A clipper circuit is a type of electronic circuit that is used to clip off higher voltages without bias. It consists of diodes and resistors that limit the positive or negative amplitude of a signal. When the input voltage exceeds a certain threshold, the diodes conduct and limit the output voltage to the threshold level, effectively clipping off any higher voltage spikes.
There are two types of clipper circuits: positive and negative. Positive clipper circuits clip off the positive peaks of the input signal, while negative clipper circuits clip off the negative peaks. Both types can be further classified as series or shunt clipper circuits, depending on the placement of the diodes and resistors in the circuit.
Clipper circuits are commonly used in electronic devices to protect sensitive components from high voltage spikes. They are also used in audio amplifiers to prevent clipping of the output signal. Additionally, clipper circuits can be used in signal processing applications to remove unwanted voltage spikes.
While both clipper and limiter circuits are used to limit the amplitude of a signal, they differ in their behavior. A clipper circuit will clip off any voltage spikes above a certain threshold, while a limiter circuit will limit the amplitude of the entire signal to a specific level. Limiter circuits are commonly used in audio applications to prevent distortion of the signal.
Clipper circuits have several advantages, including their simplicity, low cost, and effectiveness in clipping high voltage spikes without bias. They also have a fast response time, making them suitable for applications where quick voltage limiting is required. Additionally, clipper circuits have a high level of efficiency and can handle high power levels without significant loss of energy.
