Ac signal cross talk into an ac voltage channel, Ac signal cross talk into an ohms channel, Ac signal cross talk into a frequency channel – Fluke 2625A User Manual

2620A/2625A

Users Manual

D-2

AC Signal Cross Talk Into an AC Voltage Channel

ACV Error Ratio =

VACrms error

VACrms crosstalk

Frequency crosstalk

(

)

(

)

(

)

×











Range

Ratio (worst case)

Ratio (typical)

×

v

Hz

Ч





Ч

v

Hz

Ч





Ч

v

Hz

Ч





Ч

v

Hz

×





30.000 V

1.2

×

10

-6

v

Hz

Ч





2.6

Ч

10

-7

v

Hz

Ч





150.00/300.00 1.2

Ч

10

-5

v

Hz

Ч





3.4

Ч

10

-6

v

Hz

×





For example, to find the typical effect of a 60 Hz, 220V ac signal on another channel for
the 300 mV range, you would calculate: 220 X 60 X 1.4 X 10

-8

= 0.18 mV.

AC Signal Cross Talk Into an Ohms Channel

AC Frequency = 50, 60 Hz, ±0.1%

OHMS Error Ratio

1

=

Ohms error

VACrms crosstalk

(

)

(

)







Range

Ratio (worst case)

Ratio (typical)

×

Ohms

Vrms







3.0000 k

e

2.4

×

Vrms





×

Vrms





30.000k

e 3.1

×

10

-

4

kOhms

Vrms







8.4

×

10

-5

kOhms

Vrms







300.00 k

e

5.6

×

10

-3

kOhms

Vrms







3.7

×

10

-3

kOhms

Vrms







3.0000 M

e

3.8

×

10

-4

MOhms

Vrms







3.8

×

10

-5

MOhms

Vrms







10.000 M

e

1.4

×

10

-3

MOhms

Vrms







4.3

×

MOhms

Vrms







For example, to find the typical effect of a 60 Hz, 100V ac signal on another channel for
the 30 k

Ω

range, you would calculate: 100 X 8.4 X 10-5 = 0.008 k

Ω

.

AC Signal Cross Talk Into a Frequency Channel

Frequency measurements are unaffected by cross talk as long as the voltage-frequency
product is kept below the following limits:

Worst Case

Typical

V x Hz Product Limit

3.7

×

10

4

(V

×

Hz)

1.0

×

10

6

(V

×

Hz)

These values assume no more than 1000 pf of capacitance between either end of the resistor (HI and LOW ) and

earth ground.