Appendix d performance specifications, 373xxa mm d-7 – Anritsu 373XXA User Manual
Page 186
LEVEL CONTROL RANGE
(Without step attenuator)
37317A
37325A 37347A 37369A
37397A
Above Reset
Power*
+10 dB
+10 dB
+10 dB
+20 dB
+20 dB
Below Reset
Power
-
25 dB
-
25 dB
-
25 dB
-20 dB
-20 dB <47 GHz
-12 dB
³
47 GHz
*Source power above the reset level is allowed but not guaranteed,
especially over the full frequency range.
POWER FLATNESS
Frequency Range (GHz)
Flatness (dB)
0.0225 to 13.5
±
1.5
13.5 to 20
±
2.0
20 to 40
±
3.0
40 to 65
±
5.0
SOURCE PURITY
(Specifications apply for all models at maximum rated
power.)
Harmonics & Harmonic Related:
15 dBc (37325A, 37347A, 37369A, 37397A)
35 dBc (37317A)
Nonharmonics:
35 dBc (standard)
Phase Noise:
>60 dBc/Hz at 10 kHz offset and 20 GHz
center frequency
SOURCE FREQUENCY ACCURACY
Standard Time Base:
Aging:
<1 x 10
-6
/year
Stability:
<1 x 10
-6
over +15
o
C to +50
o
C range
High Stability Time Base (Option 10):
Aging:
<1 x 10
-9
/day
Stability:
<5 x 10
-9
over 0
o
C to +55
o
C range
GROUP DELAY CHARACTERISTICS
Group Delay is measured by computing the phase change
in degrees across a frequency step by applying the for-
mula:
τ
g
d
d f
= −
1
1
360
/
Φ
Aperture:
Defined as the frequency span over which the
phase change is computed at a given frequency point. The
aperture can be changed without recalibration. The mini-
mum aperture is the frequency range divided by the num-
ber of points in calibration and can be increased to 20% of
the frequency range without recalibration. The frequency
width of the aperture and the percent of the frequency
range are displayed automatically.
Range:
The maximum delay range is limited to measur-
ing no more than +180
°
of phase change within the aper-
ture set by the number of frequency points. A frequency
step size of 100 kHz corresponds to 10 ms.
Measurement Repeatability (sweep to sweep):
For
continuous measurement of a through connection, RSS
fluctuations due to phase and FM noise are:
141
2
2
.
[ (
)
(
) ]
Phase Noise in deg
Residual FM Noise in Hz
g
+
×
τ
0 5
360
.
(
)
Aperture in Hz
Accuracy:
Error in
Error in Phase deg
Aperture Freq E
g
g
τ
τ
=
+
×
\
(
)
[
.
360
rror
Hz
Aperture Hz
(
) ]
(
)
VECTOR ERROR CORRECTION
There are five methods of calibration:
1) Open-Short-Load (OSL).
This calibration method
uses short circuits, open circuits, and terminations (fixed
or sliding)
2) Offset-Short (waveguide):
This calibration method
uses short circuits and terminations.
3) LRL/LRM:
T h e
L i n e - R e f l e c t - L i n e
( L R L )
o r
Line-Reflect-Match (LRM) calibration uses transmission
lines and a reflective device or termination (LRM).
4) TRM:
The Thru-Reflect-Match calibration uses short
circuits and fixed termination.
5) AutoCal:
The VNA will serially drive an external
AutoCal module to perform a 2-port OSLT calibration.
AutoCal is a single two port calibration module with
built-in, switched, and characterized OSLT standards.
AutoCal provides quick, reliable, and accurate calibra-
tions that exceed the performance of a standard broad-
band load OSLT calibration.
There are four vector error correction models available:
1) Full 12-Term
2) One Path/Two Port
3) Frequency Response (Transmission/Reflection)
4) Reflection Only
Full 12-term can always be used, if desired, since all
373XXA-series models automatically reverse the test sig-
nal. Front-panel display indicates the type of calibration
stored in memory. Front-panel button selects whether cali-
bration is to be applied, and an LED lights when error cor-
rection is being applied.
Calibration Sequence:
Prompts the user to connect the
appropriate calibration standard to Port 1 and/or Port 2.
Calibration standards may be measured simultaneously or
one at a time.
Calibration Standards:
For coaxial calibrations the user
selects SMA, GPC-3.5, GPC-7, Type N, 2.4 mm, TNC, K,
or V Connector from a calibration menu. Use of fixed or
sliding loads can be selected for each connector type.
User defined calibration standards allow for entry of open
373XXA MM
D-7
APPENDIX D
PERFORMANCE SPECIFICATIONS