University of Mumbai Syllabus For Semester 3 (SE Second Year) Electrical Networks: Knowing the Syllabus is very important for the students of Semester 3 (SE Second Year). Shaalaa has also provided a list of topics that every student needs to understand.

The University of Mumbai Semester 3 (SE Second Year) Electrical Networks syllabus for the academic year 2022-2023 is based on the Board's guidelines. Students should read the Semester 3 (SE Second Year) Electrical Networks Syllabus to learn about the subject's subjects and subtopics.

Students will discover the unit names, chapters under each unit, and subtopics under each chapter in the University of Mumbai Semester 3 (SE Second Year) Electrical Networks Syllabus pdf 2022-2023. They will also receive a complete practical syllabus for Semester 3 (SE Second Year) Electrical Networks in addition to this.

## University of Mumbai Semester 3 (SE Second Year) Electrical Networks Revised Syllabus

University of Mumbai Semester 3 (SE Second Year) Electrical Networks and their Unit wise marks distribution

### University of Mumbai Semester 3 (SE Second Year) Electrical Networks Course Structure 2022-2023 With Marking Scheme

# | Unit/Topic | Weightage |
---|---|---|

100 | Network Theorems | |

200 | Graph Theory and Network Topology | |

300 | First Order and Second Order Differential Equations | |

400 | The Laplace Transform | |

500 | Network Functions; Poles and Zeros | |

600 | Network Synthesis | |

Total | - |

## Syllabus

- Solution of network using dependent sources, mesh analysis, super mesh analysis, nodal analysis, super node analysis, source transformation and source shifting, superposition theorem, Thevenin’s theorems and Norton’s theorem, maximum power transfer theorem.
- Solution of network with A.C. sources: magnetic coupling, mesh analysis, nodal analysis, superposition theorem, Thevenin’s theorems, Norton’s theorem, maximum power transfer theorem, Tellegen’s theorem, Millman’s theorem, reciprocity theorem

- Introduction, graph of network, tree, co-tree, loop incidence matrix, cut set matrix, tie set matrix and loop current, number of possible tree of a graph, analysis of network equilibrium equation, duality.

- Initial condition of networks, General and partial solutions, time constant, integrating factor, more complicated network, geometrical interpretation of derivative.

- The Laplace transform and its application to network analysis, transient and steady state response to step, ramp, impulse and sinusoidal input function, transform of other signal waveform, shifted step, ramp and impulse function, waveform synthesis.

- Network functions for one port and two port networks, Driving point and transfer functions, ladder network, General network, poles and zeros of network functions, restrictions on Pole and zero locations for driving point functions and Transfer functions, time domain behavior from pole - zero plot.
- Two port parameters Open circuit, short circuit, transmission and hybrid Parameters, relationships between parameter sets, reciprocity and symmetry conditions, parallel connection of two port networks

- Concept of stability, Hurwitz polynomials, Properties and testing of positive real functions, Driving point synthesis of LC, RC, RL network.