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Diode bridge

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This is the latest accepted revision, reviewed on 8 October 2024. Circuit arrangement of four diodes

Diode bridge
Diode bridge in various packages
TypeSemiconductor
InventorKarol Pollak in 1895
Electronic symbol

2 alternating-current (AC) inputs converted into 2 direct-current (DC) outputs
A hand-made diode bridge. The silver band on the diodes indicates the cathode side of the diode.

A diode bridge is a bridge rectifier circuit of four diodes that is used in the process of converting alternating current (AC) from the input terminals to direct current (DC, i.e. fixed polarity) on the output terminals. Its function is to convert the negative voltage portions of the AC waveform to positive voltage, after which a low-pass filter can be used to smooth the result into DC.

When used in its most common application, for conversion of an alternating-current (AC) input into a direct-current (DC) output, it is known as a bridge rectifier. A bridge rectifier provides full-wave rectification from a two-wire AC input, resulting in lower cost and weight as compared to a rectifier with a three-wire input from a transformer with a center-tapped secondary winding.

Prior to the availability of integrated circuits, a bridge rectifier was constructed from separate diodes. Since about 1950, a single four-terminal component containing the four diodes connected in a bridge configuration has been available and is now available with various voltage and current ratings.

Diodes are also used in bridge topologies along with capacitors as voltage multipliers.

History

The diode bridge circuit was invented by Karol Pollak and patented in December 1895 in Great Britain and in January 1896 in Germany. In 1897, Leo Graetz independently invented and published a similar circuit. Today the circuit is sometimes referred to as a "Graetz circuit" or "Graetz bridge".

Current flow

According to the conventional model of current flow, originally established by Benjamin Franklin and still followed by most engineers today), current flows through electrical conductors from the positive to the negative pole (defined as positive flow). In actuality, free electrons in a conductor nearly always flow from the negative to the positive pole. In the vast majority of applications, however, the actual direction of current flow is irrelevant. Therefore, in the discussion below the conventional model is retained.

The fundamental characteristic of a diode is that current can flow only one way through it, which is defined as the forward direction. A diode bridge uses diodes as series components to allow current to pass in the forward direction during the positive part of the AC cycle and as shunt components to redirect current flowing in the reverse direction during the negative part of the AC cycle to the opposite rails.

Rectifier

In the diagrams below, when the input connected to the left corner of the diamond is positive, and the input connected to the right corner is negative, current flows from the upper supply terminal to the right along the red (positive) path to the output and returns to the lower supply terminal through the blue (negative) path.

When the input connected to the left corner is negative, and the input connected to the right corner is positive, current flows from the lower supply terminal to the right along the red (positive) path to the output and returns to the upper supply terminal through the blue (negative) path.

An animated diagram of a diode bridge, where pulsing is meant to represent an electric current

In each case, the upper right output remains positive, and lower right output negative. Since this is true whether the input is AC or DC, this circuit not only produces a DC output from an AC input, it can also provide reverse-polarity protection; that is, it permits normal functioning of DC-powered equipment when batteries have been installed backwards, or when the leads from a DC power source have been reversed, and protects the equipment from potential damage caused by reverse polarity.

Alternatives to the diode-bridge full-wave rectifiers are the center-tapped transformer and double-diode rectifier, and voltage doubler rectifier using two diodes and two capacitors in a bridge topology.

AC, half-wave and full-wave rectified signals

Smoothing circuits

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See also: Rectifier § Rectifier output smoothing

With AC input, the output of a diode bridge (called a full-wave rectifier for this purpose; there is also half-wave rectification, which does not use a diode bridge) is polarized pulsating non-sinusoidal voltage of the same amplitude but twice the frequency of the input. It may be considered as DC voltage upon which is superimposed a very large ripple voltage. This kind of electric power is not very usable, because ripple is dissipated as waste heat in DC circuit components and may cause noise or distortion during circuit operation. So nearly all rectifiers are followed by a series of bandpass or bandstop filters and/or a voltage regulator to convert most or all of the ripple voltage into a smoother and possibly higher DC output. A filter may be as simple as a single sufficiently large capacitor or choke, but most power-supply filters have multiple alternating series and shunt components. When the ripple voltage rises, reactive power is stored in the filter components, reducing the voltage; when the ripple voltage falls, reactive power is discharged from the filter components, raising the voltage. The final stage of rectification may consist of a zener diode-based voltage regulator, which almost completely eliminates any residual ripple.

Polyphase diode bridges

See also: Rectifier § Three-phase rectifiers

The diode bridge can be generalized to rectify polyphase AC inputs. For example, for a three-phase AC input, a half-wave rectifier consists of three diodes, but a full-wave bridge rectifier consists of six diodes.

A half-wave rectifier may be considered a wye connection (star connection), because it returns the current through the center (neutral) wire. A full-wave rectifier is more like a delta connection, although it can be connected to the three-phase source of either wye or delta and it does not use the center (neutral) wire.

Three-phase full-wave bridge rectifier
3-phase AC input waveform (top), half-wave rectified waveform (center), and full-wave rectified waveform (bottom)
Three-phase bridge rectifier for a wind turbine

See also

References

  1. Yazdani, Amirnaser; Iravani, Reza (15 February 2010). Voltage-Sourced Converters in Power Systems Modeling, Control, and Applications. Willey. ISBN 9780470521564.
  2. Horowitz, Paul; Hill, Winfield (1989). The Art of Electronics (Second ed.). Cambridge University Press. pp. 44–47. ISBN 0-521-37095-7.
  3. British patent 24398.
  4. (Graetz, 1897), p. 327 footnote.
  5. (Editorial staff) (24 June 1897). "Ein neues Gleichrichter-Verfahren" [A new method of rectification]. Elektrotechnische Zeitschrift (in German). 18 (25): 359 and footnote.
  6. See:
  7. Strzelecki, Ryszard Michal; Benysek, Grzegorz, eds. (August 29, 2008). Power Electronics in Smart Electrical Energy Networks. Springer. p. 57. ISBN 9781848003187.
  8. "Graetz Flow Control Circuit". Archived from the original on 2013-11-04.
  9. Stutz, Michael (stutz@dsl.org), "Conventional versus electron flow", All About Circuits, Vol. 1, Chapter 1, 2000.
  10. Sears, Francis W.; Zemansky, Mark W.; Young, Hugh D., eds. (1982). University Physics (6th ed.). Addison-Wesely Publishing Co., Inc. p. 685. ISBN 0201071959.
  11. "Bridge Rectifier Circuit - Electronics Basics". The Geek Pub. 15 August 2019. Retrieved 3 September 2019.
  12. "Reverse Polarity Protection". The Renewable Energy UK Website. Bridge Rectifier for Reverse Polarity Protection. Archived from the original on 4 May 2023. Retrieved 18 December 2023.
  13. "Rectifier", Concise Encyclopedia of Science and Technology, Third Edition, Sybil P. Parker, ed. McGraw-Hill, Inc., 1994, p. 1589.

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