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Course Catalog 2012-2013
BME-2516 Electronics in Bioelectrical Applications, 6 cr |
Person responsible
Javier Gracia Tabuenca, Juha Nousiainen
Lessons
Study type | P1 | P2 | P3 | P4 | Summer | Implementations | Lecture times and places |
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Requirements
Accepted weekly assignments and exercise work with a written report.
Completion parts must belong to the same implementation
Learning outcomes
Students will become familiar with electronic design of multiple simple medical instruments, with special focus on biopotential amplifiers. Students are able to design, construct and evaluate a biopotential amplifier as well as explain number of different factors effecting such measurements e.g. amplifiers, filters, noise, patient safety and electrode-tissue interface. Students will enhance their practical knowledge of making block diagrams, schematics, PCBs and reading component data-sheets.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Design, construction and evaluation of a biopotential amplifier. The functionality of the instrumentation amplifier (IA) circuit and properties of an ideal and non-ideal operational amplifier. | Suitability of a certain IA to bioelectric applications. Practical issues related to layout design (Schematics and PCB) and component selection. | |
2. | Basics of EMI/EMC in medical devices in terms of noise sources, coupling and rejection. | Deeper understanding of noise sources and their rejection. | |
3. | Filter design for biopotential amplifiers | ||
4. | Practical issues of biopotential electrodes. | Theoretical issues related to biopotential electrodes. | |
5. | Functional and safety requirements for medical devices used in bioelectrical applications. | Standards. | |
6. | Examples of electronics design of other biomedical devices. | Examples of electronics design of other biomedical devices. |
Evaluation criteria for the course
The final grade of the course is determined based on the assessment of all part of the course. The weighting factor of each part is given at the beginning of the course. Grades 1-2: Learning outcomes have been achieved. Satisfactory command in core content of the course. Grades 3-4: Some learning outcomes have been exceeded qualitatively or quantitatively. Good command in core content and complementary knowledge of the course. Good or very good marks from all parts of the course. Grade 5: Most of the learning outcomes have been exceeded. Deep command in the whole content of the course. Almost maximum performance in all parts of the course.
Assessment scale:
Numerical evaluation scale (1-5) will be used on the course
Partial passing:
Study material
Type | Name | Author | ISBN | URL | Edition, availability, ... | Examination material | Language |
Book | Design with operational amplifiers and analog integrated circuits | Franco, Sergio | 0-07-232084-2 | English | |||
Book | Medical instrumentation: application and design | Webster, John G. | 0-471-15368-0 | English | |||
Book | Ultra Low Power Bioelectronics: Fundamentals, Biomedical Applications, and Bio-Inspired Systems | Rahul Sarpeshkar | 978-0-521-85727-7 | English | |||
Lecture slides | English |
Prerequisites
Course | Mandatory/Advisable | Description |
ELE-2050 Elektroniikan työkurssi | Advisable | |
ELE-2201 Analogiatekniikka | Advisable |
Additional information about prerequisites
To complete the course successfully you need to have adequate knowledge on analog electronics, CAD electronics design software and prototype manufacturing.
Prerequisite relations (Requires logging in to POP)
Correspondence of content
Course | Corresponds course | Description |
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More precise information per implementation
Implementation | Description | Methods of instruction | Implementation |
Contact teaching: 0 % Distance learning: 0 % Self-directed learning: 0 % |