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Course unit, curriculum year 2024–2025
BBT.031

Introduction to Microsystem Technology, 5 cr

Tampere University
Teaching periods
Active in period 1 (1.8.2024–20.10.2024)
Active in period 2 (21.10.2024–31.12.2024)
Active in period 3 (1.1.2025–2.3.2025)
Active in period 4 (3.3.2025–31.5.2025)
Course code
BBT.031
Language of instruction
English
Academic years
2024–2025, 2025–2026, 2026–2027
Level of study
Intermediate studies
Grading scale
General scale, 0-5
Persons responsible
Responsible teacher:
Pasi Kallio
Responsible teacher:
Jari Väliaho
Responsible organisation
Faculty of Medicine and Health Technology 100 %
Coordinating organisation
MET Studies 100 %
Common learning outcomes
International outlook and global responsibility
Core content
  • Definition of microsystem technology, understanding of the potential and challenges related to microsystem technology, ability to name the main applications.
  • Definition of scaling effect, its origin and main effects at microscale.
  • Microscopy, especially optical microscopy, scanning electron microscopy and atomic force microscopy, basic operating principles.
  • Skills to operate in the clean room facilities under supervision.
  • Microactuators, especially piezoelectric actuators, shape memory alloy actuators, thermal actuators and electrostatic actuators, basic operating principles.
  • Microsensors, especially pressure, acceleration and flow sensors. Structure and basic operation principles.
Complementary knowledge
  • Basic understanding of dimensional analysis and and its utilization in microsystem technology.
  • Comparing benefits and limitations of different microscopy methods.
  • Profilometers in characterization.
  • Comparing the implementation and performance of different actuator types.
  • Comparing the implementation and performance of different sensor types.
Specialist knowledge
  • Analyse and compare the differencies in scaling between different physical phenomena.
  • Selection of microscopy technique according to the application.
  • Other characterization methods.
  • Material-related phenomena of microactuators. Microrobotics as an application field of microactuators.
  • Sensor fabrication techniques.
Learning outcomes
Prerequisites
Further information
Learning material
Equivalences
Studies that include this course
Completion option 1
Lectures and calculation exercise recommended. Visitation lectures gives bonus points. Obligatory: Lab exercise and Seminar
Completion of all options is required.

Participation in teaching

26.08.2024 08.12.2024
Active in period 1 (1.8.2024–20.10.2024)
Active in period 2 (21.10.2024–31.12.2024)

Exam

09.12.2024 09.12.2024
Active in period 2 (21.10.2024–31.12.2024)
15.01.2025 15.01.2025
Active in period 3 (1.1.2025–2.3.2025)
06.03.2025 06.03.2025
Active in period 4 (3.3.2025–31.5.2025)