EG&G ORTEC 414A Panduan Pengoperasian dan Servis - Halaman 8

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For the combination of series and shunt termination, use
the 93n output in the sending instrument for the cable
connection and use 9312 cable. At the input for the
receiving instrument, use a BNC tee to accept both the
interconnecting cable and a 100J2 resistive terminator. Note
that the signal span at the receiving end of this type of
receiving circuit will always be reduced to 50% of the signal
span furnished by the sending instrument.
For
your
convenience,
ORTEC stocks the
proper
terminators and BNC tees, or you can obtain them from a
variety of commercial sources.
4. OPERATING INSTRUCTIONS
4.1. FRONT PANEL CONTROLS
In/Out Toggle switches which allow the input signals to
the coincidence and anticoincidence circuits to be disabled
without the input coaxial cables having to be removed. The
circuit may be effectively changed to either a onefold,
twofold, or threefold coincidence circuit, as desired, by
operating these switches.
Resolving Time 10-turn potentiometer which determines
the 2t resolving time of the coincidence circuit; resolving
time is variable from 10 to 110 nsec.
4.2. TESTING AND OBSERVATION OF WAVEFORMS
Refer to Sections 6.1 and 6.2 for information on testing
performance and observing waveforms.
4.3. CONNECTOR DATA
Inputs A, B, and C The coincidence Inputs A, B, and C are
BNC connectors providing ac-coupled coincidence inputs.
Input impedance is greater than 3000J2. A positive 2-V
pulse
with
20-nsec
minimum width
is required. To
minimize reflections when driving from a low impedance
source into these connectors, a terminator equal to the
characteristic impedance of the driving cable should be
shunted from this connector to ground.
Input D The anticoincidence Input D is a BNC connector
providing
a
dc-coupled
anticoincidence input. Input
impedance is greater than 3000J2. A positive 2-V pulse with
20-nsec minimum width is required; longer pulse durations,
to dc, are acceptable and determine the anticoincidence
control period. To minimize reflections when driving from
a low impedance source into this connector, a terminator
equal to the characteristic impedance of the driving cable
should be shunted from this connector to ground.
Outputs Two separate, buffered
coincidence
output
signals are provided on BNC connectors. These signals are
greater than 5 V in amplitude and are 500 nsec wide. The
outputs are ac-coupled
with
less than
10S2 output
impedance.
Coincidence Output Test Points (TP1 and TP2) These
oscilloscope test points are for monitoring signals on each
coincidence Output BNC connector, to which they are
connected by a 470S2 series resistor.
Power Connector The Nuclear-standard module power
connector is an AMP 202515-5.
4.4. TYPICAL OPERATING CONSIDERATIONS
The Fast Coincidence circuit measures coincidence-from
the leading edge, or leading portion, of the input waveform.
The input signals are reshaped to a standard pulse width
from the leading edge. Figures 4.1 and 4.2 illustrate that
the input pulses can actually overlap in time but not satisfy
the coincidence requirements as dictated by the front panel
Resolving Time control.
1
1 1 rr
ny \
t i l l
- • *1-
T
TT^i
II
" III -
Fig. 4.1. Illustration of Actual Overlapping of Input Pulses
I and II, but Not During the Leading-Edge Resolving Time;
Trace III Illustrates No Output Pulse.
1
It
1
III
Fig. 4.2. Illustration of Input Pulses I and II Overlapping
During the Leading-Edge Resolving Time and Producing
Output Pulse III.