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Advanced design for signal integrity and compliance

01OUXOV, 01OUXPE

A.A. 2020/21

Course Language

Inglese

Course degree

Master of science-level of the Bologna process in Computer Engineering - Torino
Master of science-level of the Bologna process in Nanotechnologies For Icts - Torino/Grenoble/Losanna

Borrow

02OUXOQ

Course structure
Teaching Hours
Lezioni 48
Esercitazioni in aula 12
Teachers
Teacher Status SSD h.Les h.Ex h.Lab h.Tut Years teaching
Canavero Flavio Professore Ordinario ING-IND/31 48 12 0 0 9
Teaching assistant
Espandi

Context
SSD CFU Activities Area context
ING-IND/31 6 D - A scelta dello studente A scelta dello studente
2020/21
The course is taught in English. The aggressive miniaturization of current and future generation electronic and communication systems, such as smartphones and tablets, combining different functions (digital, analog and RF, optical, bio-sensors, MEMS, etc.) in a very compact volume, poses tremendous design challenges. Unwanted interactions between different system parts may lead to performance degradation and malfunctioning, unless proper design strategies are applied to guarantee the Signal and Power Integrity of the system. This course provides a fundamental understanding of main signal/power deterioration causes, as well as suitable strategies aimed at robust system design and reliability.
The course is taught in English. The aggressive miniaturization of current and future generation electronic and communication systems, such as smartphones and tablets, combining different functions (digital, analog and RF, optical, bio-sensors, MEMS, etc.) in a very compact volume, poses tremendous design challenges. Unwanted interactions between different system parts may lead to performance degradation and malfunctioning, unless proper design strategies are applied to guarantee the Signal and Power Integrity of the system. This course provides a fundamental understanding of main signal/power deterioration causes, as well as suitable strategies aimed at robust system design and reliability.
The student attending the course will - understand the main mechanisms of signal and power deterioration in electronic systems - analyze qualitatively and quantitatively the signal/power integrity of electronic systems and apply simple models for predicting the performance of such systems - apply design methods and tools to maximize system reliability
The student attending the course will - understand the main mechanisms of signal and power deterioration in electronic systems - analyze qualitatively and quantitatively the signal/power integrity of electronic systems and apply simple models for predicting the performance of such systems - apply design methods and tools to maximize system reliability
Circuit theory and basic electromagnetics.
Circuit theory and basic electromagnetics.
Introduction to signal and power integrity aware design. Modeling and simulation approaches. Physical description, models, and design rules for electrical interconnects. Signal integrity effects: crosstalk and losses. Robust signaling schemes. Shielding and twisting. Power distribution systems and power integrity at chip, package and board level. Electromagnetic interference and radiation. Immunity. Shielding and Grounding.
Introduction to signal and power integrity aware design. Modeling and simulation approaches. Physical description, models, and design rules for electrical interconnects. Signal integrity effects: crosstalk and losses. Robust signaling schemes. Shielding and twisting. Power distribution systems and power integrity at chip, package and board level. Electromagnetic interference and radiation. Immunity. Shielding and Grounding.
The course includes solution of problems and lab sessions.
The course includes solution of problems and lab sessions.
- Handouts of the lessons - C.R.Paul, "Introduction to electromagnetic compatibility," 2nd Edition, Wiley - L.Sevgi, “A Practical Guide to EMC Engineering,” Artech House - H.Ott, "Electromagnetic compatibility engineering," Wiley - S.C.Thierauf, “High-Speed Circuit Board Signal Integrity, Second Edition,” Artech House - S.H.Hall and H.L.Heck, "Advanced signal integrity for high-speed digital designs," Wiley
- Handouts of the lessons - C.R.Paul, "Introduction to electromagnetic compatibility," 2nd Edition, Wiley - L.Sevgi, “A Practical Guide to EMC Engineering,” Artech House - H.Ott, "Electromagnetic compatibility engineering," Wiley - S.C.Thierauf, “High-Speed Circuit Board Signal Integrity, Second Edition,” Artech House - S.H.Hall and H.L.Heck, "Advanced signal integrity for high-speed digital designs," Wiley
Modalità di esame: Elaborato scritto individuale;
Exam will be organized as follows: - On the official dates of exam, each student will receive the text of their test. - The text of the exam will consist of 2 problems inspired by the textbook “C.R.Paul, "Introduction to electromagnetic compatibility," 2nd Edition, Wiley - Students have all day to solve the test, and must return their solution in a pdf file. The solution must be printed, no handwriting is accepted. If Lab sessions are not offered due to force majeur, the grade of of the above test will be the only element of the exam result. If Lab sessions are offered, the exam includes a Lab report and the above test. The Lab activity is evaluated by means of a lab report (measuring the technical content and the quality of the report (structure, language, figures, etc)) . The final exam score is the arithmetic average of the points earned by the student in written and lab parts of the exam. Should a student be unable to attend the lab (e.g., because of his/her period abroad), the activity will be replaced by a project that can be handled remotely.
Exam: Individual essay;
Exam will be organized as follows: - On the official dates of exam, each student will receive the text of their test. - The text of the exam will consist of 2 problems inspired by the textbook “C.R.Paul, "Introduction to electromagnetic compatibility," 2nd Edition, Wiley - Students have all day to solve the test, and must return their solution in a pdf file. The solution must be printed, no handwriting is accepted. If Lab sessions are not offered due to force majeur, the grade of of the above test will be the only element of the exam result. If Lab sessions are offered, the exam includes a Lab report and the above test. The Lab activity is evaluated by means of a lab report (measuring the technical content and the quality of the report (structure, language, figures, etc)) . The final exam score is the arithmetic average of the points earned by the student in written and lab parts of the exam. Should a student be unable to attend the lab (e.g., because of his/her period abroad), the activity will be replaced by a project that can be handled remotely.
Modalità di esame: Elaborato scritto individuale;
Exam will be organized as follows: - On the official dates of exam, each student will receive the text of their test. - The text of the exam will consist of 2 problems inspired by the textbook “C.R.Paul, "Introduction to electromagnetic compatibility," 2nd Edition, Wiley - Students have all day to solve the test, and must return their solution in a pdf file. The solution must be printed, no handwriting is accepted. If Lab sessions are not offered due to force majeur, the grade of of the above test will be the only element of the exam result. If Lab sessions are offered, the exam includes a Lab report and the above test. The Lab activity is evaluated by means of a lab report (measuring the technical content and the quality of the report (structure, language, figures, etc)) . The final exam score is the arithmetic average of the points earned by the student in written and lab parts of the exam. Should a student be unable to attend the lab (e.g., because of his/her period abroad), the activity will be replaced by a project that can be handled remotely.
Exam: Individual essay;
Exam will be organized as follows: - On the official dates of exam, each student will receive the text of their test. - The text of the exam will consist of 2 problems inspired by the textbook “C.R.Paul, "Introduction to electromagnetic compatibility," 2nd Edition, Wiley - Students have all day to solve the test, and must return their solution in a pdf file. The solution must be printed, no handwriting is accepted. If Lab sessions are not offered due to force majeur, the grade of of the above test will be the only element of the exam result. If Lab sessions are offered, the exam includes a Lab report and the above test. The Lab activity is evaluated by means of a lab report (measuring the technical content and the quality of the report (structure, language, figures, etc)) . The final exam score is the arithmetic average of the points earned by the student in written and lab parts of the exam. Should a student be unable to attend the lab (e.g., because of his/her period abroad), the activity will be replaced by a project that can be handled remotely.


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