Codan Radio Communications UT-3H930-SW UT-3H930-SW User Manual IM26 UT3900S 5

Codan Radio Communications UT-3H930-SW IM26 UT3900S 5

Contents

Users guide

DANIELSELECTRONICS LTD.TMMT-3 RADIO SYSTEMSPAGING MODULATORINSTRUCTIONMANUALCI-PM-3Covers models: CI-PM-3-00Copyright © 2002 Daniels Electronics Ltd.  All rights reserved.  No part of this publication may be reproduced, stored in a retrieval  system ortransmitted in any form or by any means, electronic, mechanical, photocopying, recording or other wise, without the prior written consent ofDaniels Electronics Ltd.DE™ is a registered trademark of Daniels Electronic Ltd. registered in the United States Patent and Trademark Office.Printing Date: Dec 2002 Daniels Electronics Ltd.Issue Date: February 2002 Previous Issue Date: Nov 99 Victoria, BCIssue: 4     Rev A Previous Issue:  3Part No.: IM55-CIPM3   PRINTED IN CANADA
DANIELSELECTRONICS LTDTMii CI-PM-3 Paging Modulator Instruction ManualReviewed By:NOTE:The user's authority to operate this equipment could be revoked  through anychanges or modifications not expressly approved by Daniels Electronics Ltd.The design of this equipment is subject to change due to continuousdevelopment.  This equipment may incorporate minor changes in detail from theinformation contained in this manual.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual iiiTABLE OF CONTENTS Page1 GENERAL............................................................................................................................ 1-11.1 Introduction .......................................................................................................... 1-11.2 Construction ......................................................................................................... 1-21.3 Printed Circuit Board Numbering Convention...................................................... 1-21.4 Specifications........................................................................................................ 1-21.4.1 General Specifications .................................................................................... 1-21.4.2 CTCSS Decoder/Encoder (Option) ................................................................ 1-41.4.3 Physical Specifications ................................................................................... 1-52 THEORY OF OPERATION................................................................................................. 2-12.1 Paging Signal Path................................................................................................ 2-12.1.1 2-Level Digital Paging .................................................................................... 2-12.1.1.1 Self Test Circuitry..................................................................................... 2-22.1.2 4-Level Digital Paging .................................................................................... 2-22.1.3 Analog Paging ................................................................................................ 2-32.1.4 Front Panel Indicator Circuitry ....................................................................... 2-42.1.4.1 Data Indicator Circuitry ............................................................................ 2-42.1.4.2 Analog / Digital Indicator Circuitry........................................................... 2-42.1.4.3 LED Power............................................................................................... 2-42.2 OCXO/PLL .......................................................................................................... 2-52.2.1 Standard Frequency Reference ....................................................................... 2-52.2.2 High Stability Frequency Reference ............................................................... 2-52.3 Configuration Options.......................................................................................... 2-62.3.1 Simultaneous Broadcasting (2 Level Paging Only)......................................... 2-63 ALIGNMENT PROCEDURE AND INSTALLATION ...................................................... 3-13.1 General ................................................................................................................. 3-13.2 Repair Notes......................................................................................................... 3-13.3 Recommended Equipment List ............................................................................. 3-13.4 Installation ............................................................................................................ 3-23.5 Alignment ............................................................................................................. 3-23.6 Frequency (Digital Paging) Adjustment................................................................ 3-23.7 Reference (Analog Paging) Adjustment................................................................ 3-33.8 Test Data Symmetry Adjustment .......................................................................... 3-33.9 2 And 4 Level Deviation Adjustment..................................................................... 3-33.10 PLL Setup............................................................................................................. 3-43.11 Data Delay Setup.................................................................................................. 3-53.12 Simulcast Delay Setup.......................................................................................... 3-6
DANIELSELECTRONICS LTDTMiv CI-PM-3 Paging Modulator Instruction ManualALIGNMENT PROCEDURE AND INSTALLATION CONTINUED3.13 Repeater Configuration......................................................................................... 3-83.13.1 Base Transmitter Site CI-PM-3 Configuration ............................................... 3-83.13.1.1 Digital-Only Paging.................................................................................. 3-83.13.1.2 Analog/Digital Paging............................................................................... 3-83.13.2 Repeater Site CI-PM-3 Configuration ............................................................ 3-83.13.2.1 Digital-Only Repeater............................................................................... 3-93.13.2.2 Analog/Digital Repeater............................................................................ 3-93.13.3 TS-64 Configuration....................................................................................... 3-94 CONNECTOR PIN FUNCTIONS AND JUMPER FUNCTIONS.................................... 4-14.1 Data / Control Port (Connector J1) Pin Functions................................................ 4-14.2 Motherboard Interface (Connector P1) Pin Functions.......................................... 4-14.3 CI-PM-3 Data Delay Jumper Settings.................................................................. 4-34.4 CI-PM-3 Circuit Board Jumpers .......................................................................... 4-44.5 TS-64 MOD1 Jumper Settings - (If installed)...................................................... 4-54.6 4-Level Modulation Bit Pattern............................................................................. 4-54.7 Receiver IF / Audio PCB Jumper Settings............................................................ 4-54.8 Transmitter Audio Processor Jumper Settings...................................................... 4-64.9 Transmitter Synthesizer Jumper Settings.............................................................. 4-94.10 CI-PM-3 Test Points .......................................................................................... 4-105 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS ....................................................... 5-15.1 CI-PM-3 Front Panel Controls............................................................................. 5-15.2 Simulcast Paging Example.................................................................................... 5-25.3 CI-PM-3 Component Layout (Through-Hole Side) ............................................. 5-35.4 CI-PM-3 Component Layout (Surface-Mount Side)............................................ 5-45.5 CI-PM-3 Schematic Diagram ............................................................................... 5-55.6 CI-PM-3 Schematic Diagram ............................................................................... 5-65.7 CI-PM-3 Schematic Diagram Component Location Table.................................... 5-76 PARTS LISTS ...................................................................................................................... 6-16.1 CI-PM-3 Electrical Parts List................................................................................ 6-16.2 CI-PM-3 Mechanical Parts List............................................................................ 6-57 REVISION HISTORY.......................................................................................................... 7-1
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual vLIST OF TABLES PageTable 4-1 Data / Control Port (Connector J1) Pin Functions................................................ 4-1Table 4-2 Motherboard Interface Connector P1 Pin Functions............................................. 4-1Table 4-3 Delay Settings....................................................................................................... 4-3Table 4-4 CI-PM-3 Default Jumper Settings........................................................................ 4-4Table 4-5 CTCSS Jumper Settings....................................................................................... 4-5Table 4-6 4-Level Modulation Bit Pattern............................................................................. 4-5Table 4-9 Receiver IF / Audio PCB Jumper Settings............................................................ 4-5Table 4-7 Transmitter Audio Processor V1.6 Jumper Settings ............................................. 4-6Table 4-8 Transmitter Audio Processor V1.8 Jumper Settings ............................................. 4-6Table 4-9 Transmitter Audio Processor V2.3 Jumper Settings ............................................. 4-8Table 4-10 CI-PM-3 Test Points .......................................................................................... 4-10Table 4-11 Component Location Table Schematic.................................................................. 5-7LIST OF ILLUSTRATIONS PageFigure 4-1 Transmitter Audio Processor V1.6 Jumper Settings ............................................. 4-6Figure 4-2 Transmitter Audio Processor V1.8 Jumper Settings ............................................. 4-6Figure 4-3 Transmitter Audio Processor V2.3 Jumper Settings ............................................. 4-8Figure 4-4 VHF and (400 MHz) UHF Synthesizer Analog PCB Jumper Settings................ 4-9Figure 4-5 VHF and (400 MHz) UHF Synthesizer Digital PCB Jumper Settings ................ 4-9Figure 4-5 800MHz and 900MHz Transmitter Synthesizer Jumper Settings ........................ 4-9Figure 5-1 CI-PM-3 Front Panel Controls............................................................................. 5-1Figure 5-2 Simulcast Paging Example.................................................................................... 5-2Figure 5-3 CI-PM-3 Circuit Board (Through-Hole Side) ...................................................... 5-3Figure 5-4 CI-PM-3 Circuit Board (Surface-Mount Side)..................................................... 5-4Figure 5-5 CI-PM-3 Circuit Board Schematic Diagram......................................................... 5-5
DANIELSELECTRONICS LTDTMvi CI-PM-3 Paging Modulator Instruction ManualThis Page Intentionally Left Blank.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 1-11 GENERAL1.1 IntroductionThe CI-PM-3 Paging Modulator module is an optional plug-in component of the  MT-3  RadioRepeater System.  This module provides digital and/or analog paging capability for Daniels MT-3transmitters in all supported frequency bands.The CI-PM-3 is designed for low  power consumption, typically drawing less than 250 mA insteady state.  In its standard configuration, the  CI-PM-3 uses an on-board frequency referencesource consisting of a 10 MHz OCXO with a standard stability of 0.03 PPM.  For high stabilityapplications  (such as Simulcast), the CI-PM-3 Paging Modulator may be configured to use anexternal  high stability reference source (i.e. rubidium,  GPS or WWV) with a standard stabilitygreater than or equal to 0.002 PPM, to discipline the on-board phase-locked loop OCXO oscillator.To ensure that  paging signals are the same relative to each transmitter, the CI-PM-3  alsoincorporates a limited delay compensation for  the different link propagation paths  betweentransmitters.The CI-PM-3 Paging Modulator supports both analog and digital paging formats, and can transmitPOCSAG  and other 2-level  modulation schemes at data  transfer rates of 512, 1200, and 2400Baud.  It can also be configured for use as a data repeater, whereby 2-level paging data is recovered,re-shaped and then re-transmitted to an additional repeater/paging transmitter.  The CI-PM-3supports 4-level modulation formats in non-repeater mode (i.e. in a base station paging transmitterapplication only) at data transfer rates up to 1600 BPS.  Each of the four  modulation  deviationlevels can be independently  set,  making the CI-PM-3 suitable for use in such pager signalingschemes as Motorola’s FLEX™ Paging Protocol.Setup conditions are established via front panel switch settings, while internal jumper settings andsetup adjustments are easily accessible using the EC-96, 96 Pin Extender Card.The CI-PM-3 Paging Modulator includes the following standard features:- low power analog and CMOS control circuitry.- extended operating temperature range;- jumper selectable Repeater/paging transmitter configuration;- on-board +/-0.03 PPM 10 MHz OCXO;- front panel selection of PLL OCXO using external high stability frequency reference;- jumper and line selectable analog / digital paging configuration;- connection for optional CTCSS encoder / decoder;- balanced 600 Ω / single-ended microphone input;- selectable digital delay for Simulcast operation
DANIELSELECTRONICS LTDTM1-2 CI-PM-3 Paging Modulator Instruction Manual1.2 ConstructionThe CI-PM-3 Paging Modulator is packaged in a compact Eurostandard shell module housing ofnickel/steel with an anodized aluminum front panel.  Corrosion resistant fasteners are  usedthroughout the assembly.1.3 Printed Circuit Board Numbering ConventionTo ease troubleshooting and maintenance procedures, Daniels Electronics Limited  has adopted aprinted circuit board (PCB) numbering convention in which the last two digits of the Circuit Boardnumber represent the Circuit Board version.  For example:• PCB number 50002-02 indicates Circuit Board version 2.0.• PCB number 43-912010 indicates Circuit Board version 1.0;All PCB's manufactured by Daniels Electronics are identified by one of the above conventions.1.4 Specifications1.4.1 General SpecificationsModel Number: CI-PM-3Type: MT-3 Series Paging ModulatorCompatibility: MT-3 Series Radio SystemsModulation: 16K0F3E (FM Analog), and14K7F1D (FM Data Transmission)Audio Input: Balanced 600 Ω(tone or voice)Digital Input: Bipolar: RS-232 compatibleReference Input: 10 MHz, 0.5 to 2.5 V rms, 50 Ω Front Panel SMAReference Output: 10 MHz (Modulated), 2.5 V rms, 50 Ω Front PanelSMA
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 1-3Frequency Stability:  Standard: ±0.03ppm from -40°C to +60°COptional:  External High Stability  ±0.002ppmfrom -40°C to +60°C (requiresWWV or GPS reference source).Duty Cycle: Continuous, 100% from -40°C to +60°CAudio Response: 0 Hz to 3.4 kHzMaximum Deviation: +/- 50 PPMAnalog / Digital PTT Activation: Front panel connector and rear motherboardconnectionCurrent Consumption: +13.8 VDC supply: 600 mA power200 mA steady state+9.5 VDC supply: 200mA (all options enabled)80mA (all options disabled)70mA (LED indicators off).Operating Temperature Range: -40°C to +60°CPaging Formats: 4-Level Base Station paging only ( Flex )2-Level Multiple Transmitter paging (POCSAG)Simulcast Operation: Supported with the addition of WWV/GPS receiver.IC Type Approval: Approved for use with MT-3 VHF Tx additionalfrequency band approvals to be sought.FCC Type Acceptance: Approved for use with MT-3 VHF Tx additionalfrequency band approvals to be sought.
