Learning objectives
Knowledge:
-Basic knowledge of analog electronic circuits with MOS and bipolar transistors (signal and power amplifiers)
Skills:
-Understanding and analyzing the schematic of a simple amplifier
-Designing and sizing simple analog circuits
-Simulating an analog circuit
Soft skills:
- The student will acquire the capability of using CAD tools for designing transistor-based circuits
Prerequisites
1. Linear circuits theory
1.1 Analysis methods (Kirchoff, nodal analysis, etc.)
1.2 Linear circuits with sine-wave stimuli
1.3 Laplace transform: application to linear circuits with reactive components.
2. Bode diagram
3. Basics of electronic devices: diode, BJT, MOS transistor
Course unit content
THEORY
1 Introduction
1.1 Analog and digital signals
1.2 Linear and non-linear systems, distortion.
1.3 The concept of linearization
1.4 Small-signal equivalent circuit of: p-n diode, BJT and MOS transistor.
1.5 Linear amplifier: models and definitions of input and output impedance, amplification, transconductance, and transresistance.
2 Amplifiers
2.1 Common Emitter (CE)
2.1.1 Large signal and small signal analysis; derivation of network function.
2.1.2 Biasing techniques and circuits
2.2 Common-collector and common-base stages (CC and CB)
2.3 Single-transistor MOS amplifiers: common-source, common-gate and common-drain.
2.4 Multi-stage amplifiers
2.5 BJT differential amplifier
3 Current mirrors and amplifiers with active load
3.1 CS and CE active load amplifiers
3.2 differential amplifiers with active load.
4 High-frequency behavior of amplifiers
4.1 Frequency response of CE amplifier
5 Circuits with feedback
6 Simulation of analog circuits basic circuits based on MOS or bipolar transistor are considered.
(LTspice)
Full programme
THEORY
1 Introduction
1.1 Analog and digital signals
1.2 Linear and non-linear systems, distortion.
1.3 The concept of linearization
1.4 Small-signal equivalent circuit of: p-n diode, BJT and MOS transistor.
1.5 Linear amplifier: models and definitions of input and output impedance, amplification, transconductance, and transresistance.
2 Amplifiers
2.1 Common Emitter (CE)
2.1.1 Large signal and small signal analysis; derivation of network function.
2.1.2 Biasing techniques and circuits
2.2 Common-collector and common-base stages (CC and CB)
2.3 Single-transistor MOS amplifiers: common-source, common-gate and common-drain.
2.4 Multi-stage amplifiers
2.5 BJT differential amplifier
3 Current mirrors and amplifiers with active load
3.1 CS and CE active load amplifiers
3.2 differential amplifiers with active load.
4 High-frequency behavior of amplifiers
4.1 Frequency response of CE amplifier
5 Circuits with feedback
6 Simulation of analog circuits basic circuits based on MOS or bipolar transistor are considered.
(LTspice)
Bibliography
P. R. Gray, P.J. Hurst, S.H. Lewis, R. G. Meyer, “Analysis and Design of Analog Integrated Circuits”, 5th Edition, Wiley.
C. Morandi, “Fondamenti di Elettronica C”, online at lea.unipr.it (course: Elettronica 2), folder "DISPENSE"
R. Menozzi, “Appunti di Elettronica”, Pitagora.
J. Milmann and C.C. Halkias, “Electronics devices and circuits”, McGraw-Hill, Chapter 9
Teaching methods
Lectures.
Exercises are solved in the classroom and deal with the analysis and design of simple analogue circuits.
Assessment methods and criteria
Final written test and oral exam
A positive result in the written test is mandatory to access to the oral exam, which is based on simulator.
For a final grade higher than 26/30, the student must ask for an optional part of the oral test, based on theoretical questions.
Books or manuscripts cannot be used during the written test.
If a positive result is achieved in the written test, oral exam must be taken within the same session
If the oral exam is not passed, the student must repeat the written test.
The final mark is the weighted average of the marks achieved in the oral exam and written test.
To access to the written test, subscription at the dedicated www pages (at www.unipr.it) is mandatory.
Other information
Web pages of the course with
-teaching materials (slides and manuscripts)
-example of written tests
at http://elly.dii.unipr.it/
Students are asked to subscribe to the mailing list of the course
2030 agenda goals for sustainable development
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