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Voltage controller

From Wikipedia, the free encyclopedia
A Voltage controller thyristor based dimmer rack
An electrical schematic for a typical SCR-based light dimmer

A voltage controller, also called an AC voltage controller or AC regulator is an electronic module based on either thyristors, triodes for alternating current, silicon-controlled rectifiers or insulated-gate bipolar transistors, which converts a fixed voltage, fixed frequency alternating current (AC) electrical input supply to obtain variable voltage in output delivered to a resistive load. This varied voltage output is used for dimming street lights, varying heating temperatures in homes or industry, speed control of fans and winding machines and many other applications, in a similar fashion to an autotransformer.[1][2] Voltage controller modules come under the purview of power electronics. Because they are low-maintenance and very efficient, voltage controllers have largely replaced such modules as magnetic amplifiers and saturable reactors in industrial use.[2]

Modes of operation

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Electronic voltage controllers work in two different ways; either through "on-and-off control" or through "phase control".[3][4][5]

On-and-off control

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In an on-and-off controller, thyristors are used to switch on the circuits for a few cycles of voltage and off for certain cycles, thus altering the total RMS voltage value of the output and acting as a high speed AC switch. The rapid switching results in high frequency distortion artifacts which can cause a rise in temperature, and may lead to interference in nearby electronics.[2][4] Such designs are not practical except in low power applications.[6]

An example of phase angle control. Blue represents the actual supply voltage of 120 V and red represents the switching on and off of the thyristor to get a controlled voltage of 60 V, achieved by cutting off the supply at certain angles and switching it on at the phase angle.

Phase angle control

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In phase angle control, thyristors are used to selectively pass only a part of each AC cycle through to the load. By controlling the phase angle or trigger angle, the output RMS voltage of the load can be varied. The thyristor is turned on for every half-cycle and switched off for each remaining half-cycle. The phase angle is the position at which the thyristor is switched on.

Applications

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An example of a Voltage controller with heat sink attached in left. Min and max settings in the front
  • Light dimming circuits
  • Temperature control of electrical heating systems
  • Speed control of motors
  • AC magnet controls [7]

See also

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References

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  1. ^ Andrzej M. Trzynadlowski (2010). Introduction to Modern Power Electronics. John Wiley & Sons. pp. 190–220.
  2. ^ a b c Sachin S. Sharma (2008). Power Electronics. Firewall Media. p. 177. ISBN 9788131803509.
  3. ^ Andrzej M. Trzynadlowski (2010). Introduction to Modern Power Electronics. John Wiley & Sons. p. 197].
  4. ^ a b Issa Batarseh, "Power Electronic Circuits" by John Wiley, 2003
  5. ^ Trzynadlowski, Andrzej M (2010-03-15). Introduction to Modern Power Electronics. ISBN 9780470401033.
  6. ^ Rashid, M. H. (2010). Power Electronics Handbook: Devices, Circuits, and Applications Handbook. Academic Press (3 ed.). Elsevier. pp. 488–490. ISBN 978-0123820365.
  7. ^ "Fan drives for building facility and industrial systems". Kimo.de. 2012-02-28. Retrieved 2012-11-08.