Noise figure uncertainty calculator – Agilent Technologies N9010A User Manual

172

Chapter 17

Noise Figure Measurement Application

General Specifications

Description

Specifications

Supplemental Information

Noise Figure Uncertainty Calculator

a

a. The Noise Figure Uncertainty Calculator requires the parameters shown in order to calculate the total

uncertainty of a Noise Figure measurement.

Instrument Noise Figure Uncertainty

See the Noise Figure
table earlier in this
chapter

Instrument Gain Uncertainty

See the Gain table
earlier in this chapter

Instrument Noise Figure

See graphs of “Nominal Instrument
Noise Figure”; Noise Figure is
DANL + 176.24 dB (nominal)

b

Note on DC coupling

cd

b. Nominally, the noise figure of the spectrum analyzer is given by
NF = D

− (K − L + N + B)

where D is the DANL (displayed average noise level) specification,

K is kTB (

−173.98 dBm in a 1 Hz bandwidth at 290 K)

L is 2.51 dB (the effect of log averaging used in DANL verifications)

N is 0.24 dB (the ratio of the noise bandwidth of the RBW filter with which DANL is

specified to an ideal noise bandwidth)

B is ten times the base-10 logarithm of the RBW (in hertz) in which the DANL is

specified. B is 0 dB for the 1 Hz RBW.

The actual NF will vary from the nominal due to frequency response errors.

c. The effect of AC coupling is negligible for frequencies above 40 MHz. Below 40 MHz, DC coupling is

recommended for the best measurements.

d. The instrument NF nominally degrades by 0.2 dB at 30 MHz and 1 dB at 10 MHz with AC coupling.

Instrument Input Match

See graphs: Nominal VSWR

Note on DC coupling

c