Part 2 – Design of the 7-segment decoderDesign a decoder that has four inputs and seven outputs. The decoder's inputs come from the4-bit output of the Gray code converter. The decoder's outputs can be applied to a 7-segmentdisplay device.aGray TobBCD7-segmentConverterdecoderd Design a logic circuit that converts a Gray code to Binary Coded Decimal (8-4-2-1) which thenwill be displayed on a single 7-segment display device. Assume that only input combinationsrepresenting the digits 0 through 9 can occur as inputs, so that the six unused combinations aredon't cares.Your task is to design a code converter and a decoder as explained in parts 1 and 2. Thesecircuits can then be interfaced to a 7-segment display device which will display the decimalequivalent of the original Gray code.Part 1 - Design of the Gray to BCD converterDesign a combinational logic circuit that receives a Gray code representing decimal digits 0through 9 and produces the equivalent Binary Coded Decimal (8-4-2-1) on its output. Designyour circuit using only two, three, and four-input NAND gates and inverters. Minimize thenumber of gates and inverters required.

Answered: Image /qna-images/answer/9088850c-ffc1-49ab-b8a2-82b34a8a160d.jpg

Part 1 – Design of the Gray to BCD converter Design a combinational logic circuit that receives a Gray code representing decimal digits 0 through 9 and produces the equivalent Binary Coded Decimal (8-4-2-1) on its output. Design your circuit using only two, three, and four-input NAND gates and inverters. Minimize the number of gates and inverters required.

Part 1 – Design of the Gray to BCD converter Design a combinational logic circuit that receives a Gray code representing decimal digits 0 through 9 and produces the equivalent Binary Coded Decimal (8-4-2-1) on its output. Design your circuit using only two, three, and four-input NAND gates and inverters. Minimize the number of gates and inverters required.

Computer Networking: A Top-Down Approach (7th Edition)

7th Edition

ISBN:9780133594140

Author:James Kurose, Keith Ross

Publisher:James Kurose, Keith Ross

Chapter1: Computer Networks And The Internet

Section: Chapter Questions

Problem R1RQ: What is the difference between a host and an end system? List several different types of end...

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Question

Part 2 – Design of the 7-segment decoder
Design a decoder that has four inputs and seven outputs. The decoder's inputs come from the
4-bit output of the Gray code converter. The decoder's outputs can be applied to a 7-segment
display device.
a
Gray To
b
BCD
7-segment
Converter
decoder
d

Design a logic circuit that converts a Gray code to Binary Coded Decimal (8-4-2-1) which then
will be displayed on a single 7-segment display device. Assume that only input combinations
representing the digits 0 through 9 can occur as inputs, so that the six unused combinations are
don't cares.
Your task is to design a code converter and a decoder as explained in parts 1 and 2. These
circuits can then be interfaced to a 7-segment display device which will display the decimal
equivalent of the original Gray code.
Part 1 - Design of the Gray to BCD converter
Design a combinational logic circuit that receives a Gray code representing decimal digits 0
through 9 and produces the equivalent Binary Coded Decimal (8-4-2-1) on its output. Design
your circuit using only two, three, and four-input NAND gates and inverters. Minimize the
number of gates and inverters required.

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