• Enables the user to switch between either locating cable lines or fuses.
• Icluding sensitivity adjustment thereby maximizing the accuracy of
both tracing and locating
Principle
The BEHA-AMPROBE SF100 Set consists of a transmitter and a receiver.
Similar to radio signals, the BEHA-AMPROBE SF100 functions by means
of a coded carrier sending a signal into the cable or the mains to be
localised. By means of the built-in sensor, the receiver can indicate the
transmitted code as a symbol on the display as well as providing an acou-
stic signal. The acoustic sound level automatically intensifies as the sour-
ce is approached.
Scopy of Supply
1 pc SF100 Transmitter, 1 pc SF100 Receiver, 1 pc Carrying Case
1 pc Batterie 9 V, IEC 6LR61, 1 pc. Instruction Manual
Transport and Storage
Please keep the original packaging for later transport, e.g. for calibrati-
on. Any transport damage due to faulty packaging will be excluded from
warranty claims. In order to avoid instrument damage, it is advised to
remove accumulators when not using the instrument over a certain time
period. However, should the instrument be contaminated by leaking bat-
tery cells, you are kindly requested to return it to the factory for cleaning
and inspection. Instruments must be stored in dry and closed areas. In the
case of an instrument being transported in extreme temperatures,
a recovery time of minimum 2 hours is required prior to instrument
operation.
Safety measures
The BEHA-AMPROBE SF100 has been constructed in accordance with the
safety regulations for electronic test and measurement instruments and
has left the factory in safe and perfect condition. To maintain this condi-
tion, the user must pay attention to the safety references contained in
this instruction manual. This instruction manual contains information
and warnings necessary for safe operation and maintenance of the in-
strument.
The respective accident prevention regulations established by the
professional associations for electrical systems and equipment must
be strictly met at all times.
In order to avoid electrical shock, the valid safety and VDE regula-
tions regarding excessive contact voltages must receive utmost at-
tention, when working with voltages exceeding 120V (60V) DC or
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