GW Instek LCR-6100 - Correction Factors that Affect Measurement Accuracy

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LCR-6000 Series User Manual

135

13.1.6 Accuracy for Rs

When D

（measured D value）≤0.1

The accuracy of R

is defined as:

= X

×D

[Ω]

= 2πfL

xfC



Where:

is the measured X value[].

is the measured C value[F].

is the measured L value[H].

is D’s accuracy.

F is the measuring frequency.

13.2 Correction factors that affect

measurement accuracy

The following will show how to decide the basic

accuracy, A:

A is 0.05:

When the measuring signal is 0.4V

rms

≤V

≤1.2V

rms

and the measurement speed is slow or medium.

A is 0.1:

When the measuring signal is 0.4V

rms

≤V

≤1.2V

rms

and the measurement speed is fast.

When the measuring signal is V

<0.4V

rms

or V

>1.2V

rms

the basic accuracy, A, should be calculated according to

the following description:

Write down the basic accuracy, A, for the

measurement speed currently being used and then

write down the correction factor, A

, according to

the amplitude of the measuring signal being

currently used (see Figure 13-2). Let A be multiplied

by A

to get the actual basic accuracy, A, for that

moment. V

represents the amplitude of the

measuring signal.

GW Instek LCR-6100 - Correction Factors that Affect Measurement Accuracy

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