The register is an important component in the digital system design. It holds its current state until the active edge of the clock comes and changes to its state according to the input states. The shift register is very common in many digital system designs. The input states will be transported from the first register (flip-flop) through a chain of sequential registers. For example, we have 4-bit output, the shift register will change from 0001 to 0010 to 0100 to 1000, and then repeats from 0001. This is called one-hot encoding. Now according to the description above, use the CD4013 and the logic gates to design the circuit that realize the 4-bit shift register above. The shift register will have 4-bit output and an initial input to initialize all the state. Demonstrate your circuit and simulated results.

The register is an important component in the digital system design. It holds its current state until the active edge of the clock comes and changes to its state according to the input states. The shift register is very common in many digital system designs. The input states will be transported from the first register (flip-flop) through a chain of sequential registers. For example, we have 4-bit output, the shift register will change from 0001 to 0010 to 0100 to 1000, and then repeats from 0001. This is called one-hot encoding. Now according to the description above, use the CD4013 and the logic gates to design the circuit that realize the 4-bit shift register above. The shift register will have 4-bit output and an initial input to initialize all the state. Demonstrate your circuit and simulated results.

Electric Motor Control

10th Edition

ISBN:9781133702818

Author:Herman

Publisher:Herman

Chapter22: Sequence Control

Section: Chapter Questions

Problem 6SQ: Draw a symbol for a solid-state logic element AND.

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