SRM UNIVERSITY FACULTY OF ENGINEERING AND TECHNOLOGY SCHOOL OF BIO ENGINEERING DEPARTMENT OF BME Course Code: BM0205 Course Title: Circuits and s Semester: B.Tech III Sem (July 13-Dec 13) LESSON PLAN Course Timings: DAY ORDER 1 2 3 4 5 6 7 1 2 3 4 5 Location : Architecture block (4 th floor) Faculty Name : Ms.U.Snekhalatha Faculty email id : snehalatha.u@ktr.srmuniv.ac.in
REFERENCES 1. Sudhakar, A. And Shyam Mohan.S.P, Circuits and s Analysis and Synthesis, Tata McGraw Hill Publishing Co. Ltd. New Delhi 1994 2. Arumugam & Premkumar, Electric Circuit Theory, Khanna Publishers.2002 Objectives: 1. Understand about analysis of complex circuits using mesh current & nodal voltage method and s 2. Get an insight into solution of RLC circuits, analysis of coupled circuits 3. To understand the concept of complex frequency & free and of RL, RC & RLC circuits 4. s in Foster and Cauer form Students who have successfully completed this course Course outcome Program outcome 1. Deep knowledge about the s 2.Ability to analyze the transient circuits and analysis Ability to analyze the complex circuits and coupled circuits.
Unit Unit I Unit II I Unit III I (T1,T2) Unit IV I (T2) Unit V I (T2) (T1) (T1) Title Basics Of Circuit Analysis And Theorems Ac Circuits- Steady State Analysis Transient Analysis Realizability Theory One Port Synthesis Session 1 Ideal sources - Dependent and Independent sources voltage, Current relationship of R,L,C circuits Concept complex frequency - of analysis- synthesis- Definitions LC driving point immittance function- Session 2 KCL and KVL - Formation of matrix equations voltage, Current relationship of RL,RC & RLC circuits representation of elements in time domain functions of one port and two port s driving point RC impedance Session 3 analysis of complex circuits using mesh-current and methodsand nodal voltage methods. power & Power factor- series resonance, representation of elements in frequency domain Poles and Zeros of functions driving point RL admittance functions- Session 4 Thevenin's Theorem & Norton's Theorem Parallel resonance - Q factor - Bandwidth. Free RL,with and of DC Parameters: z, y, driving point RL impedance Session 5 Superposition Self Inductance Free and of RC circuits with DC Parameters:, h, inverse-h, driving point and RC admittance functions Session 6 Maximum power transfer Mutual Inductance Free and of,rlc circuits with DC Parameters: ABCD Foster form I and II-LC Session 7 compensation Theorem Coefficient of coupling -dot ruleeffective inductance of coupled coils in series & in parallel Free and of RL with sinusoidal Causality and Stability analysis of functions- Foster form I and II-RC
Session 8 Reciprocity Analysis of coupled circuits - Single tuned and circuits. Free and of RC circuits with sinusoidal Hurwitz polynomial Cauer form I & II LC. Session 9 Millman's & Tellegen's Analysis of coupled circuits - double tuned circuits. Free and of,rlc circuits with sinusoidal Positive Real Functions Cauer form I & II RC. Total hours: 45 Test Portions: Cycle test I: Unit 1 Cycle test II: Unit 2 Model Exam: All 5 units Assessment details: Cycle Test 1-10 marks Cycle Test 2-10 marks Surprise Test 1-5 marks Model Exam - 20 marks Attendance - 5 marks