Question:
For the circuit below, identify the logic gate:
For the circuit below, identify the logic gate:
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In diode logic with a pull-up resistor,
{output goes LOW if any diode conducts},
and {output stays HIGH only when all diodes are reverse biased}.
Updated On: Feb 2, 2026
- AND
- OR
- NAND
- NOR
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The Correct Option is A
Solution and Explanation
Concept:
The given circuit is a diode logic circuit
with a pull-up resistor connected to \(+5\text{ V}\). Important principles:
A forward-biased diode conducts and pulls the output LOW.
A reverse-biased diode does not conduct.
A pull-up resistor forces the output HIGH when no diode conducts.
Step 1: Circuit Observation
Inputs \(A\) and \(B\) are connected to the output node through diodes.
The output \(y\) is connected to \(+5\text{ V}\) through a resistor.
Step 2: Input Condition Analysis
If any input is LOW
(\(A=0\) or \(B=0\)): The corresponding diode becomes forward biased and pulls the output \(y\) LOW.
If both inputs are HIGH
(\(A=1\), \(B=1\)): Both diodes are reverse biased, no current flows, and the pull-up resistor pulls \(y\) HIGH.
Step 3: Truth Table
The output is HIGH only when both inputs are HIGH. Therefore, the circuit functions as an AND gate
.
The given circuit is a diode logic circuit
with a pull-up resistor connected to \(+5\text{ V}\). Important principles:
A forward-biased diode conducts and pulls the output LOW.
A reverse-biased diode does not conduct.
A pull-up resistor forces the output HIGH when no diode conducts.
Step 1: Circuit Observation
Inputs \(A\) and \(B\) are connected to the output node through diodes.
The output \(y\) is connected to \(+5\text{ V}\) through a resistor.
Step 2: Input Condition Analysis
If any input is LOW
(\(A=0\) or \(B=0\)): The corresponding diode becomes forward biased and pulls the output \(y\) LOW.
If both inputs are HIGH
(\(A=1\), \(B=1\)): Both diodes are reverse biased, no current flows, and the pull-up resistor pulls \(y\) HIGH.
Step 3: Truth Table
The output is HIGH only when both inputs are HIGH. Therefore, the circuit functions as an AND gate
.
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