DANIELSELECTRONICS LTDTM1-4 CI-PM-3 Paging Modulator Instruction Manual1.4.2 CTCSS Decoder/Encoder (Option)Manufacturer: Communications Specialists Inc.Model Number: TS-64Number of Tones: 64Frequency Range of Tones: 33.0 to 254.1 HzSignal to Noise: Better than 4 dB SINADDecode Time: 150 ms nominalFade Time: 350 ms nominalSquelch Tail Elimination:: 160 ms reverse phase burstCurrent Consumption: 9 mA
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 1-51.4.3 Physical SpecificationsPhysical Dimensions: Width: Height: Depth:3.5 cm (1.38") 12.8 cm (5.05") 19 cm (7.5")Module Weight: 0.4 kg (1 lb.)Corrosion Prevention: Anodized aluminum construction with stainless  steelhardware.  Selectively applied Conformal  coatedglass epoxy 4 layer printed circuit boards.  Goldplated module connectors.Module Design: Compact  Eurostandard  modular  design.    Plug-inmodule mates with Daniels standard 19" M3 repeatersubrack.  Interchangeable for test and repair.External Connections: REF Input and Output SMA connectors located onthe module’s front panel.  Motherboard Connections(Audio, Modulation, Power, and Control) are madethrough a 96 pin, gold plated type C connector on therear of the module.  User  connections  (Audio,Modulation, and Control) are made through a frontpanel DB-15 connector as well as through the 96 pinconnector on the rear of the module.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 2-12 THEORY OF OPERATION
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 3-13 ALIGNMENT PROCEDURE AND INSTALLATION3.1 GeneralThe CI-PM-3 Paging Modulator is by default configured for stand-alone base station paging, using2-Level paging data with a binary polarity of 1, and using  the  on-board  +/-0.03 PPM  10  MHzOCXO.  Table 4-4 contains a complete list of CI-PM-3 default jumper settings.  The CI-PM-3 canalso be configured for 4-level signal (base transmitter only) paging, remote paging, link repeater orhigher stability operation.  Each of these configurations is covered separately in the followingsections.3.2 Repair NotesRemoval and replacement of surface mount components should be performed only in specificallydesigned surface mount rework and repair stations complete with electrostatic discharge (ESD)protection.To help prevent damage to the circuit board pads when removing Surface Mount Solder Jumpers, itis recommended that solder braid be used in place of manual vacuum de-soldering tools.3.3 Recommended Equipment ListAlignment of the CI-PM-3 requires the following test and radio equipment, or its equivalent:• Power Supply: Regulated +13.8 VDC at 2 A• Oscilloscope / Multi-meter: Fluke 97 Scopemeter• Current Meter: Fluke 75 Multi-meter• Radio Communications Test Set: Marconi Instruments 2955R (W/External Reference)• Sub-rack: Daniels SR-3 Series 19” Sub-rack• System Monitor: Daniels SM-3 Series System Monitor• Transmitter Module: Daniels Enhanced Performance VT-3 / UT-3 Series• Extender Card and Cable: Daniels EC-96K, 96 Pin Extender Card and Cable• Alignment Tool: Johanson 8766Note: It is highly recommended that the Radio Communications Test Set be frequency locked toan external 10 MHz reference (WWV or GPS), especially if the factory-adjusted frequencysettings are to be altered in any way.
DANIELSELECTRONICS LTDTM3-2 CI-PM-3 Paging Modulator Instruction Manual3.4 Installation1. Install the Daniels EC-96 Extender Card in either the far left-hand or the far right-hand slot ofthe  subrack (as viewed  from  the front).  Remove the side covers of the CI-PM-3 PagingModulator and attach the 96-Pin Extender Cable between it and the Extender Card.2. Apply +13.8 VDC power to the Subrack.  Allow approximately 15 minutes for warm-up.3.5 AlignmentRefer to Figure 5-1 for the location of the CI-PM-3 module front panel controls.1. Ensure  the  CI-PM-3  circuit  board jumpers are initialized to their default settings (refer toTable 4-4).  Note any differences so that the jumpers can be returned to their former positions.2. For alignment procedures in this section, set the front panel switches to the following settings,unless otherwise noted:a) SW1 (FREQ REF) set to INTb) SW2 (MODE) set to SETUPc) SW3 (SET MOD) set to 2 LEVELd) SW4 (SET DEV) set to Data “1” (Top Position)3. Ensure the Transmitter Audio Processor  circuit  board jumpers are initialized to their defaultsettings (refer to Tables 4-7 or 4-8).4. Connect the CI-PM-3 REF OUT connector to the transmitter REFERENCE INPUT connectorvia a SMA to SMA RF cable.5. Remove external connections to the DB-15 connector on the CI-PM-3 or the Alarm lines on theback of the subrack.Do not connect any other input signal/control lines to the CI-PM-3 at this time.3.6 Frequency (Digital Paging) AdjustmentCI-PM-3  frequency adjustments are factory set.  It is strongly recommended that they not bealtered. The following procedure applies only if field adjustment is required:1. Set front panel SW1 (FREQ REF) INT and remove shunt jumper JU6-A.2. Set shunt jumpers JU23-A and JU41-B.3. Set the transmitter front panel NORM/KEY TX switch to KEY TX.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 3-34. Monitor  the Communications Test Set and adjust FREQ ADJ potentiometer  R82 for thetransmitter operating frequency +/-1 Hz.5. Set the transmitter front panel NORM/KEY TX switch to NORM and replace JU6-A.3.7 Reference (Analog Paging) AdjustmentCI-PM-3 Reference frequency adjustment is factory set.  It is strongly recommended that they notbe altered. The following procedure applies only if field adjustment is required.1. Ensure shunt jumper JU6-A is installed.2. Set shunt jumpers JU23-A and JU41-A (or not installed).3. Set the transmitter front panel NORM/KEY TX switch to KEY TX.4. Monitor  the Communications Test Set and adjust REF ADJ potentiometer  R24 for thetransmitter operating frequency +/-1 Hz.5. Set the transmitter front panel NORM/KEY TX switch to NORM.3.8 Test Data Symmetry Adjustment1. Set the oscilloscope for 1.0 V/Div (vertical) and 0.5 ms/Div (horizontal). Monitor TP10.2. Set shunt jumpers JU23-A and JU41-B, and set JU36 to bypass.3. Set SW3  (SET MOD) to 2 LEVEL and SW4 (SET DEV) to the center or “Continuous BitStream” position.4. Adjust R70 (Test Data Symmetry Adjust) for symmetrical positive and negative pulses (i.e. ofequal width) as measured at TP10.3.9 2 And 4 Level Deviation Adjustment1. Set shunt jumpers JU23-A and JU41-A (or not installed).2. Monitor TP11 with a voltmeter and adjust R110 for approximately 4 volts at TP11.3. Monitor the transmitter frequency and deviation on the Communications Test Set and set thetransmitter front panel NORM/KEY TX switch to KEY TX.4. Set shunt jumpers JU23-A and JU41-B.
DANIELSELECTRONICS LTDTM3-4 CI-PM-3 Paging Modulator Instruction Manual5. Set SW3 (SET MOD) to 2 LEVEL, and SW4 (SET DEV) to the Data “1” (top) position.  Fora VHF system adjust R5 (2-LVL  +Dev) for +4.8 kHz deviation  (4.8 kHz above centerfrequency). For a UHF system adjust R5 for +4.2 kHz deviation.6. Change SW4  (SET DEV) to the Data “0”  (bottom) position.  For a VHF system adjust R6(2-LVL -Dev) for -4.8 kHz deviation (4.8 kHz below center frequency).  For a UHF systemadjust R6 for –4.2 kHz deviation.7. Set shunt jumper JU23-B.8. Change SW3 (SET MOD) to 4 LEVEL.  Adjust R4 (4-LVL -Dev) for -1.6 kHz deviation.9. Change SW4 (SET DEV) to the Data “1” (top) position.  Adjust R3 (4-LVL +Dev) for +1.6kHz deviation.10. Set SW3 (SET MOD) to 2 LEVEL.  Set SW4 (SET DEV) to the center position.  Adjust R23(BP DEV ADJ) for maximum deviation of +/-4.8 kHz.3.10 PLL SetupCI-PM-3 PLL adjustments are factory set.  It is strongly recommended that they not be altered.The following procedure applies only if field adjustment is required:1. Install Power Enable surface mount jumpers JU37, JU39, JU56 and JU59.2. Ensure front panel SW1 (FREQ REF) is set to EXT, and shunt jumper JU6-A is removed.3. Set shunt jumpers JU23-A and JU41-A (or not installed).4. Connect the 50 Ohm output of a high stability, 10 MHz reference to front panel REF IN SMAconnector J3.  Ensure the output level of the external reference is between 0.5 to 2.5 V rms.Steps 5 through 7 apply to Daniels VR-3/150 transmitters.5. Measure and record the voltage at TP13 with the DMM.6. Measure the voltage at TP12 with the DMM.7. Adjust PLL CAL potentiometer R101 until the voltage measured at TP12 matches the voltagemeasured in step (5) above within ±  0.2 Vdc.  Note that when the PLL locks in, the voltage atTP12  will  also lock in to within  ±0.2  Vdc of the voltage at TP13.  At this point furtheradjustment of R101 will not change the value unless it is brought out of lock.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 3-5Steps 8 and 9 apply to Daniels UHF transmitters.8. Monitor TP12 with an oscilloscope.9. Adjust the PLL CAL potentiometer R101 until the voltage measured at TP12 is over 2.7 volts.You should observe a clean DC voltage when the PLL locks in.  Any voltage below 2.7  voltsresults in a badly distorted 10 MHz square wave.10. Replace shunt jumper JU6-A.3.11 Data Delay Setup1. Enable the DATA DELAY option by installing Power Enable surface-mount jumpers JU38And moving the two DATA DELAY shunt jumpers of JU36 to the DELAY (vertical) position.2. Set front panel switches SW2 (MODE) to SETUP, SW3 (SET MOD)  to 2 LEVEL, and SW4(SET DEV) to “Continuous Bit Stream” (refer to SW4 DETAIL in Figure 6-1).To calibrate the positive and negative edge delay:3. Set the oscilloscope for 1.0 V/Div (vertical) and 0.5 µs/Div (horizontal).  Select channel 1 astrigger input and set Trigger Slope to positive.4. Monitor the data signal at TP9 on channel 1 of the oscilloscope.5. Monitor and record the period of the data delay pulse at TP7 on channel 2 of the oscilloscope.6. Set Trigger Slope to negative.7. Continue monitoring the data signal at TP9 on channel 1 of the oscilloscope while monitoringthe period of the data delay pulse at TP7 on channel 2.8. Adjust R95, DELAY  SYNC,  until the period of the data delay pulse measured at TP7 isidentical to that measured in step (5) above.To set the delay resolution (output frequency of Programmable Counter U22):9. With surface mount jumpers JU31A, JU32A and JU33A installed, monitor the frequency of thesignal at TP8.10. Adjust tuning capacitor C55 for a frequency of 1.0 MHz (+/- 10 Hz) at TP8.
