Amplitude specifications, continued, Reference level range, Band switching uncertainty – Atec Agilent-8564E User Manual
Page 7: Calibrator output, Input attenuator, If gain uncertainty, If alignment uncertainty, Resolution bandwidth switching uncertainty, Frequency response
7
Reference level range
Log, adjustable in 0.1 dB steps
30 Hz to 31.15 GHz
–120 to +30 dBm
31.15 GHz to 50 GHz
–115 to +30 dBm
Linear, adjustable in 1% steps
30 Hz to 31.15 GHz
2.2 µV to 7.07 V
31.15 GHz to 50 GHz
3.98 µV to 7.07 V
Band switching uncertainty
±1 dB (added to relative frequency response for between-
band measurements)
Calibrator output
300 MHz x (1 ±frequency reference accuracy
4
) at –10 dBm
±0.3 dB
Input attenuator
Switching uncertainty (referenced to 10 dB attenuation)
30 Hz to 2.9 GHz for 20 to 70 dB settings of input attenuator:
±0.6 dB/10 dB step, 1.8 dB maximum
Repeatability ±0.1 dB (nominal)
IF gain uncertainty
±1 dB (0 to –80 dBm reference levels with 10 dB input
attenuation)
IF alignment uncertainty
±0.5 dB (additional uncertainty only when using 300 Hz
RBW)
Resolution bandwidth switching uncertainty
±0.5 dB (relative to 300 kHz RBW)
Amplitude specifications, continued
Frequency response
in dB, 10 dB input attenuation, dc coupled
relative/typical relative/absolute
2
/typical absolute
3
8560E
8561E
8562E
8563E
8564E, 8565E
100 MHz to 2 GHz
0.7/0.7/--/--
0.9/0.8/--/--
1.0/0.8/--/--
0.9/0.8/--/--
30 Hz1 to 2.9 GHz
1/0.8/1.5/1.0
1.0/0.7/1.75/1.0
1.25/0.8/1.8/1.0
1.25/0.8/1.8/1.0
1.0/0.8/1.5/1.0
2.9 GHz to 6.46 GHz
1.5/1.1/2.5/1.5
1.5/1.1/2.5/1.5
1.5/1.0/2.4/1.5
1.7/1.4/2.6/1.8
6.46 to 13.2 GHz
2.2/1.5/2.9/2.0
2.2/1.5/2.9/2.0
2.6/2.2/3.0/2.8
13.2 to 22 GHz
2.5/1.5/4.0/2.5 2.5/2.5/4.0/3.5
22 to 26.8 GHz
3.3/2.2/4.0/2.5 3.3/2.2/4.5/4.0
26.8 to 31.15 GHz
3.1/2.9/4.0/3.0
31.15 GHz to 40 GHz (8564E)
2.6/2.4/4.0/3.2
31.15 GHz to 50 GHz (8565E)
3.2/3.0/4.0/4.0
1.
Operation below 9 kHz requires Option 006.
2.
Absolute flatness values referenced to 300 MHz CAL OUT
3.
Typical values at 25 ˚C
4.
Frequency reference accuracy = aging x time since last adjustment + initial
achievable accuracy + temperature stability