A voltage follower, also known as a buffer circuit, is a simple electronic circuit with the primary function of replicating the input voltage at its output while providing a high input impedance and low output impedance. The key characteristics of a voltage follower (buffer) circuit are as follows:
Unity Gain: The voltage follower has a gain of approximately one (unity gain). This means that the output voltage follows the input voltage, i.e., Vout ≈ Vin. The output voltage is just a replica of the input voltage, but with the benefit of a different current capability.
High Input Impedance: The buffer circuit presents a high input impedance to the input signal source. It means that it draws very little current from the input, almost acting like an open circuit. This feature ensures that the buffer does not load the source, preventing any significant voltage drop across the input source.
Low Output Impedance: On the other hand, the buffer offers a low output impedance. This feature allows it to supply current to the load connected at its output with minimal voltage drop. This is especially useful when driving loads with low impedance to avoid signal degradation.
No Phase Shift: The voltage follower does not introduce any phase shift between the input and output signals. The output waveform maintains the same phase as the input waveform.
High Input-to-Output Isolation: The buffer provides isolation between the input and output circuits. Any changes in the load connected to the buffer's output do not affect the input signal source.
Wide Bandwidth: The buffer circuit typically has a wide bandwidth, allowing it to handle a broad range of input frequencies without significant distortion.
Low Offset Voltage: An ideal voltage follower would have zero offset voltage, meaning that Vout would exactly equal Vin. In practice, there might be some offset voltage, but it is usually very small.
Low Distortion: Voltage followers are designed to have minimal distortion. This helps in accurately replicating the input signal at the output.
Voltage followers are commonly used in various electronic applications, including impedance matching, signal buffering, signal isolation, and driving capacitive loads, where maintaining the integrity of the original signal is crucial.