DANIELSELECTRONICS LTDTM3-6 CI-PM-3 Paging Modulator Instruction Manual3.12 Simulcast Delay SetupA typical Simulcast system is depicted in Figure 5-2.  To correctly determine the differingpropagation path delays to each transmitter in a Simulcast system and compensate for them, signaldelays in both the transmission medium and the equipment must be known.  For the purposes ofthis manual, it is assumed that only Daniels MT-3 radio equipment will be utilized at each pagingsite, and that each radio subrack  will be identically  configured with CI-PM-3 Paging Modulatormodules.Signal delays from the base transmitter to any paging transmitter are calculated as follows:Delay = t(Link)  +  t(Eqpt)Where: t(Link) = Propagation delay from Base TX to Paging TXt(Eqpt) =t(RX)  +  t(PM)  +  t(TX)t(RX) = Delay through Receivert(PM) = Delay through Paging Modulatort(TX) = Delay through Transmitterd = DistanceThe delay through the equipment at each paging transmitter site, t(Eqpt),will be identical for each link,and can therefore be eliminated  from our calculations.  As such, the only delay variable(s) ofinterest will be the distance from the base transmitter to each paging transmitter.  Since radio wavespropagate at or near the speed of light (3x108 m/sec), the delay calculation becomes:Delay =  t(Link)=  d (km) ×  3.33µsecor=  d (mi)  ×  5.37µsecFor the Simulcast system depicted in Figure 5-2, the signal transmitted by PAGING TX #1 will notbe delayed, as this is the  furthest site from the BASE TX.  However, to ensure  identical  signalprocessing characteristics at each site, the DATA DELAY  circuitry of the CI-PM-3 at PAGINGTX #1 will be enabled, but with zero delay selected.  PAGING TX #2 will have its paging signaldelayed by a value  proportional to the difference in distance between  PAGING TX #1 andPAGING TX #2 to the BASE TX.  The delay for PAGING TX #2 is therefore calculated as:Delay(Link B) =(d(Link A) (km)  -  d(Link B) (km)) ×  3.33µsecor=(d(Link A) (mi)  -  d(Link B) (mi)) ×  5.37µsec
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 3-7The delay calculations for any paging transmitter site in a multiple-transmitter system, withdistances measured from the site of interest back to the BASE TX, becomes:Delay(Site of Interest) =(d(Furthest Site) (km)  -  d(Site of Interest) (km)) ×  3.33µsecor=(d(Furthest Site) (mi)  -  d(Site of Interest) (mi)) ×  5.37µsecTo set the delay value: Once the required delay has been calculated for a particular paging site, referto Table 4-3 delay settings:a) Locate the DELAY (µsec) value which is closest to the calculated value.b) Set surface mount jumpers JU31, JU32, JU33, and JU35 according Table 4-3 in section 4.3.Data Delay Adjust: To set delay values other than those listed in Table 4-3:1. Set the oscilloscope for 1.0 V/Div (vertical) and 0.5 µs/Div (horizontal).  Select channel 1 astrigger input and set Trigger Slope to positive.2. Monitor the test data signal at TP9 on channel 1 of the oscilloscope and the output signal atTP5 on channel 2.3. Adjust the oscilloscope for maximum horizontal display of the distance between the signals’leading edges.  Adjust tuning capacitor C55 until the output signal’s leading edge on channel 2is delayed from the input signal’s leading edge on channel 1 by the desired delay amount.Example: To set a delay of 44 µsec:i) Set oscilloscope horizontal resolution to 5 µsec/div.ii) Install surface mount jumpers JU31B, JU32A, JU33A and JU35E (refer to Table 4-3).iii) Monitor TP9 on channel 1 of the oscilloscope.  Monitor TP5 on channel 2 of the oscilloscope.Adjust  C55 for 8.8 horizontal divisions between the signals’ leading edges(8.8✕5 µsec = 44 µsec delay).
DANIELSELECTRONICS LTDTM3-8 CI-PM-3 Paging Modulator Instruction Manual3.13 Repeater ConfigurationThe CI-PM-3 modules at both the  base transmitter and paging/repeater must be configuredindividually.  Individual setup procedures must also be followed for analog/digital paging and fordigital-only paging.Note: The CI-PM-3 modules must be set for 2-level signal operation only when  configured foruse in a paging repeater system.3.13.1 Base Transmitter Site CI-PM-3 ConfigurationThe setup instructions of sections 3.13.1 through 3.13.3 must be completed prior to commencingsetup of the remote paging/repeater site CI-PM-3.  Jumper designators separated by a ‘/’  indicatesan ‘and/or’ selection (eg JU19/JU45 means JU19 and/or JU45).3.13.1.1 Digital-Only Paging1. Install shunt jumpers JU7-A, JU8-A, JU10-A, JU41-C and JU23-A, JU23-B or JU23-C.2. Install surface mount jumpers JU22, JU55, and JU20/JU21.3. Remove surface mount jumpers JU19, JU28, JU29, JU30, JU34, JU43, JU44, JU45, JU52,JU53 and JU54.3.13.1.2 Analog/Digital PagingEnsure the TS-64 CTCSS Module, MOD1, is installed.  Refer to section 3.13.3 for TS-64 CTCSSModule Configuration and settings for jumpers JU52, JU53 and JU54.1. Install shunt jumpers JU7-A, JU8-A, JU10-B, JU41-A and JU23-A, JU23-B or JU23-C.2. Install surface mount jumper JU20/JU21, JU22 and JU55.3. Remove surface mount jumpers JU19, JU28, JU29, JU30, JU34, JU43, JU44, JU45 and JU51.3.13.2 Repeater Site CI-PM-3 ConfigurationAt the remote paging/repeater site, the digital paging signal is received  and discriminated by thereceiver, regenerated (reshaped) by the CI-PM-3, and re-transmitted through the normal CI-PM-3data signal path.  Analog paging signals are routed from the receiver, through  the  CI-PM-3,  thendirectly to the transmitter.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 3-93.13.2.1 Digital-Only Repeater1. Install shunt jumpers JU41-C and JU23-A, JU23-B or JU23-C.2. Install surface mount jumpers JU7-B, JU8-B, JU10-A, JU19/JU45, JU20/JU21, JU22,JU29/JU43, and JU55.3. Remove surface mount jumpers JU34, JU51, JU52, JU53 and JU54.3.13.2.2 Analog/Digital RepeaterEnsure the TS-64 CTCSS Module, MOD1, is installed.  Refer to section 3.13.3 for TS-64 CTCSSModule Configuration and settings for jumpers JU52, JU53 and JU54.1. Install shunt jumpers JU7-B, JU8-B, JU10-B, JU41-A and JU23-A, JU23-B or JU23-C.2. Install surface mount jumpers JU19/JU45, JU20/JU21, JU22, JU28, JU29/JU43, JU30/JU44and JU55.3. Remove surface mount jumpers JU34 and JU51.3.13.3 TS-64 Configuration1. Ensure POLARITY jumper JP7 is installed.2. For  normal operation (i.e. receiver  audio is muted until a CTCSS  coded transmission isreceived):a) Ensure TS-64 jumper JP11 is removed.b) Ground the TS-64 Hang-up Input:i) Install jumper JU52, orii) Remove jumper JU52, install jumper JU53 and ground CTCSS HU/BUSY input J1Pin 11.
DANIELSELECTRONICS LTDTM3-10 CI-PM-3 Paging Modulator Instruction Manual3. To place the TS-64 in monitor mode (i.e. over-ride the decoder and unmute the receiver audiofor channel monitoring):a) Ensure TS-64 jumper JP11 is removed.b) Ensure the TS-64 Hang-up Input is floating or above ground potential:i) Remove jumpers JU52 and JU53, orii) Remove jumper JU52, install jumper JU53, and leave CTCSS HU/BUSY input J1Pin 11 floating.4. To disable paging transmission while the channel is busy:a) Install TS-64 jumper JP11.b) Remove jumper JU52, install jumpers JU53 and JU54.
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 4-14 CONNECTOR PIN FUNCTIONS AND JUMPER FUNCTIONS4.1 Data / Control Port (Connector J1) Pin FunctionsTable 4-1 Data / Control Port (Connector J1) Pin FunctionsPIN NAME FUNCTION1 2-Lvl Data 2 Level RS-232 Data input.2 4-Lvl Data 4 Level RS-232 Data input.3 Ext Clock External Clock for 4 Level signal synchronization.4 2-Lvl/4-Lvl Select 2 Level / 4 Level select.  Low = 2 Level, High = 4 Level.5 A/D Mode Select Analog / Digital Mode select.  Low = Digital, High = Analog.6 Discr O/P Discriminator Output from Receiver.7 PTT Push To Talk.8 Ground Ground.9 Balanced Audio I/P 1 Balanced Audio Input 1.  Routed directly to Transmitter.10 Balanced Audio I/P 2 Balanced Audio Input 2.  Routed directly to Transmitter.11 Data Out Regenerated digital data from receiver.12 HU/Busy CTCSS Hang Up / Busy signal from optional CTCSS module.13 No Connection -14 No Connection -15 No Connection -4.2 Motherboard Interface (Connector P1) Pin FunctionsTable 4-2 Motherboard Interface Connector P1 Pin FunctionsNote: Bolded entries are utilized by CI-PM-3PIN NAME FUNCTIONC1 IMC1 Inter-module Communications Line No. 1B1 5W RX AUDIO 5W RX A/RX B Audio From System MonitorA1 5W RX AUDIO 5W RX A/RX B Audio From System MonitorC2 TX A AUDIO CNTL TX A Audio ControlB2 13.8V 13.8V from M3 Motherboard J8 (Unregulated)A2 13.8V 13.8V from M3 Motherboard J8 (Unregulated)C3 IMC2 Inter-module Communications Line No. 2B3 RX A AMPD AUDIO RX A Amplified Audio OutputA3 RX B AMPD AUDIO RX B Amplified Audio OutputC4 TX B AUDIO CNTL TX B Audio ControlB4 9.5V Regulated +9.5V from System MonitorA4 9.5V Regulated +9.5V from System MonitorC5 IMC3 Inter-module Communications Line No. 3B5 RX A 9.5V RX A Current Sense Output Line (Supply)A5 RX B 9.5V RX B Current Sense Output Line (Supply)C6 ALARM 1 Inter-module Alarm Line No. 1.B6 TX A PTT Transmitter A Press To Talk input.A6 TX B PTT Transmitter B Press To Talk input.C7 ALARM 2 Inter-module Alarm Line No. 2.B7 RX A 9.5V MON RX A Current Sense Output Line (Module)A7 RX B 9.5V MON RX B Current Sense Output Line (Module)C8 ALARM 3 Inter-module Alarm Line No. 3B8 RX A COR RX A Carrier Operated Relay OutputA8 RX B COR RX B Carrier Operated Relay Output
DANIELSELECTRONICS LTDTM4-2 CI-PM-3 Paging Modulator Instruction ManualPIN NAME FUNCTIONC9 ALARM 4 Inter-module Alarm Line No. 4B9 TX A STANDBY TX A Audio StandbyA9 TX B STANDBY TX B Audio StandbyC10 RX A SQL OVERRIDE RX A Squelch Disable InputB10 RX A DISC O/P RX A Discriminator OutputA10 TX A PTT OUT TX A Microphone Press To Talk OutputC11 ALARM 5 Inter-module Alarm Line No. 5B11 SPARE 5 Inter-module Spare Line No. 5A11 SPARE 6 Inter-module Spare Line No. 6C12 RX A SQL FLAT RX A Squelched, Flat Audio OutputB12 RX A ISO COR A RX A Isolated Carrier Operated Relay, Side A O/PA12 RX A ISO COR K RX A Isolated Carrier Operated Relay, Side K O/PC13 ALARM 6 Inter-module Alarm Line No. 6B13 RX A DISC L/P O/P RX A Discriminator Low-Pass Audio OutputA13 RX B DISC L/P O/P RX B Discriminator Low-Pass Audio OutputC14 RX B SQL DE-EMP RX B Squelched, De-Emphasized Audio OutputB14 SPARE 3 Inter-module Spare Line No. 3A14 SPARE 4 Inter-module Spare Line No. 4C15 ALARM 7 Inter-module Alarm Line No. 7B15 RX A SIG STREN RX A Signal Strength Indicator OutputA15 RX B SIG STREN RX B Signal Strength Indicator OutputC16 TX B BAL I/P 1 TX B Balanced Audio Input, Side 1B16 TX B SUBT I/P 1 TX B Subtone Audio Input No. 1A16 TX B PTT OUT TX B Microphone Press To Talk OutputC17 ALARM 8 Inter-module Alarm Line No. 8B17 TX A VSWR FWD TX A VSWR Forward Level Indicator OutputA17 TX B VSWR FWD TX B VSWR Forward Level Indicator OutputC18 TX A BAL I/P 1 TX B Balanced Audio Input, Side 1B18 TX A BAL I/P 2 TX B Balanced Audio Input, Side 2A18 TX B BAL I/P 2 TX B Balanced Audio Input, Side 2C19 SPARE 1 Inter-module Spare Line No. 1B19 TX A VSWR REV TX A VSWR Reverse Level Indicator OutputA19 TX B VSWR REV TX B VSWR Reverse Level Indicator OutputC20 SPARE 2 Inter-module Spare Line No. 2B20 TX A DIR MOD TX A Direct Modulation InputA20 TX B DIR MOD TX B Direct Modulation InputC21 TX A CSEL D0 TX A Channel Select Line No. D0B21 TX A CSEL D1 TX A Channel Select Line No. D1A21 TX A CSEL D2 TX A Channel Select Line No. D2C22 TX A SUBT I/P 1 TX A Subtone Audio Input No. 1B22 RX A MUTE RX A Mute InputA22 RX A SQL DE-EMP RX A Squelched, De-Emphasized Audio OutputC23 TX A CSEL D3 TX A Channel Select Line No. D3B23 RX A CSEL D0 RX A Channel Select Line No. D0A23 RX A CSEL D1 RX A Channel Select Line No. D1C24 TX A SUBT I/P 2 TX A Subtone Audio Input No. 2B24 RX A BAL O/P 1 RX A Balanced Audio Output, Side 1A24 RX A BAL O/P 2 RX A Balanced Audio Output, Side 2C25 RX A CSEL D2 RX A Channel Select Line No. D2B25 RX A CSEL D3 RX A Channel Select Line No. D3A25 TX B CSEL D0 TX B Channel Select Line No. D0C26 TX B SUBT I/P 2 TX B Subtone Audio Input No. 2B26 RX B SQL OVERRIDE RX B Squelch Disable InputA26 RX B MUTE RX B Mute Input
