Semiconductor Process Technologies
- Typ: Vorlesung (V)
- Lehrstuhl: KIT-Fakultäten - KIT-Fakultät für Elektrotechnik und Informationstechnik
- Semester: SS 2023
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Zeit:
Die Vorlesung wird im SS23 nicht stattfinden
- Dozent:
- SWS: 2
- LVNr.: 2308505
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Hinweis:
Die Vorlesung wird im SS23 nicht stattfingen.
Title: Semiconductor Process Technologies
Summer semester: 2 SWS
Credit points: 3
Language: English
Success control(s): The success criteria will be determined by an oral examination (approx. 20-30 min.)
Module grade: The module grade is the grade of the oral examination.
Prerequisites: None.
Qualification Goals:
- The students acquire a comprehensive understanding of the integrated circuit fabrication of CMOS, BiCMOS and different MEMS processes, especially for mm-wave and THz applications.
- They have a good understanding of the different process steps (ie lithography, chemical vapor deposition, reactive ion etch, cleaning and etc.) of a CMOS process flow.
- They can describe a complex process flow of a CMOS process together with different high frequency modules such as MEMS and photonics.
- They can identify the pros and cons of different process flows; thus correlate it with the throughput, yield and cost aspects of the semiconductor industry.
- They are familiar with basic packaging approaches of integrated circuits and also special advanced packaging technologies for mm-wave and THz integrated circuits as well.
- They have the basic understanding of the scaling of CMOS industry and the future trends.
content:
In this lecture the basic fabrication technologies of integrated circuits will be given together with the each individual process steps. The front-end and back-end of line parts of the full CMOS/BiCMOS process will be provided. The testing, process monitoring and throughput/yield studies of a CMOS process will be followed after basic understanding of the semiconductor process technologies. A special emphasis on MEMS process technologies will also be given and the integration challenges of additional modules into a CMOS/BiCMOS process will be detailed. Finally, the packaging aspect of the integrated circuit industry will be given for standard and advanced packaging needs. A basic topics planned to be studied under the course are given below:
- Integrated Circuit Processes
- Cleaning and wet processes
- Patterning Processes: Optical and E-beam lithography
- Thermal processes: oxidation, diffusion, chemical vapor deposition
- Junction Formation: Ion implantation, spin-on, annealing
- In-process monitoring, measurement techniques,
- Packaging: dicing, wire bonding, encapsulation
- testing of semiconductor devices; Process Modeling and Yields
- MOS process integration and MEMS processes
- Scaling and future trends
- Non silicon processing: III-V , MBE, OMCVD
Recommendations:
The lecture materials on "Fundamentals of High Frequency Technology" and "Semiconductor Components" are recommended.
Some other suggested references are given below:
- 1. Introduction to Microelectronic Fabrication; Hunter; Prentice Hall
- 2. The Science and Engineering of Microelectronic Fabrication; Campbell; Oxford
- 3. Silicon Processing for the VLSI Era; Wolf and Tauber; Lattice Press
- 4. Microelectronics Processing and Device Design; colliers; Wiley
- 5. VLSI Technology; sze; McGraw-Hill
Workload:
Each credit point corresponds to an approximately 25-30h of workload on average. Based on this, the amount of work for this lecture is calculated as follows:
1. Attendance to the lectures (15*2=30h)
2. Preparation for the lectures (15*2=30h)
3. Preparation for the oral exam (40 hours)
Total: 100h
You can go to Ilias page for registration.