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Explanatory Notes
Instructions
Web page:
https://moodle.fel.cvut.cz/courses/BAB34MNS
Anotation:
The content of the course are knowledge of new principles of operation of components and systems with micro-dimensions, microsystems, microsensors and microactuators usable in biomedicine, microsurgery, etc.
The course points to new possibilities of implementation and application of integrated microcomponents working with various physical and biochemical principles and quantities using mainly MEMS technology.
Physical principles of operation of microsystems and microactuators, classification, parameters, design, integration, signal processing, linearization, calibration, system intelligence, applications of microactuators (electrostatic, piezoelectric, thermal, chemical and biochemical, optical, ..).
The course introduces modern solutions in biomedicine, action elements in conjunction with sensors, whose operation is based on basic physical and biochemical principles, including basic applications in micromanipulation, microrobots. The course presents the principles of touch screens, energy microgenerators.
Study targets:
New knowledge about the current and future development of microsystems (on a chip), electrical and non-electrical action systems, the use of basic physical phenomena for medical applications, but also in other fields, in the implementation of miniature sources of electricity (Energy harvesting).
Course outlines:
| 1. | | Basic physical phenomena used for the operation of micro and nanosystems and sensors |
| 2. | | Parameters of micro / nanosensors and micro / nanoactuators |
| 3. | | Temperature microsensors - integrated, contact and contactless, thermal imagers, etc. |
| 4. | | Radiation microsensors |
| 5. | | Tactile sensors and touch screens |
| 6. | | Biosensors with a focus on electronic methods |
| 7. | | SMART micro / nanosensors |
| 8. | | Electrostatic principle for use in micro and nanomanipulators |
| 9. | | Piezoelectric and thermal principle for microaction members |
| 10. | | Chemical biochemical microaction principles |
| 11. | | Microsystems for biochemical analysis - Lab-on-chip, microspectrometer, microchromatograph, etc. |
| 12. | | Nanotechnological materials - from graphite to graphene and applications in sensors |
| 13. | | Nanotechnologies and applications for nanosystems and nanosensors |
| 14. | | Micro / nanosensors and wireless actuators with autonomous power supply |
Exercises outline:
| 1. | | Introductory exercises - safety, semester projects, instructions |
| 2. | | Introduction to FEM and Ansys |
| 3. | | Simulation of the Thermal Actuator in Ansys Workbench |
| 4. | | Ansys - Thermoelectric generator, Peltier cell |
| 5. | | Ansys - Strain gauge |
| 6. | | Dimatix - printer |
| 7. | | Coventor - electrostatic varactor |
| 8. | | Linear piezoelectric motor PiezoLEGS File, Power supply of microsystems by magnetic field File, Non-contact temperature measurement - sensor, Emissivity measurement using a thermal camera |
| 9. | | Energy harvesting - module EH300, Energy harvesting - Piezoharvester I, Energy harvesting - Piezoharvester II |
| 10. | | Thermoelectric generators, Power supply of microsystems by magnetic field |
| 11. | | Android system for displaying measured data from microsensors and LabView |
| 12. | | Multi-pass solar microcell cell for concentrated photovoltaics |
| 13. | | Presentation of semester works |
| 14. | | Substitute measurement, credit |
Literature:
| [1] | | Husák,M.: Mikrosenzory a mikroaktuátory. Academia 2008 |
| [2] | | Fraden,J.: Handbook of modern sensors. American institut of physics, Woodbury 1997 |
| [3] | | Tuller,H.L, Microactuators, Kluwer 1998 |
Requirements:
Keywords:
Microsystem, microsystem structures, energy domains, interdisciplinarity, system integration, multichip arrangement, physical phenomena, design methods, system reliability, microactuator parameters, scaling, touch screen, biometric components, graphene, action mechanisms, microactuator, electrostatic, micromanipulators, micromotors, piezoelectric , thermal, magnetic, chemical, biochemical, Lab-on-Chip, MEMS, RF MEMS, Energy harvesting, nanosystem.
Subject is included into these academic programs:
| Page updated 26.4.2024 12:51:24, semester: Z/2024-5, Z,L/2023-4, Send comments about the content to the Administrators of the Academic Programs |
Proposal and Realization: I. Halaška (K336), J. Novák (K336) |