CASLectureSchedule

- Introduction to KVL, KCL, source transformation Problems on mesh analysis

- Dot analysis, Cramer's rule, Problems on KCL,

- Classification of network, tree of a network, Thevenin theorem, Problems on dot analysis

- Problems on Thevenin theorem

- Problems on Thevenin theorem with dependent source, Norton theorem, Problems on Norton theorem

- Problems on Thevenin and Norton with two inductor

- Superposition theorem with problems

- Maximum power transfer theorem with questions

- Problems on superposition and Norton problem with only dependent source

- Tellegen theorem,reciprocity theorem with Problems

- Two port networks:-y parameters with Problems

- z parameters with Problems

- h parameters with two Problems equivalent circuit of z parameter

- Image parameters with z parameters

- Two port interconnection

.......Three online lectures.......

- Image parameters (cont.) interconnection of two port networks(series-series)

- Problems on y parameter with dependent source, interconnection of two port networks (series-parallel), why to use h parameter, Problems on Thevenin theorem, prove z don't hold good for series parallel

- Duality, graphical construction of dual network, problems of series-series interconnection with y parameter

- Problems of superposition theorem with capacitor and inductor, concept of complex frequency

- Concept of complex frequency (contd.)

........Mid Semester Test........

- Transform impedance to frequency domain LTI system, Problems on transform to Laplace equivalent

- Problems with switch

- Transform impedance to frequency domain (repeated). Problems on transform to Laplace equivalent

- Problems with switch

- Problems with switch

- Problems on current response. Filters questions with switch and filter

- Problems on impulse response with dependent source

- Problems on z parameter high pass and low pass filter

- Prove for cut off frequency for filter design.

-Driving point Impedance and Admittance function, Properties of driving point impedance and transfer function, Minimum Function , Poles & Zeros of network functions, Restrictions on poles and zeros locations for driving point and transfer functions. Reliability of one port Networks, Positive real function (PRF), Graphical Interpretation of positive realness, Properties of PRF, Even & Odd parts of Polynomials, Necessary & Sufficient Condition for a function to be positive real function, Hurwitz polynomials, Hurwitz polynomials test,

-Network synthesis procedure, Synthesis of one port networks with two kinds of elements, Realization of LC driving point function, Synthesis of LC, RC and RL driving point impedance function using Foster and Cauer first and second forms.