DMT 234 INTRODUCTION TO SEMICONDUCTOR PHYSICS DEVICES LECTURER

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DMT 234 INTRODUCTION TO SEMICONDUCTOR PHYSICS & DEVICES

DMT 234 INTRODUCTION TO SEMICONDUCTOR PHYSICS & DEVICES

LECTURER EN. MOHD. SALLEHUDIN BIN SAAD sallehudin@unimap. edu. my +6012 -3736158

LECTURER EN. MOHD. SALLEHUDIN BIN SAAD sallehudin@unimap. edu. my +6012 -3736158

COURSE OUTCOMES At the END of the course students will : § Able to

COURSE OUTCOMES At the END of the course students will : § Able to explains theory of semiconductor physics and devices. (CO 1). § Ability to evaluate a problem and performance issues in semiconductor processes. (CO 2). § Able to differentiate semiconductor devices behaviors. (CO 3).

COURSE OUTCOMES MATRIX √ √ PO 11 PO 10 √ PO 9 PO 8

COURSE OUTCOMES MATRIX √ √ PO 11 PO 10 √ PO 9 PO 8 √ PO 7 C 4 A 3 PO 6 CO 3: Able to differentiate semiconductor devices behaviors. √ PO 5 C 5 A 3 PO 4 CO 2: Able to evaluate a problem and performance issues in semiconductor processes. √ PO 3 C 2 A 3 √ √ √ PO 2 CO 1: Able to explain theory of semiconductor physics and devices. PO 1 Domain and Taxonomy Levels (Maximum Level) Course Outcome (CO) Possible Assessment Presentation, Assignment, Test, PBL, Examination. Presentation, Assignment, Test, PBL, Quiz, Examination Presentation, Assignment, Test, PBL, Examination.

LEARNING APPROACH TOTAL LEARNING HOURS • 54 hours in 14 weeks. § Lecturer •

LEARNING APPROACH TOTAL LEARNING HOURS • 54 hours in 14 weeks. § Lecturer • 36 hours : ( 2 hours + 1 hour per session ) once per week. § Tutorial • 12 hours : ( 2 hours per session ) once per week. § Attendance at all session are COMPULSORY.

TIMETABLES LECTURER : § WEDNESDAY : 10. 00 AM – 11. 00 AM (

TIMETABLES LECTURER : § WEDNESDAY : 10. 00 AM – 11. 00 AM ( 1 hours session ) : ( BK 19 ) § FRIDAY : 8. 00 AM – 10. 00 AM ( 2 hours session ) : ( BK 19 ) TUTORIALS : § GROUP 1 : § GROUP 2 :

EVALUATION CONTRIBUTION § Final examination : 50% • (October 2017) § Mid Term Examination

EVALUATION CONTRIBUTION § Final examination : 50% • (October 2017) § Mid Term Examination 1 : 10% • (18 -22 July 2017) § End Term Examination 2 : 10% • (12– 16 September 2017) § Course work : 30% • Quiz : 5% • Assignment : 15% • PBL : 10%

MAJOR TOPICS DMT 234 INTRODUCTION HISTORY CURRENT TECHNOLOGY SEMICONDUCTOR PHYSICS SEMICONDUCTOR DEVICES CRYSTAL STRUCTURE

MAJOR TOPICS DMT 234 INTRODUCTION HISTORY CURRENT TECHNOLOGY SEMICONDUCTOR PHYSICS SEMICONDUCTOR DEVICES CRYSTAL STRUCTURE P-N JUNCTION P-N DIODE SEMICONDUCTOR IN EQUILIBRIUM METAL SEMICONDUCTOR CARRIER TRANSPORT BIPOLAR TRANSISTOR SEMICONDUCTOR IN NON-EQUILIBRIUM MOSFET

COURSE CONTENTS § Chapter 1 : Introduction to Semiconductor Physics and Devices. PART 1

COURSE CONTENTS § Chapter 1 : Introduction to Semiconductor Physics and Devices. PART 1 : Semiconductor Physics. § Chapter 2 : The Crystal Structure of Solids. § Chapter 3 : The Semiconductor in Equilibrium. § Chapter 4 : Carrier Transport Phenomena § Chapter 5 : Non-equilibrium Excess Carriers in Semiconductors. PART 2 : Semiconductor Devices. § Chapter 6 : PN Junction. § Chapter 7 : Bipolar Transistor. § Chapter 8 : Fundamental of the Metal-Oxide-

TEACHING PLAN § Please refer to Teaching Plan DMT 234 Semicondutor Physics & Devices.

