silicon rectifier - meaning and definition. What is silicon rectifier
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What (who) is silicon rectifier - definition

ELECTRICAL DEVICE THAT CONVERTS AC TO DC
Kenotron; Rectification (electricity); Rectifiers; Reservoir capacitor; Full-wave rectifier; Full wave rectifier; AC to DC converter; Half-wave rectifier; Rectifying; AC-DC conversion; AC/DC conversion; AC to DC conversion; Silicon rectifier; FWR; Punch capacitor; Working of full wave rectifier; Electrolytic rectifier; Half-wave rectifier circuit; Full-wave rectifier circuit; Smoothing filter; Semiconductor rectifier; User:RationalAsh/Transformer Utilization factor; Draft:Transformer Utilization factor; Transformer Utilization factor; Half-wave rectification; AC-to-DC converter; AC/DC converter; AC-DC converter; Tungar bulb; Smoothing circuit; Rectified sine wave; Rectified sine; AC-to-DC conversion; Choke-input filter; Choke input filter; Smoothing capacitor; Smoothing condenser; Smoothing cap; Reservoir cap; Sieve capacitor; Reservoir condenser; Buffer capacitor; Buffer condenser; Buffer cap; Buffering capacitor; Bulk capacitor; Bulk cap; Rectifier bulk capacitor
  • Twelve pulse bridge rectifier using [[thyristor]]s as the switching elements. One six-pulse bridge consists of the even-numbered thyristors, the other is the odd-numbered set.
  • Controlled three-phase half-wave rectifier circuit using [[thyristor]]s as the switching elements, ignoring supply inductance
  • 3-phase AC input, half-wave and full-wave rectified DC output waveforms
  • Controlled three-phase full-wave rectifier circuit using [[thyristor]]s as the switching elements, with a center-tapped transformer, ignoring supply inductance
  • Controlled three-phase full-wave bridge rectifier circuit (B6C) using [[thyristor]]s as the switching elements, ignoring supply inductance. The thyristors pulse in order V1–V6.
  • Three-phase Graetz bridge rectifier at alpha=0° without overlap
  • Three-phase Graetz bridge rectifier at alpha=0° with overlap angle of 20°
  • Three-phase controlled Graetz bridge rectifier at alpha=20° with overlap angle of 20°
  • Three-phase controlled Graetz bridge rectifier at alpha=40° with overlap angle of 20°
  • Galena cat's whisker detector
  • Cockcroft Walton voltage multiplier
  • 500px
  • 500px
  • A variety of silicon diodes of different current ratings. At left is a [[bridge rectifier]]. On the 3 center diodes, a painted band identifies the cathode terminal
  • Vacuum tube diodes
  • Full-wave rectifier using a [[center tap]] transformer and 2 diodes.
  • alternator]], showing the six diodes that comprise a full-wave three-phase bridge rectifier.
  • Graetz bridge rectifier: a full-wave rectifier using four diodes.
  • The AC input (yellow) and DC output (green) of a half-wave rectifier with a smoothing capacitor. Note the ripple in the DC signal.
  • Half-wave rectifier, 'U' denotes voltage, 'D' denotes a diode, and 'R' a resistance
  • Two of three high-power thyristor valve stacks used for long-distance transmission of power from [[Manitoba Hydro]] dams. Compare with mercury-arc system from the same dam-site, above.
  • Full-wave diode-bridge rectifier with parallel RC shunt filter
  • A thyristor ([[silicon controlled rectifier]]) and associated mounting hardware. The heavy threaded stud attaches the device to a [[heatsink]] to dissipate heat.
  • Output voltage of a full-wave rectifier with controlled thyristors
  • A small motor-generator set
  • Selenium rectifier
  • Switchable full bridge/voltage doubler.
  • Tungar bulbs from 1917, 2 ampere ''(left)'' and 6 ampere
  • Full-wave rectifier, with vacuum tube having two anodes.
  • vibrator]] battery charger from 1922.  It produced 6 A DC at 6 V to charge automobile batteries.

Silicon controlled rectifier         
  • Characteristic curve of a silicon-controlled rectifier
  • A simple SCR circuit with a resistive load
  • SCR 4-layer (p-n-p-n) diagram
SEMICONDUCTOR ELECTRONIC DEVICE WITH THREE P-N JUNCTIONS, MAINLY USED IN DEVICES WHERE THE CONTROL OF HIGH POWER IS DEMANDED
Silicon Controlled Rectifier; Silicon-controlled rectifiers; Semiconductor controlled rectifier; Semiconductor-controlled rectifier; Silicon-controlled rectificier; Silicon-Controlled Rectifier; Silicon-controlled rectifier
A silicon controlled rectifier or semiconductor controlled rectifier is a four-layer solid-state current-controlling device. The name "silicon controlled rectifier" is General Electric's trade name for a type of thyristor.
Metal rectifier         
Plate rectifier
A metal rectifier is an early type of semiconductor rectifier in which the semiconductor is copper oxide, germanium or selenium. They were used in power applications to convert alternating current to direct current in devices such as radios and battery chargers.
Rectifier         
·noun One who, or that which, rectifies.
II. Rectifier ·noun Specifically: (a) (Naut.) An instrument used for determining and rectifying the variations of the compass on board ship. (b) (Chem.) A rectificator.

Wikipedia

Rectifier

A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The reverse operation (converting DC to AC) is performed by an inverter.

The process is known as rectification, since it "straightens" the direction of current. Physically, rectifiers take a number of forms, including vacuum tube diodes, wet chemical cells, mercury-arc valves, stacks of copper and selenium oxide plates, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switches. Historically, even synchronous electromechanical switches and motor-generator sets have been used. Early radio receivers, called crystal radios, used a "cat's whisker" of fine wire pressing on a crystal of galena (lead sulfide) to serve as a point-contact rectifier or "crystal detector".

Rectifiers have many uses, but are often found serving as components of DC power supplies and high-voltage direct current power transmission systems. Rectification may serve in roles other than to generate direct current for use as a source of power. As noted, rectifiers can serve as detectors of radio signals. In gas heating systems flame rectification is used to detect presence of a flame.

Depending on the type of alternating current supply and the arrangement of the rectifier circuit, the output voltage may require additional smoothing to produce a uniform steady voltage. Many applications of rectifiers, such as power supplies for radio, television and computer equipment, require a steady constant DC voltage (as would be produced by a battery). In these applications the output of the rectifier is smoothed by an electronic filter, which may be a capacitor, choke, or set of capacitors, chokes and resistors, possibly followed by a voltage regulator to produce a steady voltage.

More complex circuitry that performs the opposite function, that is converting DC to AC, is called an inverter.

Examples of use of silicon rectifier
1. United Company RusAl, the world‘s top producer of primary aluminum, and hydroelectric power company HydroOGK said in a joint statement that Areva would supply two silicon rectifier substations and a gas–insulated dispenser system for the Boguchany smelter. (Reuters) Transneft Takes Imperial Oil Imperial Energy, the London–based oil producer with assets in Siberia, began shipping oil via pipeline monopoly Transneft, the company said Monday.