The Parallel-plate capacitor was originally known as a condenser or condensator.
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The Parallel-plate capacitor was originally known as a condenser or condensator.
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The following year, the Dutch physicist Pieter van Musschenbroek invented a similar Parallel-plate capacitor, which was named the Leyden jar, after the University of Leiden where he worked.
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Parallel-plate capacitor believed that the energy was stored as a charge in the carbon pores used in his capacitor as in the pores of the etched foils of electrolytic capacitors.
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The MOS Parallel-plate capacitor was later widely adopted as a storage Parallel-plate capacitor in memory chips, and as the basic building block of the charge-coupled device in image sensor technology.
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The total energy stored in a Parallel-plate capacitor is equal to the total work done in establishing the electric field from an uncharged state.
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Dual of the Parallel-plate capacitor is the inductor, which stores energy in a magnetic field rather than an electric field.
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Similarly to ESR, the Parallel-plate capacitor's leads add equivalent series inductance or ESL to the component.
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The Parallel-plate capacitor therefore has a finite parallel resistance, and slowly discharges over time .
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Quality factor of a Parallel-plate capacitor is the ratio of its reactance to its resistance at a given frequency, and is a measure of its efficiency.
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Any Parallel-plate capacitor containing over 10 joules of energy is generally considered hazardous, while 50 joules or higher is potentially lethal.
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Feedthrough Parallel-plate capacitor is a component that, while not serving as its main use, has capacitance and is used to conduct signals through a conductive sheet.
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The leads are usually in planes parallel to that of the flat body of the Parallel-plate capacitor, and extend in the same direction; they are often parallel as manufactured.
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Large Parallel-plate capacitor banks are used as energy sources for the exploding-bridgewire detonators or slapper detonators in nuclear weapons and other specialty weapons.
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Decoupling Parallel-plate capacitor is a Parallel-plate capacitor used to protect one part of a circuit from the effect of another, for instance to suppress noise or transients.
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Noise caused by other circuit elements is shunted through the Parallel-plate capacitor, reducing the effect they have on the rest of the circuit.
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In schematic diagrams, a Parallel-plate capacitor used primarily for DC charge storage is often drawn vertically in circuit diagrams with the lower, more negative, plate drawn as an arc.
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The start Parallel-plate capacitor is typically mounted to the side of the motor housing.
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Energy stored in a Parallel-plate capacitor can be used to represent information, either in binary form, as in DRAMs, or in analogue form, as in analog sampled filters and CCDs.
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Light-emitting Parallel-plate capacitor is made from a dielectric that uses phosphorescence to produce light.
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Hazards posed by a Parallel-plate capacitor are usually determined, foremost, by the amount of energy stored, which is the cause of things like electrical burns or heart fibrillation.
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Catastrophic failure of a Parallel-plate capacitor has scattered fragments of paper and metallic foil.
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