vi
NOTICE
This preamplifier has been shipped to you with its
protection circuit connected into the input circuit.
The protection circuit prevents destruction of the
input FET due to large transients under abnormal
operating conditions and imposes only a slight
resolution degradation and increased rise time. The
preamplifier is thus immune to almost anything the
operator is likely to do that causes transients either
at the detector input or at the bias input connector.
The protection circuit does not protect the detector,
but even if the detector breaks down as a result of
over-voltage, the preamplifier will survive the
resulting large transients if the protection circuit is
in. This, of course, is not true if the protection circuit
is out, in which case the input FET is very
susceptible to destruction by transients at the
detector input connector.
If the slight degradation of resolution and rise time
cannot be tolerated, the protection circuit can be
removed by simply disconnecting one transistor
lead and installing a wire jumper that is included
with the preamplifier.
The Warranty is voided if the protection circuit is
out unless the following precautions are taken:
1. COMPLETELY DISCHARGE the detector bias
circuit before connecting a low impedance or a
cable, capacitor, or other capacitive device to the
Detector Input connector on the preamplifier.
2. Discharge the detector bias circuitry before
making ANY connections to the Detector Input
connector and before disconnecting the preamplifier
from the detector.
3. To discharge the detector bias circuitry, connect
a low impedance (short circuit preferably) across
the Detector Bias connector on the preamplifier for
at least 20 seconds.
The input circuit will be destroyed if the Detector
Input connector is shorted while the detector bias
components are charged, and the quality of these
capacitors is such that they will retain a charge
through a long period of time. Such a short could
result from connecting a detector, cable, capacitor,
or other capacitive device such as a voltmeter
probe. A short circuit, either short term or
continuous, will cause the applied bias voltage
(stored on C2) to be coupled through C2 directly to
the input transistor, causing a catastrophic
breakdown.
If a variable supply is used, merely turning down the
voltage control to zero and leaving it for at least 20
seconds will suffice, since the bias circuitry can
discharge itself through the output of the bias
supply.
Sometimes it is necessary to simply disconnect the
bias supply, such as is the case when using
batteries for bias. This situation leaves no discharge
path, so a path must be provided by placing a short
circuit or low impedance across the Detector Bias
connector on the rear panel of the unit. DO NOT
SHORT the Detector Input connector on the front
panel.
