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© 2016 AQA. Created by Teachit for AQA 3.4.2 Boolean logic Lesson 3.

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Presentation on theme: "© 2016 AQA. Created by Teachit for AQA 3.4.2 Boolean logic Lesson 3."— Presentation transcript:

1 © 2016 AQA. Created by Teachit for AQA 3.4.2 Boolean logic Lesson 3

2 © 2016 AQA. Created by Teachit for AQA Objective Interpret the results of simple truth tables. Create, modify and interpret simple logic circuit diagrams.

3 © 2016 AQA. Created by Teachit for AQA Starter activity Try Quiz 1.

4 © 2016 AQA. Created by Teachit for AQA Introduction The best way to create a diagram from a truth table using combined gates is to do the following: 1.Identify the possible number of inputs e.g. 1,2,3 etc 2.Identify the relationship between the first identified gates and inputs allowing which allows you to establish the type of logic gates are being used at the left-hand side of the diagram. We will now look at how to identify a simple circuit using a truth table.

5 © 2016 AQA. Created by Teachit for AQA Worked example 1 Truth table InputsOutput ABFQ 0001 0110 1010 1110 For our first step, we have only the truth table to provide us with information about the states of the inputs and output. What do you notice about this truth table? Look at the number of inputs and outputs. Look at what happens to the TRUE and FALSE values.

6 © 2016 AQA. Created by Teachit for AQA Truth table InputsOutput ABFQ 0001 0110 1010 1110 Worked example 2 How many inputs? Because there are four total combinations of input, we can deduce that there are probably two possible initial inputs (because 2 2 = 4). Draw two inputs A and B:

7 © 2016 AQA. Created by Teachit for AQA Truth table InputsOutput ABFQ 0001 0110 1010 1110 Worked example 3 What gate? If we look at inputs A and B, we can see that the output F corresponds to that of an OR gate. Draw the gate with an output of F

8 © 2016 AQA. Created by Teachit for AQA Truth table InputsOutput ABFQ 0001 0110 1010 1110 Worked example 4 F to Q? Finally, we have one output left for which there are two clues …  one ‘input’ F to one output Q  Q is inverse of F

9 © 2016 AQA. Created by Teachit for AQA Truth table InputsOutput ABFQ 0001 0110 1010 1110 Worked example 5 Completed circuit? From previous deduction, we have an OR gate feeding into a NOT gate! If we draw out the above circuit then it fits the truth table’s logic state listing perfectly.

10 © 2016 AQA. Created by Teachit for AQA Over to you… Try Quiz 2.

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