TEACHING PLAN § Please refer to Teaching Plan DMT 234 Semicondutor Physics & Devices.

TUTORIAL SESSION § § § § Tutorial 1 : W 3 – Chapter 1/2

TUTORIAL SESSION § § § § Tutorial 1 : W 3 – Chapter 1/2 Tutorial 2 : W 6 – Chapter 3/4 Tutorial 3 : W 7 – Chapter 5 Tutorial 4 : W 10 – Chapter 6 Tutorial 5 : W 12 – Chapter 7 Tutorial 6 : W 14 – Chapter 8 Tutorial group : 4 -6 person each GROUP. Group No : § Group 1 : (1 A, 1 B, 1 C, 1 D, 1 E, 1 F) § Group 2 : (2 A, 2 B, 2 C, 2 D, 2 E, 2 F)

SEMESTER 1 SESSION 2015/2016 DISTRIBUTION GRADES

SEMESTER 1 SESSION 2015/2016 DISTRIBUTION GRADES

SEMESTER 1 SESSION 2016/2017 DISTRIBUTION GRADES

SEMESTER 1 SESSION 2016/2017 DISTRIBUTION GRADES

PNGK CLASSIFICATION REPORT LAPORAN PENGKELASAN PNGK PERATUS PELAJAR 36. 76% 17. 65% 3. 00

PNGK CLASSIFICATION REPORT LAPORAN PENGKELASAN PNGK PERATUS PELAJAR 36. 76% 17. 65% 3. 00 - 3. 66 2. 50 - 2. 99 2. 00 - 2. 49 4. 41% 32. 35% 3. 67 - 4. 00 3 8. 82% 6 12 22 25 BILANGAN 1. 99 ke bawah

PNG CLASSIFICATION REPORT LAPORAN PENGKELASAN PNG PERATUS PELAJAR 3. 67 - 4. 00 3.

PNG CLASSIFICATION REPORT LAPORAN PENGKELASAN PNG PERATUS PELAJAR 3. 67 - 4. 00 3. 00 - 3. 66 2. 00 - 2. 49 5. 88% 4 2. 50 - 2. 99 19. 12% 27. 94% 30. 88% 16. 18% 11 13 19 21 BILANGAN 1. 99 ke bawah

ACADEMIC STATUS ANALYSIS (PNG & PNGK) 3. 93 4. 5 3. 65 3. 14

ACADEMIC STATUS ANALYSIS (PNG & PNGK) 3. 93 4. 5 3. 65 3. 14 4 3. 75 2. 98 3. 5 2. 57 2. 58 2. 92 2. 73 3. 67 3. 13 2. 76 2. 28 2. 73. 13 3. 39 3 2. 03 3. 86 3. 14 2. 73 2. 5 2. 78 3. 07 3. 73 2 3. 42 2. 73 3. 73 1. 5 3. 22 3. 49 3. 11 1 3. 01 2. 25 0. 5 2. 98 1. 91 2. 83 0 2. 66 2. 84 3. 41 2. 44 2. 93 2. 11 2. 48 3. 09 2. 75 2. 36 2. 56 1. 96 3. 4 2. 54 3. 34 2. 13 3. 043. 38 3. 122. 7 2. 281. 98 2. 13 2. 25 2. 69 2. 943. 2 2. 89 2. 6 2. 95 3. 233. 4 PNGK

ACADEMIC STATUS ANALYSIS (PNG & PNGK)

ACADEMIC STATUS ANALYSIS (PNG & PNGK)

TREND TECHNOLOGIES

TREND TECHNOLOGIES

BASIC DEVICES

BASIC DEVICES

INTEGRATED CIRCUIT (IC)

INTEGRATED CIRCUIT (IC)

MICROCHIP

MICROCHIP

SAMSUNG GALAXY TAB

SAMSUNG GALAXY TAB

IPHONE 5 S

IPHONE 5 S

TAKE A SIT & RELAX § Please watch this video and DON’T SLEEP! VIDEO

TAKE A SIT & RELAX § Please watch this video and DON’T SLEEP! VIDEO 1

REFERENCES § Donald A. Neamen. Semiconductor Physics and Devices : Basic Principles, 4 th

REFERENCES § Donald A. Neamen. Semiconductor Physics and Devices : Basic Principles, 4 th ed. , New York, Mc Graw Hill (2012) § S. M. Sze, Semiconductor Devices: Physics and Technology, 2 nd Ed. , John Willey & Sons, Inc. , 2002.

ANY QUESTION? ?

ANY QUESTION? ?

SEE YOU LATER!

SEE YOU LATER!