User's Manual

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Table Of Contents

APEX™ Exciter Incorporating FLO™ Technology

Exciter Troubleshooting Flow Charts Maintenance and Troubleshooting

2604s500.fm

03/08/07 888-2604-001 Page: 5-15

WARNING: Disconnect primary power prior to servicing.

Figure 5-8 Transmitter Has Excessive MER Troubleshooting Flow Chart

Note 2: See RTAC in Section 3.2,

Starting Point: The Main LCD Touch

Screen, on page 3-2

Note 4: Refer to the technical manuals for

your transmitter to determine exact RF

feedback connections. Chapter 2 shows

typical RF feedback connections for

various Harris transmitters.

Note 1: Check Table 5-1, on page 5-10 to

ensure diagnostics settings are correct. If

one or more diagnostic functions are

active, normal operation of the exciter

and transmitter may be impaired.

Transmitter has Excessive MER, See Note 1

These modes must be active

for exciter to perform linear

and non linear corrections,

both of which effect MER.

See Note 2.

Are transmitter RF samples connected to exciter? See Note 4.

Are the HPF and PA RF samples at the correct level? See Note

5. These samples are necessary for exciter to perform linear and

non linear corrections, which effect MER.

Is the exciter RTAC Lin

HPF and Non-Lin correc-

tions both in Adapt mode?

See exciter Main Screen.

Is the Status > Adaptive

Processing screen normal?

See Figure 3-7, on page 3-9

This screen shows the HPF and PA

feedback sample levels, see Note 3.

Are these levels out of range or

Faulted?

Note 3: In the Adaptive Processing status

screen, the HPF and PA Feedbacks and

ADT Overrange functions should show

OK. The Yellow and Blue horizontal Bars

represent RF sample level. They should

fall within the middle 2/3rds of the box if

their levels are correct. Yellow = average

level and blue = peak level. Refer to

Section 3.4.3, Adaptive Processing Board

Status Screen, on page 3-9 for additional

information.

If one or more diagnostic functions

are active, normal operation of

exciter may be impaired.

Entering a waveguide type and length

will cause RTAC to predistort the trans-

mitter output for waveguide group

delay. This will cause the MER to

appear bad if measured at the output of

the transmitter high power filter.

Has a waveguide type

been selected and a

waveguide length been

entered in the Setup >

Exciter Setup screen.?

Note 6: Excessive VSWR in RF sample

feedback path causes the exciter to correct

for it along with the transmitter linear

distortions.

Noise or RF signal pickup due to a faulty

HPF sample feedback cable will cause

RTAC to pre correct the transmitter output

If MER performance is still

poor, call technical support.

System related problems can

cause Excessive MER, see

Note 6.

Note 5: The correct sample input power

range, at the at the exciter rear panel input

connector, is -30 to 0 dBm.

Filter Type: Use FLO BANDPASS because of the application of this exciter. Use

Standard if the standard D-Mask filter is used. Use Asymm (asymmetrical) if the

sharp tuned filter is used or if the group delay for the transmitter is not symmet-

rical, such as when its output is reflected through an adjacent channel sharp tuned

filter in order to combine the two transmitters. Exciter must be restarted to make

filter change active.

In the Setup > RTAC Setup

screen, does the Filter Type

choice match the HPF in the

transmitter System?

Are the status screen

diagnostics function all

set to normal? SeeTable

5-1, on page 5-10

If transmitter fails the mask test, the MER

will increase. See Figure 5-7, Transmitter

Fails Mask Test Troubleshooting Flow Chart

Does the transmitter

pass the mask test?