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 4-3PIN NAME FUNCTIONC27 TX B CSEL D1 TX B Channel Select Line No. D1B27 TX B CSEL D2 TX B Channel Select Line No. D2A27 TX B CSEL D3 TX B Channel Select Line No. D3C28 RX B DISC O/P RX B Discriminator Audio OutputB28 RX B ISO COR K RX B Isolated Carrier Operated Relay, Side K O/PA28 RX B ISO COR A RX B Isolated Carrier Operated Relay, Side A O/PC29 RX B CSEL D0 RX B Channel Select Line No. D0B29 RX B CSEL D1 RX B Channel Select Line No. D1A29 RX B CSEL D2 RX B Channel Select Line No. D2C30 RX B BAL O/P 1 RX B Balanced Audio Output, Side 1B30 RX B BAL O/P 2 RX B Balanced Audio Output, Side 2A30 RX B SQL FLAT RX B Squelched, Flat Audio OutputC31 RX B CSEL D3 RX B Channel Select Line No. D3B31 RX A PRIORITY COR RX A Priority COR (not affected by Mute)4.3 CI-PM-3 Data Delay Jumper SettingsTable 4-3 Delay SettingsJUMPER SETTINGS DELAY DISTANCE DISTANCEJU33 JU32 JU31 JU35   (µSec)   (km)  (mi)AAAA41.20    0.75AABA82.40    1.49AAAC12 3.60    2.24ABAA16 4.80    2.98AAAE20 6.00    3.73ABBC24 7.20    4.47ABBA32 9.60    5.97AABE40 12.00    7.46ABAC48 14.40    8.95BAAA64 19.20   11.93ABAE80 24.00   14.91ABBC96 28.80   17.90BABA128 38.40   23.86ABBE160 48.00   29.83BAAC192 57.60   35.79BBAA256 76.80   47.72BAAE320 96.00   59.65BABC384 115.20   71.59BBAB512 153.60   95.45BABE640 192.00  119.31BBAC768 230.40  143.17BBAD1024 307.20  190.89BBAE1280 384.00  238.62BBAF1536 460.80  286.34
DANIELSELECTRONICS LTDTM4-4 CI-PM-3 Paging Modulator Instruction Manual4.4 CI-PM-3 Circuit Board JumpersTable 4-4 CI-PM-3 Default Jumper SettingsREF.DESIG. DESCRIPTION JUMPERTYPE DEFAULTPOSITIONJU1 2-LVL Polarity Select (A = Inverted ; B = Normal) Shunt BJU2 4-LVL Polarity Select (A = Normal; B = Inverted) Shunt AJU3 RX A Balanced O/P 1 Enable SM Solder Not InstalledJU4 RX A Balanced O/P 2 Enable SM Solder Not InstalledJU5 XO Polarity Select (A = Normal; B = Inverted) Shunt BJU6 XO Select (A=OCXO; B=VCXO) Shunt AJU7 Data Regeneration (A = Disable; B = Enable) SM Solder AJU8 Data Input (A = Data/Ctrl Port; B=RX A Regenerated Data) SM Solder AJU9 Discriminator O/P To Front Panel J1 Enable SM Solder Not InstalledJU10 Repeater CTCSS Enable (A = Disable; B = Enable) SM Solder AJU11 TX A Direct Modulation Enable SM Solder InstalledJU12 TX B Direct Modulation Enable SM Solder Not InstalledJU13 TX A Subtone I/P 2 Enable SM Solder Not InstalledJU14 TX B Subtone I/P 2 Enable SM Solder Not InstalledJU15 TX A Balanced I/P 1 Enable SM Solder InstalledJU16 TX B Balanced I/P 1 Enable SM Solder Not InstalledJU17 TX A Audio Control Enable SM Solder InstalledJU18 TX B Audio Control Enable SM Solder Not InstalledJU19 RX A COR Enable SM Solder Not InstalledJU20 TX A PTT Enable SM Solder InstalledJU21 TX B PTT Enable SM Solder Not InstalledJU22 Repeater PTT Enable SM Solder Not InstalledJU23 Level Select (A=2/4-LVL; B=4-LVL) Shunt AJU24 TX A Balanced I/P 2 Enable SM Solder InstalledJU25 TX B Balanced I/P 2 Enable SM Solder Not InstalledJU26 Alarm 7 To TX A and B Balanced O/P 1 Enable SM Solder InstalledJU27 Alarm 5 To TX A and B Balanced O/P 2 Enable SM Solder InstalledJU28 CTCSS RX A Mute Bypass SM Solder Not InstalledJU29 RX A Discriminator Output Enable SM Solder Not InstalledJU30 RX A Mute Enable SM Solder Not InstalledJU31 Data Delay Selection (Refer to Table 4-3) SM Solder AJU32 Data Delay Selection (Refer to Table 4-3) SM Solder AJU33 Data Delay Selection (Refer to Table 4-3) SM Solder AJU34 CTCSS PTT Bypass SM Solder InstalledJU35 Data Delay Selection (A - F, Refer to Table 4-3) SM Solder AJU36 Data Delay/By-Pass Shunt BypassJU37 Switched 8.0 Volts For PLL I/O Circuitry SM Solder Not InstalledJU38 Switched 8.0 Volts For Data Delay Circuitry SM Solder Not InstalledJU39 Switched 5.0 Volts For PLL I/O Circuitry SM Solder Not InstalledJU40 Switched 5.0 Volts For Regenerated PTT and Data Delay Circuitry SM Solder Not InstalledJU41 Analog/Digital Mode Over-ride Shunt AJU42 Low Frequency Deviation Enable SM Solder Not InstalledJU43 RX B Discriminator O/P Enable SM Solder Not InstalledJU44 RX B Mute Enable SM Solder Not InstalledJU45 RX B COR Enable SM Solder Not InstalledJU46 RX B Balanced O/P 1 Enable SM Solder Not InstalledJU47 RX B Balanced O/P 2 Enable SM Solder Not InstalledJU48 External Clock Enable (A = Disable; B = Enable) Shunt AJU49 Switched 5.0 Volts For 2-LVL / 4-LVL Switching Circuitry SM Solder InstalledJU50 RS-232 Data Out Enable SM Solder Not Installed
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 4-5REF.DESIG. DESCRIPTION JUMPERTYPE DEFAULTPOSITIONJU51 Repeater Digital-Only PTT Enable SM Solder InstalledJU52 TS-64 Hang-up RX Mute SM Solder Not InstalledJU53 TS-64 Busy Input Enable SM Solder Not InstalledJU54 TS-64 Busy Input Connect to COR SM Solder Not InstalledJU55 TS-64 Repeater PTT Enable (Analog/Digital only) SM Solder Not InstalledJU56 Switched 9.5 Volts For Reference Input Circuitry SM Solder Not InstalledJU57 U18 (14174 IC) enable SM Solder Not InstalledJU58 Data regeneration SM Solder Not InstalledJU59 PLL calibration reference SM Solder Not InstalledJU60 U4 or U4A select SM Solder Not Installed4.5 TS-64 MOD1 Jumper Settings - (If installed)Table 4-5 CTCSS Jumper SettingsREF.DESIG. DESCRIPTION DEFAULTPOSITIONJP1-JP6 CTCSS Tone Frequency Select *JP7 RX Audio Mute Polarity (Installed: Mute = Open, Not Installed: Mute = Ground) InstalledJP8-JP10 TX Time-Out-Timer Interval Select *JP11 Hang-Up/Busy-Input Configure (Installed = Busy-Input, Not Installed = Hang-Up Input) Not InstalledNote: Refer to TS-64 Instruction Sheet for configuration details.4.6 4-Level Modulation Bit PatternTable 4-6 4-Level Modulation Bit PatternJ1-PIN1(BIT 0) J1-PIN2(BIT 1) DEVIATIONSETTING0 0 - 4800 Hz0 1 - 1600 Hz1 1 + 1600 Hz1 0 + 4800 Hz4.7 Receiver IF / Audio PCB Jumper SettingsTable 4-9 Receiver IF / Audio PCB Jumper SettingsJUMPER POSITIONJU5 ShortJU25 ShortJU37 OpenNote:  All other jumper settings as per the factory defaults.
DANIELSELECTRONICS LTDTM4-6 CI-PM-3 Paging Modulator Instruction Manual4.8 Transmitter Audio Processor Jumper SettingsFigure 4-1 Transmitter Audio Processor V1.6 Jumper SettingsJU28JU34JU35 JU38 JU1JU8 JU27JU6100nFJU9JU11JU15CIPM3M6ATable 4-7 Transmitter Audio Processor V1.6 Jumper SettingsJUMPER POSITION JUMPER POSITIONJU1 Y JU15 OpenJU6 (VHF) Replaced with 100nF JU27 YJU6 (UHF) Short JU28 YJU8 Short JU34 YJU9 Open JU35 YJU11 Open JU38 YJU10 ShortNote: All other jumper settings as per the factory defaults.Figure 4-2 Transmitter Audio Processor V1.8 Jumper SettingsJU34JU38JU35 JU37JU5JU28 JU15JU9JU11JU8JU1JU27JU6100nFCIPM3M7ATable 4-8 Transmitter Audio Processor V1.8 Jumper SettingsJumper BalancedI/P Subtone I/P1 / 2 DescriptionJU1 OUT OUT Direct Modulation Circuits Power Source SelectJU2 OUT OUT MT-2 Deviation Enable (MT-2 Transmitters)JU3 OUT OUT Microphone Preamplifier Flat ResponseJU4 OUT IN Subtone Input 2 Audio Path SelectJU5 OUT OUT / Y Auxiliary Input Enable (DC Or AC Coupled)JU6 IN(UHF) IN(UHF) Processed Audio Path Enable (Limited And Filtered). Replace with a100nF capacitor for VHFJU7 OUT OUT Unprocessed Auxiliary Audio Path Enable (Unfiltered)JU8 IN IN Audio Output DC CoupledJU9 OUT OUT Balanced Input Pre-emphasis Response EnableJU10 IN OUT Balanced Input Flat Audio Response Enable
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 4-7JU11 Y OUT Balanced Input To Auxiliary Audio Circuit EnableJU12 OUT OUT Tone/Digital Input To Auxiliary Audio Circuit EnableJU13 OUT OUT / IN Direct Modulation Input To Auxiliary Audio Circuit EnableJU14 OUT OUT Auxiliary Input Pre-emphasis Response EnableJU15 OUT OUT / IN Auxiliary Input Flat Audio Response EnableJU16 OUT IN / OUT Subtone Input 1 Audio Path SelectJU17 OUT OUT MT-2 Temperature Compensation BypassJU18 OUT OUT Continuous Data Mode SelectionJU19 X X Audio Switches Power Source Select (X=Continuous, Y=Switched)JU20 Y Y Q2 Power Source Select (Y=Continuous, X=Switched)JU21 Y Y Bilateral Switch Power Source Select (Y=Continuous, X=Switched)JU22 X X Audio Output To Splatter FilterJU23 OUT OUT / IN Direct Modulation Input To Subtone 2 EnableJU24 OUT OUT Splatter Filter Response SelectJU25 OUT OUT Splatter Filter Response SelectJU26 OUT OUT Splatter Filter Response SelectJU27 Y Y Direct Modulation Input Audio Path SelectJU28 Y Y Amplified Direct Modulation BypassJU29 OUT OUT Amplified Direct Modulation Input DC Coupled EnableJU30 OUT OUT Amplified Direct Modulation Audio Path SelectJU31 OUT OUT Audio Output AC-Coupled (MT-3 Synthesized Transmitters)JU32 OUT OUT Audio Output AC-Coupled (MT-3 Crystal Transmitters)JU33 OUT OUT Audio Output AC-CoupledJU34 Y Y Audio Output From Direct Modulation Circuits SelectJU35 OUT OUT Direct Modulation Output Source SelectJU36 Y OUT AGC Preamplifier Power Source Select (Y=Continuous, X=Switched)JU37 OUT OUT Direct Modulation Output EnableJU38 OUT OUT / X Subtone 2, DC Coupled, To Direct Modulation Output SelectJU39 OUT OUT Direct Modulation Low Input Impedance EnableJU40 OUT OUT Microphone Preamplifier Power EnableJU41 Not UsedJU42 OUT OUT Processed Audio Path To Direct Modulation OutputJU43 OUT OUT Bilateral Switch U9 Bypass Enable
DANIELSELECTRONICS LTDTM4-8 CI-PM-3 Paging Modulator Instruction ManualFigure 4-3 Transmitter Audio Processor V2.3 Jumper SettingsJU8 JU35YXJU8JU25XJU43JU34YJU27JU20YXJU42XCIPM3M8ATable 4-9  Transmitter Audio Processor V2.3 Jumper SettingsJUMPER POSITION DESCRIPTION    JU8       Short Audio Output DC couple    JU20         X Direct modulation input buffer ( X enabled, Y bypass )    JU21         Y Transmit audio control    JU25         X Wide/Narrow Band Switched Select  (X wide )    JU27         Y Direct Modulation Input Offset Output (Y enabled, X Bypass)    JU34         Y Audio Routing ( Y enabled , X dual port)    JU42         X Modulation input bias select ( X no offset, Y offset adjust)    JU43       Short Modulation input Direct (Short) / Cap Couple (Open)
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 4-94.9 Transmitter Synthesizer Jumper SettingsFigure 4-3 VHF and (400 MHz) UHF Synthesizer Analog PCB Jumper SettingsA      BJU1CIPM3M8Jumper JU1 must be installed in the ‘A’ position to enable the external reference option.Figure 4-4 VHF and (400 MHz) UHF Synthesizer Digital PCB Jumper SettingsJU2CIPM3M10Jumper JU2 must be installed to enable the 10MHz reference option.Figure 4-5 800MHz and 900MHz Transmitter Synthesizer Jumper SettingsJU1A   BCIPM3M9Jumper JU1 must be installed in the ‘A’ position to enable the external reference option.BottomView ofPCBBottomView ofPCBTop ViewOf PCBBottomView ofPCB
DANIELSELECTRONICS LTDTM4-10 CI-PM-3 Paging Modulator Instruction Manual4.10 CI-PM-3 Test PointsTable 4-10 CI-PM-3 Test PointsTEST POINT DESCRIPTIONTP1 +8 Vdc SupplyTP2 +4 Vdc SupplyTP3 +5 Vdc SupplyTP4 Analog / Digital Mode (High = Digital, Low = Analog)TP5 2 Level Data (TTL)TP6 OCXO 9.5 Vdc SupplyTP7 Positive and Negative Edge Integrator OutputTP8 Data Delay Programmable Counter Output.TP9 Input to Data Delay CircuitryTP10 2 Level DataTP11 Level Adjusted Paging SignalTP12 OCXO Reference Adjust (nominally 2.5 Vdc)TP13 PLL Correction VoltageTP14 Tx A/B Direct Modulation OutputTP15 13.8 Vdc Supply Input (from Subrack)TP16 9.5 VDC Supply Input (from Subrack)TP17 Low Pass Filter Output
