# 2022/23 Undergraduate Module Catalogue

## ELEC1130 Circuit Analysis and Design

### 20 creditsClass Size: 180

Module manager: Dr. Chris Wood
Email: C.D.Wood@leeds.ac.uk

Taught: Semesters 1 & 2 (Sep to Jun) View Timetable

Year running 2022/23

This module is not approved as a discovery module

### Objectives

This module provides an introduction to key electronic components, the basic concepts of electronic circuit analysis and design and the basic principles of electronic circuit test and measurement.

Learning outcomes
On completion of this module students should be able to:

1. Apply basic physical and mathematical principles to solve well-defined circuit problems.
2. Apply circuit theory and modelling techniques to the design and analysis of basic electronic circuits.
3. Use software tools for the analysis of electronic circuits.
4. Use a systems approach in the design of electronic circuits.
5. Solve well-defined circuit design problems involving basic electronic components, including diodes and transistors.
6. Use electronics laboratory equipment, general laboratory skills and safe working practices, to test and diagnose basic electronic circuits.

### Syllabus

Introduction to electronic circuits: current, voltage, charge, circuit diagrams, Kirchhoff’s current & voltage laws
Resistors, Ohm’s Law, resistor combinations, potential divider, and superposition principle
Ideal and real voltage & current sources
Concept of a load
Thévenin and Norton equivalents
Capacitors & inductors
Phenomenological transient response
Electrical power and energy
Energy storage & dissipation
Introduction to AC circuit behaviour: rms quantities
Reactance, impedance and phase shifts between current & voltage
Electronic circuit labs
Safety in the Laboratory
Basic measurement techniques: digital multimeter and oscilloscope, loading effects
Circuit simulation: Using multisim or equivalent contemporary software packages
Diodes: ideal and real I-V characteristics
AC rectification
Transistors: basic operating principles of BJTs and FETs
Transistor biasing
Small-signal equivalent circuit models
Amplifier design with transistors
Circuit models
Amplifier gain, input and output resistance
Operational Amplifiers: virtual ground principle, use of feedback, simple op-amp filter circuits

### Teaching methods

 Delivery type Number Length hours Student hours Laboratory 18 2.00 36.00 Seminar 22 1.00 22.00 Independent online learning hours 44.00 Private study hours 98.00 Total Contact hours 58.00 Total hours (100hr per 10 credits) 200.00

### Private study

Students are expected to use private study time to consolidate their understanding of course materials, to undertake preparatory work for seminars, workshops, tutorials, examples classes and practical classes, and also to prepare for in-course and summative assessments.

### Opportunities for Formative Feedback

Students studying ELEC modules will receive formative feedback in a variety of ways, including the use of self-test quizzes on Minerva, practice questions/worked examples and (where appropriate) through verbal interaction with teaching staff and/or post-graduate demonstrators.

### Methods of assessment

Exams
 Exam type Exam duration % of formal assessment Practical Exam / OSCE 2 hr 00 mins 30.00 Online MCQ 1 hr 00 mins 30.00 Online MCQ 1 hr 00 mins 40.00 Total percentage (Assessment Exams) 100.00

Normally resits will be assessed by the same methodology as the first attempt, unless otherwise stated

There is no reading list for this module

Last updated: 03/05/2022 14:36:20

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