Digital Electronic Systems

The details
Computer Science and Electronic Engineering (School of)
Colchester Campus
Spring Special
Undergraduate: Level 4
Monday 13 January 2020
Friday 26 June 2020
25 April 2019


Requisites for this module



Key module for

BENGH610DA Electronic Engineering

Module description

This module will examine how data are represented within digital systems, including floating point, 'text' and 'data' files, and how the conversions between internal and human-readable forms are performed. The design and applications of higher-level logic elements such as counters, registers and multiplexers are discussed, as well as the more general concept of the finite state machine and its design. Transmission of digital data between systems is introduced by examination of the RS232 protocol.

Module aims

This module aims to develop the fundamental concepts introduced in the Autumn term module, CE161, Digital Systems Architecture. The majority of the information in the world is in analogue format. Fundamental decisions are made as to how such sources should be represented in the digital domain.

Module learning outcomes

After completing this module, students will be expected to be able to:

1. demonstrate an understanding of number systems, and conversion methods between number bases, including fixed and floating-point binary.
2. design digital circuits incorporating higher-level logic elements such as counters, registers and multiplexers.
3. perform forensic byte-level interpretation of data file contents using standard tools.
4. describe and implement a serial data transmission system.
5. select appropriate system parameters for digital representation of analogue signals.
6. be aware of methods to perform simple manipulations of digital image and audio data.

Module information

Outline Syllabus

Revision of binary number representation and binary arithmetic.
Number conversions between arbitrary bases.
Representation of floating-point binary numbers and applications in digital systems; accuracy of numerical calculations.
Use of Karnaugh map techniques in logic design, including variable-entered map logic design.
Sequential logic: Asynchronous and synchronous counters; finite state machines and their design; sequence detectors.
Asynchronous serial data transmission.
Analogue to digital and digital to analogue conversion techniques.
Sampling in theory (Nyquist's theorem) and in practice (sample and hold circuits). Quantization and quantization accuracy.
Frequency spectra and frequency domain representation of sampled data. Fourier series.
Data compression concepts.

Learning and teaching methods

Lectures and Laboratories


This module does not appear to have any essential texts. To see non-essential items, please refer to the module's reading list.

Assessment items, weightings and deadlines

Coursework / exam Description Deadline Weighting
Coursework Progress Test - Week 22 25%
Coursework Assignment 1 - Part 1 - Week 17: Introduction to Computer Aided Design for Digital and Analogue Systems 24/01/2020 6.25%
Coursework Assignment 1 - Part 2 - Week 18: Introduction to Computer Aided Design for Digital and Analogue Systems 31/01/2020 6.25%
Coursework Assignment 2 - Week 21: CAD Digital Design Exercise 21/02/2020 25%
Coursework Assignment 3 - Week 30: Report, digital hardware design 23/04/2020 37.50%
Exam 120 minutes during Summer (Main Period) (Main)

Overall assessment

Coursework Exam
40% 60%


Coursework Exam
40% 60%
Module supervisor and teaching staff
Dr Nikolaos Thomos
School Office, email: csee-schooloffice (non-Essex users should add @essex.ac.uk to create full e-mail address), Telephone 01206 872770



External examiner

No external examiner information available for this module.
Available via Moodle
Of 47 hours, 20 (42.6%) hours available to students:
27 hours not recorded due to service coverage or fault;
0 hours not recorded due to opt-out by lecturer(s).


Further information

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