Unit Outline
ENG741
Analog Electronics
Semester 2, 2024
Brian Salmon
School of Engineering
College of Sciences and Engineering
CRICOS Provider Code: 00586B

Unit Coordinator
Brian Salmon
Email: Brian.Salmon@utas.edu.au
What is the Unit About?
Unit Description
 

The unit introduces the fundamental concepts of modern electronics based on semiconductor devices. On completion of this unit you will be able to design amplifier circuits with feedback. Beginning with the basic atomic structure of doped silicon substrates, diode construction, operations and characteristic curves are introduced, leading to DC and AC analysis. This is expanded to quiescent point setting and AC small-signal analysis of common transistor types (BJTs, JFETs, MOSFETs). Capacitive decoupling, voltage gain, input and output impedance, effective bandwidth, cascaded systems (both with and without the loading effect) will be explored, along with circuit component interaction on low frequency responses and parasitic effects on high frequency responses (Miller capacitance). The construction of common operational amplifiers will be reviewed and used to design active filters, with non-ideal equivalents used to describe its limitations. The benefits of an instrumentation amplifier over an operational amplifier will be investigated. Finally, the effect of shunt and series feedback on stability, gain and effective bandwidth will be analysed. These are fundamental circuit types required for control and communications systems, and advanced embedded systems, which are studied later in the degree.
Intended Learning Outcomes
As per the Assessment and Results Policy 1.3, your results will reflect your achievement against specified learning outcomes.
On completion of this unit, you will be able to:
1
Explain the characteristics and operation of low frequency (audio and below) analogue electronic circuits.
2
Design low frequency analogue electronic circuits using electronic mathematical models.
3
Construct analogue electronic circuits applicable to a communication system.
4
Analyse analogue electronics circuits with regards to their operation, characteristics and implementation.
Requisites
REQUISITE TYPE
REQUISITES
Pre-requisite
KAA112 Engineering Circuits
Alterations as a result of student feedback
 
 
 

Teaching arrangements
ATTENDANCE MODE
TEACHING TYPE
LEARNING ACTIVITY
CONTACT HOURS
FREQUENCY
On Campus
Lectorial
3x 1-hour lectorials per week
1
3 times per week
Tutorial
Weekly 1-hour tutorials
1
Weekly
Practical
3x 3-hour practical
3
Study Period 3 times
Attendance / engagement expectations
If your unit is offered On campus, it is expected that you will attend all on-campus and onsite learning activities. This is to support your own learning and the development of a learning community within the unit. If you are unable to attend regularly, please discuss the situation with your course coordinator and/or our UConnect support team.

If your unit is offered Online or includes online activities, it is expected you will engage in all those activities as indicated in the Unit Outline or MyLO, including any self-directed learning.

If you miss a learning activity for a legitimate reason (e.g., illness, carer responsibilities) teaching staff will attempt to provide alternative activities (e.g., make up readings) where it is possible.
 
 
 
 

How will I be Assessed?
 
For more detailed assessment information please see MyLO.
Assessment schedule
ASSESSMENT TASK #
ASSESSMENT TASK NAME
DATE DUE
WEIGHT
LINKS TO INTENDED LEARNING OUTCOMES
Assessment Task 1:
Semester test
Week 8
15 %
LO4
Assessment Task 2:
Practical laboratory
Week 11
20 %
LO3, LO4
Assessment Task 3:
Design laboratory
Week 13
15 %
LO2, LO3
Assessment Task 4:
Assessed tutorial
Refer to Assessment Description
10 %
LO1, LO2, LO4
Assessment Task 5:
Final Exam
Exam Period
40 %
LO1, LO2, LO4
 
Assessment details
Assessment Task 1: Semester test
Task Description:
In-semester test will be conducted to assess students’ knowledge and skills in BJT transistors and diodes.
Task Length:
90 minutes
Due Date:
Week 8
Weight:
15 %
 
CRITERION #
CRITERION
MEASURES INTENDED
LEARNING OUTCOME(S)
1
Calculate the DC Q-points of BJT transistors and analyse the AC characteristics
LO4
2
Analyse DC and AC characteristics of diodes operating in various states at different instances of time.
LO4
 
