Intendierte Lernergebnisse
• Mastery of the application of classical laws / theorems of circuit technology when calculating many electrical and / or electronic circuits. Comparison of the theoretical results with the results of the electronic simulation software (PSpice, LT Spice, MultiSim, PartSim, CircuitLogix, etc.)• Mastery of theoretical calculations in the field of semiconductor physics. Understand the theoretical solutions to many exercises based on semiconductor technology.• Mastery of the calculation of many electronic circuits with diodes. Comparison of the theoretical results with the results of the electronic software software (PSpice, LT Spice, MultiSim, PartSim, CircuitLogix, etc.)• Calculation of many electronic circuits with MOSFETs and CMOS transistors. Comparison of the theoretical results with the results of the electronic software (PSpice, LT Spice, MultiSim, PartSim, CircuitLogix, etc.)• Application of CMOS transistors in digital circuit design: CMOS logic gates; CMOS flip-flops.• Calculation of many electronic circuits with operational amplifiers. Comparison of the theoretical results with the results of the electronic software software (PSpice, LT Spice, MultiSim, PartSim, CircuitLogix, etc.).
Lehrmethodik
• The lecture is held on-campus..• The slides are available for the entire lecture. These slides are uploaded to the MOODLE system.Very important note:• For each chapter, selected exercises/tasks are suggested to be solved by the students.• During the lecturer, the lecturer will systematically explain the procedure that leads to the exact/correct solutions to the proposed exercises/tasks.• Students will use any simulation software at their convenience (e.g. PSpice, LT Spice, MultiSim, PartSim, CircuitLogix etc.) to design the electronic circuits proposed in this lecture.Benchmarking: Verification and validation of the theoretical results obtained• In order to validate the theoretical results obtained, the students always compare the theoretical results (obtained through calculations) with the experimental results (obtained through the design of circuits with a simulation software of their convenience).
Inhalt/e
Chapter 1. Calculation of electrical circuits (theory) and design with selected electronic simulation software (experiment). Comparison of theoretical and experimental results.Chapter 2. Study of the dynamics of charge carriers in a semiconductor- Theoretical calculations in the field of semiconductor physics: Case study of N-doping and P-doping.Chapter 3. PN junctions (Diodes) and applications: Calculation of electronic circuits with diodes (theory) and design with selected electronic simulation software (experiment). Comparison of theoretical and experimental results.Chapter 4. MOSFET- circuits and concrete applications: Calculation of electronic circuits with MOSFETs (theory) and design with selected electronic simulation software (experiment). Comparison of theoretical and experimental results.Chapter 5. CMOS circuits and applications: Calculation of CMOS circuits (theory) and design with selected electronic simulation software (experiment). Comparison of theoretical and experimental results.Chapter 6. Circuits with operational amplifiers (Op-Amps) and applications: Calculation of circuits with Op-Amps (theory) and design with selected electronic simulation software (experiment). Comparison of theoretical and experimental results.
Curriculare Anmeldevoraussetzungen
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Literatur
Important note. The digital versions of books below are available online for free (see Google)Jacob Millman & Christos, C. Halkias Jacob Millman, & Christos C. Halkias, « Electronic Devices & Circuits », McGraw-Hill 1967. (Update version of Jan 3, 2012)G.Fontaine Diodes & Transistors Philips, « Diodes & Transistors » Technical Library 1963. (Update version of Aug 10, 2011)Ian R. Sinclair, « Practical Electronics Handbook », Newnes Technical Books ( Butterworth & Co.(Publishers) Ltd.) 1980W.W. Smith, «Electronics for Technician Engineers », Hutchinson Educational 1970.