If frequency response – Agilent Technologies N9010A User Manual
Page 102
102
Chapter 5
Option B40 - 40 MHz Analysis Bandwidth
Other Analysis Bandwidth Specifications
d. Mixer Level is –10 dBm for all except >26.5 GHz, which is –30 dBm.
e. With first RF order spurious products, the indicated frequency will change at the same rate as the input,
with higher order, the indicated frequency will change at a rate faster than the input.
f. RBW=100 Hz. With higher RF order spurious responses, the observed frequency will change at a rate
faster than the input frequency.
g. Nominally
−40 dBc under large magnetic (0.38 Gauss rms) or vibrational (0.21 g rms) environmental
stimuli.
Description
Specifications
Supplemental Information
IF Frequency Response
a
Relative to center frequency
Modes above 18 GHz
b
Center Freq
(GHz)
Span
(MHz) Preselector
Nominal
RMS (nominal)
c
≥0.03, <3.6
≤40
n/a
±0.3 dB
0.08 dB
>3.6, ≤26.5
≤40
Off
d
±0.25 dΒ
0.08 dB
>26.5
≤40
Off
±0.25 dΒ
0.12 dB
≥3.6
≤40
On
See footnote
e
a. The IF frequency response includes effects due to RF circuits such as input filters, that are a function of
RF frequency, in addition to the IF passband effects.
b. Signal frequencies above 18 GHz are prone to additional response errors due to modes in the Type-N
connector used. With the use Type-N to APC 3.5 mm adapter part number 1250-1744, there are nomi-
nally six such modes. These modes cause nominally up to
−0.35 dB amplitude change, with phase
errors of nominally up to
±1.2
°
.
c. The listed performance is the rms of the amplitude deviation from the mean amplitude response of a
span/CF combination. 50% of the combinations of prototype instruments, center frequencies and spans
had performance better than the listed values.
d. Option MPB is installed and enabled.
e. The passband shape will be greatly affected by the preselector. See