2
Introduction and Measurement
Figure 11 Connect diagram example
Making a measurement
1
42
N5500A Standard Test Set
N5500A TEST SET
50 kHz-1600 MHz
RF ANALYZER
ANALYZER
<100 kHz
N5500A Opt. 001 Test Set
N5500A OPT 001 TEST SET
50 kHz-26.5 GHz
RF ANALYZER
ANALYZER
<100 kHz
N5500A Option 201Test Set
N5500A OPT 201 TEST SET
50 kHz-1600 MHz
RF ANALYZER
ANALYZER
e5505a_user_connect_diag.ai
rev2 10/20/03
Press the Continue button.
•
Because you selected New Measurement to begin this measurement, the
system starts by running the routines required to calibrate the current
measurement setup.
•
Figure 12
on page 43 shows a typical baseband phase noise plot for an
phase noise test set.
GPIB
STATUS
INPUT
REF INPUT
SIGNAL
NOISE
50 kHz-1600MHz
50 W
1V Pk
0.01 Hz-100 MHz
+15 dBm MIN
PHASE DET OUTPUT
MONITOR
ANALYZER
TUNE VOLTAGE
OUT OF LOCK
<100 MHz
50 W 20mA MAX
100 W/1.25 LPS
GPIB
STATUS
INPUT
REF INPUT
SIGNAL
NOISE
50 kHz-1600MHz
1.2 - 26.5 GHz
50 W
1V Pk
0.01 Hz-100 MHz
+15 dBm MIN
+7 dBm MIN
PHASE DET OUTPUT
MONITOR
FROM
TO
DOWNCONVERTER
DOWNCONVERTER
ANALYZER
TUNE VOLTAGE
OUT OF LOCK
<100 MHz
50 W 20mA MAX
100 W/1.25 LPS
GPIB
STATUS
INPUT
REF INPUT
SIGNAL
NOISE
50 kHz-1600MHz
1.2 - 26.5 GHz
50 W
1V Pk
0.01 Hz-100 MHz
+15 dBm MIN
+7 dBm MIN
PHASE DET OUTPUT
MONITOR
mW SIGNAL
1.2-26.5 GHz
ANALYZER
TUNE VOLTAGE
OUT OF LOCK
<100 kHz
<100 MHz
50 W 20mA MAX
100 W/1.25 LPS
50 Ω
Termination
50 Ω
Termination
50 Ω
Termination
Agilent E5505A User's Guide