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EMT 112/4 ANALOGUE ELECTRONICS I

EMT 112/4 ANALOGUE ELECTRONICS I. Lecture I Course Overview 31 st December 2008 DKP 3 1700-1800. LECTURERS. Puan Nurul Izza Mohd Nor Block A, Level 3, Jejawi izza@unimap.edu.my 0176377592 Prof.Madya Dr.Prabakaran Proopalan Block A, Level 2, Jejawi prabakaran@unimap.edu.my.

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EMT 112/4 ANALOGUE ELECTRONICS I

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  1. EMT 112/4ANALOGUE ELECTRONICS I Lecture I Course Overview 31st December 2008 DKP 3 1700-1800

  2. LECTURERS • Puan Nurul Izza Mohd Nor Block A, Level 3, Jejawi izza@unimap.edu.my 0176377592 • Prof.Madya Dr.Prabakaran Proopalan Block A, Level 2, Jejawi prabakaran@unimap.edu.my

  3. TEACHING ENGINEERS • Mohd Khairul Mohd Kamil IC Design Lab, Level 9, KWSP mohdkhairul@unimap.edu.my 04 979 8253

  4. COURSE OUTCOMES • CO1: Students will be able to analyze and design various types of amplifier circuits using Bipolar Junction Transistors (BJTs). • CO2:Students will be able to analyze and design various types of amplifier circuits using Field Effect Transistors (FETs).

  5. COURSE OUTCOMES • CO3:Students will be able to understand the concept, define various classes and analyze several circuit configurations of cascade and power amplifiers. • C04:Students will be able to understand the operations and applications of thyristors and other devices.

  6. COURSE CONTENTS 1.SMALL SIGNAL BJT TRANSISTOR AMPLIFIERS • BJT small signal operation • BJT AC equivalent circuits • Common - Emitter amplifier ac configuration • Common - Collector amplifier ac configuration • Common - Base amplifier ac configuration • BJT complete Hybrid equivalent circuit • BJT approximate Hybrid model

  7. COURSE CONTENTS 2.SMALL SIGNAL FET AMPLIFIERS • FET small signal model • FET fixed bias circuit • FET self bias circuit • FET voltage divider bias circuit • Common-Drain ac configuration • Common-Gate ac configuration

  8. COURSE CONTENTS 3.CASCADE AMPLIFIERS • Cascade connection • Cascode connection • Darlington connection • Darlington transistor • Transformer coupling

  9. COURSE CONTENTS 4.POWER AMPLIFIERS • Power Amplifier Classification • Class A power amplifiers • Class B power amplifiers • Class A-B power amplifiers • Amplifier Distortion • Class C and Class D power amplifiers • Transistor Power Dissipation • Thermal Management

  10. COURSE CONTENTS 5. AMPLIFIER FREQUENCY RESPONSE • Basic Concepts • Miller Theorem and Decibel notation • BJT low frequency amplifier response • BJT high frequency amplifier response • BJT complete amplifier response • FET amplifier frequency response • frequency response measurement techniques

  11. COURSE CONTENTS 6. THYRISTORS AND OTHER DEVICES • Shockley Diode • SCR and SCR applications • SCS (Silicon Controlled Switch) • DIAC and TRIAC • UJT • Photo Transistor • LASCR • Optical Coupler

  12. ASSESSMENT • FINAL EXAM : 50% • COURSEWORK : 50% - Lab work : 25% - Tests : 20% - Et Cetera : 5%

  13. COURSE MATERIALS • Main Texts - Donald A. Neamen, ‘Electronic Circuit Analysis & Design, 2nd Ed.’, McGraw Hill International Edition, 2001 • Other references - Thomas L. Floyd, ‘Electronic devices: Conventional Current Version’, 7th ed.’, Prentice Hall - Robert L. Boylestead & Louis Nashelsky, ‘Electronic Devices and Circuit Theory’, 8th ed, Prentice Hall.

  14. COURSE INFORMATION • Lectures Wednesday: 5pm-6pm (DKP 3) Friday: 8am-10am (DKP 3) • Laboratory Sessions Monday(Microelectronic):11pm-1pm (MMG 1) Monday (Electronic): 1pm-3pm (MMG2) Thursday (Photonic): 4pm-6pm (MMG 1)

  15. Thank You & See you this Friday!

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