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5 unusual facts about Capacitor


Capacitor

Leyden jars or more powerful devices employing flat glass plates alternating with foil conductors were used exclusively up until about 1900, when the invention of wireless (radio) created a demand for standard capacitors, and the steady move to higher frequencies required capacitors with lower inductance.

The following year, the Dutch physicist Pieter van Musschenbroek invented a similar capacitor, which was named the Leyden jar, after the University of Leiden where he worked.

In October 1745, Ewald Georg von Kleist of Pomerania in Germany found that charge could be stored by connecting a high-voltage electrostatic generator by a wire to a volume of water in a hand-held glass jar.

Benjamin Franklin investigated the Leyden jar and came to the conclusion that the charge was stored on the glass, not in the water as others had assumed.

Central Power Research Institute

Destruction Test on Power Electronics Capacitors of ratings, 560 F, 3.8 kV DC, was conducted as per IEC 61881-1999 was conducted in the power Capacitors laboratory for the first time which has helped the customer in verifying the design aspects with reference to safety/protection


Air-gap flash

William Henry Fox Talbot is said to have created the first spark-based flash photo, using a Leyden jar, the original form of the capacitor.

Capacitor discharge ignition

The history of the capacitor discharge ignition system can be traced back to the 1890s when it is believed that Nikola Tesla was the first to propose such an ignition system.

Deep reactive-ion etching

It was developed for microelectromechanical systems (MEMS), which require these features, but is also used to excavate trenches for high-density capacitors for DRAM and more recently for creating through silicon via's (TSV)'s in advanced 3D wafer level packaging technology .

Electrical length

The cabin installed at a height of 150-metres on the Blosenbergturm in Beromünster is such a construction, in which a lengthening coil is installed for the supply of the upper tower part (the Blosenbergturm has in addition a ring-shaped roof capacitor on its top)

Gnome Monosoupape

This arrangement eliminated the need for points, distributor, high-voltage wiring and capacitors found in conventional mechanically timed ignition systems.

Ignition system

It consisted of a single coil, points (the switch), a capacitor and a distributor set up to allocate the spark from the ignition coil timed to the correct cylinder.

Krupa, Semič

This river is infamous because of its PCB pollution due to improper handling of PCB waste material which has been used for decades by the capacitor manufacturing company Iskra kondenzatorji in nearby Semič.

Point-to-point construction

Transformers, large capacitors, tube sockets and other large components were mounted to the top of the chassis.

Spark-gap transmitter

A synchronous gap was driven by a synchronous AC motor so that it ran at a fixed speed, and the gap fired in direct relation to the waveform of the A.C. supply that recharged the tank capacitor.


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