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 5-15 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS5.1 CI-PM-3 Front Panel Controls
DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 6-16 PARTS LISTS6.1 CI-PM-3 Electrical Parts List
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DANIELSELECTRONICS LTDTMCI-PM-3 Paging Modulator Instruction Manual 7-17 REVISION HISTORYIssue Issued Revised Details3 Nov 99 N/A All prototype updates incorporated in this issue.All previous revision history in preliminary issue 3 (Pre3). Jan 02 New CI-PM-3 version to accommodate multiple footprints forU4 ( AD9901 ) , and incorporate changes to the reference inputcircuit ( MMIC removed ).4 Jan 02 New Issue, incorporates all changes since release of Issue 3.4 A Dec 02 Correct component layout (bottom CIPM3M4E)- TP14 & TP15 locations corrected- JU56 designation removed
DANIELSELECTRONICS LTD.TMMT-3 RADIO SYSTEMSUHF TRANSMITTERINSTRUCTIONMANUALUT-3 896 - 960 MHzCovers models:UT-3/900-SWB3, UT-3/935-SWB3, UT-3/950-SWB3,UT-3/900-SNB3, UT-3/935-SNB3, UT-3/950-SNB3.Copyright © 1998 Daniels Electronics Ltd.  All rights reserved.  No part of this publication may bereproduced, stored in a retrieval  system or transmitted in any form or by any means, electronic,mechanical,  photocopying, recording or otherwise, without the prior  written consent of DanielsElectronics Ltd.DE™ is a registered trademark of Daniels Electronics Ltd. registered in the United States Patentand Trademark Office.Issue: 5 Previous Issue: 4Issue Date: December 98 Previous Issue Date: April 97 Daniels Electronics Ltd.Printing Date: Month Year Victoria, BCPart No.: IM26-UT3900S PRINTED IN CANADA
DE DANIELSELECTRONICSii UHF Transmitter Instruction Manual UT-3 896 - 960 MHzReviewed By:Quality Assurance:Larry Freeman                                                                                      _________________Name Signature DateNOTE:The user's authority to operate this equipment could be revoked  through anychanges or modifications not expressly approved by Daniels Electronics Ltd.The design of this equipment is subject to change due to continuousdevelopment.  This equipment may incorporate minor changes in detail from theinformation contained in this manual.
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz iiiTABLE OF CONTENTSPage1 GENERAL..................................................................................................................1-11.1 Introduction.....................................................................................................1-11.2 Manual Organization.......................................................................................1-11.3 UT-3 896 - 960 MHz Transmitter Family Models..........................................1-21.4 Performance Specifications.............................................................................1-21.4.1 General................................................................................................1-21.4.2 Audio Specifications ...........................................................................1-41.4.3 Physical Specifications........................................................................1-52 SYSTEM OVERVIEW...............................................................................................2-12.1 Transmitter Operation.....................................................................................2-12.2 Frequency Selection........................................................................................2-22.3 Transmitter Assembly and Adjustment............................................................2-32.3.1 Complete Transmitter Alignment.........................................................2-42.3.2 Output Power Adjustment...................................................................2-42.3.3 Deviation Setting.................................................................................2-42.3.4 Setting RF Alarm Thresholds..............................................................2-42.4 Recommended Test Equipment List................................................................2-52.5 Repair Note.....................................................................................................2-52.6 Printed Circuitboard Numbering Convention..................................................2-53 ILLUSTRATIONS.....................................................................................................3-13.1 MT-3 Transmitter Front Panel ........................................................................3-13.2 MT-3 Transmitter Case - Exploded View........................................................3-24 PARTS LIST ..............................................................................................................4-15 REVISION HISTORY ...............................................................................................5-1MODULE MANUALSTransmitter Main Board Instruction Manual ........................................ IM20-MT3TXMNUHF Amplifier Instruction Manual UT-3 806 - 960 MHz ...............IM25-UT38900AMPLow Current Synthsizer Instruction Manual OS(R/T)-3 132-960 MHz  ...........IM11-OS3UHF Transmitter Channel Designation Table UT-3 896 - 960 MHz...IM16-URT3900CT
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DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 1-11 GENERAL1.1 IntroductionThe UT-3 896 - 960 MHz transmitter is a low power, synthesized, FM transmitter, capable ofoperation in 6.25 KHz channels.  The transmitter operates in three frequency bands:896 - 902 MHz, 928 - 935 MHz, and 935 - 960 MHz and power output is adjustable from 0.5W to3.0W.  A modular design allows each of the transmitter's modules:  OS-3 896 - 960 MHzsynthesizer,  UT-3 800/900 amplifier, MT-3 audio processor, and MT-3 transmitter main board tobe individually assembled and tested.  This facilitates construction, maintenance, as well astroubleshooting procedures.  The synthesizer module can be programmed to have up to 16 channelsexclusive to one frequency band (896 - 902 MHz, 928 - 935 MHz, or 935 - 960 MHz) making theUT-3  an extremely versatile transmitter.  In addition, the UT-3 896 - 960 MHz transmitter iscapable of standard modulation or low frequency modulation.The UT-3 896 - 960 MHz transmitter is designed to interface with Daniels Electronics' MT-3Repeater  System  while maintaining MT-2 System compatibility.  Both repeater systems arecharacterized by dependable, low maintenance performance under  the  most severe environmentalconditions.1.2 Manual OrganizationThe organization of this manual reflects the modular makeup of the UT-3 product line.  Eachmodule is fully described within  its  respective submanual, all of which are contained within thisdocument.  In general, each submanual contains:1. A functional description and specification summary,2. A detailed technical description (Theory of Operation) and3. Assembly, setup and alignment procedures relevent to that particular module.The module manuals are as follows.Note: material presented in a given "sub-manual" may include information related to other moduleversions not directly appllicable to the 896 - 960 MHz Transmitter family (eg, the Low CurrentSynthesizer Instruction Manual OS(R/T)-3 covers models from 132 MHz to 960 MHz).UHF Transmitter Instruction Manual UT-3 896 - 960 MHz: This manual provides an overview ofthe complete transmitter, manual organization and assembly in terms of the other modules.MT-3 Transmitter Main Board Instruction Manual: This manual pertains to the audio processormodule, transmitter Main Board and Front Panel Board. Most of the  user  selectable  options areaccessed within the Transmitter Main Board module, including channel selection. Since all externalconnections (including power and signal lines) are made to the Transmitter Main Board, most of thematerial pertaining to transmitter operation and installation is found here.
DE DANIELSELECTRONICS1-2 UHF Transmitter Instruction Manual UT-3 896 - 960 MHzUHF Amplifier Instruction Manual UT-3 806 - 960 MHz :  The amplifier module provides thefinal stages of RF power amplification and harmonic filtering for  the transmitter. This  manual isintended primarily as a reference since the amplifier module is adjusted at the factory.Low Current Synthesizer Instruction Manual OS(R/T)-3 132 - 960 MHz: This manual pertains tothe enhanced synthesizer module.UHF Rx/Tx Channel Designation Table UT-3 896 - 960 MHz: This document relates operatingfrequency to the transmitter channel number (see section 2.2).1.3 UT-3 896 - 960 MHz Transmitter Family ModelsThe UT-3 896 - 960 MHz line of transmitters has a single RF power output rating of 3.0 Watt, withwide or narrow band FM (12.5 kHz or 25 kHz channels) and employs synthesizer based frequencygeneration. The six basic (i.e. no options added) band specific models of the transmitter are asfollows:• UT-3/900-SNB3 - synthesized, 896 - 902 MHz band, 12.5 kHz channels, 0.5 - 3.0 Watt• UT-3/935-SNB3 - synthesized, 928 - 935 MHz band, 12.5 kHz channels, 0.5 - 3.0 Watt• UT-3/950-SNB3 - synthesized, 935 - 960 MHz band, 12.5 kHz channels, 0.5 - 3.0 Watt• UT-3/900-SWB3 - synthesized, 896 - 902 MHz band, 25 kHz channels, 0.5 - 3.0 Watt• UT-3/935-SWB3 - synthesized, 928 - 935 MHz band, 25 kHz channels, 0.5 - 3.0 Watt• UT-3/950-SWB3 - synthesized, 935 - 960 MHz band, 25 kHz channels, 0.5 - 3.0 WattThe transmitter models are very similar and the transmitters' band of operation is determined byselect components in the synthesizer and amplifier.1.4 Performance Specifications1.4.1 GeneralType: MT-3 Series Transmitter.Compatibility: MT-2 Series and MT-3 Series Radio Systems.Frequency Range: 896 - 960 MHzR.F. Power Output: Adjustable: 0.5W to 3.0W.Modulation: 11/16K0F3EJN (Frequency Modulation).Channel Spacing: 12.5 kHz or 25 kHz.
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 1-3Frequency Generation: Synthesized (internal plug-in module: 2 bands).Reference Frequency: 9.600000 MHz.Channel Selection: In 6.25 kHz increments selected through four internal BCDrotary switches.  Preset capability for 16 channel memoryselectable through external control.Frequency Stability:  Standard: ±1ppm -30°C to +60°C.Optional: ±1ppm -40°C to +60°C.Optional:  High stability external reference.System Impedance: 50 Ω; Type N (Standard).Duty Cycle: 100%; Continuous operation +60°CSpurious Emissions: More than  -80dB below carrier.Hum and Noise Level: 45 dB (300 Hz to 3.4 kHz).Front Panel Control: NORM (repeat mode), OFF, and KEY TX (Tx on).PTT Activation: • Active to ground with or without time-out timer;• Microphone activated with or without time-out timer;• Front Panel switch:KEY TX - without time-out timerNORM - with or without time-out timer.• Isolated (optional relay) with or without time-out timer.PTT Time-Out-Timer: Selectable 1 second to 8 hours (factory set 5 minutes).Transmitter Mismatch Protection: 20:1 VSWR at all phase angles.  Protected by internal ferriteIsolatorTransmitter Alarm: Forward power sense and reverse VSWR;• open collector output (separate or 'OR'ed configuration);• linear output (separate lines only).Transmit Current: 1.8 Amps at 3 Watts RF Power Output.Standby Current and Rise time: 95% RF power, 95% system deviation within;50 ms:   typically 7 mA (Mode 1),25 ms:   typically 50 mA (Mode 2),10 ms:   typically 75 mA (Mode 3).Operating Temperature Range: -30˚C to +60˚C (Optional: -40˚C to +60˚C).Operating Humidity: 95% R.H. (Non-condensing) at +25°C.
