOSFET transistors.
Composes the small signal model of the MOSFET transistors.
Analyzes the basic MOSFET amplifier circuits.
Designs larger MOSFET amplifier circuits by using the basic MOSFET amplifiers.
Earn ability to design different amplifier circuits by using BJTs and MOSFETs
Uses transistors as digital logic gates.
Be aware of the recent status of microelectronics technology and possible future improvements. Implements a Project by using the concepts and skills developed in this class.
Plans the steps of the project.
Makes the designs.
Tests the designs by using a circuit simulator.
Prepares the necessary elements required for the project.
Assembles the elements of the project and generates the end product.
Assesses whether the end product is working as required or not.