5790B
Operators Manual
1-18
Voltage
Range
Frequency Range
24 Hour AC
Stability ± 1 °C
Slow Filter Peak-
Peak ± μV
Temperature Coefficient
[1]
Input
Resistance
[2]
10 °C to 40 °C
0 °C to 10 °C
40 °C to 50 °C
ppm / °C
220 V
[3]
10 Hz - 20 Hz 8 1.5 3.0
20 Hz - 40 Hz 5 1.5 3.0
40 Hz - 20 kHz 5 1.5 3.0
20 kHz - 50 kHz 5 2.0 3.0
50 kΩ
50 kHz - 100 kHz 18 5.0 8.0
100 kHz - 300 kHz 36 15.0 15.0
300 kHz - 500 kHz 48 40.0 40.0
700 V
10 Hz - 20 Hz
[4]
8 1.5 4.0
20 Hz - 40 Hz 5 1.5 4.0
40 Hz – 20 kHz 5
1.5 4.0
500 kΩ
20 kHz – 50 kHz 18 5.0 7.0
50 kHz - 100 kHz 36 15.0 15.0
1000 V
10 Hz - 20 Hz
[4]
8 1.5 4.0
20 Hz - 40 Hz 5 1.5 4.0
40 Hz - 20 kHz 5 1.5 4.0
500 kΩ
20 kHz - 50 kHz
[5]
18 5.0 7.0
50 kHz - 100 kHz
[5]
36 15.0 15.0
[1] Add to uncertainty when more than 5 °C from calibration temperature.
[2] Input capacitance approximately 100 pF.
[3] Inputs with a V*Hz product >2.2 E7 are unspecified.
[4] Typical specification, as determined by sourcing with the Fluke 5205A Precision Power Amplifier.
[5] Inputs that are >30 kHz and >750 V are typical, as determined by sourcing with the Fluke 5205A Precision Power Amplifier.
DC Secondary Performance
Voltage Range
Temperature Coefficient
[1]
Input
Resistance
[2]
10 °C to 40 °C
0 °C to 10 °C
40 °C to 50 °C
ppm / °C
220 mV
1.5 3.0
10 MΩ
700 mV
1.5 3.0
10 MΩ
2.2 V
1.5 3.0
10 MΩ
7 V
1.5 3.0
50 kΩ
22 V
1.5 3.0
50 kΩ
70 V
1.5 3.0
50 kΩ
220 V
1.5 3.0
50 kΩ
700 V
1.5 4.0
500 kΩ
1000 V
1.5 4.0
500 kΩ
[1] Add to uncertainty when more than 5 °C from calibration temperature.
[2] Input capacitance approximately 100 pF.
Note: DC specification valid only when dc input signal is averaged with an equal and opposite dc input signal to eliminate dc offset
errors. The use of Input 1 for dc inputs is not recommended due to the inherent thermal EMFs in a “N” connector. See Operators
Manual for details.
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