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The '''modulation error ratio''' or '''MER''' is a measure used to quantify the performance of a [[digital radio]] transmitter or receiver in a communications system using [[digital modulation]] (such as [[quadrature amplitude modulation|QAM]]). A signal sent by an ideal transmitter or received by a receiver would have all [[Constellation diagram|constellation points]] precisely at the ideal locations, however various imperfections in the implementation (such as [[Noise (electronic)|noise]], low [[image rejection ratio]], [[phase noise]], [[carrier suppression]], [[distortion]], etc.) or signal path cause the actual constellation points to deviate from the ideal locations.  
 
Transmitter MER can be measured by specialised equipment, which [[demodulation|demodulates]] the received signal in a similar way to how a real radio demodulator does it. Demodulated and detected signal can be used as a reasonably reliable estimate for the ideal transmitted signal in MER calculation.
 
== Definition ==
An '''error vector''' is a [[Vector (geometric)|vector]] in the I-Q plane between the ideal constellation point and the point received by the receiver. The Euclidean distance between the two points is its magnitude.
 
The modulation error ratio is equal to the ratio of the [[root mean square]] (RMS) power of the error vector to the power of the reference. It is defined in [[Decibel|dB]] as:
 
:<math>
\mathrm{MER (dB)} = 10 \log_{10} \left ( {P_\mathrm{signal} \over P_\mathrm{error}}  \right )
</math>
 
where P<sub>error</sub> is the RMS power of the error vector, and P<sub>signal</sub> is the RMS power of ideal transmitted signal.
 
MER is defined as a [[percentage]] in a compatible (but reciprocal) way:
 
:<math>
\mathrm{MER (%)} = \sqrt{ {P_\mathrm{error} \over P_\mathrm{signal}} } * 100%
</math>
 
with the same definitions.
 
MER is closely related to [[error vector magnitude]] (EVM), but MER is calculated from the average power of the signal. MER is also closely related to [[signal-to-noise ratio]]. MER includes all imperfections including deterministic [[amplitude imbalance]], [[quadrature error]] and [[distortion]], while noise is random by nature.
 
==See also==
*[[Error vector magnitude]]
*[[Carrier to Noise Ratio]]
*[[Signal-to-noise ratio]]
 
==References==
* ''ETSI technical report ETR 290: "Measurement guidelines for DVB systems"'', Errata 1, May 1997
 
[[Category:Quantized radio modulation modes]]
[[Category:Radio electronics]]
[[Category:Digital radio]]

Latest revision as of 17:01, 7 May 2013

The modulation error ratio or MER is a measure used to quantify the performance of a digital radio transmitter or receiver in a communications system using digital modulation (such as QAM). A signal sent by an ideal transmitter or received by a receiver would have all constellation points precisely at the ideal locations, however various imperfections in the implementation (such as noise, low image rejection ratio, phase noise, carrier suppression, distortion, etc.) or signal path cause the actual constellation points to deviate from the ideal locations.

Transmitter MER can be measured by specialised equipment, which demodulates the received signal in a similar way to how a real radio demodulator does it. Demodulated and detected signal can be used as a reasonably reliable estimate for the ideal transmitted signal in MER calculation.

Definition

An error vector is a vector in the I-Q plane between the ideal constellation point and the point received by the receiver. The Euclidean distance between the two points is its magnitude.

The modulation error ratio is equal to the ratio of the root mean square (RMS) power of the error vector to the power of the reference. It is defined in dB as:

MER(dB)=10log10(PsignalPerror)

where Perror is the RMS power of the error vector, and Psignal is the RMS power of ideal transmitted signal.

MER is defined as a percentage in a compatible (but reciprocal) way:

MER(%)=PerrorPsignal*100%

with the same definitions.

MER is closely related to error vector magnitude (EVM), but MER is calculated from the average power of the signal. MER is also closely related to signal-to-noise ratio. MER includes all imperfections including deterministic amplitude imbalance, quadrature error and distortion, while noise is random by nature.

See also

References

  • ETSI technical report ETR 290: "Measurement guidelines for DVB systems", Errata 1, May 1997