DE DANIELSELECTRONICS1-4 UHF Transmitter Instruction Manual UT-3 896 - 960 MHzDOC Type Approval: RSS119 142 194 305RSS122 142 221 131FCC Type Acceptance: H4JUT-3-900-SN03 (896-902 MHz, narrow band)H4JUT-3-900-SW03 (896-902 MHz, wide band)H4JUT-3-930-SN03 (928-935 MHz, narrow band)H4JUT-3-930-SW03 (928-935 MHz, wide band)H4JUT-3-950-SN03 (935-960 MHz, narrow band)H4JUT-3-950-SW03 (935-960 MHz, wide band)1.4.2 Audio SpecificationsAudio Input: Balanced 600 ohm or unbalanced (optional).Input level sensitivity, -25 dBm to 0 dBm.Audio Response: Pre-emphasis (6 dB per octave); +0.5 to -2.0 dB from 300 Hzto 3 kHz;Flat Audio Response: +1 to -2 dB from 100 Hz to 3 kHz.Audio Deviation: Preset to ±1.5 kHz or ±3.0 kHz with a 1 kHz tone;(capable ±2.5 kHz or ±5.0 kHz).Subtone Audio Input 1: 0.5 Vpp at 200 Hz for ±500 Hz deviation (internallyadjustable).Subtone Audio Input 1 Freq range: 60 Hz to 300 Hz.Subtone Audio Input 2: 0.5 Vpp at 100 Hz for ±500 Hz deviation (internallyadjustable).Subtone Audio Input 2 Freq range: DC to 150 Hz.Direct Modulation Input: 0.5 Vrms at 1 kHz or ±3 kHz deviation.Direct Modulation Freq range: DC to 5 kHz.Audio Distortion: Less than 2.5% THD; 1 kHz tone at 1.5 kHz or 3 kHzdeviation (-40°C to +60°C).Hum and Noise: Better than 40 dB (test receiver band limited: 400 Hz to 30kHz).
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 1-51.4.3 Physical SpecificationsPhysical Dimensions: Width: Height: Depth:7.1 cm (2.8 in) 12.8 cm (5.05 in) 19 cm (7.5 in)Module Weight: 1.5 kg (3.3 lbs)Corrosion Prevention: Anodized aluminum construction.  Stainless steel hardware.Selectively conformal coated glass epoxy 2 and 4 layer printedcircuitboards.  Gold plated module connectors.Module Design: Compact Eurostandard modular design.  Plug-in modules matewith Daniels standard M3 repeater subrack.  Subracks /modules comply with IEEE 1101, DIN 41494 and IEC 297-3(mechanical size / modular arrangement).External Connections: RF Connection: type N connector located on the transmittermodule front panel.  Motherboard Connections (Audio, Power,and Control) are made through a 48 pin, gold plated, type Fconnector on the rear of the transmitter module.  Userconnection made through mated "mother board" assembly ofthe repeater subrack.  Type F standard connector complies withDIN 41612 Level 2 (200 mating cycles, 4 day 10 ppm SO2 gastest with no functional impairment and no change in contactresistance).Handle Text Colour: Green.
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 2-12 SYSTEM OVERVIEW2.1 Transmitter Operation
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 3-13 ILLUSTRATIONS3.1 MT-3 Transmitter Front PanelUT3900M1ON / OFF SWITCHTYPE N RF OUTPUT JACKSMA REFERENCEINPUT JACKTRANSMIT INDICATOR LEDTRANSMITTER MODEL IDENTIFIERFACTORY SETOPERATINGFREQUENCYMICROPHONECONNECTORTRANSMITTERTXREFERENCEINPUTDANIELSELECTRONICS LTD.OFFNORMKEY TXMICRF OUTFREQUENCY (MHz)33.25000MADE IN CANADAUT-3/950-SWB3MADE IN CANADAMADE IN CANADAGREEN TEXT FREQUENCY (MHz)951.0000
DE DANIELSELECTRONICS3-2 UHF Transmitter Instruction Manual UT-3 896 - 960 MHz3.2 MT-3 Transmitter Case - Exploded View3 FINGER GASKET (2)AAAABBBBMT3TXM2BTransmitter Case Removal:1. Remove screws A (four M3x8mm).2. Remove screws B (four M5x8mm).3. Hold front panel and pull case.
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 4-14 PARTS LIST
DE DANIELSELECTRONICSUHF Transmitter Instruction Manual UT-3 896 - 960 MHz 5-15 REVISION HISTORYISSUE    DATE           DESCRIPTION AND (REASON)                                                                 5 May 98 •Manual formatted to modular style.  All previous revision history inissue 4.
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DANIELSELECTRONICS LTD.TMMT-3 RADIO SYSTEMSTRANSMITTERMAIN BOARDINSTRUCTION MANUALCovers: Version 1.7 of the Transmitter Main BoardVersion 1.6 & 1.8 of the FM Audio Processor BoardCopyright © 1998 Daniels Electronics Ltd.  All rights reserved.  No part of this publication may bereproduced, stored in a retrieval  system or transmitted in any form or by any means, electronic,mechanical,  photocopying, recording or otherwise, without the prior  written consent of DanielsElectronics Ltd.DE™ is a registered trademark of Daniels Electronics Ltd. registered in the United States Patentand Trademark Office.Issue: 3 Previous Issue: 2Issue Date: November 98 Previous Issue Date: May 98 Daniels Electronics Ltd.Printing Date: NA Victoria, B.C.Part No.: IM20-MT3TXMN PRINTED IN CANADA
DE DANIELSELECTRONICSii Transmitter Main Board Instruction ManualReviewed By:Quality Assurance:Larry Freeman                                                                                      _________________Name Signature DateNOTE:The user's authority to operate this equipment could be revoked  through anychanges or modifications not expressly approved by Daniels Electronics Ltd.The design of this equipment is subject to change due to continuousdevelopment.  This equipment may incorporate minor changes in detail from theinformation contained in this manual.
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual iiiTABLE OF CONTENTSPage1 GENERAL .................................................................................................................. 1-11.1 Introduction.................................................................................................... 1-11.2 Performance Specifications............................................................................ 1-11.2.1 General............................................................................................... 1-11.2.2 Audio Specifications .......................................................................... 1-22 THEORY OF OPERATION....................................................................................... 2-12.1 Transmitter Main Board................................................................................. 2-12.1.1 General............................................................................................... 2-12.1.2 Transmitter Push-To-Talk.................................................................. 2-12.1.2.1 Microphone PTT.................................................................... 2-12.1.2.2 PTT With Time-Out-Timer.................................................... 2-22.1.2.3 PTT No Time-Out-Timer....................................................... 2-22.1.2.4 Optional Relay ....................................................................... 2-22.1.2.5 PTT Output............................................................................ 2-32.1.2.6 PTT Voltage Switching .......................................................... 2-32.1.2.7 Transmitter Standby Modes................................................... 2-32.1.3 Audio Circuits.................................................................................... 2-42.1.3.1 Microphone Audio................................................................. 2-52.1.3.2 Received Audio ...................................................................... 2-52.1.4 Channel Selection............................................................................... 2-52.1.4.1 Synthesized Transmitter......................................................... 2-52.1.4.2 Crystal Controlled Transmitter............................................... 2-62.1.5 Amplifier Circuits............................................................................... 2-62.1.6 Time-Out-Timer Circuitry.................................................................. 2-62.2 MT-3 Front Panel Board................................................................................ 2-82.3 MT-3 Audio Processor (Version 1.6) ............................................................ 2-82.3.1 General............................................................................................... 2-82.3.2 Power Requirements .......................................................................... 2-82.3.3 Audio Processor Turn-on Time.......................................................... 2-92.3.4 Audio Processor Signals.................................................................... 2-92.3.4.1 Audio Processor Outputs....................................................... 2-92.3.4.2 Audio Processor Modulation Output ..................................... 2-102.3.4.3 Audio Processor Low Frequency / Direct Mod. Output......... 2-102.3.4.4 Audio Processor Inputs.......................................................... 2-102.3.4.5 Audio Processor Microphone Input....................................... 2-112.3.4.6 Audio Processor Balanced Input............................................ 2-112.3.4.7 Audio Processor Auxiliary Input............................................ 2-112.3.4.8 Audio Processor Subtone Inputs............................................ 2-112.3.4.9 Audio Processor Direct Modulation Input ............................. 2-122.4 MT-3 Audio Processor (Version 1.8) ............................................................ 2-12
DE DANIELSELECTRONICSiv Transmitter Main Board Instruction Manual2.4.1 General............................................................................................... 2-122.4.2 Power Requirements .......................................................................... 2-122.4.3 Audio Processor Turn-on Time.......................................................... 2-132.4.4 Audio Processor Signals.................................................................... 2-132.4.4.1 Audio Processor Outputs....................................................... 2-132.4.4.2 Audio Processor Modulation Output ..................................... 2-142.4.4.3 Audio Processor Low Frequency / Direct Mod. Output......... 2-142.4.4.4 Audio Processor Inputs.......................................................... 2-142.4.4.5 Audio Processor Microphone Input....................................... 2-152.4.4.6 Audio Processor Balanced Input............................................ 2-152.4.4.7 Audio Processor Auxiliary Input............................................ 2-152.4.4.8 Audio Processor Subtone Inputs............................................ 2-152.4.4.9 Audio Processor Direct Modulation Input ............................. 2-162.5 Low Frequency Modulation........................................................................... 2-163 TRANSMITTER ALIGNMENT ................................................................................ 3-13.1 General........................................................................................................... 3-13.2 Repair Note.................................................................................................... 3-13.3 Printed Circuitboard Numbering Convention................................................. 3-13.4 Recommended Test Equipment List............................................................... 3-13.5 Standard Factory Settings and Jumper Configuration.................................... 3-23.5.1 MT-3 Transmitter Board Factory Configuration................................ 3-23.5.2 MT-3 Audio Processor Factory Configuration .................................. 3-33.6 MT-3 Transmitter Board Alignment............................................................... 3-43.6.1 General............................................................................................... 3-43.6.2 MT-3 Transmitter Board Test Points ................................................. 3-53.7 Module Installation and Removal................................................................... 3-53.8 MT-3 Audio Processor Alignment................................................................. 3-63.8.1 General............................................................................................... 3-63.8.2 MT-3 Audio Processor Standard Deviation Adjustment .................... 3-63.9 Standard Factory Settings and Jumper Configuration.................................... 3-83.9.1 MT-3 Audio Processor Factory Configuration (Version 1.8) ............ 3-83.10 MT-3 Audio Processor Alignment (Version 1.8)........................................... 3-103.10.1 General............................................................................................... 3-103.10.2 MT-3 Audio Processor Standard Deviation Adjustment .................... 3-103.11 Low Frequency Modulation Configuration.................................................... 3-113.11.1 MT-3 Transmitters............................................................................. 3-113.11.2 MT-3 Transmitter Audio Processors.................................................. 3-123.11.3 Synthesizer and Crystal Controlled Oscillator.................................... 3-133.11.4 Tuning the Transmitter....................................................................... 3-144 TRANSMITTER INTERCONNECT PIN DEFINITIONS ....................................... 4-15 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS.............................................. 5-15.1 Transmitter Block Diagram............................................................................ 5-15.2 Transmitter Main Board Electrical Assembly................................................. 5-3
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual v5.2.1 Transmitter Main Board Top Side Component Layout ...................... 5-35.2.2 Transmitter Main Board Bottom Side Component Layout................. 5-45.2.3 Transmitter Main Board Schematic Diagram ..................................... 5-55.3 Front Panel Board.......................................................................................... 5-65.3.1 Front Panel Board Component Layout............................................... 5-65.3.2 Front Panel Board Schematic............................................................. 5-75.4 Audio Processor Electrical Assembly (Version 1.6)....................................... 5-85.4.1 Audio Processor Component Layout ................................................. 5-85.4.2 Audio Processor Schematic Diagram................................................. 5-95.5 Audio Processor Electrical Assembly (Version 1.8)....................................... 5-105.5.1 Audio Processor Component Layout ................................................. 5-105.5.2 Audio Processor Schematic Diagram................................................. 5-115.5.3 TX Time-Out-Timer Electrical Assembly........................................... 5-125.5.3.1 TX Time-Out-Timer Component Layout................................ 5-125.5.3.2 TX Time-Out-Timer Schematic Diagram ............................... 5-126 PARTS LISTS............................................................................................................. 6-16.1 Transmitter Main Board Parts List................................................................. 6-16.1.1 Transmitter Main Board Electrical Parts List...................................... 6-16.1.2 Transmitter Main Board Mechanical Parts List.................................. 6-36.1.3 MT-3 Front Panel Board Electrical Parts List .................................... 6-46.2 MT-3 Audio Processor Parts List (Version 1.7) ............................................ 6-46.2.1 MT-3 Audio Processor Electrical Parts List (Version 1.6)................. 6-46.3 MT-3 Audio Processor Parts List (Version 1.8) ............................................ 6-66.3.1 MT-3 Audio Processor Electrical Parts List (Version 1.8)................. 6-67 REVISION HISTORY................................................................................................ 7-1
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DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 1-11 GENERAL1.1 IntroductionThe MT-3 Transmitter Main Board integrates the  MT-3 Front Panel Board, MT-3 AudioProcessor, Synthesizer or Crystal Controlled Oscillator module, and Amplifier module together tocomprise a MT-3 series transmitter (see section 5.1: MT-3 Transmitter Block Diagram). The FrontPanel Board and the Audio Processor are soldered directly to the Transmitter Main Board while theAmplifier and the Synthesizer or Crystal Controlled Oscillator module are frequency band sensitive,plug-in modules. Circuitry and jumpers on the Transmitter Main Board control the operation of themodules as well as the overall operation of the MT-3 transmitter. Power and signal connections aremade through the 48 pin type 'F' connector on the rear of the Transmitter Main Board where theyare then routed to the other MT-3 modules.  The  front and rear panels are attached to theTransmitter Main Board and together with the extruded aluminum shell,  form  the transmitterenclosure.1.2 Performance Specifications1.2.1 GeneralType: MT-3  Series TransmitterCompatibility: MT-3 Series Amplifier, OC-3 Crystal Controlled Oscillatormodule, OS-3 and OS-3H Frequency Synthesizer modules.Modulation: 11K0F3E or 16K0F3E (Frequency Modulation).Operating Temperature Range: -30˚C to +60˚C, optional -40˚C to +60˚C temperature test.Operating Humidity: 95% RH (non-condensing) at +25°C.Operating Voltage: +9.5 Vdc Regulated.  +13.8 Vdc Nominal (11 - 16 Vdc).Front Panel Controls: NORM (repeat mode), OFF, and KEY TX (Tx on).PTT Activation: • Active to ground with or without time-out-timer;• Microphone activated with or without time-out-timer;• Front Panel switch: KEY TX - without time-out-timer;• NORM - with or without time-out-timer.• Isolated (optional relay) with or without time-out-timer.PTT Time-Out-Timer: Selectable from 1 sec. to 8 hrs. (Factory Default: 5 min.).
