BGFT

Battery Ground Fault Tracer

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Easily locates ground faults in
ungrounded dc systems

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Operates in high electrical noise
environment

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Simplifies fault tracing by identifying
fault characteristic (resistive and
capacitive) magnitudes

BGFT

BATTERY GROUND FAULT TRACER

DESCRIPTION

The Battery Ground Fault Tracer is an economical, easy-to-

use instrument that identifies, traces and locates ground

faults in ungrounded dc systems — on-line. It is

particularly effective in high electrical noise environments,

as the strength of the test signal can be adjusted.

The Battery Ground Fault Tracer accelerates fault location

by eliminating trial-and-error procedures and because

faults can be located without going off-line. It is

particularly useful in any industry where supply of power

for operating measurement, communication and control

equipment is critical.

APPLICATIONS

The Battery Ground Fault Tracer, which consists of a line-

operated transmitter and a portable, battery-powered

receiver, determines fault magnitude and severity. The

transmitter connects to the battery bus and station ground.

Incorporating a resistance and capacitance bridge, the

transmitter can be used to determine the fault’s magnitude

and severity prior to tracking the fault.

System capacitance can then be nulled from the

measurement to prevent erroneous readings on the

receiver. Immune to distributed noise in the system,

Battery Ground Fault Tracer readings are unaffected by the

presence of dc current and ac ripple up to 15 Amperes.

The transmitter can be left behind during tracing, which is

performed quickly and easily using the hand-held receiver

and clamp-on probe. The receiver provides digital display

of signal amplitude, with a multiposition switch to adjust

gain for optimal display resolution.

PRINCIPLE OF OPERATION

The Battery Ground Fault Tracer transmits a 20 Hz signal

through an energized or de-energized dc system. Feeder

cables are tested for signal amplitude, which is inversely

proportional to the fault impedance. Faults up to 100 k

Ω

are easily traced and isolated by clamping a direction-

sensitive probe on the feeder cable and monitoring signal

strength on the hand-held receiver.

FEATURES AND BENEFITS

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Digital display of voltage and current signal amplitudes

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Bridge measurement of fault resistance and system

capacitance. (The use of the bridge is optional.)

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Wide fault resistance measurement range from 1 k

Ω

to 399 k

Ω

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Immune to distributed noise

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Soft-start charging system to prevent sensitive relay

tripping

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Convenient, hand-held receiver

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Receiver gain control for optimal display resolution