Friis formula or Friis's formula (sometimes Friis' formula), named after Danish-American electrical engineer Harald T. Friis, is either of two formulas used in telecommunications engineering to calculate the signal-to-noise ratio of a multistage amplifier.
Friis's formula is used to calculate the total noise factor of a cascade of stages, each with its own noise factor and power gain (assuming that the impedances are matched at each stage).
The total noise factor can then be used to calculate the total noise figure.
are the noise factor and available power gain, respectively, of the i-th stage, and n is the number of stages.
Both magnitudes are expressed as ratios, not in decibels.
An important consequence of this formula is that the overall noise figure of a radio receiver is primarily established by the noise figure of its first amplifying stage.
Subsequent stages have a diminishing effect on signal-to-noise ratio.
For this reason, the first stage amplifier in a receiver is often called the low-noise amplifier (LNA).
The overall receiver noise "factor" is then where
is the overall noise factor of the subsequent stages.
According to the equation, the overall noise factor,
, is dominated by the noise factor of the LNA,
, if the gain is sufficiently high.
The resultant Noise Figure expressed in dB is: For a derivation of Friis' formula for the case of three cascaded amplifiers (
A source outputs a signal of power
Therefore the SNR at the input of the receiver chain is
Thus the signal power at the output of the third amplifier is
The noise power at the output of the amplifier chain consists of four parts: Therefore the total noise power at the output of the amplifier chain equals and the SNR at the output of the amplifier chain equals The total noise factor may now be calculated as quotient of the input and output SNR: Using the definitions of the noise factors of the amplifiers we get the final result:
General derivation for a cascade of
amplifiers: The total noise figure is given as the relation of the signal-to-noise ratio at the cascade input
to the signal-to-noise ratio at the cascade output
The total input power of the
-th amplifier in the cascade (noise and signal) is
Additionally, the amplifier adds noise with power
For the entire cascade, one obtains the total output power
The output signal power thus rewrites as
whereas the output noise power can be written as
Substituting these results into the total noise figure leads to
as the noise figure of the individual
Friis's formula can be equivalently expressed in terms of noise temperature: