Module Identifier |
PH24520 |
Module Title |
INSTRUMENTATION SYSTEMS |
Academic Year |
2005/2006 |
Co-ordinator |
Dr Tudor E Jenkins |
Semester |
Semester 2 |
Other staff |
Mr Clive A Willson |
Pre-Requisite |
PH15720 , PH15510 |
Co-Requisite |
None |
Mutually Exclusive |
None |
Course delivery |
Lecture | 15 Lectures |
|
Seminars / Tutorials | 2 Exercise Classes, 3 Seminars |
|
Practical | 10 Hours |
Assessment |
Assessment Type | Assessment Length/Details | Proportion |
Semester Exam | 2 Hours | 30% |
Semester Assessment | Example sheets | 20% |
Semester Assessment | Labview report | 50% |
|
Learning outcomes
On completion of this module the student should be able to:
1 describe the basic characteristics of signal
2 describe the origins of noise
3 describe the operation and limitation of some transducers
4 appreciate the limitations of amplifier circuits
5 describe the operation of simple filters and differentiate between active and passive filters
6 describe some simple signal processing techniques, such as signal averaging and phase sensitive techniques
7 describe the basic principles of computer interfacing
8 appreciate the problems associated with converting analogue to digital signals
9 describe and apply the basic principles of digital signal processing
10 interface a simple experiment using the LabView system
Brief description
Measurement is an essential part of the scientific process. Instrumentation is the technology of measurement. In this module, students are taught the fundamental principles of instrumentation, to design a measurement system which takes due regard of problems such as accuracy, time response and noise of the overall system and its suitability for a particular measurement
Content
What is an electronic instrumentation system? A top-down approach to system design.
Types of signal encountered by instrumentation systems.
Important terms assocaited with instrumentation systems.
Comparison of digital and analogue instruments.
Noise in instrumentation systems and its characterisation.
Physical origins of fundamental noise.
Examples of sensors used in instrumentation systems.
Review of Ohm's Law and Kirchoff's laws in circuit electricity.
Development of equivalent circuits (voltage and current).
Effects of loading.
Review of AC circuits and detailed analysis of simple RC circuit.
Electronic amplifiers and their equivalent circuit.
Input and output resistance, frequency response, noise and cascading of amplifiers.
General characteristics of filters including comparison of passive and active filters.
What is a digital system? How digital systems handle numbers.
Analogue to digital conversion - sampling and quantisation.
Types of converters and the errors associated with them.
Electronic counting devices (systems approach only).
A ten hour practical session will take place throughout the semester to introduce LabView.
Reading Lists
Books
** Recommended Text
P.P.L. Regtien Instrumentation Electronics
Prentice/Hall
** Essential Reading
A. deSa Principles of Electronic Instrumentation
Edward Arnold
T E Jenkins Optical Sensing and Signal Processing Techniques
Prentice-Hall ISBN 0136381073
Notes
This module is at CQFW Level 5