Analog and Mixed-Signal Circuit Design
| Vortragende/r (Mitwirkende/r) | |
|---|---|
| Nummer | 0000000420 |
| Art | Vorlesung mit integrierten Übungen |
| Umfang | 5 SWS |
| Semester | Wintersemester 2024/25 |
| Unterrichtssprache | Englisch |
| Stellung in Studienplänen | Siehe TUMonline |
| Termine | Siehe TUMonline |
- 15.10.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 21.10.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 22.10.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 28.10.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 29.10.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 30.10.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 04.11.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 05.11.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 06.11.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 11.11.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 12.11.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 13.11.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 18.11.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 19.11.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 20.11.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 25.11.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 26.11.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 27.11.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 02.12.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 03.12.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 04.12.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 09.12.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 10.12.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 11.12.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 16.12.2024 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 17.12.2024 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 18.12.2024 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 07.01.2025 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 08.01.2025 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 13.01.2025 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 14.01.2025 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 15.01.2025 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 20.01.2025 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 21.01.2025 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 27.01.2025 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 28.01.2025 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 29.01.2025 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
- 03.02.2025 11:30-13:00 0220, Hörsaal m. Exp.-Bühne , Übung
- 04.02.2025 11:30-13:00 Theresianum, 0602, Hörsaal ansteigend, ohne exp. B
- 05.02.2025 16:45-17:30 N 1179, Wilhelm-Nusselt-Hörsaal
Teilnahmekriterien
Lernziele
Upon successful completion of the module, students are able to understand the concepts and structures of transistor level integrated analog and mixed-signal circuit design. They are able to size devices and set operating points of basic circuit functions like operational amplifiers, clocks, references, power supplies and A/D or D/A converters. Students are able to describe basic interaction between circuit specifications and the sizing and structure of the circuit.
Beschreibung
• Specifics of semiconductor process technology and devices for the building of integrated circuits
• Transistor level circuits and the implementation in CMOS technology: amplifier, current and voltage reference, power supply as well as clock generation, regulation and distribution, A / D and D / A converters
• Non-idealities and their compensation: operating point, frequency response (with feedback), how to optimize for disturbances (parasitic, power supply and common mode rejection, ...) and error sources (variability, noise, ...)
• Transistor level circuits and the implementation in CMOS technology: amplifier, current and voltage reference, power supply as well as clock generation, regulation and distribution, A / D and D / A converters
• Non-idealities and their compensation: operating point, frequency response (with feedback), how to optimize for disturbances (parasitic, power supply and common mode rejection, ...) and error sources (variability, noise, ...)
Inhaltliche Voraussetzungen
Basic lectures in circuit and system theory, electronic circuit design, solid-state and seminconductor device physics
Lehr- und Lernmethoden
The lecture (Audimax) and exercise (Tentomax) will be held in presence. Both events are also streamed on Zoom and will be recorded for Moodle.
Studien-, Prüfungsleistung
In a written final exam (60 min), students will demonstrate their insight into the basic concepts and structures of transistor level integrated circuits, as well as their ability to apply them, for example through setting operating points, sizing and their impact to typical specifications of electronic circuit design and analysis.
Empfohlene Literatur
B. Razavi, Design of Analog CMOS Integrated Circuits, McGraw Hill Education