5. The logic circuit below has the input waveforms 'A' and 'B' as shown. Draw the output waveform Input A Input B A. B Dar

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**Logic Circuit Analysis**

**Task:**
Analyze the logic circuit provided and draw the output waveform based on the input waveforms 'A' and 'B'.

**Circuit Description:**
- The diagram shows a logic circuit with two inputs: A and B.
- Input A is connected to a NOT gate (inverter).
- Input B is also connected to a NOT gate.
- The outputs of both NOT gates are connected to the inputs of an OR gate.
- The final output from the OR gate is labeled as Y.

**Waveform Analysis:**
Below the circuit diagram, there are two waveforms:
- **Input A**: A square waveform with equal high and low intervals.
- **Input B**: A square waveform, similar in pattern to Input A, but phase-shifted.

**Steps for Drawing the Output Waveform:**
1. **Invert Input A**: Obtain the complement of the Input A waveform.
2. **Invert Input B**: Obtain the complement of the Input B waveform.
3. **OR Operation**: Combine the outputs from the inverters with an OR gate to get the final output waveform, Y. 
   - The OR gate will output high (1) if at least one of the inputs is high (1).

**Output Explanation:**
- Use the inverted waveforms of A and B to determine when the OR gate outputs a high value.
- Draw the output waveform, considering the above operations, to reflect how the OR operation affects the input signals.

This exercise enhances understanding of logic gates and how they transform input signals into specific output signals in digital circuits.
Transcribed Image Text:**Logic Circuit Analysis** **Task:** Analyze the logic circuit provided and draw the output waveform based on the input waveforms 'A' and 'B'. **Circuit Description:** - The diagram shows a logic circuit with two inputs: A and B. - Input A is connected to a NOT gate (inverter). - Input B is also connected to a NOT gate. - The outputs of both NOT gates are connected to the inputs of an OR gate. - The final output from the OR gate is labeled as Y. **Waveform Analysis:** Below the circuit diagram, there are two waveforms: - **Input A**: A square waveform with equal high and low intervals. - **Input B**: A square waveform, similar in pattern to Input A, but phase-shifted. **Steps for Drawing the Output Waveform:** 1. **Invert Input A**: Obtain the complement of the Input A waveform. 2. **Invert Input B**: Obtain the complement of the Input B waveform. 3. **OR Operation**: Combine the outputs from the inverters with an OR gate to get the final output waveform, Y. - The OR gate will output high (1) if at least one of the inputs is high (1). **Output Explanation:** - Use the inverted waveforms of A and B to determine when the OR gate outputs a high value. - Draw the output waveform, considering the above operations, to reflect how the OR operation affects the input signals. This exercise enhances understanding of logic gates and how they transform input signals into specific output signals in digital circuits.
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