Prerequisite :
Aim :
Developing Basic Fundamentals about Electrical
Engineering. Content :
Kirchhoff's Laws: KCL, KVL and their limitations.
Classification of devices of an electrical circuit; Basic
devices: resistors, controlled sources, diodes,
capacitors and inductors, ideal transformers. Basic
circuit analysis methods: nodal, mesh and modified
nodal-analysis. Transient analysis of RL, RC and RLC
circuits. Network Theorems: Tellegen's theorem,
superposition theorem, Thevenin-Norton theorem, substitution
theorem, reciprocity heorem, maxpower-transfer theorem,
star-delta- transformation. Steady state sinusoidal
analysis: phasors, phasor diagrams; Power in ac circuits,
network analysis methods and network theorems recalled;
Polyphase circuits. Circuits with ideal transformers.
Reference:
K.V.V. Murthy and M.S.Kamath, Basic Circuit
Analysis, 1st edition (reprinted with corrections) Jaico
Publishing, 1998. W.H. Hayt and J.E. Kemmerley, Engineering
Circuit Analysis, Int.St.Ed.(4th) McGraw Hill, 1986.
Announcements :
Schedule :
Tuesday - 4-5PM Wednesday - 4-5PM Friday -
2-3PM
Instructor : H.
Narayanan Type
:Undergraduate Sem :
Spring Credits: 6 Lecture Hours per Week :2 Tutorial Hours per Week :
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