ELECTRIC CIRCUIT II EET 102 COURSE INTRODUCTION LEARNING

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ELECTRIC CIRCUIT II EET 102 COURSE INTRODUCTION

ELECTRIC CIRCUIT II EET 102 COURSE INTRODUCTION

LEARNING APPROACH �LECTURE: 42 HOURS (60%) �LABORATORY: 14 HOURS (20%) �TUTORIAL: 14 HOURS(20%)

LEARNING APPROACH �LECTURE: 42 HOURS (60%) �LABORATORY: 14 HOURS (20%) �TUTORIAL: 14 HOURS(20%)

SYLLABUS �CHAPTER 1: MUTUAL INDUCTANCE �CHAPTER 2: TWO PORT CIRCUITS �CHAPTER 3: INTRODUCTION TO

SYLLABUS �CHAPTER 1: MUTUAL INDUCTANCE �CHAPTER 2: TWO PORT CIRCUITS �CHAPTER 3: INTRODUCTION TO LAPLACE TRANSFORM �CHAPTER 4: FREQUENCY RESPONSE IN AC CIRCUIT �CHAPTER 5: FOURIER SERIES �CHAPTER 6: FOURIER TRANSFORM

LABORATORY �LAB 1: Introduction to Pspice �LAB 2: Linear and Ideal Transformer Simulation �LAB

LABORATORY �LAB 1: Introduction to Pspice �LAB 2: Linear and Ideal Transformer Simulation �LAB 3: Two-Port Networks �LAB 4: Introduction to Laplace Transform �LAB 5: RL and RC Filters �LAB 6: Bandpass and Bandstop Filter (openended lab) �LAB 7: Fourier Series in RL and Circuit Analysis �LAB 8: LAB TEST

EVALUATION �COURSE WORK: 30% ◦ Lab = 20% ◦ Quiz / Assignment = 10%

EVALUATION �COURSE WORK: 30% ◦ Lab = 20% ◦ Quiz / Assignment = 10% �Examination: 70% ◦ Theory test = 20% ◦ Final exam = 50%

TEACHING PLAN WEEKS SYLLABUS WEEK 1 - WEEK 2 CHAPTER 1: MUTUAL INDUCTANCE WEEK

TEACHING PLAN WEEKS SYLLABUS WEEK 1 - WEEK 2 CHAPTER 1: MUTUAL INDUCTANCE WEEK 3 - WEEK 4 CHAPTER 2: TWO-PORT CIRCUITS WEEK 5 SEMESTER BREAK (JAN 31 - FEB 06) WEEK 6 - WEEK 8 CHAPTER 3: INTRODUCTION TO LAPLACE TRANSFORM WEEK 9 - WEEK 10 CHAPTER 4: FREQUENCY RESPONSE IN AC CIRCUIT WEEK 11 - WEEK 12 CHAPTER 5: FOURIER SERIES WEEK 13 - WEEK 14 CHAPTER 6: FOURIER TRANSFORM WEEK 16 REVISION WEEK (APR 18 – APR 24) WEEK 17 - WEEK 19 FINAL EXAM (APR 25 – MAY 15)

REFERENCE BOOKS �MAIN REFERENCE: ◦ Alexander C. K. & Sadiku M. N. O. (2009).

REFERENCE BOOKS �MAIN REFERENCE: ◦ Alexander C. K. & Sadiku M. N. O. (2009). Fundamental of Electric Circuits. Fourth Edition. Mc Graw Hill. �OTHER REFERENCES: ◦ Nilsson J. W. & Riedel S. A. (2011). Electrical Circuits. Ninth Edition. Pearson – Prentice Hall. ◦ Hayt W. H. , Kemmerly J. E. & Durbin S. M. Engineering Circuit Analysis. Seventh Edition. Mc Graw Hill.