Belépés címtáras azonosítással
magyar nyelvű adatlap
angol nyelvű adatlap
Analog and Digital System Design on Cyber Physical System Platforms
A tantárgy neve magyarul / Name of the subject in Hungarian: Analóg és digitális rendszertervezés kiberfizikai platformokon
Last updated: 2015. április 8.
Tantárgy lejárati dátuma: 2019. június 30.
Name:
Affiliation:
Department, Institute:
Gábor Takács
Assistant lecturer
Department of Electron Devices
Gusztáv Hantos
PhD Student
Dr. Sándor Ress
Associate Professor
Basic electronics knowledge, digital design and programming (C language)
A fenti forma a Neptun sajátja, ezen technikai okokból nem változtattunk.
A kötelező előtanulmányi rend az adott szak honlapján és képzési programjában található.
Digital design 1 (VIIIAA01), Basics of programming 1 (VIHIAA01), Electronics 1 (VIHIAB02)
The aim of the course is to introduce the Cyber Physical Systems and its design issues. The students can learn about the major European CPS platforms. The complete design flow is covered through several case studies and different sensing and actuating problems. The main sensor types and their key parameters, the issues of the signal digitalization, the signal processing and power supply considerations are described in detail. Different problem solving techniques are used to make the student confident with CPS design issues.
The course introduces the Cyber Physical Systems, where the sensing and actuating sub-systems involve communication layers. The first few weeks are for learning the top-down system level designing for CPSs then the module, sub-module and component level is described in detail. The course deals with the identification of the requirements and problems in conjunction with the different system realizations. The coupling of different analog and digital signals and the power supply needs of the systems are also covered.
The second part of the semester deals with sensors used in CPSs: a great number of active and passive sensors are described in the means of electrical and physical performance, and also their applicability for certain tasks. The readout circuitries of passive sensors have a dedicated full lecture: system design and component calculation tasks are carried out furthermore the problems of the signal conditioning and transmission are highlighted. The sub-systems that incorporate MEMS (Microeletromechanical System) are very important in the modern CPSs, so the introduction and the application capabilities of such devices also have high priority during the semester.
The third part of the course deals with the system integration, joining the analog and digital sub-modules to a complete CPS. Key parameters that affect the integration are introduced and described in detail.
The semester ends with four case studies: application specific platform selection and CPS design for different purposes. The students can see the diverse application range of CPSs: starting with high computational demand purely digital systems, ending with multiple analog signal managing systems.
Weekly schedule:
Week 1.: Definition of Cyber Physical Systems, application example
Week 2.: Design issues of Cyber Physical Systems
Week 3.: Design steps of Cyber Physical Systems
Week 4.: Component selection: active and passive components, modules
Week 5.: Power supply issues and considerations for CPS
Week 6.: Active and passive sensors
Week 7.: Readout circuits for sensors
Week 8.: Sensor signal conditioning, amplification and forwarding
Week 9.: Intelligent sensors with Microelectromechanical Systems
Week 10.: Analog-digital converter families, types and applications
Week 11.: Case study: Low power system design using 32-bit microcontroller-based platform
Week 12.: Case study: Implementation of a high performance digital system using a multi-core processor based platform
Week 13.: Case study: power management using Cyber Physical Systems
Week 14.: Case study: Implementation of a custom Cyber Physical System by application specific integrated circuits
2 hours/week lectures.
a. One mid-semester test
b. Requirement for granting the mark: mid-semester check grade >= 2 (satisfactory)
c. Mid-term grade: mid-semester check grade modified by the additional points of the optionally submitted homework
Two repeated tests in the repeat period.
Consultations are held on-demand after appointment with the lecturer.
Slides are accessible on the web. Additional lecture materials are prepared by the lecturer.
Classes
28
Preparation for classes
7
Preparation for test
25
Learning the prescribed materials
Sum
60