DE DANIELSELECTRONICS1-2 Transmitter Main Board Instruction Manual1.2.2 Audio SpecificationsAudio Input: Balanced 600 ohm or unbalanced (optional).Input level sensitivity, -25 dBm to 0 dBm.Audio Response: Pre-emphasis (6 dB per octave); +0.5 to -2.0 dBfrom 300 Hz to 3 kHz;Flat Audio Response: +1 to -1 dB from 100 Hz to 3 kHz.Audio Deviation: Preset to ±1.5 kHz (Narrow Band) or ±3.0 kHz (Wide Band)with a 1 kHz tone (capable ±2.5 kHz or ±5.0 kHz).Subtone Audio Input 1: 0.5 Vpp at 200 Hz for ±500 Hz deviation(internally adjustable).Subtone Audio Input 1 Frequency range: 60 Hz to 300 Hz.Subtone Audio Input 2: 0.5 Vpp at 100 Hz for ±500 Hz deviation(internally adjustable).Subtone Audio Input 2 Frequency range: DC to 150 Hz.Direct Modulation Input: 0.5 Vrms at 1 kHz or ±3 kHz deviation.Direct Modulation Frequency range: DC to 5 kHz.
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 2-12 THEORY OF OPERATION2.1 Transmitter Main Board2.1.1 General
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-13 TRANSMITTER ALIGNMENT3.1 GeneralTransmitter alignment is simplified by using an M-3 Subrack, SM-3 System Monitor, and RFextender cable to provide transmitter power and signal interconnection.  Alternatively, +9.5  Vdc and+13.8 Vdc  may be applied directly to a transmitter module through positive connection for the+9.5 Vdc to pins B6 and Z6, for the +13.8 Vdc to pins B2 and Z2, and negative connection to pinsB30, Z30, B32, and Z32.  Transmitter balanced audio (600 Ω) is available at pins B18 and Z18.3.2 Repair NoteMT-3  Transmitter modules are mainly made up of surface mount devices which should not beremoved or replaced using an ordinary soldering iron.  Removal and replacement of surface mountcomponents should be performed only with specifically designed surface mount rework and repairstations complete with ElectroStatic Dissipative (ESD) protection.When removing Surface Mount Solder Jumpers, it is recommended to use solder braid in place ofmanual vacuum type desoldering tools when removing jumpers.  This will help prevent damage tothe circuitboards.3.3 Printed Circuitboard Numbering ConventionTo ease troubleshooting and maintenance procedures, Daniels Electronics Limited  has adopted aprinted circuitboard (PCB) numbering convention in which the last two digits of the circuitboardnumber represent the circuitboard version.  For example:• PCB number 43-912010 indicates circuitboard version 1.0;• PCB number 50002-02 indicates circuitboard version 2.0.All PCB's manufactured by Daniels Electronics are identified by one of the above conventions.3.4 Recommended Test Equipment ListAlignment of the complete transmitter requires the following test equipment or its equivalent. It isassumed that any adjustment of the Transmitter Main Board will also involve the other modules.Dual Power Supply: Regulated +9.5 Vdc at 2 A.Regulated +13.8 Vdc at 2 A  - Topward TPS-4000Oscilloscope / Multimeter: Fluke 97 ScopemeterCurrent Meter: Fluke 75 multimeter
DE DANIELSELECTRONICS3-2 Transmitter Main Board Instruction ManualRadio communications test set : Marconi Instruments 2955RVSWR 3:1 mismatch load: JFW  50T-035-3.0:1Alignment Tool: Johanson 4192It is recommended that the radio communications test set be frequency locked to an externalreference (WWVH, GPS, Loran C) so that the high stability oscillator may be accurately set towithin its ±1 ppm frequency tolerance.3.5 Standard Factory Settings and Jumper ConfigurationStandard factory settings and the associated jumper configuration for  each module of the MT-3series transmitter  are given below.3.5.1 MT-3 Transmitter Board Factory ConfigurationThe MT-3 Transmitter Main Board is factory configured as follows:• Transmitter standby mode 1 (lowest standby current consumption).• Receiver squelched, de-emphasized audio amplifier disabled.• Optional relay not installed.• Separate amplifier power sense outputs.The corresponding jumper settings are:• Jumper J2: 'x' position Optional relay configuration• Jumper J3: no connection Optional relay configuration• Jumper J4: 'y' position Optional relay configuration• Jumper J6: not installed Transmitter standby mode select - Mode 1• Jumper J7: 'y' position Audio processor standby mode select• Jumper J9: not installed Receiver audio ac/dc input coupling• Jumper J12: not installed Amplifier power sense output configuration• Jumper J13: 'x' position Amplifier power sense output configuration• Jumper J14: 'x' position Amplifier power sense output configuration• Jumper J15: 'x' position Amplifier power sense output configuration• Jumper J16: 'x' position Microphone configuration• Jumper J17: installed Microphone output line• Jumper J18: 'y' position Synthesizer or crystal module standby mode select• Jumper J19: 'x' position 600Ω audio transformer enable. 'y' position disables• Jumper J20: 'x' position 600Ω audio transformer enable. 'y' position disables• Jumper J21: not installed +8 Vdc audio processor supply bypass• Jumper J22: 'x' position 600Ω audio transformer enable. 'y' position disables• Jumper J23: 'x' position 600Ω audio transformer enable. 'y' position disables• Jumper J24: installed Subtone #2 output enable• Jumper J25: 'x' position Audio output enable
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-3• Jumper J26: installed Time-Out-Timer Timing resistor select.• Jumper J27: not installed Time-Out-Timer Timing resistor select.• Jumper J28: not installed Time-Out-Timer Timing period output select.• Jumper J29: installed Time-Out-Timer Timing period output select.• Jumper J31: installed Time-Out-Timer Timing period output select.• Jumper J32: not installed Time-Out-Timer Timing period output select.• Jumper J33: installed Time-Out-Timer input enable• Jumper J34: installed Time-Out-Timer power enable• Jumper J35: installed Time-Out-Timer output enableNote: Jumpers J1, J5, J8, J10, J11 designations not used3.5.2 MT-3 Audio Processor Factory Configuration (Version 1.6)The MT-3 Audio Processor is factory configured as follows:• Maximum Deviation: ±2.5 kHz (12.5 kHz or 15 kHz channel),±5.0 kHz (25 kHz or 30 kHz channel).• Microphone Input: 1 kHz signal at -10 dBm gives ±50% maximum deviation,1 kHz signal compression set at ±60% maximum deviation.• Audio Balanced Input: Enabled - pre-emphasis response,1 kHz tone at -8 dBm gives ±60% maximum deviation.1 kHz signal compression set at ±60% maximum deviation.• Subtone Input 1: 100 Hz tone at -18 dBm gives ±500 Hz deviation.• All other audio inputs:Disabled.• Time-Out-Timer: 5 minutes ± 30 seconds.The corresponding Audio Processor jumper settings are:• Jumper JU1: not installed Power source select for Direct Modulation circuits.• Jumper JU2: not installed MT-2 deviation enable (MT-2 transmitters).• Jumper JU3: installed Microphone preamplifier power enable.• Jumper JU4: installed Balanced audio preamplifier power enable.• Jumper JU5: not installed Balanced audio ground enable.• Jumper JU6: installed Processed audio path enable (limited and filtered).• Jumper JU7: not installed Unprocessed auxiliary audio path enable (unfiltered).• Jumper JU8: not installed Audio output DC coupled (MT-2 transmitters).• Jumper JU9: installed Balanced input preemphasis response enable.• Jumper JU10: not installed Balanced input flat audio response enable.
DE DANIELSELECTRONICS3-4 Transmitter Main Board Instruction Manual• Jumper JU11: not installed Balanced input to auxiliary audio circuit enable.• Jumper JU12: not installed Tone/Digital input to auxiliary audio circuit enable.• Jumper JU13: not installed Direct modulation input to auxiliary audio circuit  enable.• Jumper JU14: not installed Auxiliary input preemphasis response enable.• Jumper JU15: not installed Auxiliary input flat audio response enable.• Jumper JU16: not installed Subtone input 2 audio path select.• Jumper JU17: installed MT-2 Temperature compensation bypass.• Jumper JU18: not installed Continuous data mode selection.• Jumper JU19: 'y'position Power source for audio switches.• Jumper JU20 to JU22:    not used• Jumper JU23: not installed Direct modulation input to subtone 2 enable.• Jumper JU24: installed Lowpass filter response select.• Jumper JU25: installed Lowpass filter response select.• Jumper JU26: installed Lowpass filter response select.• Jumper JU27: not installed Direct Modulation input audio path select.• Jumper JU28: not installed Amplified direct modulation bypass.• Jumper JU29: not installed Amplified direct modulation input DC couple enable.• Jumper JU30: not installed Amplified direct modulation audio path select.• Jumper JU31: not installed Subtone 2, AC coupled,to direct modulation output enable.• Jumper JU32: not installed Audio output AC coupled (MT-3 crystal transmitters).• Jumper JU33: not installed Audio output AC coupled (MT-3 synthesized transmitters).• Jumper JU34: not installed Audio output from Direct Modulation circuits select.• Jumper JU35: not installed Direct Modulation output source select.• Jumper JU36: 'x' position Subtone input 1 audio path select.• Jumper JU37: not installed Summed Subtone audio to direct modulation output enable• Jumper JU38: not installed Subtone 2, DC coupled, to direct modulation output select.• Jumper JU39: not installed Direct Modulation low input impedance enable.3.6 MT-3 Transmitter Board Alignment3.6.1 GeneralBefore proceeding with the transmitter alignment, check that the appropriate jumpers are installed.The standard jumper configuration for  the Transmitter Main  Board, given in section 3.5.1, isnormally employed for transmitter alignment.  In a standard configuration, the  only alignmentrequired on the MT-3 Transmitter Main Board for a synthesized transmitter is to set the frequencyswitches (FSW1, FSW2, FSW3, and  FSW4) for the  desired channel frequency.  FSW1 is themost significant digit of the frequency switches.  The switch settings for the  desired channelfrequency can be found in the channel designation tables.  If the transmitter is using a crystalcontrol oscillator module, the switch settings are irrelevant.
