Inputs/outputs, agilent 8560 e-series – Atec Agilent-8564E User Manual
Page 9
9
Front panel connectors
RF input
8560E, 8561E, 8562E, 8563E
Type N female, 50
Ω
(Option 026, 8563E only)
APC 3.5 mm male, 50
Ω
8564E, 8565E
APC 2.4 mm male, 50
Ω
VSWR (
≥
10 dB atten)
30 Hz to 2.9 GHz
<1.5:1 dB
2.9 GHz to 50 GHz
<2.3:1 dB
LO emission level
(Average with 10 dB atten)
≤
80 dBm
IF input
SMA female, 50
Ω
Frequency
310.7 MHz
Full screen level
–30 dBm
Gain compression
–23 dB
First LO output
SMA female, 50
Ω
Frequency
3.000 - 6.8107 GHz
1
Amplitude
+16.5 dBm ±2.0 dB
1
Cal output
BNC female, 50
Ω
Probe power
+15 Vdc, –12.6 Vdc, and
Gnd (150 mA max each)
Rear panel connectors
Earphone
Subminiature mono jack,
0.2 W into 4
Ω
10 MHz REF In/0ut
Shared BNC female, 50
Ω
Output freq accuracy
±(10 MHz x freq ref
accuracy)
Output amplitude
0 dBm
Input amplitude
–2 to +10 dBm
Video output
BNC, 50
Ω
Amplitude (RBW
≥
300 Hz)
0 to +1 V full scale
LO sweep frequency analog voltage output
(LO sweep or V/GHz function selectable from the front
panel, BNC female, 120
Ω
)
LO sweep output
0 to 10 V (no load)
Frequency analog voltage output (internal mixer mode)
Output ramp voltage proportional to start and stop
frequencies.
Transfer function:
0.5 V/GHz
0.5 V/GHz output (external mixer mode)
Output ramp voltage proportional to LO frequency:
(LO = 3 to 6.8107 GHz)
Transfer function: (1.5 V/GHz x LO frequency (GHz)
–0.2054) ±50 mV (typ)
Blanking/gate
Output
Shared BNC female, 50
Ω
Blanking mode
During sweep
Low TTL level
During retrace
High TTL level
Gate mode
Gate on
High TTL level
Gate off
Low TTL level
External/gate
Trigger input
Shared BNC female, >10 k
Ω
Settable to high TTL or low TTL
GPIB
IEEE-488 bus connector
Interface functions
SH1, AH1, T6, L4, LE0, RL1, PP1,
DC1, DT1, C1, C28, TE0, SR1
Direct printer output
Supports HP 3630A PaintJet
printer, HP 2225A ThinkJet printer
Direct plotter output
Supports HP 7225A/7440A/
7470A/7475A/7550A
Inputs/outputs, Agilent 8560 E-series
(All values are nominal)
1. Option 002: 3.9107 to 6.8107 GHz, +14.5 dBm ±3.0 dB