Lehrinhalte
[list=1]
[*]Introduction: Semiconductor Devices & Microelectronic
[*]Semiconductor: Materials, Physics & Technology
[*]PN-Junction
[*]Metal-Oxide-Semiconductor Capacity
[*]Schottky Contact
[*]MOS-Field-Effect-Transistor (MOSFET)
[*]CMOS: Digital Applications
[*]MOS-Memory
[*]Bipolar- Junction-Transistor
[*]Outlook: Scaling Limits & SET,...
[/list]
Literature
Skript: Microelectronic devices - the Basics
Primärliteratur:
[list=1]
[*]F. Thuselt: Physik der Halbleiterbauelemente. 2. Auflage, Springer 2011 (e-ISBN 978-3-642-20032-8)
[*]S.M. Sze, K.K. Ng: Physics of Semiconductor devices. 3rd edition, John Wiley & Sons, New York 2007 (ISBN: 0-471-14323-5)
[/list]
Weiterführende Literatur:
[list=1]
[*]Robert F. Pierret: Semiconductor Device Fundamentals, ISBN 0201543931
[*]Roger T. Howe, Charles G. Sodini: Microelectronics - an Integrated Approach, ISBN 0135885183
[*]Richard C. Jaeger: Microelectronic Circuit Design, ISBN 0071143866
[*]Y. Taur, T.H. Ning, Fundamentals of Modern VLSI Devices, ISBN 0521559596
[*]Thomas Tille, Doris Schmidt-Landsiedel: Mikroelektronik, ISBN 3540204229
[*]Michael Reisch: Halbleiter-Bauelemente, ISBN 3540213848
[/list]
Voraussetzungen
Electrical Engineering and Information Technology I, Electrical Engineering and Information Technology II, Laboratory ETiT, Laboratory Electronics, Mathematics I, Mathematics II, Physics
Bemerkung Webportal
Microelectronics has become an essential factor and it is impossible to imagine everday life without it.
Which semiconductor devices does a integrated circuit contain?
How do they work? What is a MOSFET?
This lecture announces the student to the fundamental properties of semiconductor materials and the semiconductor devices manufactured out of them.
Beside operation principles of semiconductor devices simple applications like amplifier, inverter and MOS-memory are highlighted. An outlook on the future development of microelectronics completes the lecture.
[list=1]
[*]Introduction: Semiconductor Devices & Microelectronic
[*]Semiconductor: Materials, Physics & Technology
[*]PN-Junction
[*]Metal-Oxide-Semiconductor Capacity
[*]Schottky Contact
[*]MOS-Field-Effect-Transistor (MOSFET)
[*]CMOS: Digital Applications
[*]MOS-Memory
[*]Bipolar- Junction-Transistor
[*]Outlook: Scaling Limits & SET,...
[/list]
Literature
Skript: Microelectronic devices - the Basics
Primärliteratur:
[list=1]
[*]F. Thuselt: Physik der Halbleiterbauelemente. 2. Auflage, Springer 2011 (e-ISBN 978-3-642-20032-8)
[*]S.M. Sze, K.K. Ng: Physics of Semiconductor devices. 3rd edition, John Wiley & Sons, New York 2007 (ISBN: 0-471-14323-5)
[/list]
Weiterführende Literatur:
[list=1]
[*]Robert F. Pierret: Semiconductor Device Fundamentals, ISBN 0201543931
[*]Roger T. Howe, Charles G. Sodini: Microelectronics - an Integrated Approach, ISBN 0135885183
[*]Richard C. Jaeger: Microelectronic Circuit Design, ISBN 0071143866
[*]Y. Taur, T.H. Ning, Fundamentals of Modern VLSI Devices, ISBN 0521559596
[*]Thomas Tille, Doris Schmidt-Landsiedel: Mikroelektronik, ISBN 3540204229
[*]Michael Reisch: Halbleiter-Bauelemente, ISBN 3540213848
[/list]
Voraussetzungen
Electrical Engineering and Information Technology I, Electrical Engineering and Information Technology II, Laboratory ETiT, Laboratory Electronics, Mathematics I, Mathematics II, Physics
Bemerkung Webportal
Microelectronics has become an essential factor and it is impossible to imagine everday life without it.
Which semiconductor devices does a integrated circuit contain?
How do they work? What is a MOSFET?
This lecture announces the student to the fundamental properties of semiconductor materials and the semiconductor devices manufactured out of them.
Beside operation principles of semiconductor devices simple applications like amplifier, inverter and MOS-memory are highlighted. An outlook on the future development of microelectronics completes the lecture.
- Lehrende: Sascha Preu
Semester: WT 2021/22