Lectures:
Two-port networks and their connection. The transfer function.
Dependent (controlled) circuit elements. Active building blocks.
Non-reciprocal networks.
Nullor nodal analysis, circuits with active elements.
Generalized nodal voltage analysis for circuits with active elements - basic rules.
Generalized nodal voltage analysis - circuits with transistors and amplifiers.
Signal flow graphs - basic rules.
Signal flow graphs - electronics circuits.
Analysis of circuits with op amps.
Analysis of ARC filters (2nd order) with op amps.
High-order filters - cascade realization.
Feedback theory, stability.
Grounding of pulse waveforms.
Time reserve.
Exercises:
Two-port networks - basic conception. Definition of project.
Description of controlled two-ports, operational amplifiers, immittance invertors and convertors.
Analysis by means of nullors (transistor - CE configuration, gyrator - two op amp structure).
Filters Sallen - Key - by means of nullors.
Analysis of basic transistor configurations - by means of generalised nodal voltage analysis (CE, CC, CB, cascode).
Analysis of inverting and noninverting amplifiers with op amp, filters Sallen-Key (low-pass)-generalised nodal voltage analysis.
Signal flow graphs - basic conception and terms.
Illustrative examples of gain evaluation by inspection of paths and loop sets.
Analysis of op amp circuits - flow graphs.
Cascade and parallel realization of high-order filters.
An axample of project of op amp circuit.
A presentation of projects.
Time reserve.
Projects:
It is defined 1 individual project for every student;dokumentation min 5 pp, max 10 pp; example of theme - analysis of a linear electronics structure with a real active element.
Two-port networks and their connection. The transfer function.
Dependent (controlled) circuit elements. Active building blocks.
Non-reciprocal networks.
Nullor nodal analysis, circuits with active elements.
Generalized nodal voltage analysis for circuits with active elements - basic rules.
Generalized nodal voltage analysis - circuits with transistors and amplifiers.
Signal flow graphs - basic rules.
Signal flow graphs - electronics circuits.
Analysis of circuits with op amps.
Analysis of ARC filters (2nd order) with op amps.
High-order filters - cascade realization.
Feedback theory, stability.
Grounding of pulse waveforms.
Time reserve.
Exercises:
Two-port networks - basic conception. Definition of project.
Description of controlled two-ports, operational amplifiers, immittance invertors and convertors.
Analysis by means of nullors (transistor - CE configuration, gyrator - two op amp structure).
Filters Sallen - Key - by means of nullors.
Analysis of basic transistor configurations - by means of generalised nodal voltage analysis (CE, CC, CB, cascode).
Analysis of inverting and noninverting amplifiers with op amp, filters Sallen-Key (low-pass)-generalised nodal voltage analysis.
Signal flow graphs - basic conception and terms.
Illustrative examples of gain evaluation by inspection of paths and loop sets.
Analysis of op amp circuits - flow graphs.
Cascade and parallel realization of high-order filters.
An axample of project of op amp circuit.
A presentation of projects.
Time reserve.
Projects:
It is defined 1 individual project for every student;dokumentation min 5 pp, max 10 pp; example of theme - analysis of a linear electronics structure with a real active element.