EMT 111/4 ELECTRONIC DEVICES (PERANTI ELEKTRONIK)
EMT 111- Electronic Devices LECTURER Pn Syahrul Ashikin Azmi MSc. Electrical Power Engineering, UNSW Australia BEng. Electrical and Electronics Engineering, UTP Room: KKF2, Seberang Ramai, Kuala Perlis, UniMAP Tel: 04-9852813 Email: ashikin@unimap.edu.my Pegawai Latihan Vokasional (Teaching Engineer) En Shuhaimi Zakaria shuhaimi@unimap.edu.my
EMT 111- Electronic Devices WHAT IS ELECTRONIC DEVICES? Concerned with or using devices that operate on principles governing the behavior of electrons such as: Diode Transistor Integrated Circuit (IC)
EMT111-Electronic Devices WHY YOU NEED TO LEARN THIS COURSE? The electronic gadgets such as cellular phones, wireless LANs, computer and audio system exist as a result of advance electronic technology nowadays. Electronic systems are consist of variety of components and each of these components operates according to one or more fundamental principles. To operate with these system, we need to learn the components and principles that are common to all of them. This course serves as a foundation for the next course.
EMT 111- Electronic Devices OBJECTIVES To provide the student with a comprehensive understanding of electronic devices. 2. To learn electronic devices such as diode, bipolar junction transistor and FET 3. Understanding the concept of electronic devices operation 4. Analyze the bias techniques for electronic devices 5. Understanding the application of electronic devices
EMT 111 COURSE OUTCOMES Able to proficient in electronic devices such as diode, bipolar junction transistor and various types of FET. Able to understand the operations of electronic devices Able to analyze the basic biasing techniques for electronic devices. Exercise the theoretical aspects in completing the lab works.
INTRODUCTION TO SEMICONDUCTOR EMT 111: COURSE CONTENT CHAPTER 1 (WEEK 1-2) INTRODUCTION TO SEMICONDUCTOR Atomic Structures Semiconductors, Conductors, and Insulators Covalent Bonds Conduction in Semiconductor N-Type and P-Type Semiconductor The Diode Biasing the Diode Voltage Current Characteristic of a Diode Diode Models Testing a Diode
EMT 111: COURSE CONTENT CHAPTER 2 (WEEK 3-4) DIODE APPLICATIONS Half-Wave Rectifiers Full-Wave Rectifiers Power Supply Filters and Regulations Diode Limiting and Clamping Circuits Voltage Multipliers The Diode Data Sheet Troubleshooting
SPECIAL-PURPOSE DIODES EMT 111: COURSE CONTENT CHAPTER 3 (WEEK 5) SPECIAL-PURPOSE DIODES Zener Diodes Zener Diode Applications Varactor Diodes Optical Diodes Other Types of Diodes System Application
BIPOLAR JUNCTION TRANSISTORS (BJTs) EMT 111: COURSE CONTENT CHAPTER 4 (WEEK 6-7) BIPOLAR JUNCTION TRANSISTORS (BJTs) Transistor Structure Basic Transistor Operation Transistor Characteristic & Parameters The Transistor as an Amplifier The Transistor as a Switch Transistor Packages and Terminal Identification Troubleshooting
TRANSISTOR BIAS CIRCUITS EMT 111: COURSE CONTENT CHAPTER 5 (WEEK 8-9) TRANSISTOR BIAS CIRCUITS The DC Operating Points Voltage Divider Bias Other Bias Methods
FIELD-EFFECT TRANSISTORS (FETs) EMT 111: COURSE CONTENT CHAPTER 7 (WEEK 10-12) FIELD-EFFECT TRANSISTORS (FETs) The JFET JFET Characteristic & Parameters JFET Biasing The MOSFET MOSFET Characteristic & Parameters MOSFET Biasing
EMT 111- Electronic Devices COURSE MATERIALS Lecture notes – portal KUKUM, under ‘Kejuruteraan Sistem Elektrik, semester 1 sesi akademik 2008/09, EMT 111: Electronic Devices’. Text book: T.L Floyd, Electronic Devices Conventional Current Version, 8th edition, Prentice Hall (2007) References and additional reading: Robert T. Paynter, Introductory Electronic Devices and Circuits, 6th Edition, Prentice Hall Robert L. Boylestad, Louis Nashelsky, Electronic Devices and Circuit Theory, 8th Edition, Prentice Hall Donald A. Neamen, Semiconductor Physics and Devices, 3th Edition, McGraw-Hill
EMT 111- Electronic Devices COURSE INFORMATION Lecture’s Time Table DAY TIME ROOM GROUP LECTURER TUESDAY 8:00 AM - 10:00AM DKR4 G5,G6 Pn Syahrul Ashikin FRIDAY 11:00 AM - 12:00 AM DKR2
EMT 111- Electronic Devices COURSE INFORMATION Lab’s Time Table Day Time Lab Group Instructor Tuesday 12:00PM – 2:00PM MKG2 G5 En Shuhaimi & Pn Ashikin Thursday 12:00PM–2:00PM MKG3 G6
EMT 111- Electronic Devices COURSE INFORMATION Lectures - 3 hours/ week ( 3x14 weeks = 42 hours) - Please bring your own lecture note. Print from portal. - Read the related topics in text book before came to the class. Homework/ Assignment/ Quiz Test First test for chapter 1,2 and 3. One hour for 100 mark. Will be held on Week 7. - Second test for chapter 4,5 and 7. One hour for 100 mark. Will be held on Week 12.
EMT 111- Electronic Devices COURSE INFORMATION Lab - 2 hours/ weeks ( 2 x 6 weeks = 12 hours) - No report for experiment. Just fill in the blank and answer the question. - Total 6 experiments throughout the semester. - You may be required to complete pre-lab assignments prior to going into lab. Tutorial - Tutorial 1 (Chapter 1,2 and 3) - Tutorial 2 (chapter 4,5 and 7) Practical test - 2 practical test during lab session - Practical test 1: Week 7 - Practical test 2: Week 12 Final Exam
EMT 111 LAB MODULES LAB 1: INTRODUCTION TO BASIC LABORATORY EQUIPMENT (3rd week) LAB 2: INTRODUCTION TO DIODE (4th week) LAB 3: DIODE AS RECTIFIERS (5th week) LAB 4: ZENER DIODE & VOLTAGE REGULATION (9th week) LAB 5: CURRENT AND VOLTAGE CHARACTERISTIC OF BJT (10th week) LAB 6: VOLTAGE DIVIDER BIASING (11th week)
EMT 111- Electronic Devices TIME DISTRIBUTION 4 credits hour Lecture - 3 hours per week - 14 weeks per semester - 42 hours Laboratory - 2 hours per week - 6 weeks per semester - 12 hours
EMT 111- Electronic Devices MARKING SCHEME 2 Practical Tests 20% 6 Experiments 20% 2 Theory Test 10% Coursework 50% Final Exam 50% FINAL SEM. OVERALL MARK 100%
EMT 111- Electronic Devices Attendance is compulsory