Scheme of work – Cambridge IGCSE Computer Studies (US) 0441

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Scheme of work – Cambridge IGCSE® Computer Studies (US) 0441
Unit 6: Logic gates and circuits
Recommended prior knowledge
None, although it may be helpful if students have studied Units 5 and 9 before starting this unit.
Context
This unit introduces logic gates, which are the building blocks for the relatively complex memory and processor circuits found in computers. At this level, to achieve
a more concrete grasp of their fundamental properties, they are only treated as components in relatively simple, stand-alone logic circuits. For this unit, together
with Units 4 and 5, Computer Studies Support Booklet – Part 3 (http://teachers.cie.org.uk/docs/dynamic/31798.pdf) provides notes on section 3 of the syllabus and
practice problems (with answers in Computer Studies Support Booklet – Answers (http://teachers.cie.org.uk/docs/dynamic/31801.pdf).
Outline
Truth tables and symbols for two-input NOT, AND, OR, NAND and NOR logic gates. Truth tables for given logic circuits with a maximum of 3 inputs and 6 gates.
Production of a simple logic circuit from a written design brief.
WARNING: Practical work with logic gate chips can be relatively cheap to perform and very rewarding, but is hazardous if teachers and students are not properly
aware of the risks from connecting modules or electronic components in ways for which they are not intended. For example, if a LED is connected directly across a
power supply without a current-limiting series resistor, it is liable to explode in a way that could cause permanent damage to an unprotected eye. See, for example,
www.youtube.com/watch?v=L85UNTW4lgU. Practical work can also be performed with free logic simulation software.
Syllabus
ref
Learning
objectives
3.3.1
Basic logic gates
Suggested teaching activities
Learning resources
Use appropriate hardware or simulation software to introduce students to
the functions of the NOT and 2-input AND, OR, NAND and NOR logic
gates.
LWS coursebook pp. 274–7
www.logiccircuit.org/
Free program for drawing and simulating logic circuits
Students can observe the output produced from all possible combinations
of inputs to construct each gate’s truth table.
3.3.2
v1 2Y05
Logic gate
symbols
Extension work:
Work out the simple logic circuits required to create NAND and NOR
gates using AND, OR and NOT gates and test them.
Students need to recognise two ways of representing the logic gates.
Cambridge IGCSE Computer Studies (US) 0441
LWS coursebook p. 274–5
1
Syllabus
ref
3.3.3
3.3.4
Learning
objectives
Interpreting
simple logic
circuits
Designing simple
logic circuits
Suggested teaching activities
The distinctively-shaped symbols are preferred, but students may use the
labelled, circular symbols.
Students should perform graded practical exercises, using additional
columns for intermediate outputs, to produce truth tables for given logic
circuits (maximum of 3 inputs and 6 gates).
Students should perform practical exercises to design, build and test
a simple logic circuit from a given written statement (e.g. if A AND B are
on AND if C is on, then the lights will be on).
Learning resources
LWS coursebook pp. 277–9
LWS coursebook pp. 279–281
Design can proceed intuitively from the written statement of the problem,
but some students may be able to work algebraically, as would be
necessary for circuit simplification beyond the scope of this syllabus.
Extension work:
• Work out how to create NOT, AND and OR gates using only NAND
gates and test the solutions.
• Work out how to create NOT, AND and OR gates using only NOR
gates and test the solutions.
v1 2Y05
Cambridge IGCSE Computer Studies (US) 0441
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