Bartolomeu Dias and Gain (electronics): Difference between pages
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{{otheruses|Gain (disambiguation)}} |
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[[Image:Dias statue (cropped), Cape Town.jpg|thumb|right|Statue of Dias in [[Cape Town]], [[South Africa]]]] |
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[[Image:Bartolomeu Dias Voyage.PNG|thumb|right|Bartolomeu Dias Voyage (1487-88)]] |
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In [[electronics]], '''gain''' is a measure of the ability of a [[electrical network|circuit]] (often an [[amplifier]]) to increase the [[Power (physics)|power]] or [[amplitude]] of a [[Signal (electrical engineering)|signal]]. It is usually defined as the mean [[ratio]] of the [[Signalling (telecommunication)|signal output]] of a system to the [[Signalling (telecommunication)|signal input]] of the same system. It may also be defined as the decimal [[logarithm]] of the same ratio. |
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'''Bartolomeu Dias''' ({{pronounced|baɾtuluˈmeu ˈdiɐʃ}}; Anglicized: '''Bartholomew Diaz''') (c. 1450 – [[May 29]], [[1500]]), a Nobleman of the [[Royal Household]], was a [[Portugal|Portuguese]] [[List of explorers|explorer]] who sailed around the southernmost tip of [[Africa]] in 1488, the first [[Europe]]an known to have done so. |
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Thus, the term ''gain'' on its own is [[ambiguity|ambiguous]]. For example, "a gain of five" may imply that either the [[voltage]], [[current]] or the [[Electric power|power]] is increased by a factor of five. Furthermore, the term gain is also applied in systems such as [[sensor]]s where the input and output have different units; in such cases the gain units must be specified, as in "5 microvolts per photon" for a photosensor. |
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== Travels == |
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In 1481 Dias aco [[Asia]]. Another important purpose of the expedition was to try to find the country of which recent reports had arrived through [[João Afonso de Aveiro]] and with which the Portuguese wished to enter into friendly relations. |
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In [[laser physics]], gain may refer to the increment of power along the beam propagation in a [[gain medium]], and its dimension is m<sup>-1</sup> (inverse meter) or 1/meter. |
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Dias sailed, at first, towards the mouth of the [[Congo River]], discovered the year before by [[Diogo Cao|Diogo Cão]] and [[Martin Behaim]], then, following the African coast, he entered [[Walvis Bay]]. From 29° south [[latitude and longitude|latitude]] ([[Port Nolloth]]), he lost sight of the coast and was sailing south in a violent storm, which had lasted thirteen days. He did not know that he had sailed well beyond the tip of the continent. When calm weather returned he sailed in an easterly direction and, when no land appeared, turned northward, landing at the "Baía dos Vaqueiros" ([[Mossel Bay]]) on [[12 March]] [[1488]]. Dias had rounded both the Cape of Good Hope and [[Cape Agulhas]], the southernmost point of Africa without ever having been to them before. |
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== Logarithmic units and decibels == |
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Continuing east, he sailed as far as the [[Great Fish River]]. Once it had become clear that [[India]] could be reached by sailing north up the coast, he turned back. It was only on the return voyage that he discovered the Cape of Good Hope in May 1488. Dias returned to Lisbon in December 1488 after an absence of sixteen months and seventeen days. He had explored a total of about 2,030 km of unknown African coast. |
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===Power gain=== |
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[[Power gain]], in [[decibel]]s (dB), is defined as follows: |
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:<math>Gain=10 \log \left( {\frac{P_{out}}{P_{in}}}\right)\ \mathrm{dB}</math> |
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where P<sub>in</sub> and P<sub>out</sub> are the input and output powers respectively. |
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A similar calculation can be done using a [[natural logarithm]] instead of a decimal logarithm. The result is then in [[neper]]s instead of decibels. |
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He originally named the [[Cape of Good Hope]] the "Cape of Storms" (''Cabo das Tormentas''). It was later renamed by King [[John II of Portugal]] as the Cape of Good Hope (''Cabo da Boa Esperança'') because of the opening of a route to the east. The discovery of the passage around Africa was significant because for the first time Europeans could trade directly with India and the other parts of Asia, bypassing the overland route through of the Middle East, with its expensive middle men. The official report of the expedition to the Cape of Good Hope has been lost. |
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===Voltage gain=== |
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It appears that the Portuguese took a decade-long break from Indian Ocean exploration after Dias' return. In that hiatus, it is likely that they got valuable information from a secret agent, [[Pêro da Covilhã]], who had been sent overland to India and provided valuable information useful to their ocean navigators.<ref>"The Way of the World", by David Fromkin, Vintage Books, NY 2000. p117</ref> |
