Due to Covid-19 students should refer to the module Blackboard pages for assessment details
|Assessment Type||Assessment length / details||Proportion|
|Semester Assessment||Practical Exercise 1 (2 hour exercise + 1 hour write-up)||30%|
|Semester Assessment||Practical Exercise 2 (2 hour exercise + 1 hour write-up)||30%|
|Semester Assessment||1 hour online assessment 1||10%|
|Semester Assessment||1 hour online assessment 2||10%|
|Semester Assessment||1 hour online assessment 3||10%|
|Semester Assessment||1 hour online assessment 4||10%|
|Supplementary Assessment||Resubmit Failed Component||100%|
On successful completion of this module students should be able to:
1. Demonstrate an understanding of instrumentation systems.
2. Describe the basic characteristics of digital and analogue signals and different conversion methods between them.
3. Describe the operation of sensors for light, temperature and other physical phenomena
4. Analyse the operation of simple filter circuits and explain the need for filtering.
5. Demonstrate the use of programmable systems for data acquisition.
6. Describe different communication protocols used in instrumentation.
Modern instrumentation and data acquisition systems are invariably computer controlled, this module reflects this in its use of PC and other programmable devices to control and acquire data from sensors of various types.
This module aims to give a broad understanding of instrumentation systems which will be invaluable to students undertaking experimental physics.
Types of signal encountered by instrumentation systems.
Important terms associated with instrumentation systems.
Comparison of digital and analogue signals.
Analogue to digital conversion and vice versa - sampling and quantisation.
Physical origins of fundamental noise and its effect on instrumentation.
Examples of sensors used in instrumentation systems.
Effects of loading on signals.
Use of programmable systems for instrumentation.
Interfacing instrumentation systems
|Skills Type||Skills details|
|Application of Number||Use numerical techniques to design and analyse sensor interfacing circuits.|
|Information Technology||Program a data acquisition system.|
|Problem solving||Evaluate different approaches to sensor interfacing. Create programs to meet a specification.|
|Research skills||Use of datasheets and manufacturer supplied data for design. Research into facilities offered by programming languages|
|Subject Specific Skills||Use of programmable data acquisition and instrumentation system.|
This module is at CQFW Level 5