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A numeric system (e.g. a numeric keypad) generates numbers 0 to 9 in binary. You are asked to design combinational logic that outputs a '1' when the number generated from the numeric system is an odd number (1, 3, 5,..) or number 0. Programme of Work 1 Write down the truth table for the circuit. 2 Use Karnaugh maps to minimise the circuit. Note that you have to make use of any "don't care" states to get the minimised form of the circuit

A numeric system (e.g. a numeric keypad) generates numbers 0 to 9 in binary. You are asked to design combinational logic that outputs a '1' when the number generated from the numeric system is an odd number (1, 3, 5,..) or number 0. Programme of Work 1 Write down the truth table for the circuit. 2 Use Karnaugh maps to minimise the circuit. Note that you have to make use of any "don't care" states to get the minimised form of the circuit

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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A numeric system (e.g. a numeric keypad) generates numbers 0 to 9 in binary. You are asked to design combinational logic that outputs a '1' when the number generated from the numeric system is an odd number (1, 3, 5,..) or number 0. Programme of Work 1 Write down the truth table for the circuit. 2 Use Karnaugh maps to minimise the circuit. Note that you have to make use of any "don't care" states to get the minimised form of the circuit 3 Use AND, OR and inverter gates to realise the minimised circuit and draw the schematic of the circuit.
Transcribed Image Text:A numeric system (e.g. a numeric keypad) generates numbers 0 to 9 in binary. You are asked to design combinational logic that outputs a '1' when the number generated from the numeric system is an odd number (1, 3, 5,..) or number 0. Programme of Work 1 Write down the truth table for the circuit. 2 Use Karnaugh maps to minimise the circuit. Note that you have to make use of any "don't care" states to get the minimised form of the circuit 3 Use AND, OR and inverter gates to realise the minimised circuit and draw the schematic of the circuit.
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A numeric system (e.g. a numeric keypad) generates numbers 0 to 9 in binary. You are asked to design combinational logic that outputs a '1' when the number generated from the numeric system is an odd number (1, 3, 5,..) or number 0. Programme of Work 1 Write down the truth table for the circuit. 2 Use Karnaugh maps to minimise the circuit. Note that you have to make use of any "don't care" states to get the minimised form of the circuit 3 Use AND, OR and inverter gates to realise the minimised circuit and draw the schematic of the circuit.
Transcribed Image Text:A numeric system (e.g. a numeric keypad) generates numbers 0 to 9 in binary. You are asked to design combinational logic that outputs a '1' when the number generated from the numeric system is an odd number (1, 3, 5,..) or number 0. Programme of Work 1 Write down the truth table for the circuit. 2 Use Karnaugh maps to minimise the circuit. Note that you have to make use of any "don't care" states to get the minimised form of the circuit 3 Use AND, OR and inverter gates to realise the minimised circuit and draw the schematic of the circuit.
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