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When power gain is calculated using voltage instead of power, making the substitution [[Joule's law|(''P''=''V'' <sup>2</sup>/''R'')]], the formula is: |
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In 1497 Dias was posted in [[Elmina|São Jorge da Mina Castle]] and accompanied [[Vasco da Gama]]'s expedition to India. He followed Gama with one ship to [[Cape Verde]]. He also accompanied [[Pedro Álvares Cabral]] on the voyage that resulted in the discovery of [[Brazil]] in 1500. He died off the shore at the Cape of Good Hope when his vessel was wrecked in a storm. |
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:<math>Gain=10 \log{\frac{(\frac{{V_{out}}^2}{R_{out}})}{(\frac{{V_{in}}^2}{R_{in}})}}\ \mathrm{dB}</math> |
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In early 2008 [[Namdeb]] discovered an early 16th century wreck off the coast of [[Namibia]]. It was originally speculated that this might be the wreck of Dias' ship,<ref>{{cite web| title = Namibia finds treasure shipwreck | publisher = BBC News |
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| date = May 1, 2008 |
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| url = http://news.bbc.co.uk/2/hi/africa/7376259.stm |
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| format = |
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| doi = |
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| accessdate = 2008-05-01}}</ref> but the gold coins were identified as "Português" (also known as "Portugaloser") which were minted after 1525,<ref>{{cite web |
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| title = Destroços descobertos no Atlântico sul devem ser de barco português |
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| publisher = Publico |
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| date = May 4, 2008 |
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| url = http://ml.ci.uc.pt/mhonarchive/archport/msg03260.html |
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| format = |
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| doi = |
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| accessdate = 2008-05-04}}</ref> thus excluding the possibility of it being Dias' ship. |
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In many cases, the input and output impedances are equal, so the above equation can be simplified to: |
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== Personal life == |
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:<math>Gain=10 \log \left( {\frac{V_{out}}{V_{in}}} \right)^2\ \mathrm{dB}</math> |
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Married, he had two children: * '''Simão Dias de Novais''', who died unmarried and without issue |
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* '''António Dias de Novais''', a [[Knight]] of the [[Order of Christ (Portugal)|Order of Christ]], married to (apparently his relative, since the surname ''[[de Novais]]'' was transmitted through her brother's offspring) '''Joana Fernandes''', daughter of '''Fernão Pires''' and wife Guiomar Montês (and sister of '''Brites Fernandes''and Fernão Pires, married to '''Inês Nogueira''', daughter of '''Jorge Nogueira'' and wife, and had issue), and had issue. |
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and then: |
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Dias' grandson [[Paulo Dias de Novais]] was a Portuguese colonizer of Africa in the 16th century. Dias' granddaughter, '''Guiomar de Novais''' married twice, as his second wife to '''Dom Rodrigo de Castro''', son of '''Dom Nuno de Castro''' and wife '''Joana da Silveira''', by whom she had Dona Paula de Novais and Dona Violante de Castro, both died unmarried and without issue, and to Pedro Correia da Silva, natural son of Cristóvão Correia da Silva, without issue. |
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:<math>Gain=20 \log \left( {\frac{V_{out}}{V_{in}}} \right)\ \mathrm{dB}</math> |
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==See also== |
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This simplified formula is used to calculate a '''voltage gain''' in decibels, and is equivalent to a power gain only if the [[Electrical impedance|impedance]]s at input and output are equal. |
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Vasco da Gama landed at Mossel Bay on 12 March 1488. |
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*[[Pedro Álvares Cabral]] |
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*[[List of explorers]] |
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== |
===Current gain=== |
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In the same way, when power gain is calculated using current instead of power, making the substitution [[Joule's law|(''P''=''I'' <sup>2</sup>''R'')]], the formula is: |
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{{reflist}} |
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:<math>Gain=10 \log { \left( \frac { {I_{out}}^2 R_{out}} { {I_{in}}^2 R_{in} } \right) } \ \mathrm{dB}</math> |
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*{{catholic}} |
