capacitor
A capacitor is a passive electronic component that is designed to store and maintain electrical energy in an electric field between its two conductive plates or plates. A capacitor works on the principle of storing charge on its plates and then releasing that charge when needed.
How a capacitor works:
Charging a capacitor: When it is connected to a voltage (electrical source), electrons begin to move between the two plates of the capacitor. One plate becomes negative because it attracts electrons, while the other plate becomes positive because it withdraws electrons. In this way, the capacitor is "charged".
Energy storage: After the capacitor is charged, the electrical energy is stored in the form of an electric field between the plates. This energy can be stored until the moment when it needs to be released.
Energy Release: When a capacitor is connected to a circuit and a voltage is flipped across it, the capacitor releases the stored energy in the form of an electrical charge back into the circuit. This energy release can be rapid, making it useful in fast switches and pulse circuits.
Use of capacitors:
Capacitors are widely used in electronic circuits and systems. Some of their main applications include:
Filtering: Capacitors are used to filter unwanted high frequency signals in electronic circuits.
Energy storage: They are used to temporarily store energy, which is then released when it is necessary to equalize the voltage in the circuit.
Voltage Stabilization: Capacitors can help stabilize voltage in electrical systems by compensating for sudden changes in voltage.
Motor starting: In some cases, they are used to start electric motors and other equipment.
Power Outage Repair: Components known as "capacitor batteries" are used to maintain time and settings in electronic devices during brief power outages.
Capacitors come in a variety of sizes and capacitance values and are important components of electronic circuits and systems where they perform various tasks in maintaining their proper operation.