Print Course syllabus
Course syllabus - Sensor Technology
Scope
7.5 credits
Course code
ELA400
Valid from
Autumn semester 2019
Education level
Second cycle
Progressive Specialisation
A1N (Second cycle, has only first-cycle course/s as entry requirements)
Main area(s)
Organisation
School of Innovation, Design and Engineering
Ratified
2019-01-24
Literature lists
Course literature is preliminary up to 8 weeks before course start. Course literature can be valid over several semesters.
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Books
Handbook of Modern Sensors: Physics, Designs, and Applications
Available for free online, as an e-book through MDH library.
ISBN: 9781441964663
Sensors: An Introductory Course
Available for free online, as an e-book through MDH library.
ISBN: 9781461450528
Fundamentals of Physics: Extended
Available for free online, as an e-book through MDH library.
Objectives
The course shall give an in-depth knowledge and understanding for which sensors and measurement principles to use in different situations.
Learning outcomes
The student shall after the completed course be able to:
- orally and in writing demonstrate an understanding of different sensor principles
- analyse the limitations of different sensor systems
- understand and handle noise and extraneous influences
- choose appropriate sensing principles and construct relevant and practical measurement systems, including signal conditioning
- in an informative and comprehensible way present the project included in the course to the other course participants, both orally and in writing
Course content
The physical principles and properties of different types of sensors and their intended use and limitations
The relevance of the sensed and processed signals
Examples of principles that will be dealt with:
- Pyroelectric (temperature at a distance)
- Microwave (speed, movement, also presence/non-presence)
- Capacitive and inductive (presence, movement)
- Electric potential (biomedical applications ECG, EMG and EEG)
- Computer and robot vision
- Ultrasound (distance, movement)
- Piezo sensors (mainly strain and force/weight)
Specific requirements
120 credits, including knowledge of and understanding of limitations with different measuring instruments, being able to analyze different sources of error when measuring quantities, and practical use of information from the statistics (mean, standard deviation) for analysis of measurement series. This can be accomplished by completing the courses Vector algebra 7.5 credits, Single Variable Calculus 7.5 credits, Basics in Electronics 7.5 credits, and Electronic Systems 7.5 credits, or equivalent.
In addition Swedish course B/Swedish course 3 and English course A/English course 6 are required. For courses given entirely in English exemption is made from the requirement in Swedish course B/Swedish course 3.
Examination
Exercise, laboratory work (LAB1), Laboratory work series that are successively. These assignments shall be presented orally and are performed individually or in groups of two students, 2.5 credits, marks Pass (G) or Fail (U) (examines the learning objectives 1-4)
Project (PRO1), Project work conducted in a group and presented both orally in-class presentation and written with a final report, 2.5 credits, marks U, 3, 4 or 5 (examines the learning objective 4 and 5)
Examination (TEN1), Continuous examination, in the form of minor weekly examinations, 2.5 credits, marks 3, 4 or 5 (examines the learning objectives 1 and 2)
A student who has a certificate from MDU regarding disability study support, can request adaptions for the examination. It is the examiner who takes decisions on any adaptions, based on the certificate and other conditions.
Grade
Grading scale: 5, 4, 3
Interim Regulations and Other Regulations
The course overlaps 3 credits with LA1620 Sensor Technique and 4 credits with CEL401 Sensor Technique.