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In many cases, the input and output impedances are equal, so the above equation can be simplified to: |
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==External links== |
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*[http://www.newadvent.org/cathen/04775b.htm Catholic Encyclopedia] |
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*[http://www.namibia-1on1.com/a-southern/bartholomew-diaz.html Bartholomew Diaz] - includes present placenames <!-- URL found broken and repaired 2008-04-22 --> |
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:<math>Gain=10 \log \left( {\frac{I_{out}}{I_{in}}} \right)^2\ \mathrm{dB}</math> |
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<!-- Metadata: see [[Wikipedia:Persondata]] --> |
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and then: |
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:<math>Gain=20 \log \left( {\frac{I_{out}}{I_{in}}} \right)\ \mathrm{dB}</math> |
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This simplified formula is used to calculate a '''current gain''' in decibels, and is equivalent to the power gain only if the [[Electrical impedance|impedance]]s at input and output are equal. |
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=== Example === |
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Q. An amplifier has an input impedance of 50 ohms and drives a load of 50 ohms. When its input (<math>V_{in}</math>) is 1 volt, its output (<math>V_{out}</math>) is 10 volts. What are its voltage gain and power gain? |
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A. Voltage gain is simply: |
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:<math>\frac{V_{out}}{V_{in}}=\frac{10}{1}=10\ \mathrm{V/V}.</math> |
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The units V/V are optional, but make it clear that this figure is a voltage gain and not a power gain. |
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Using the expression for power, ''P'' = ''V''<sup>2</sup>/''R'', the power gain is: |
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:<math>\frac{V_{out}^2/50}{V_{in}^2/50}=\frac{V_{out}^2}{V_{in}^2}=\frac{10^2}{1^2}=100\ \mathrm{W/W}.</math> |
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Again, the units W/W are optional. Power gain is more usually expressed in decibels, thus: |
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:<math>G_{dB}=10 \log G_{W/W}=10 \log 100=10 \times 2=20\ \mathrm{dB}.</math> |
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A gain of factor 1 (equivalent to 0 dB) where both input and output are at the same voltage level and impedance is also known as ''[[1 (number)|unity]] gain''. |
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==See also== |
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*[[Transmitter power output]] |
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*[[Absolute gain (physics)]] |
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*[[Loop gain]] |
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*[[Insertion gain]] |
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*[[Power gain]] |
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*[[Directive gain]] |
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*[[Net gain]] |
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*[[Process gain]] |
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*[[Signal processing gain]] |
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*[[Automatic gain control]] |
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*[[Attenuation]] (loss), [[Aperture-to-medium coupling loss]], [[Effective radiated power]] |
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*[[gain medium]] |
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{{FS1037C}} |
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[[Category:Antennas]] |
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{{Persondata |
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[[Category:Electronics terms]] |
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|NAME = Dias, Bartolomeu |
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|ALTERNATIVE NAMES = |
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|SHORT DESCRIPTION = Portuguese explorer |
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|DATE OF BIRTH = 1450 |
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|PLACE OF BIRTH = Portugal |
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|DATE OF DEATH = May 29, 1500 |
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|PLACE OF DEATH = Cape of Good Hope |
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}} |
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{{DEFAULTSORT:Dias, Bartolomeu}} |
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[[Category:Explorers of Africa]] |
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[[Category:15th-century explorers]] |
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[[Category:Portuguese explorers]] |
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[[Category:Portuguese sailors]] |
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[[Category:1450s births]] |
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[[Category:1500 deaths]] |
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[[ar:أرباح]] |
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[[ar:بارثولوميو دياز]] |
