Approaximate lecture hours are mentioned in bracketts.

- Passive components: Resistance, Inductance, Capacitance; lumped element model; series, parrallel combinations; kirchoff's law: voltage, current; assumptions for the models; linearity - how to define it? (1)
- Signalling sources: voltage and current sources; nonideal sources; representation under assumption of linearity; controller sources: VCVS, CCVS, VCCS, CCCS; concept of gain, transconductance, transimpedance. (1)
- DC circuit analysis: node and loop analysis; Choice of nodes and branches for efficient analysis (Graph theoritic representation of circuit) (1)
- Superposition theorm; Thevenin's theorm; Norton's theorm (1)
- Time domain response of RL and RC circuits (2)
- Sinusoidal steady state repsonse; phasor; impedance; transfer function of two port networks (1)
- Frequencey response: concept; amplitude and phase response; Bode plots (2)
- Passive filter circuits; computation of transfer function (1)
- Two port networks: modelling; T and model; -T transformation and vice-versa (1)
- Discrete electronic devices: Diode, zener diode, BJT (Bipolar junction transistor), LED, Photodiode, Phototransistor, varactor; characterstick and operation (qualitative descriptiona and quantitative behaviour with blackbox approach) (1)
- Diode circuits; clipper, clamper circuits. (1)
- DC power supply: rectifier- half wave, full wave (center tapped, bridge), zener regulated power supply, regulation (with regulator IC- LM317). (2)
- BJT charactersticks; BJT biasing; CE-biasing circuits: operating point; h-parameter model of transistor; large/small signal models (concept); large/small signal models of CE-BJT amplifier (3)
- Design of amplifier; Differential amplifier (using BJT). (2)
- Operational amplifier: basic model; virtual ground concept; inverting amplifier; non-inverting amplifier; integrator; differentiator; Schmitt trigger; astable multivibrator (3)
- Basic feedback theory; +ve and -ve feedback; concept of stability; oscillator (1)
- Waveform generator using op-amp schimitt trigger for Square wave, triangular wave Wien bridge oscillator for sinuisoidal waveform (1)
- Simple active filters: low pass, high pass, bandpass, notch filter (2)
- Logic gates: OR, NOT, AND, NOR and NAND; universal gates; XOR and XNOR gate; Truth tables. (1)
- Multiplexer; Gate base implementation (1)
- Logic function representation, truth table from problem, combinatorial circuits. (1)
- Designing combinatorial circuits: SOP, POS form; K-map; Optimization. (1)
- Flip-flop; S-R flip-flop; JK masterslave flipflop; D-flip flop (2)
- Sequencial circuits: Generic block diagram; finite state machine model. (1)
- Counters: configruation, operation; up/down counters; shift registers; Sequence generators (2)
- 555 timer: description, data sheet, multivirators (2)
- D/A (Digital to Analog) convertor, A/D (analog to digital) convertor (2)

- To understand the language of electronics, elements and their functionality
- To understand methods to analyse and characterize the circuits
- To know analog and digital signals
- basic processing of analog signals with analog circuits
- digital systems - basic understanding for implementation of logic machines.