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Isolate the problem further as outlined

below. If a change in antenna impedance is
indicated, it may be due to a failed capacitor
or other change in the antenna system.
Whether to re-tune the transmitter should
depend on the extent and nature of the prob-
lem.

If there is a change in antenna impedance

due to a change in ground conductivity (re-
sulting from rain), it would be permissible
to re-tune the transmitter to match it to the
new load impedance.

However, if the impedance change is due

to a failing capacitor in the antenna system,
it would be best to avoid readjusting the
transmitter tuning. Re-tuning the transmit-
ter to match the failing part would probably
accelerate the failure.

4.7.6.2.

Antenna Problem

Connect the transmitter into a dummy

load if one is available to determine if the
fault is with the antenna system or the trans-
mitter. If the antenna system is a directional
array, the VSWR problem may be found to
be peculiar to one attenna pattern only.

4.7.6.3.

Output Network

A faulty capacitor or broken connection in

the Output Network may be the cause if the
transmitter also does not operate properly
into a dummy load. A thorough inspection
of the Output Network may reveal the prob-
lem. Look for any loose or burned connec-
tions, and any physical signs of stress on any
of the capacitors.

WARNING

REMOVE ALL AC POWER AND DIS-
CHARGE ALL POINTS WHERE RESID-
UAL VOLTAGE MAY REMAIN BEFORE
PERFORMING AN INSPECTION OF THE
OUTPUT NETWORK.

WARNING

THE VSWR P ROTE CTIO N CIRCUIT
SHOULD NEVER BE DEFEATED AS A
MEANS OF GETTING THE TRANSMITTER
BACK ON THE AIR.

4.7.7.

VSWR Trips With High Levels
Of Modulation and High Power

4.7.7.1.

Improper Tuning and Loading

If this problem is encountered in the first

hours of operation, there may be a setup
problem. Refer to the initial turn on proce-
dure and maintenance section where PA
Tuning and PA Loading are described.

Check the VSWR Detector Null reading

on the Multimeter. This reading should be
zero. An increase in the VSWR Detector
Null reading would indicate that the load

impedance has changed from the initial tune
up or that the transmitter tuning or loading
has changed (either through front panel ad-
justment or by a failure of an Output Net-
work component).

4.7.7.2.

Antenna

If a dummy load is available, try operating

the transmitter into it. There should be no
significant Detector Null reading when op-
erating into the dummy load, assuming the
antenna impedance is close to the dummy
load impedance. If the VSWR Detector
Null reading reads upscale, there is prob-
ably a problem in the antenna system.

4.7.7.3.

Output Network

If the VSWR problem still exists when

operating into the dummy load, there may
be a faulty capacitor or connection in the
transmitter’s Output Network. Check the
output spark gap on top of the Loading
control to see if it is shorted, and C3 and C4
in the Output Network. These are the com-
ponents which would affect the impedance
seen by the VSWR Detector.

WARNING

THE VSWR PROTECTIO N CIRCUIT
SHOULD NEVER BE DEFEATED AS A
MEANS OF GETTING THE TRANSMITTER
BACK ON THE AIR.

4.8.

Symptom: Remote Control
Functions Do Not Work

4.8.1.

Possible Causes

4.8.1.1.

Remote/Local Switch

Check to see that the REMOTE/LOCAL

switch on the Controller is in the REMOTE
position.

4.8.1.2.

Remote Control Improperly Wired

Review the installation instructions in

Section II. Each remote control input of the
transmitter is activated by a momentary clo-
sure to ground.

4.8.1.3.

Remote Control Unit Not Func-
tioning

Check the remote unit to see that it is

providing closures to the transmitter. You
might use a clip lead to momentarily pro-
vide the contact closures at the remote con-
trol unit to see which piece of equipment is
at fault.

4.8.1.4.

Ribbon Connectors Loose

Ensure that the ribbon connectors on the

Interface board and the Controller are fully
seated.

There may be a failed optical isolator on

the Controller board. Refer to the Controller
troubleshooting procedures in Section J.

4.9.

Causes for a PA Volts/PA
Amps Ratio Change

This discussion covers causes which

might not be apparent based on front panel
indications and readings.

4.9.1.

No +20 Volts to PDM Amplifier

Loss of the +20 volt supply to a PDM

Amplifier should cause one or more PDM
Fault LED’s to illuminate. To be certain this
is not the problem, measure the voltage on
the fuses on each PDM Amplifier to make
sure +20Vdc is present. If not, trace +20Vdc
back to its origin via the Interface board.

4.9.2.

Impedance Change

The Output network can cause a change

in the PA Volts to AMPS ratio. The PA volts
to PA AMPS ratio is affected by the imped-
ance seen by the PA module. If the imped-
ance seen by the PA module changes,
whether from an antenna impedance shift or
from adjusting the front panel TUNING and
LOADING controls, the PA VOLTS/PA
AMPS ratio will be affected. Small changes
will only cause a ratio change. Large
changes will cause VSWR overloads.
Check the Detector Null reading on the
multimeter. It should be zero.

If the Detector Null reading is zero, but

you suspect an Output Network failure, it
will be in the L1/C1 and L2/C2 sections.
This circuitry is ahead of the VSWR sens-
ing.

A failure of C1 will shift the PA Tuning.

Rotate the PA Tuning control to peak the PA
current. The PA Amps should peak within
three small divisions on the PA Amps meter.
If the PA Tuning has to be changed by a
considerable amount to peak the PA current,
it is indicated that there is a problem with
L1/C1. Inspect the C1 capacitors for any
physical signs of stress.

A failure of C2 will shift the PA load

resistance. You can measure the impedance
looking into the Output Network to deter-
mine if there is a problem with L2/C2. This
is done by connecting an RF bridge in place
of the A1 output connection. An RF resis-
tance significantly different than the test
data value for “Combiner Load Impedance”
would be an indication of an L2/C2 problem
if the impedance at the back end of L2 is
verified to be 50 ohms j0.

The parallel resonant frequency of L2/C2

may also be checked per the procedure in
Section III (Maintenance).

4.9.3.

PA Failure

Although a rare condition, an open PA

transistor could cause a ratio change with-
out blowing the associated fuse. One way to
isolate this problem would be to disconnect
PA transistor pairs by removing fuses to see

Rev. T: Jan. 1996

888-2314-001

4-3

WARNING: Disconnect primary power prior to servicing.