Module Details
| Module Code: |
PHYS6030 |
| Title: |
Instrumentation Technology
|
|
Long Title:
|
Instrumentation Technology
|
| NFQ Level: |
Fundamental |
| Valid From: |
Semester 1 - 2019/20 ( September 2019 ) |
| Field of Study: |
4411 - Physics
|
| Module Description: |
This module introduces the student to practical analogue electronics required for the signal conditioning of transducer outputs. The transducers studied are used extensively in a variety of process industries. The module includes extensive laboratory based practical work to support and apply the lecture material. Emphasis is also placed on developing the student's ability to interpret and use manufacturers' data sheets.
|
| Learning Outcomes |
| On successful completion of this module the learner will be able to: |
| # |
Learning Outcome Description |
| LO1 |
Build and analyse circuits commonly used for the signal conditioning of transducer outputs. |
| LO2 |
Draw circuit diagrams and explain the operation of fundamental signal conditioning electronic circuits |
| LO3 |
Explain the meaning and significance of principal performance parameters of basic electronic
components as specified in manufacturer’s data sheets |
| LO4 |
Explain the operating principles of resistive, capacitive, inductive, pneumatic and piezoelectric transducers |
| Dependencies |
Module Recommendations
This is prior learning (or a practical skill) that is strongly recommended before enrolment in this module. You may enrol in this module if you have not acquired the recommended learning but you will have considerable difficulty in passing (i.e. achieving the learning outcomes of) the module. While the prior learning is expressed as named MTU module(s) it also allows for learning (in another module or modules) which is equivalent to the learning specified in the named module(s).
|
|
Incompatible Modules
These are modules which have learning outcomes that are too similar to the learning outcomes of this module. You may not earn additional credit for the same learning and therefore you may not enrol in this module if you have successfully completed any modules in the incompatible list.
|
| No incompatible modules listed |
Co-requisite Modules
|
| No Co-requisite modules listed |
Requirements
This is prior learning (or a practical skill) that is mandatory before enrolment in this module is allowed. You may not enrol on this module if you have not acquired the learning specified in this section.
|
| No requirements listed |
| Indicative Content |
|
Electrical switching
Transistor as a controlled current source.
Transistor as a switch. Relays in circuits.
|
|
Operational Amplifiers
IC packages pin out connections and construction, ideal op amp, performance characteristics (Common Mode Rejection ratio, Slew Rate, Open loop gain, Unity gain bandwidth, etc). Manufacturer’s data sheets. Op amp as amplifying unit, negative feedback, inverting and non inverting configurations, Use of op amp as a transducer output DC & AC amplifier.
Gain calculations, bandwidth, 3 dB point.
Simple circuits: Comparators, integrator and differentiator, Summing Amplifiers, Averaging amplifier
|
|
Active Filters
Importance of signal conditioning as applied to transducer output. Advantages of AC conditioning over DC conditioning. Active vs passive, ideal filter response, roll-off rate vs number of poles, bandwidth, 3 dB point. Common active filters. Oscillators and applications.
|
|
Signal Grounding
Current loops, voltage and current ranges (symmetrical/asymmetrical), Galvanic isolation, opto-isolation, circuits with different grounds and floating grounds.
|
|
Transducers
Transducer specifications; Principles and applications of resistive, capacitive, inductive, pneumatic, quartz and piezoelectric transducers; Vibration monitoring; Acceleration and velocity measurements. Applications in the measurement of position and proximity.
|
|
Module Content & Assessment
|
| Assessment Breakdown | % |
|---|
| Coursework | 100.00% |
Assessments
| No End of Module Formal Examination |
| Reassessment Requirement |
Repeat examination
Reassessment of this module will consist of a repeat examination. It is possible that there will also be a requirement to be reassessed in a coursework element.
|
The University reserves the right to alter the nature and timings of assessment
Module Workload
| Workload: Full Time |
| Workload Type |
Contact Type |
Workload Description |
Frequency |
Average Weekly Learner Workload |
Hours |
| Lecture |
Contact |
Lectures on practical analogue electronics |
Every Week |
2.00 |
2 |
| Lab |
Contact |
Practical sessions on use of transducers in a variety of process industries |
Every Week |
2.00 |
2 |
| Independent & Directed Learning (Non-contact) |
Non Contact |
Lab reports/ study of lecture material |
Every Week |
3.00 |
3 |
| Total Hours |
7.00 |
| Total Weekly Learner Workload |
7.00 |
| Total Weekly Contact Hours |
4.00 |
| Workload: Part Time |
| Workload Type |
Contact Type |
Workload Description |
Frequency |
Average Weekly Learner Workload |
Hours |
| Lecture |
Contact |
Delivery of indicative content |
Every Week |
2.00 |
2 |
| Lab |
Contact |
Application of lecture material |
Every Second Week |
1.00 |
2 |
| Independent & Directed Learning (Non-contact) |
Non Contact |
Lab reports and lecture review |
Every Week |
3.00 |
3 |
| Total Hours |
7.00 |
| Total Weekly Learner Workload |
6.00 |
| Total Weekly Contact Hours |
3.00 |
|
Module Resources
|
| Recommended Book Resources |
|---|
-
Horowitz, Paul; Hill, Winfield. (2017), The art of electronics, 3rd. Cambridge University Press, Cambridge, p.1192, [ISBN: 978052180926].
| | Supplementary Book Resources |
|---|
-
Thomas L. Floyd. (2010), Electronic Devices (Conventional Current Version), 9th ed.. Pearson, [ISBN: 9780132549868].
-
Albert Paul Malvino. (2015), Electronic Principles, 8th ed.. McGraw-Hill Education, [ISBN: 9780073373881].
| | Supplementary Article/Paper Resources |
|---|
-
Vivek T. Rathod. (2019), A Review of Electric Impedance Matching
Techniques for Piezoelectric Sensors,
Actuators and Transducers, Electronics 2019, 8(2), 169;, 8, p.2019,
| | This module does not have any other resources |
|---|
|
