A voltage follower, also known as a unity gain buffer or buffer amplifier, is a simple analog electronic circuit designed to isolate one part of a circuit from another while maintaining the same voltage level. It has a voltage gain of approximately one (unity gain) and a very high input impedance and very low output impedance.
The basic configuration of a voltage follower circuit consists of an operational amplifier (op-amp) with a feedback loop that connects the output of the op-amp back to its inverting (-) input terminal. The non-inverting (+) input terminal is connected to the input signal source, and the output provides the same voltage as the input but with a much lower output impedance.
Here's the schematic representation of a voltage follower circuit:
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+--------------+
Input -->| |
| Op-Amp |--> Output
| |
-| + |
| | |
GND - GND
How it works:
When a voltage is applied at the input terminal of the voltage follower circuit, it appears at the non-inverting (+) input of the op-amp.
The op-amp, being an active device, amplifies the voltage difference between its two inputs to maintain the non-inverting input at the same potential as the inverting input (virtual short).
The op-amp adjusts its output voltage to match the input voltage, creating a buffer between the input and the output. As a result, the output voltage follows the input voltage.
Key characteristics and applications of a voltage follower buffer circuit:
High Input Impedance: The voltage follower has a very high input impedance, meaning it draws minimal current from the source, making it ideal for interfacing with high-impedance sensors or sources without loading them.
Low Output Impedance: The output impedance of a voltage follower is very low, which means it can drive low-impedance loads without significant signal loss or distortion.
Unity Voltage Gain: The voltage follower has a voltage gain of one, meaning it does not amplify or attenuate the input signal. It replicates the input voltage at the output.
Signal Isolation: It provides isolation between the input and output stages of a circuit. This can be useful in applications where you want to prevent the load from affecting the source or when you need to match impedance between different parts of a circuit.
Impedance Matching: It can be used to match impedance between two different parts of a circuit, ensuring efficient transfer of the signal.
Overall, a voltage follower buffer circuit is a versatile component used in various electronic applications where signal buffering, impedance matching, and isolation are required.