Design 3 - Bit sequential counter with D Flip-Flops. Provide the below: 1. State Diagram: 2....

Design 3 - Bit sequential counter with T Flip-Flops. Provide the below: 1. State Diagram: 2....

Design 3 - Bit sequential counter with T Flip-Flops. Provide the below: 1. State Diagram: 2. State Table: 3. K-maps and equations: 4. Logic Diagram:

What design is more effective a n 3 - Bit sequential counter with T Flip-Flops or...

What design is more effective a n 3 - Bit sequential counter with T Flip-Flops or a 3 - Bit sequential counter with D Flip-Flops. Why? Explain.

1) Design a sequential circuit with two D flip-flops, A and B, and one input, x....

1) Design a sequential circuit with two D flip-flops, A and B, and one input, x. When x = 0, the circuit state does not change. When x = 1, the circuit stops through the state transitions from 00 to 01, from 01 to 10, from 10 to 11, finally back to 00 and the sequence repeats. to. Find the state diagram b. Find the table of states c. Find the equations of state d. Find the logic diagram

Ripple Counters and T-FFs. (a) Design a 5-bit ripple down-counter using T Flip-Flops and no other...

Ripple Counters and T-FFs. (a) Design a 5-bit ripple down-counter using T Flip-Flops and no other components. (b) Design a 5-bit ripple up-counter using T Flip-Flops and no other components. (c) What limits the maximum counting speed of your ripple counters? (d) Design a T Flip-Flop using only a D flip-flop with no extra logic gates.

5. Draw a Moore-type state diagram and design a synchronous sequential circuit using D flip flops...

5. Draw a Moore-type state diagram and design a synchronous sequential circuit using D flip flops for a 1-input/1-output "sequence detector" for the sequence 1001 (be sure to recognize overlapping sequences). Use don't cares. Draw the final circuit.

Question 1:A) A sequential circuit has two flip-flops A and B, two inputs X and Y,...

Question 1:A) A sequential circuit has two flip-flops A and B, two inputs X and Y, and one output Z. The flip-flop input equations and output function are as follows: SA = BX + B’Y’ RA = B’XY’ SB = A’X RB = A + XY’ Z = AXY+BX’Y’ a) Draw the logic diagram of the circuit. b) Derive the state table and state diagram of the circuit. Question 1: b)For the sequential circuits given below a) Write flip-flop input...

Use JK Flip Flop to design a 2-bit synchronous counter (up counter) that counts down as...

Use JK Flip Flop to design a 2-bit synchronous counter (up counter) that counts down as given: AB = 01, 11, 00, 10, and then again 01. Show the design steps (e.g state table, j and k inputs for k-maps etc) and draw the final circuit.

Design a 4 bit counter of even numbers (0,2,4,6,8,10,12,14) using jk flip flops that holds when...

Design a 4 bit counter of even numbers (0,2,4,6,8,10,12,14) using jk flip flops that holds when input is 0 and moves to the next state when input is 1

Design a sequencer using J-K flip-flops that will sequence through the following states and then repeat...

Design a sequencer using J-K flip-flops that will sequence through the following states and then repeat the sequence in response to successive clock pulses:      0,1,3,5,7,4,0,………….. PLEASE INCLUDE ALL OF THE FOLLOWING: -a state diagram -a binary state transition table -K-maps and reduced expressions for all J-K inputs -logic diagram

Design a synchronous machine (Transition Table, K-maps, Final Equations, Circuit Diagram) that counts through the following...

Design a synchronous machine (Transition Table, K-maps, Final Equations, Circuit Diagram) that counts through the following sequence in the order shown below. Note, there are no inputs or output variables, so your Q values must reflect the Hex value listed. A 4 1 2 6 3 9 C 7 and repeat a) using D flip-flops and combinational logic b) using a PROM device (must show Hex values in order) and 4-bit D-Register