¼¾¼·¾×Ãß¿¡ÀÌÅÍ (Sensors & Actuators)
±³ Àç : I. J. Busch-Vishniac, Electromechanical Sensors and Actuators, Springer, 1999.
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09¿ù 02ÀÏ : 1. Introduction
09¿ù 09ÀÏ : 2. System Models
2.1 system analogies
2.2 ideal 1-port elements
2.3 circuit models
2.4 bond graph models
2.5 nonenergic 2-port elements
2.6 multiport energic elements
09¿ù 16ÀÏ : 2.7 model analysis
3. Transduction based on an Electric Field
3.1 electric fields and forces
3.2 transducers made with a variable gap parallel plate capacitor
09¿ù 23ÀÏ : 3.3 transducers using other means of varying the capacitance
3.4 transducers with cylindrical geometry
3.5 gradient transduction using two dielectrics
3.6 electrostrictive transduction
09¿ù 30ÀÏ : ( Ãß¼® ¿¬ÈÞ )
10¿ù 07ÀÏ : 4. Transduction based on a Magnetic Field
4.1 magnetic systems
4.2 variable reluctance transducers with varying gap
4.3 variable reluctance transducers with varying permeability and area
4.4 gradient transduction with two ferromagnetic materials
10¿ù 14ÀÏ : 4.5 magnetostrictive transduction
4.6 eddy current transducers
5. Piezoelectricity and Pyroelectricity
5.0 introduction
5.1 piezoelectric relations
5.2 piezoelectric materials
10¿ù 21ÀÏ : 5.3 piezoelectric structures in transducers
5.4 models of piezoelectricity
5.5 examples of piezoelectric transducers
5.6 pyroelectricity
10¿ù 26ÀÏ : Midterm Exam. (Ch. 1~5)
10¿ù 28ÀÏ : 6. Linear Inductive Transduction Mechanism
6.1 piezomagnetism
6.2 pyromagnetism
6.3 charged particle interaction
6.4 Hall effect transducers
11¿ù 04ÀÏ : 7. Transduction Based on Changes in the Energy Dissipated
7.1 conductive switches
7.2 continuously variable conductivity transducers
7.3 potentiometric devices
7.4 piezoresistivity
7.5 thermoresistivity
7.6 thermoelectricity
7.7 magnetoresistivity
7.8 shape memory alloys in transduction
11¿ù 11ÀÏ : 8. Optomechanical Sensors
8.1 quantum detectors
8.2 fiber optic waveguide fundamentals
8.3 intensity-modulated fiber optic sensors
8.4 phase-modulated sensors
8.5 photostriction
11¿ù 18ÀÏ : 9. 2-Port Theory
9.1 basic 2-port equations
9.2 reciprocity
9.3 connected 2-ports
9.4 transfer matrix and sensitivity
9.5 wave matrix representation and efficiency
11¿ù 25ÀÏ : 10. Response Characteristics
10.1 response characteristics defined
10.2 calibration
10.3 frequency and time scaling
12¿ù 02ÀÏ : 11. Practical Considerations [ °ÀdzëÆ®14 ]
11.1 digitization and analog signals
11.2 signal conditioning
11.3 novel sensing/actuation techniques
11.4 spatially distributed transducers
12¿ù 09ÀÏ : Final Exam. (Ch. 6~11)