Assessment Task 2: Practical laboratory
Task Description:
Students will construct two electronic circuits per laboratory session. Each circuit's output will be measured and compared to predicted operation. The circuit is to be analysed, predictions made, and calculations provided prior to each laboratory session.
Task Length:
Two 3-hour laboratory sessions
Due Date:
Week 11
Weight:
20 %
 
 

CRITERION #
CRITERION
MEASURES INTENDED
LEARNING OUTCOME(S)
1
Construct and measure performance of an analogue electronic circuit.
LO3
2
Compare the predicted and measure circuit performance.
LO4
 
Assessment Task 3: Design laboratory
Task Description:
Students will design and construct a transistor circuit with specifications. Focus will be on DC, AC, and frequency analysis of the circuit. Students will provide: written proof of pre-laboratory work, a post-laboratory design report, and a post-laboratory oral presentation.
Task Length:
One 3-hour laboratory session and 5 page report
Due Date:
Week 13
Weight:
15 %
 
CRITERION #
CRITERION
MEASURES INTENDED
LEARNING OUTCOME(S)
1
Design and construct a circuit to a specified performance.
LO2, LO3
 
Assessment Task 4: Assessed tutorial
Task Description:
Students will hand in an answer to the set question, typically selected from the week’s tutorials questions. This is a weekly task, due 2 working days after each tutorial.
Task Length:
13x 1-hour tutorials (weekly)
Due Date:
Refer to Assessment Description
Weight:
10 %
 
CRITERION #
CRITERION
MEASURES INTENDED
LEARNING OUTCOME(S)
1
Solve mathematical circuit problems for a diode, transistor and operational amplifier
LO1, LO2, LO4
2
Derive the bandwidth of transistor amplifier circuits
LO1, LO4
 
Assessment Task 5: Final Exam
Task Description:
Final exam
Task Length:
3 hours
Due Date:
Exam Period
Weight:
40 %
 
 

CRITERION #
CRITERION
MEASURES INTENDED
LEARNING OUTCOME(S)
1
Solve mathematical circuit problems for a diode, transistor and operational amplifier.
LO1, LO2, LO4
2
Derive the bandwidth of transistor amplifier circuits.
LO1, LO4
 
 
 

How your final result is determined
To pass this unit, you need to demonstrate your attainment of each of the Intended Learning Outcomes, achieve a final unit grade of 50% or greater, and pass any hurdle tasks.
Submission of assignments
Where practicable, assignments should be submitted to an assignment submission folder in MYLO. You must submit assignments by the due date or receive a penalty (unless an extension of time has been approved by the Unit Coordinator). Students submitting any assignment in hard copy, or because of a practicum finalisation, must attach a student cover sheet and signed declaration for the submission to be accepted for marking.
Academic integrity
Academic integrity is about acting responsibly, honestly, ethically, and collegially when using, producing, and communicating information with other students and staff members.

In written work, you must correctly reference the work of others to maintain academic integrity. To find out the referencing style for this unit, see the assessment information in the MyLO site, or contact your teaching staff. For more detail about Academic Integrity, see
Important Guidelines & Support.
Requests for extensions
If you are unable to submit an assessment task by the due date, you should apply for an extension.
 
A request for an extension should first be discussed with your Unit Coordinator or teaching support team where possible. A request for an extension must be submitted by the assessment due date, except where you can provide evidence it was not possible to do so. Typically, an application for an extension will be supported by documentary evidence: however, where it is not possible for you to provide evidence please contact your Unit Coordinator.
 
The Unit Coordinator must notify you of the outcome of an extension request within 3 working days of receiving the request.
Late penalties
Assignments submitted after the deadline will receive a late penalty of 5% of the original available mark for each calendar day (or part day) that the assignment is late. Late submissions will not be accepted more than 10 calendar days after the due date, or after assignments have been returned to other students on a scheduled date, whichever occurs first. Further information on Late Penalties can be found on the Assessments and Results Procedure.
Review of results and appeals
You are entitled to ask for a review of the marking and grading of your assessment task if there is an irregularity in the marking standards or an error in the process for determining the outcome of an assessment. Details on how to request a review of a mark for an assignment are outlined in the Review and Appeal of Academic Decisions Procedure.