課程大綱

課程資訊

課程名稱

感測器原理與設計
PRINCIPLE AND DESIGN OF SENSORS

開課學期

96-2

授課對象

學程光機電系統學程

授課教師

黃光裕

課號

ME5201

課程識別碼

522 U4830

班次

學分

全/半年

半年

必/選修

選修

上課時間

星期五6,7,8(13:20~16:20)

上課地點

工綜205

備註

總人數上限：40人

Ceiba 課程網頁

http://ceiba.ntu.edu.tw/962SEN

課程簡介影片

核心能力關聯

核心能力與課程規劃關聯圖

課程大綱

為確保您我的權利,請尊重智慧財產權及不得非法影印

課程概述

本課程從感測器系統架構和量測器性能之介紹出發，逐步探討各式感測器原理、感測器結構設計與其應用。上課同學必須依據課程進度安排事先研讀教科書，上課時逐句翻譯課文內容，不足與不清楚部分將由授課老師補充。每學期都有一個感測器設計專題，由同學依據要求設計出一種感測器系統並提出數種可能之用途。除設計專題之外還有文獻研讀，將研讀結果寫成書面報告，並在期末進行口頭報告。
課程大綱：
General Introduction
Force, Pressure and Stress Sensors
Strain and Displacement Sensors
Speed and Acceleration Sensors
Sensors for Optical Systems
Sensors for diverse Systems

課程目標

隨著自動化科技發展感測器愈顯其重要性，已經成為工程研發工作上不可或缺的元組件。本課程將逐步研讀探討各式感測器原理、感測器結構設計與其應用。

課程要求

預期每週課後學習時數

Office Hours

每週一 08:00~12:00

指定閱讀

參考書目

教科書：Doebelin, Ernest O.,: Measurement Systems :Application and Design.
Fifth Edition, International Edition, McGraw-Hill Companies, 2003.
參考書：
1.Pallàs-Areny, Ramon and Webster, John G.: Sensors and signal conditioning.
New York : Wiley, 1991.
2.Ciureanu, P. and Middelhoek, S.: Thin film resistive sensors. Bristo;
Philadelphia: Institute of Physics Pub, 1992
3.Carstens, James R., Electrical Sensors and Transducers.Regents/Prentice
Hall, 1992.
4.Loughlin, C.: Sensors for industrial inspection. Dordrecht; Boston, Kluwer
Academic Publishers, 1993.
5.Grattan, K.T.V.: Sensors: technology, systems, and applications. Bristol,
Philadelphia: A. Hilger, 1991.
6.Beckwith, T. G: Mechanical Measurements, Addison Wesley, 1995.
7.Dally, James W. et al: Instrumentation for Engineering Measurements. John
Wiley & Sons, 1992.
8.Figliola, R. S. and Beasley, D. E.: Theory and Design for Mechanical
measurements, John Wiley & Sons, 2000.
9.Histand, M. B. and Alciatore, D. G. : Introduction to Mechatronics and
Measurement Systems, McGRAW-Hill Book Co., 1998.

評量方式
(僅供參考)

No.	項目	百分比	說明
1.	專題設計	40%
2.	期末文獻報告	40%
3.	隨堂翻譯報告	20%

課程進度

週次	日期	單元主題
第1週	2/22	Introduction： Functional Elements of an Instrument Active and Passive Transducers Analog and Digital Modes of Operation
第2週	2/29	Introduction： Null and Deflection Methods Input-Output Configuration of Instruments and Measurement Systems
第3週	3/07	Introduction： Static Sensitivity Linearity
第4週	3/14	Introduction： Threshold, Noise Floor, Resolution, Hysteresis, and Dead Space Experimental Determination of Measurement-System Parameters Fundamental Standards
第5週	3/21	Relative Displacement: Translational and Rotational Calibration Resistive Potentiometers Resistance Strain Gage
第6週	3/28	Relative Displacement: Translational and Rotational Differential Transformers Syncros and Resolvers Variable Inductance and Variable Reluctance Pickups
第7週	4/04	Relative Displacement: Translational and Rotational Eddy-Current Noncontacting Transducers Capacitance Pickups Piezoelectric Transducers Electro-Optical Devices
第8週	4/11	Midterm Project Presentation
第9週	4/18	Relative Displacement: Translational and Rotational Photographic and Electronic Imaging Techniques Photoelastic, Brittle Coating, and Moiré Fringe, Stress Analysis Techniques Displacement-to-Pressure (Nozzle-Flapper) Transducer
第10週	4/25	Relative Displacement: Translational and Rotational Digital Displacement Transducers Ultrasonic Transducers
第11週	5/02	Relative Velocity: Translational and Rotational Velocity by Electrical Differentiation of Displacement Voltage Signals Seismic- (Absolute-) Displacement Pickups
第12週	5/09	Relative Velocity: Translational and Rotational Seismic- (Absolute-) Velocity Pickups Seismic- (Absolute-) Acceleration Pickups
第13週	5/16	Force, Torque, and Shaft Power Measurement Standard and Calibration Basic Methods of Force Measurement
第14週	5/23	Force, Torque, and Shaft Power Measurement Standard and Calibration Basic Methods of Force Measurement Bonded-Strain-Gage Transducers
第15週	5/30	Force, Torque, and Shaft Power Measurement Differential-Transformer Transducers Torque Measurement on Rotating Shafts
第16週	6/06	Final Paper Presentation
第17週	6/13	Final Project Presentation