# CSVTU BE IV Sem EEE Electrical Network Analysis And Synthesis Syllabus

## Subject: Electrical Network Analysis And Synthesis

Total Theory Periods: 40 Total Tut Periods: 12

Total Marks in End Semester Exam: 80

Minimum number of Class tests to be conducted: 2

UNIT I:

Network equation, formulation of network equations, initial conditions in networks and network solution with

Laplace transformation, step, ramp and impulse functions, initial and final value theorem and convolution

integral.

UNIT II:

Transform impedance and transform circuits, Thevenin’s and Norton’s theorem, duality, Fourier transform,

discrete and continuous spectrum, relation and Laplace transforms.

UNIT III:

Network function for one-port and two-port, calculation of network function for ladder and general networks,

poles and zeros with restrictions for driving point functions and transform functions, two-port parameters,

stability by Routh-Harwitz criterion.

UNIT IV:

Identification of network synthesis, Brune’s positive and real function (PRF), properties of PRF, testing of

driving point functions, even and odd function, one terminal pair network driving point synthesis with LC

elements, RC elements, Foster and Cauer form.

UNIT V: Filters

Low pass filters, high pass filters, band pass filters, band reject filters, Gain equalizer and delay equalizers,

Butterworth filters, m-derived filters, constant k-filters, design of filters.

Text Books:

1. “

Network Analysis

”, Valkenburg, PHI Pbs.

2. Circuit theory, Kurikose-PHI Pbs.

Reference Books:

1. “

Introduction To Network Synthesis

”, Valkenburg, PHI Pbs.

2. “Network Analysis And Synthesis”, Wadhwa, New Age Pbs.

### 1 thought on “CSVTU BE IV Sem EEE Electrical Network Analysis And Synthesis Syllabus”

1. UNIT I:

Network equation, formulation of network equations, initial conditions in networks and network solution with

Laplace transformation, step, ramp and impulse functions, initial and final value theorem and convolution

integral.

UNIT II:

Transform impedance and transform circuits, Thevenin’s and Norton’s theorem, duality, Fourier transform,

discrete and continuous spectrum, relation and Laplace transforms.

UNIT III:

Network function for one-port and two-port, calculation of network function for ladder and general networks,

poles and zeros with restrictions for driving point functions and transform functions, two-port parameters,

stability by Routh-Harwitz criterion.

UNIT IV:

Identification of network synthesis, Brune’s positive and real function (PRF), properties of PRF, testing of

driving point functions, even and odd function, one terminal pair network driving point synthesis with LC

elements, RC elements, Foster and Cauer form.

UNIT V: Filters

Low pass filters, high pass filters, band pass filters, band reject filters, Gain equalizer and delay equalizers,

Butterworth filters, m-derived filters, constant k-filters, design of filters.

Text Books:

1. “

Network Analysis

”, Valkenburg, PHI Pbs.

2. Circuit theory, Kurikose-PHI Pbs.

Reference Books:

1. “

Introduction To Network Synthesis

”, Valkenburg, PHI Pbs.

2. “Network Analysis And Synthesis”, Wadhwa, New Age Pbs.