○
C
Copyright 2009 Agilent Technologies
1 μF 100 k D ±0.0176 ± 0.00032
55.73
Note 1: Result = Measurement – Calibrated Value of Standard
Measurement:
Capacitance
Cable length:
0 m
Measurement time:
Med
Test signal level:
50 mV
Status
PASS
Standard
Frequency [Hz]
Parameter Limits Result
1
Uncertainty
TAR
10 nF 100 Cp ± 0.063 nF
nF
± 0.00070 nF
89.93
10 nF 100 D ±0.0063 ± 0.000043
146.37
10 nF 100 k Cp ± 0.271 nF
nF
± 0.0023 nF
119.28
10 nF 100 k D ±0.0271 ± 0.00044
62.83
Note 1: Result = Measurement – Calibrated Value of Standard
Measurement:
Capacitance
Cable length:
0 m
Measurement time:
Short
Test signal level:
50 mV
Status
PASS
Standard
Frequency [Hz]
Parameter Limits Result
1
Uncertainty
TAR
10 nF 100 Cp ± 0.179 nF
nF
± 0.011 nF
16.27
10 nF 100 D ±0.0179 ± 0.00072
25.02
10 nF 100 k Cp ± 0.287 nF
nF
± 0.00081 nF
356.95
10 nF 100 k D ±0.0287 ± 0.00069
41.99
Note 1: Result = Measurement – Calibrated Value of Standard
Measurement:
Capacitance
Cable length:
0 m
Measurement time:
Long
Test signal level:
1 V
DC bias:
On
Status
PASS
Standard
Frequency [Hz]
Parameter Limits Result
1
Uncertainty
TAR
1 μF 1 k Cp ±0.0011 μF
μF
± 0.000066 μF
16.28
1 μF 1 k D ±0.0011 ± 0.000033
34.30
Note 1: Result = Measurement – Calibrated Value of Standard
Measurement:
Resistance
Cable length:
0 m
Measurement time:
Long
Test signal level:
1 V
Status
PASS
Standard
Frequency [Hz]
Parameter Limits Result
1
Uncertainty
TAR
100 mΩ
100
R ±0.52 mΩ mΩ ± 0.030 mΩ
17.76
100 mΩ
1k
R ±0.48 mΩ mΩ ± 0.030 mΩ
16.31
Note 1: Result = Measurement – Calibrated Value of
Standard
Measurement:
Resistance
Cable length:
0 m
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