Difference between revisions of "Eb/N0"
(→Relation to SNR) 
(→Relation to CNR) 

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== Relation to CNR== 
== Relation to CNR== 

−  C/N = Eb/N0 * 
+  C/N = Eb/N0 * Rb/B 
−  +  Rb : bit rate at receiver 

−  B : channel noise bandwidth 
+  B : channel noise bandwidth 
==Relation to SNR== 
==Relation to SNR== 
Revision as of 09:03, 11 March 2014
The term Eb/N0 ("e bee over en zero") is used in digital communications as a measure of signal strength to estimate the bit error rate.
It is defined as the average energy per bit (Eb) relative to the spectral noise density (N0) and gives a basic measure how strong the signal is at the receivers input.
The definition assumes that inside the channels bandwidth B the Gaussian distributed noise energy can be calculated as N0 = k*T*B (may be additionally shaped by filters), where k is Boltzmann's constant and T is absolute temperature in Kelvin.
With the knowlegde of modulation and Eb/N0 one can estimate the available BER or vice versa calculate the RF power for a given data set of modulation, channel bandwidth, symbol rate, losses and wanted bit error rate. Eb/N0 gives also modulation choices for a channel depending on wether bandwidth (i.e. cable TV) or power (i.e. sat) is the limiting factor.
Contents
Using Eb/N0 in logarithmic scale
In datasheets Eb/N0 is usually scaled in dB. As Eb/N0 relates to power and spectral power density, use
Eb/N0_dB = 10 * log10(Eb/N0)
NOTE: If using dB, in formulas multiplication turns to addition and division turns to subtraction.
Relation to CNR
C/N = Eb/N0 * Rb/B
Rb : bit rate at receiver B : channel noise bandwidth
Relation to SNR
S/N = Eb/N0 * Rb/B
Rb : bit rate B : channel bandwidth
Estimated BER vs Eb/N0 for a few modulations
NOTE: Eb/N0 in logarithmic scale here.