If phase linearity – Agilent Technologies N9010A User Manual
Page 97
Chapter 4
97
Option B25 - 25 MHz Analysis Bandwidth
Other Analysis Bandwidth Specifications
Description
Specifications
Supplemental Information
IF Phase Linearity
Deviation from mean phase linearity
Modes above 18 GHz
a
Center Freq
(GHz)
Span
(MHz)
Preselector
Peak-to-peak
(nominal)
RMS (nominal)
b
≥0.02, <3.6
≤25
n/a
0.6°
0.14°
≥3.6
≤25
Off
c
1.9°
0.42°
≥3.6(Option ≤
526)
≤25
On
4.5°
1.2°
a. Signal frequencies between 18 and 26.5 GHz are prone to additional response errors due to modes in
the Type-N connector used with frequency Option 526. With the use of Type-N to APC 3.5 mm adapter
part number 1250-1744, there are nominally six such modes. These modes cause nominally up to
−0.35 dB amplitude change, with phase errors of nominally up to ±1.2
°
.
b. The listed performance is the standard deviation of the phase deviation relative to the mean phase devi-
ation from a linear phase condition, where the RMS is computed across the span shown.
c. Option MPB is installed and enabled.
Description
Specification
Supplemental Information
Full Scale (ADC Clipping)
a
Default settings, signal at CF
(IF Gain = Low)
Band 0
−8 dBm mixer level
b
(nominal)
Band 1 through 4
−7 dBm mixer level
b
(nominal)
High Gain setting, signal at CF
(IF Gain = High)
Band 0
−18 dBm mixer level
b
(nominal),
subject to gain limitations
c
Band 1 through 6
−17 dBm mixer level
b
(nominal),
subject to gain limitations
Effect of signal frequency
≠ CF
up to
±3 dB (nominal)
a. This table is meant to help predict the full-scale level, defined as the signal level for which ADC over-
load (clipping) occurs. The prediction is imperfect, but can serve as a starting point for finding that
level experimentally. A SCPI command is also available for that purpose.
b. Mixer level is signal level minus input attenuation.
c. The available gain to reach the predicted mixer level will vary with center frequency. Combinations of
high gains and high frequencies will not achieve the gain required, increasing the full scale level.