Transfer impedance, Archived 6/1/10 – ETS-Lindgren 94456 Current Probe (Archived) User Manual

Principles of Operation

MODEL 94456 CURRENT PROBES

4

© EMC TEST SYSTEMS, L.P. – MARCH 2002

REV B – PN 399265

be subject to damage. The load resistor must also be

protected from excessive line currents.

The influence of intermodulation on the current probe

output as measured with the EMI test equipment is

negligible for primary conductor power frequency currents

under 300 Amperes. For primary power currents above 300

Amperes, measurements taken by the EMI test equipment

generally will not be affected by intermodulation because

of its “averaging” characteristics for the Quasi Peak and

Peak functions, the readings will increase with current.

TRANSFER IMPEDANCE

The RF current (I

P

) in microamps in the conductor under

test is determined from the reading of the current probe

output in microvolts (E

S

) divided by the current probe

transfer impedance (Z

T

).

I

P

= E

S

/Z

T

Or, in dB

I

P

(dB

µµA) = E

S

(dB

µµV) – Z

T

(dB)

The typical transfer impedance of the current probe

throughout the frequency range is determined by passing a

known RF current (I

P

) through the primary test conductor

and noting the voltage, E

S

, developed across a 50 Ohm

load. Then,

Z

T

= E

S

/I

P

Archived 6/1/10