2.
Note Serial resistance specified. lib tio fre tio . Only primary parameter displayed frequency kHz.
Note Specified kHz.Frequency deviations are
related reference value 1kHz.
Note Specified frequency 100 Hz. rta lib tio sin lib R
m rin fin tio lib tio r. Frequency deviations are related reference value.
Note Specification valid without performing OPEN/SHORT corrections.
Note The table shows maximal frequency dependency partial standards.
Note Values are valid both for CORR and CORR OFF mode. rta lib tio ilia lib tio is
ty l. Parameters are valid when applied coaxial test cables delivered with the calibrator,
length cm.
Operation manual 59
. lib tio fin rtia sta tia l
a itio tio lib r. Depending type applied
components the frequency deviation can different individual serial numbers. lib tio rta ifie g
c itio lim its ith tin d
a itio rta ifie ffic tin iffe :
U (re itio /°C (°C)
W lib tio rta ty
T ffic rtia sta rd
d tio tin lim itio .
Note Two wire connection.
Note Parallel capacitance specified. Use calibration values data in
M550.MEATEST_____________________________________________________________ M550Impedance Calibrator
List notes:
Note Simulation using resistance network, nominal resistance values 10MH 1.
Note 4TP frequency flatness table show typical frequency dependency partial standards. See calibration values M550 for exact value.
A itio rta tio . DUT uses different measure method, an
additional deviation can effects result calibration frequency range above 100 kHz.
C t
1. Relative frequency deviations are related reference value kHz.
Note Calibration uncertainty ,is displayed for frequency range from 900 1100 Hz.
4.
Note *11 Specified kHz.25MH 10MH
Note Parameters are valid when OPEN/SHORT calibration performed DUT using OPEN/SHORT positions from the
M550 calibrator before calibration.
3.
Note *12 Specified 100 kHz.
Note Serial inductance specified. All inductances are simulated using T-type networks. Calibration values are valid plane M550
calibrator coaxial output terminals.
Note Specification valid for four terminal pair measuring principle.
5
