### State Transition Table and Analysis for a Moore FSMIn this educational module, we examine a state transition table for a Moore Finite State Machine (FSM). The variables are defined as follows:- **Q**: Present state- **x**: Input variable- **D**: Next state- **y**: Output variableThe state transition table is depicted below:| Q | x | D | y ||---|---|---|---|| 0 | 0 | 0 | 1 || 0 | 1 | 1 | 1 || 1 | 0 | 0 | 0 || 1 | 1 | 1 | 0 |#### ProblemBased on this state transition table, determine the value of the input variable **x** that will cause the output variable **y** to oscillate between 0 and 1.**Hint:** Consider drawing a state transition diagram to visualize the state changes and output behavior.### Explanation of the Table- When in state 0 (Q = 0): - If x = 0, the system remains in state 0 and outputs y = 1. - If x = 1, the system transitions to state 1 and outputs y = 1.- When in state 1 (Q = 1): - If x = 0, the system transitions back to state 0 and outputs y = 0. - If x = 1, the system remains in state 1 and outputs y = 0.### ConclusionDrawing a state transition diagram based on this data will help illustrate how input values affect state transitions and outputs. This is crucial for understanding how to achieve oscillation between output values 0 and 1.

In the given state transition table: Q (Present State) X (Input) D (Next state) Y (Output) 0 0 1 1 0 1 0 1 1 0 0 0 1 1 1 0 Q is the present state. X is the input variable. D=Qn+1 is the next state. Y is the Output. Note: In case of Moore Machine the output depends only on the state not on Input. Hence the Expression for output will be: Y=Q And the next state depends on the present input and present state. The expression for next state will be: D=Qn+1=Q⊙XNow draw the state diagram for the given state transition table. State diagram: Hence from the state diagram it is clear for input X=0 the output Y will oscillate between 0 and 1.

Engineering

Electrical Engineering

Q is the present state, x is the input variable, D is the next state, and y is the output variable of a Moore FSM: 1. 1. Based on this state transition table, what value of input variable x will cause y to oscillate between 0 and 17 Hint: draw a state transition diagram. ACid Submit to compiese this ssessment 1M

Q is the present state, x is the input variable, D is the next state, and y is the output variable of a Moore FSM: 1. 1. Based on this state transition table, what value of input variable x will cause y to oscillate between 0 and 17 Hint: draw a state transition diagram. ACid Submit to compiese this ssessment 1M

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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Question

### State Transition Table and Analysis for a Moore FSM

In this educational module, we examine a state transition table for a Moore Finite State Machine (FSM). The variables are defined as follows:

- **Q**: Present state
- **x**: Input variable
- **D**: Next state
- **y**: Output variable

The state transition table is depicted below:

| Q | x | D | y |
|---|---|---|---|
| 0 | 0 | 0 | 1 |
| 0 | 1 | 1 | 1 |
| 1 | 0 | 0 | 0 |
| 1 | 1 | 1 | 0 |

#### Problem

Based on this state transition table, determine the value of the input variable **x** that will cause the output variable **y** to oscillate between 0 and 1.

**Hint:** Consider drawing a state transition diagram to visualize the state changes and output behavior.

### Explanation of the Table

- When in state 0 (Q = 0):
- If x = 0, the system remains in state 0 and outputs y = 1.
- If x = 1, the system transitions to state 1 and outputs y = 1.

- When in state 1 (Q = 1):
- If x = 0, the system transitions back to state 0 and outputs y = 0.
- If x = 1, the system remains in state 1 and outputs y = 0.

### Conclusion

Drawing a state transition diagram based on this data will help illustrate how input values affect state transitions and outputs. This is crucial for understanding how to achieve oscillation between output values 0 and 1.

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