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[[ca:Guany]] |
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[[de:Verstärkung (Physik)]] |
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[[es:Ganancia (electrónica)]] |
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[[bg:Бартоломео Диас]] |
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[[fr:Gain (électronique)]] |
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[[ca:Bartolomeu Dias]] |
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[[it:Guadagno (elettronica)]] |
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[[cs:Bartolomeo Diaz]] |
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[[ja:利得 (電気工学)]] |
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[[da:Bartolomeu Dias]] |
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[[ko:이득]] |
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[[pl:Współczynnik wzmocnienia]] |
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[[et:Bartolomeu Dias]] |
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[[pt:Ganho]] |
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[[el:Βαρθολομαίος Ντιάζ]] |
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[[su:Gain]] |
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[[zh:增益]] |
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[[fa:بارتولومئو دیاس]] |
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[[fr:Bartolomeu Dias]] |
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[[ko:바르톨로뮤 디아스]] |
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[[hr:Bartolomeu Dias]] |
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[[id:Bartolomeu Dias]] |
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[[he:בארתולומיאו דיאס]] |
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[[ka:ბარტოლომეუ დიაში]] |
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[[lt:Bartolomeu Dias]] |
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[[ro:Bartolomeu Diaz]] |
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[[ru:Диаш, Бартоломеу]] |
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[[simple:Bartolomeu Dias]] |
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[[sr:Бартоломео Дијас]] |
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[[fi:Bartolomeu Dias]] |
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[[zh:巴爾托洛梅烏·迪亞士]] |
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Revision as of 00:59, 13 October 2008
In electronics, gain is a measure of the ability of a circuit (often an amplifier) to increase the power or amplitude of a signal. It is usually defined as the mean ratio of the signal output of a system to the signal input of the same system. It may also be defined as the decimal logarithm of the same ratio.
Thus, the term gain on its own is ambiguous. For example, "a gain of five" may imply that either the voltage, current or the power is increased by a factor of five. Furthermore, the term gain is also applied in systems such as sensors where the input and output have different units; in such cases the gain units must be specified, as in "5 microvolts per photon" for a photosensor.
In laser physics, gain may refer to the increment of power along the beam propagation in a gain medium, and its dimension is m-1 (inverse meter) or 1/meter.
Logarithmic units and decibels
Power gain
Power gain, in decibels (dB), is defined as follows:
where Pin and Pout are the input and output powers respectively.
A similar calculation can be done using a natural logarithm instead of a decimal logarithm. The result is then in nepers instead of decibels.
Voltage gain
When power gain is calculated using voltage instead of power, making the substitution (P=V 2/R), the formula is:
In many cases, the input and output impedances are equal, so the above equation can be simplified to:
and then:
This simplified formula is used to calculate a voltage gain in decibels, and is equivalent to a power gain only if the impedances at input and output are equal.
Current gain
In the same way, when power gain is calculated using current instead of power, making the substitution (P=I 2R), the formula is:
In many cases, the input and output impedances are equal, so the above equation can be simplified to:
and then:
This simplified formula is used to calculate a current gain in decibels, and is equivalent to the power gain only if the impedances at input and output are equal.
Example
Q. An amplifier has an input impedance of 50 ohms and drives a load of 50 ohms. When its input () is 1 volt, its output () is 10 volts. What are its voltage gain and power gain?
A. Voltage gain is simply:
The units V/V are optional, but make it clear that this figure is a voltage gain and not a power gain. Using the expression for power, P = V2/R, the power gain is:
Again, the units W/W are optional. Power gain is more usually expressed in decibels, thus:
A gain of factor 1 (equivalent to 0 dB) where both input and output are at the same voltage level and impedance is also known as unity gain.
See also
- Transmitter power output
- Absolute gain (physics)
- Loop gain
- Insertion gain
- Power gain
- Directive gain
- Net gain
- Process gain
- Signal processing gain
- Automatic gain control
- Attenuation (loss), Aperture-to-medium coupling loss, Effective radiated power
- gain medium
This article incorporates public domain material from Federal Standard 1037C. General Services Administration. Archived from the original on 2022-01-22.