User Manual
Table Of Contents
- 1GENERAL
- 1.1Introduction
- 1.2Interim Operation
- 1.3Manual Organization
- 1.4UT-4R400 Transmitter Family Models
- 1.5Performance Specifications
- 1.5.1General
- 1.5.2Audio Specifications
- 1.5.3Physical Specifications
- 2THEORY OF OPERATION
- 2.1General
- 2.2Power Supply
- 2.3High Speed Serial Interconnect
- 2.4Audio Circuits
- 2.5PTT Circuitry
- 2.6Microprocessor Board
- 2.7Channel and Bank Selection
- 2.7.1Channel Select Line Mapping
- 2.8Jumper Functions and standard configuration
- 2.9Hang Timer Selection
- 2.10Kerchunk noise selection
- 2.11Test Points
- 2.12Connector Pinouts
- 2.12.1Connector J9
- 2.12.2Connector P1
- 2.13Transmitter Programming
- 2.13.1Transmitter Wide Options
- 2.13.1.1Frequency Band
- 2.13.1.2Source ID
- 2.13.1.3Secure Hardware Equipped
- 2.13.1.4Timeout Options
- 2.13.2Channel Wide Settings
- 2.13.2.1Channel Name
- 2.13.2.2Frequency
- 2.13.2.3Analog Bandwidth
- 2.13.2.4Deviation
- 2.13.2.5Channel Type
- 2.13.2.6Audio Pre-emphasis
- 2.13.2.7Timeout Value
- 2.13.2.8Project 25 Squelch Settings: Network Access Code (NAC)
- 2.13.2.9Project 25 Squelch Settings: Talk Group ID (TGID)
- 2.13.2.10Analog Signaling Settings: Signaling
- 2.13.2.11Analog Signaling Settings: CTCSS Tone
- 2.13.2.12Analog Signaling Settings: Reverse Burst
- 2.13.2.13Analog Signaling Settings: DCS Code
- 2.13.2.14Analog Signaling Settings: Turnoff Code
- 2.13.2.15Analog Squelch Settings: Invert DCS
- 3Transmitter Assembly and Adjustment
- 3.1Frequency Change
- 3.2Minor Frequency Change
- 3.3Major Frequency Change
- 3.4Digital Signal Processor Board Alignment
- 3.4.1Radio Service Software
- 3.4.2Radio Programming Interface Module Interconnection
- 3.4.3Reference Oscillator Adjustment
- 3.4.4Transmitter Deviation Balance Adjustment
- 3.4.5Transmitter Deviation Limit Adjustment
- 3.4.6Audio Level Alignment
- 3.4.7Amplifier Alignment
- 3.5Recommended Test Equipment List
- 3.6Repair Note
- 3.7Printed Circuit board Numbering Convention
- 4Repeater System Configuration
- 4.1Interim Repeater
- 4.1.1Repeater Interconnect Cable Pinout
- 4.2Project 25 Compliant Repeater
- 4.3Repeater System Troubleshooting
- 5ILLUSTRATIONS
- 5.1Digital Repeater Transmitter Front Panel
- 5.2Digital Repeater Transmitter Exploded View
- 5.3Digital Repeater Transmitter Block Diagram (Interim Mode)
- 5.4Digital Repeater Transmitter Schematic Diagram
- 5.5Digital Repeater Transmitter Main Board Component Layout (Bottom)
- 5.6Digital Repeater Transmitter Main Board Component Layout (Top)
- 5.7Digital Repeater Microprocessor Board Component Layout (Bottom)
- 5.8Digital Repeater Microprocessor Board Component Layout (Top)
- 6PARTS LIST
- 6.1Digital Repeater Transmitter Main Board Parts List
- 6.1.1Digital Repeater Transmitter Main Board Electrical Parts List
- 6.1.2Digital Repeater Transmitter Main Board Mechanical Parts List
- 6.2Digital Repeater Microprocessor Board Parts List
- 6.2.1Digital Repeater Microprocessor Board Electrical Parts List
- 6.2.2Digital Transmitter Additional PCBs
- 7REVISION HISTORY
DE
DANIELS
ELECTRONICS
UT-4R400 UHF Project 25
Digital
Transmitter
Instruction
Manual
3-1
3
Transmitter
Assembly and Adjustment
The
Transceiver
RF and
Digital
Signal Processor module are mounted on the
Transmitter
Main
Board, and the
Microprocessor
board plugs into the
Digital
Signal Processor Board. Two ribbon
cables allow the
Microproc
essor board to make
connection
with the
Main
board. A
metal
shield is
soldered in
place
over the
Transceiver
RF module, and another shield is held in
place
over the
Digital
Signal Processor and
Microprocessor
boards by
screws.
The RF
Amplifier
module is
secured on the
Main
Board by
screws,
and an enclosure is formed by an extruded
aluminum
shell
that slides over the
Transmitter
Main
Board as
illustrated
in section
5.2).
This shell also serves as a
heat sink to remove heat from the
Amplifier
module and for this reason, it is
important
that the four
screws that bond the shell to the
amplifier
module (Screws B in Section
(5.2)
be
installed
before
prolonged
operation
of the transmitter. Moreover, the surface of the
Amplifier
module that
contacts
the shell should be
clean
and free of foreign
material.
The enclosure is
completed
by the
installation
of front and rear plates, which are fastened to the
Transmitter
Main
Board (see
Transmitter
Main
Board
Manual
for parts lists).
Transmitter
alignment
is performed on a module by module basis and
detailed
steps are provided in
the
respective
manuals.
Alignment
is
simplified
by using a SR-3 Sub rack, SM-3 System Monitor,
and RF
extender
cable
to provide
transmitter
power and signal
interconnection.
Alternatively,
+9.5
Vdc and
+13.8
Vdc as well as any required test signal may be
applied
directly
to the
individual
modules. Refer to the corresponding manuals for details.
3.1 Frequency
Change
The
transmitter
is
initially
aligned
at the factory for the frequency stamped on the
'Factory
Set
Operating
Frequency'
label
(see section
3.1).
This
label
should list the frequency at which the last
complete
transmitter
alignment
was performed. For a
small
frequency change, a
simple
channel
change (see section
2.2)
may be all that is required. A larger frequency change may involve the
realignment
of other modules. The frequency change in question is the
accumulated
frequency
change
in
relation
to the frequency stamped on the label. For example, if the frequency is changed
by 0.5 MHz from that stamped on the label, then a second frequency change of 1 MHz in the same
direction
would result in a
total
change of 1.5 MHz. The
action
taken would be based on the 1.5
MHz value. Failure to perform
realignment
after a large frequency change could result in
unreliable
transmitter
operation
or
transmitter
operation
that does not conform to the published specifications.
The
allowable
frequency change is
summarized
below.
Note: It is
advisable
to confirm these frequency ranges with the
individual
module manuals
notably the
Amplifier
and Synthesizer Module, as they are subject to change with updated
versions.
The values in the module manuals take
precedent
over those
tabulated
(following
page).
Size
of
Frequency
Change
Modules
to
be
Aligned
Less than ± 1 MHz No
alignment
required, check output power
Greater than ± 1 MHz
Transmitter
Power
Amplifier
3.2 Minor Frequency
Change
Changes less than ± 1 MHz from a previously tuned working
receive
frequency will
generally
not
require any adjustment. Change the frequency using the Radio Programming Software package.
Verify
that the
Transmitter
Output
power is at the desired level.