The given State Diagram represents a circuit that has two Flip-Flops (A and B), one input (X) and one output (Y). The unused states should be treated as don't-care conditions. 00 1/1 1/1 0/1 1/0 0/0 11 01 0/1 a) Complete the Next State and Output columns of the State Table b) Using the Excitation Table of the JK Flip-Flop, determine the inputs for the two Flip-Flops (JA, KA and JB, KB) for each state transition c) Use Karnaugh Maps to minimize the functions of the combinational circuit for each Flip-Flop input (JA, KA and JB, KB) as well as the combinational circuit for the output (Y) d) Draw the diagram for Synchronous Sequential Circuit using JK Flip-Flops and the minimized equations

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The given State Diagram represents a circuit that has two Flip-Flops (A and
B), one input (X) and one output (Y). The unused states should be treated as
don't-care conditions.
00
1/1
1/1
/1
1/0
0/0
11
01
0/1
a) Complete the Next State and Output columns of the State Table
b) Using the Excitation Table of the JK Flip-Flop, determine the inputs for
the two Flip-Flops (JA, KA and JB, KB) for each state transition
c) Use Karnaugh Maps to minimize the functions of the combinational circuit
for each Flip-Flop input (JA, KA and JB, KB) as well as the combinational
circuit for the output (Y)
d) Draw the diagram for Synchronous Sequential Circuit using JK Flip-Flops
and the minimized equations
Transcribed Image Text:The given State Diagram represents a circuit that has two Flip-Flops (A and B), one input (X) and one output (Y). The unused states should be treated as don't-care conditions. 00 1/1 1/1 /1 1/0 0/0 11 01 0/1 a) Complete the Next State and Output columns of the State Table b) Using the Excitation Table of the JK Flip-Flop, determine the inputs for the two Flip-Flops (JA, KA and JB, KB) for each state transition c) Use Karnaugh Maps to minimize the functions of the combinational circuit for each Flip-Flop input (JA, KA and JB, KB) as well as the combinational circuit for the output (Y) d) Draw the diagram for Synchronous Sequential Circuit using JK Flip-Flops and the minimized equations
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