In the context of a power supply, a "choke" refers to an inductor used to smooth the output voltage and reduce ripple in certain types of power supplies. The function of a choke is closely related to its ability to store energy in a magnetic field and then release it gradually.
Here's a more detailed explanation of its function:
Filtering and Ripple Reduction: In many power supplies, the output voltage may have some small fluctuations or ripples, especially in those using a rectifier to convert alternating current (AC) to direct current (DC). These ripples can cause unwanted noise or interference in electronic devices. A choke is used in combination with capacitors to form a filter that reduces these ripples, providing a smoother and more stable DC output.
Energy Storage: When current flows through the choke, it induces a magnetic field around it. This field stores energy in the form of a magnetic flux. During certain parts of the AC cycle (when the current decreases), this stored energy is released back into the circuit. This characteristic of a choke helps to maintain a more constant current flow and minimize voltage fluctuations.
Inductive Reactance: A choke introduces inductive reactance into the circuit. Inductive reactance is the opposition that an inductor (like a choke) presents to the flow of alternating current. This reactance varies with the frequency of the AC signal passing through the choke. By exploiting this property, a choke can block high-frequency noise while allowing the lower-frequency power component to pass through.
Load Regulation: Chokes can improve load regulation, which refers to how well a power supply maintains its output voltage when subjected to varying loads. By smoothing out the voltage and current variations, chokes help stabilize the output voltage, reducing the impact of changes in load conditions.
Chokes are commonly found in various types of power supplies, such as linear power supplies and certain types of switching power supplies. They play a vital role in ensuring a stable and reliable power output, particularly in applications where a clean and smooth power supply is crucial for the proper functioning of sensitive electronic components.