FYSS6400 Analog Electronics (8 cr)
Description
Content
The Ideal Current-controlled Current Source; the Ebers-Moll Representation of the bipolar junction transistor; operation modes of BJT; maximum transistor ratings; thermal design for safe operating of BJT or FET; operating class of amplifier; current sinks and sources; current mirrors; differential BJT stage; large signal model of MOSFET; biasing stability of bipolar transistor, JFET and MOSFETs; small signal equivalent circuit of BJT and MOSFET; small signal analysis of amplifier stages and cascaded stages; linear model of real operational amplifier; noise in operational amplifier; open loop voltage gain of 741 like opamp; time constant method in frequency response calculations; feedback amplifiers; feedback amplifier topologies; Blackman's impedance formula; approximate analysis of feedback amplifier; general analysis of feedback amplifier; Bode - and Nyquist diagram, a tool for analyzing frequency response and stability of feedback amplifier; dominant-pole approximation for high frequency response; Gain-Bandwidth product of single-pole system; high frequency response of operational amplifier; normalized filter design method; Butterworth response; Chebyshev response; Bessel response.
Completion methods
Assignments, laboratory work, examination.
Assessment details
To pass the course the laboratory work needs to be succesfully completed. The final grade is based on the examination but you can supplement examination points with the assignments points if you have at least 50 % of the examination points.
Learning outcomes
Additional information
Given on autumn semester, every year.
Description of prerequisites
Study materials
Literature
- Jacob Millman & Arvin Grabel, MICROELECTRONICS. ISBN 0-07-100596-X.; ISBN: 0-07-100596-X