====== Capacitors ====== Used to store electrical charge. It is composed of two sheets of metals separated by a dielectric medium. Capacitance is measured in Farad (F) but it is a large unit. Mostly used is pF, nF, µF or mF. ===== Types of capacitors ===== Class I capacitors have better accuracy and low volumetric efficiency whereas class III capacitors have low accuracy and high volumetric efficiency. ==== Ceramic capacitors ==== {{composants:ceramic_capacitor.jpg?300}} Ceramic capacitors do not have any polarity. The dielectric medium is composed of a thin ceramic layer. Ceramic capacitors don't always have their capacitance indicated. Sometimes it's just a number. You can use a chart like [[http://www.electronicsteacher.com/capacitor-chart.php|this one]] to get the capacitor value ==== Electrolytic capacitors ==== {{composants:electrolytic_capacitor.jpg?300}} Most of the electrolyte capacitors are polarized. Electrolytic capacitors are known to have a higher volumetric efficiency. This means a small capacitor is able to hold larger amount of charges than a ceramic capacitor of the same size. If they are connected with the wrong polarity, they may become very hot and may even explode. === ESR === For electrolytic capacitors, the **Equivalent Series Resistance (ESR)** is an important concept. If the ESR is too high, then the current flow through the circuit would be too small. The figure below shows how the ESR (impedance) of a capacitor changes with resistance. Each curve shows different capacitance values: {{composants:capacitor_esr.jpg?500}} Note that for each type of capacitor, there is a frequency at which the impedance is at a minimum. This frequency is the **resonant frequency** of the capacitor. Note that as the capacitance becomes larger, the resonant frequency becomes smaller. ==== Comparison ==== *Ceramic capacitor has two metal sheets at the terminals to store charges. The electrolytic capacitor has one metal sheet and an ionic liquid as the two terminals. *Electrolytic capacitors are capable of holding more charges per volume than ceramic ones. *Most of the electrolyte capacitors are polarized, but ceramic capacitors are never polarized. ===== Ressources ===== [[http://www.electronicsteacher.com/capacitor-chart.php|Capacitor chart]]