# Capacitors Capacity is measured in [[Resources/electricity/glossary#Farad|Farads]]. Capacity is calculated as follows: $$ \begin{flalign} & C = \epsilon r \frac{A}{4\pi d} &&\\\ \\ & \epsilon r = \text{Dielectrics relative permittivity} &&\\ & A = \text{Amount of Area the plates overlap} &&\\ & d = \text{Distance between plates} &&\\ \end{flalign} $$ ![](Parallel_plate_capacitor.svg) ### Important Metrics **Size** Larger Capacity $\approx$ Larger Size **Charge** How much charge a capacitor is currently storing depends on the potential difference between its plates $$ \begin{flalign} &Q = C*V &&\\\ \\ &Q = Charge \\ &C = \textit{Capacitance (Constant Value)}\\ &V = Voltage\\ \end{flalign} $$ **Voltage** The current that is flowing through a capacitor is the derivative of voltage **Charging Current** The charging current through a capacitor is proportional to the rate of change in voltage through it. The formular for calculating the current flowing through a capacitor is following *Note: only for linearly rising/falling voltages (not AC)* $$ i = C\frac{dv}{dt} $$ **Capacitance** The amount of charge a capacitor can store **Maximum Voltage** Each capacitor has a maximum voltage that can be dropped across it. **Leakage Current** Capacitors are not perfect, and leak some current across the terminals. **Equivalent series Resistance (ESR)** The terminals are not 100% conductive, so the will have some very small resistance, (usually less than $0.01\ohm$) **Tolerance** The capacity is not always exact, the tolerance describes how much it could vary, usually about $\mp 1\%$ to $\mp 20\%$ ## Ceramic Capacitors - least expansive - relative small usually $< 10\micro F$ - low current leakage and ESR - best for high frequency coupling ![](ceramic-capacitor.webp) ## Aluminium and Tantalum Electrolytic - Usually polarized - Capacity usuially $1\micro F - 1mF$ - Good for high voltage ![](tantalum-capacitor.jpg) ## Super Capacitors - Usually can handle only low voltage - Capacity in the range of farads ## Film Capacitor - usually low ESR ## Mica Capacitor - Can work in hot environments > $200\deg$ - Low ESR - High Precision - High Cost