User Manual
Table Of Contents
- 1GENERAL
- 1.1Introduction
- 1.2Performance Specification
- 2THEORY OF OPERATION
- 2.1Amplifier Operation
- 2.2Power Requirements
- 2.3RF Circuitry
- 2.3.1UT-3/400 Lowpass Filter
- 2.4Power Control Circuitry
- 2.5Power Sensing Circuitry
- 2.5.1Output Power Sense
- 2.5.2VSWR Sense
- 2.5.3VSWR Overload
- 3UT-3/400 AMPLIFIER ALIGNMENT
- 3.1General
- 3.2Repair Note
- 3.3Recommended Test Equipment List
- 3.4Printed Circuitboard Numbering Convention
- 3.5Standard Factory Settings and Jumper Configuration
- 3.6UT-3/400 AmplifierAlignment
- 3.6.1General
- 3.6.2UT-3/400 Amplifier Adjustment
- 3.6.2.1General Set-Up
- 3.6.2.2Output Power Alarm (Forward Power)
- 3.6.2.3Output Power
- 3.6.2.4Antenna VSWR Alarm (Reverse Power)
- 3.6.2.5Antenna VSWR Overload
- 3.6.2.6Procedure Verification
- 4ILLUSTRATIONS AND SCHEMATIC DIAGRAMS
- 4.1UT-3/400 UHF Amplifier Component Layout
- 4.2UT-3/400 UHF Amplifier Schematic Diagram
- 4.3UT-3/400 UHF Lowpass Filter Component Layout
- 4.4UT-3/400 UHF Lowpass Filter Schematic Diagram
- 5PARTS LISTS
- 5.1UT-3 / UT4 UHF Amplifier Electrical Parts List
- 5.2UT-3/400 UHF Amplifier Mechanical Parts List
- 5.3UT-3/400 UHF Low Pass Filter Electrical Parts List
- 6REVISION HISTORY
DE
DANIELS
ELECTRONICS
UHF Amplifier Instruction Manual UT-3 406 - 512 MHz
3-3
amplifier's output power level,
alarm
levels, and tuning for the transistor
matching
circuit
in the
high power version can be set without
detaching
the
amplifier
from the
transmitter
board.
However,
if the output power
alarm
or the
Antenna
VSWR
alarm
output
configuration
requires
changing, the UT-3/400
Amplifier
must be
detached
from the MT-3
Transmitter
Board. Refer to
section 4 page 2 "UT-3/400
Amplifier
Component
Layout" for the
location
of solder jumpers JU1
to
JU5.
3.6.2
UT-3/400 A
mplifier
Adjustment
The
Amplifier
alignment
consists of two
adjustment
procedures; (i) a
general
set up (section
3.6.2.1)
procedure which sets up the proper bias
conditions
for the RF transistors and (ii) the RF
threshold
adjustments
which set up the desired
alarm
threshold levels as well as the RF output
power.
The
general
alignment
procedure is required following major repair operations, changes in
RF input levels or large changes in
operating
frequency
(greater
than ± 1.0 MHz).
The RF output and
alarm
threshold
level
adjustments
are more easily
accessible
so that fine
adjustments
can be made in the field.
Depending
on user requirements, the RF
alarm
threshold
levels should be
checked
whenever a
significant
change in
operating
frequency (± 0.5 MHz) is
made. As the
antenna
VSWR
alarm
is
dependent
on the output power alarm, the output power
alarm
should always be set first. The order of
adjustment
should be:
The
adjustment
procedures for the high power and the low power version
amplifiers
are
identical
after the
matching
for transistor Q1 is tuned in the high power version. As the
antenna
VSWR
alarm
is
dependent
on the output power alarm, the output power
alarm
should always be set first.
The order of
adjustment
should be:
1) High Power
Amplifiers
Only — Tune the transistor
matching
circuit
at the
desired frequency and
power.
2) Set the desired output power
alarm
level
(section
3.6.2.2).
3) Set the desired output power
level
(section
3.6.2.3).
4) Set the desired
Antenna
VSWR
alarm
level
(section
3.6.
2.4).
5) Set the desired overload
condition
level
(section
3.6.2.5).
Details
for the
preceding
four steps are
outlined
below.
3.6.2.1
General Set-Up
1 Connect the transmitter's
antenna
output
connector
to the type N input of the radio
communications
test set through a short section of low loss 50 Ω
coaxial
cable.
2 Turn all four (4) of the
adjustment
potentiometers
(R7, R21, R36, and R38) fully
counterclockwise.