Receiver noise power
NPOWER = noisepow(NBW,NF,REFTEMP)
the noise power,
NPOWER = noisepow(
NPOWER, in watts for a receiver.
This receiver has a noise bandwidth
NBW in hertz,
NF in decibels, and reference temperature
The noise bandwidth of the receiver in hertz. For a superheterodyne receiver, the noise bandwidth is approximately equal to the bandwidth of the intermediate frequency stages .
Noise figure. The noise figure is a dimensionless quantity that indicates how much a receiver deviates from an ideal receiver in terms of internal noise. An ideal receiver only produces the expected thermal noise power for a given noise bandwidth and temperature. A noise figure of 1 indicates that the noise power of a receiver equals the noise power of an ideal receiver. Because an actual receiver cannot exhibit a noise power value less than an ideal receiver, the noise figure is always greater than or equal to one.
Reference temperature in degrees kelvin. The temperature of the receiver. Typical values range from 290–300 degrees kelvin.
Noise power in watts. The internal noise power contribution of the receiver to the signal-to-noise ratio.
Compute Receiver Noise Power with Specified Temperature
Calculate the noise power of a receiver having a noise bandwidth of 10 kHz, a noise figure of 1 dB, and a reference temperature of 300 K.
npower = noisepow(10e3,1,300)
npower = 5.2144e-17
 Skolnik, M. Introduction to Radar Systems. New York: McGraw-Hill, 1980.
C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.
Usage notes and limitations:
Does not support variable-size inputs.