**Problem Statement:**5. The following Data input and data select waveforms are applied to a De-Multiplexer. Determine the output waveform.**Diagram Explanation:**The diagram below the problem statement represents three signals:1. **Data In**: The top waveform represents the binary data input to the de-multiplexer. It is a periodic square wave, alternating between high and low states.2. **Select Signal \( S_0 \)**: The second waveform is the select signal \( S_0 \). It also shows a square wave pattern that changes state more frequently than the data input.3. **Select Signal \( S_1 \)**: The bottom waveform is the select signal \( S_1 \). This signal has a similar square wave pattern, with changes occurring at a different frequency compared to \( S_0 \).In a de-multiplexer, the data input is routed to one of the output lines based on the select signals. The specific combination of \( S_0 \) and \( S_1 \) determines which output line the input is sent to. The challenge is to analyze these waveforms and determine the resulting output waveform for a given combination of select signals.

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Answered: Data in Spi

Engineering

Electrical Engineering

Data in Spi

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

**Problem Statement:**

5. The following Data input and data select waveforms are applied to a De-Multiplexer. Determine the output waveform.

**Diagram Explanation:**

The diagram below the problem statement represents three signals:

1. **Data In**: The top waveform represents the binary data input to the de-multiplexer. It is a periodic square wave, alternating between high and low states.

2. **Select Signal \( S_0 \)**: The second waveform is the select signal \( S_0 \). It also shows a square wave pattern that changes state more frequently than the data input.

3. **Select Signal \( S_1 \)**: The bottom waveform is the select signal \( S_1 \). This signal has a similar square wave pattern, with changes occurring at a different frequency compared to \( S_0 \).

In a de-multiplexer, the data input is routed to one of the output lines based on the select signals. The specific combination of \( S_0 \) and \( S_1 \) determines which output line the input is sent to. The challenge is to analyze these waveforms and determine the resulting output waveform for a given combination of select signals.

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