Electro-optic modulator: Difference between revisions

Latest revision as of 14:55, 6 January 2015

Guadalupe Dejean is the name I really like to be called with and this name is totally loved by me Since I was 18 I Have been working being a dataprocessing official Where he is always been living Virgin Islands is. Fixing computers is among the points I love most

musician success - recommended you read -

@@ Line 1: / Line 1: @@
-In [[telecommunication]], an '''equivalent noise resistance''' is a quantitative representation in resistance units of the [[spectral density]] of a [[noise]]-[[voltage]] generator, given by
+Guadalupe Dejean is the name I really like to be called with and this name is totally loved by me  Since I was 18 I Have been working being a dataprocessing official  Where he is always been living Virgin Islands is.  Fixing computers is among the points I love most<br><br>musician success - [http://singingbee.yolasite.com/ recommended you read] -
-<math>R_n = \frac {\pi W_n}{k T_0} </math>
-where <math>W_n</math> is the spectral density, <math>k</math> is the [[Boltzmann's constant]], <math>T_0</math> is the standard [[noise temperature]] (290 K), so <math>kT_0 = 4.00 \times 10^{-21}\,[Ws]</math>.
-''Note:''  The equivalent noise resistance in terms of the mean-square noise-generator voltage, ''e''<sup>2</sup>, within a [[frequency]] increment, Δ&nbsp;''f'', is given by
-: <math>R_n = \frac{e^2}{4 k T_0\,\Delta f}.</math>
-{{FS1037C}}
-== See also ==
-* [[Equivalent input noise]]
-* [[Effective input noise temperature]]
-[[Category:Noise]]

Electro-optic modulator: Difference between revisions

Latest revision as of 14:55, 6 January 2015

Navigation menu

Search