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-53.6.2 MT-3 Transmitter Board Test PointsTP1: squelched, de-emphasized audio / +13.8 VdcTP2: microphone audioTP3: microphone PTT WTO; inactive +9.5 Vdc, active 0 VdcTP4: microphone PTT NTO; inactive +9.5 Vdc, active 0 VdcTP5: +9.5 Vdc from backplane connectorTP6: +9.5 Vdc from front panel boardTP7: +9.5 Vdc SwitchedTP8: Qualified PTT; inactive +9.5 Vdc, active 0 Vdc: activated by synthesizerTP9: synthesizer enable; selected by J18TP10: synthesizer bootstrap line; +5 VdcTP11: synthesizer PTT input; inactive +9.5 Vdc, active 0 VdcTP12: audio processor TOT input; inactive +9.5 Vdc, active 0 VdcTP13: audio processor TOT output; inactive +9.5 Vdc, active 0 VdcTP14: audio processor audio outputTP15: audio processor audio control lineTP16: audio processor subtone #2 outputTP17: audio processor direct modulation inputTP18: audio processor subtone #2 inputTP19: audio processor continuous +9.5 VdcTP20: audio processor subtone #1 inputTP21: audio processor supply +8 Vdc, selected by J7TP22: audio processor tone/digital inputTP23: synthesizer receive data line; 0 VdcTP24: synthesizer transmit data line; +5 VdcTP25: Q1 collector; inactive 0 Vdc, active +9.5 VdcTP26: U2d output; inactive +9.5 Vdc, active 0 VdcTP27: U1a output (PTT WTO); inactive +9.5 Vdc, active 0 VdcTP28: U1b output (PTT NTO); inactive +9.5 Vdc, active 0 VdcTP29: Q6 collector / Q7 gate; inactive +9.5 Vdc, active 0 VdcTP30: +9.5 Vdc PTT SwitchedTP31: U8 pin 1, Time-Out-Timer circuitry set inputTP32: U8 pin 2, Time-Out-Timer circuitry reset inputTP33: Audio processor balanced audio inputTP34: Audio processor balanced audio input3.7 Module Installation and RemovalInstallation of the Enhanced Synthesizer or Crystal Controlled Oscillator module is facilitated byalignment  pins on each  corner of the module.  When  the  four pins are aligned with theircorresponding hole in the Transmitter Main Board, push the module down, taking care to ensure theconnector pins on the bottom of the Synthesizer or Crystal Controlled Oscillator module are notbent.
DE DANIELSELECTRONICS3-6 Transmitter Main Board Instruction ManualTo remove the Enhanced Synthesizer or Crystal Controlled Oscillator module, simply remove thecenter screw from the module lid and pull the module out.  The module should be pulled straightout so that the four alignment pins do not bend or damage the circuitboard.  The Low Power Synthesizer uses two tabs soldered to the Transmitter Main Board for mounting.No alignment pins are used.  As a result care must be taken to ensure  the connector pins on thebottom of the Synthesizer are not bent.  To install the low Power Synthesizer module, remove thetwo of the synthesizer side screws that correspond to the tabs on the Transmitter Main board andinstall the synthesizer module taking care not to bend  the  pins.  Replace the two side screws;installing them through the tabs to hold the synthesizer module in place.When removing the Low Power Synthesizer module, it is important to gently lift the synthesizermodule "straight out" in order to prevent damage to the connector  pins.  Remove the two sidescrews holding the sinthesizer module to the tabs.  Using a plastic coated lifting tool,  such as asmall screwdriver with the tip covered in heat shrink  material,  gently lift the synthesizer modulefrom the Transmitter Main Board by applying pressure in a rotating fashion about four corners ofthe synthesizer module.  Replace the two side screws.3.8 MT-3 Audio Processor Alignment (Version 1.6)3.8.1 GeneralVerify the standard factory settings for the MT-3 Audio Processor as given in section 3.5.2 beforebeginning the standard deviation  adjustment procedure.  If the transmitter's channel frequencychanges, the audio processor should be realigned to optimize the transmitter's performance.  Theschematic diagram for the audio processor is shown in section 5.4.2 and the component layout isshown in section 5.4.1.3.8.2 MT-3 Audio Processor Standard Deviation AdjustmentNote:  clockwise rotation of controls increases signal levels.1 Connect the transmitter to the radio communications test set and monitor FMdeviation,  distortion, and audio frequency.  Before adjusting the audio deviation,confirm that the transmitter RF output frequency is correct.2 Connect the 600 ohm input to the incoming audio (pins  B18,  Z18).  Set the audiofrequency to 1 kHz at the desired level of -8 dBm.3 Increase the balance level control (R31) for maximum gain.
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-74 Turn the transmitter on.5 Adjust the balance compression  level  (R38) for compression at ±60%  maximumdeviation.6 Set the audio frequency to 2.4  kHz, then adjust the deviation control (R29) formaximum deviation.7 Reset the modulating frequency to 1 kHz and re-adjust R38 for ±60%  maximumdeviation.8 Repeat steps 6 and 7 until both conditions are met.9 Vary the audio signal from 1 kHz to 3 kHz and measure the positive deviation andthen the negative deviation.  Adjust the symmetry control (R14) until the ± deviation issymmetrical.  The variation between ± deviation levels should not exceed 300 Hz overthe 1 kHz to 3 kHz range.10 Repeat steps 6 and 7 and re-adjust if necessary.11 Adjust the balanced input level control (R31) until the deviation produced by a 1 kHztone at -8 dBm falls below  ±60% maximum deviation, then adjust R31 so that thedeviation increases until compression is observed.  The deviation should be ±1.5 kHzor ±3 kHz for narrowband and wideband channels respectively.12 A 1 kHz tone at -8 dBm input level should produce ±60% maximum deviation.  If not,go back to step 4 and make  sure  the pot is set for maximum gain and repeat theprocedure.  If so, increasing the input level by +20  dBm should not increase thedeviation.  This confirms that the AGC action of preamplifier U2 is working.13 A 2.4 kHz tone at the  desired audio input level  should produce the maximumdeviation.  Increasing the input level by +20  dBm should not increase the deviation.This confirms that the limiting action of U4a and U5a is working.14 Set the audio frequency back to 1 kHz at -8 dBm output.  Confirm and record audiodistortion with the appropriate filter on the communications test set.15 Confirm  the audio frequency response by referencing all output deviationmeasurements to a 1 kHz  input tone at ±20% maximum deviation  (±500 Hz fornarrowband or ±1 kHz for wideband).16 Remove the signal to the balanced input (pins B18, Z18).
DE DANIELSELECTRONICS3-8 Transmitter Main Board Instruction Manual17 Apply a 1 kHz tone at -8 dBm to the microphone audio input.  Set the microphonecompression control (R8) to produce ±60% maximum deviation.  Reduce the signalto -10 dBm and adjust the microphone input level control (R2) for ±50% maximumdeviation.  Remove the signal.18. Apply a 100 Hz tone at -18 dBm to the subtone 1 input and adjust the subtone 1 levelcontrol (R42) to produce ±500 Hz deviation.  Remove the signal.3.9 Standard Factory Settings and Jumper ConfigurationStandard factory settings and the associated jumper configuration for the  MT-3  Audio  Processor(Version 1.8) are given below.3.9.1 MT-3 Audio Processor Factory Configuration (Version 1.8)The MT-3 Audio Processor is factory configured as follows:• Maximum Deviation: ±2.5 kHz (12.5 kHz or 15 kHz channel),±5.0 kHz (25 kHz or 30 kHz channel).• Microphone Input: 1 kHz signal at -10 dBm gives ±50% maximum deviation,1 kHz signal compression set at ±60% maximum deviation.• Audio Balanced Input: Enabled - pre-emphasis response,1 kHz tone at -8 dBm gives ±60% maximum deviation.1 kHz signal compression set at ±60% maximum deviation.• Subtone Input 1: 100 Hz tone at -18 dBm gives ±500 Hz deviation.• All other audio inputs:Disabled.• Time-Out-Timer: 5 minutes ± 30 seconds.The corresponding Audio Processor jumper settings are:• Jumper JU1: not installed Power source select for Direct Modulation circuits.• Jumper JU2: not installed MT-2 deviation enable (MT-2 transmitters).• Jumper JU3: 'y' position Microphone preamplifier flat response.• Jumper JU4: not installed Subtone input 2 audio path select.• Jumper JU5: not installed Auxiliary input enable (DC or AC coupled).• Jumper JU6: installed Processed audio path enable (limited and filtered).• Jumper JU7: not installed Unprocessed auxiliary audio path enable (unfiltered).• Jumper JU8: not installed Audio output DC coupled (MT-2 transmitters).• Jumper JU9: installed Balanced input preemphasis response enable.
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-9• Jumper JU10: not installed Balanced input flat audio response enable.• Jumper JU11: 'y' position Balanced input to auxiliary audio circuit enable.• Jumper JU12: not installed Tone/Digital input to auxiliary audio circuit enable.• Jumper JU13: not installed Direct modulation input to auxiliary audio circuit  enable.• Jumper JU14: not installed Auxiliary input preemphasis response enable.• Jumper JU15: not installed Auxiliary input flat audio response enable.• Jumper JU16: installed Subtone input 1 audio path select.• Jumper JU17: not installed MT-2 Temperature compensation bypass.• Jumper JU18: not installed Continuous data mode selection.• Jumper JU19: not installed Power source for audio switches.• Jumper JU20: not installed Power source for Q2.• Jumper JU21: not installed Power source for bilateral switch U9.• Jumper JU22: 'x' position Audio output to lowpass filter• Jumper JU23: not installed Direct modulation input to subtone 2 enable.• Jumper JU24: installed Lowpass filter response select.• Jumper JU25: installed Lowpass filter response select.• Jumper JU26: installed Lowpass filter response select.• Jumper JU27: not installed Direct modulation input audio path select.• Jumper JU28: not installed Amplified direct modulation bypass.• Jumper JU29: not installed Amplified direct modulation input DC coupled enable.• Jumper JU30: not installed Amplified direct modulation audio path select.• Jumper JU31: not installed Audio output AC coupled (MT-3 synthesized transmitters)• Jumper JU32: not installed Audio output AC coupled (MT-3 crystal transmitters).• Jumper JU33: installed Audio ouput AC coupled.• Jumper JU34: not installed Audio output from direct modulation circuits select.• Jumper JU35: not installed Direct Modulation output source select.• Jumper JU36: 'y' position Power source select for AGC Preamplifier.• Jumper JU37: not installed Direct modulation output enable.• Jumper JU38: not installed Subtone 2, DC coupled, to direct modulation output select.• Jumper JU39: not installed Direct modulation low input impedance enable.• Jumper JU40: installed Power for Microphone preamplifier enable.• Jumper JU41: not used.• Jumper JU42: not installed Processed audio path to dircet modulation output.• Jumper JU43: installed Bilateral switch U9 bypass enable.
DE DANIELSELECTRONICS3-10 Transmitter Main Board Instruction Manual3.10 MT-3 Audio Processor Alignment (Version 1.8)3.10.1GeneralVerify the standard factory settings for the MT-3 Audio Processor as given in section 3.9.1 beforebeginning the standard deviation  adjustment procedure.  If the transmitter's channel frequencychanges, the audio processor should be realigned to optimize the transmitter's performance.  Theschematic diagram for the audio processor is shown in section 5.5.2 and the component layout isshown in section 5.5.1.3.10.2MT-3 Audio Processor Standard Deviation AdjustmentNote:  clockwise rotation of controls increases signal levels.1 Connect the transmitter to the radio communications test set and monitor FMdeviation,  distortion, and audio frequency.  Before adjusting the audio deviation,confirm that the transmitter RF output frequency is correct.2 Connect the 600 ohm input to the incoming audio (pins  B18,  Z18).  Set the audiofrequency to 1 kHz at the desired level of -8 dBm.3 Increase the balance level control  (R31) so that the deviation increases  untilcompression is observed.4 Adjust the compression control pot (R38) for compression at ±60%  maximumdeviation.5 Set the audio frequency to 2.4  kHz, then adjust the deviation control  (R29) formaximum deviation.6 Reset the modulating frequency to 1 kHz and re-adjust R38 for ±60%  maximumdeviation.7 Repeat steps 4 and 6 until both conditions are met.8 Vary the audio signal from 1 kHz to 3 kHz and measure the positive deviation andthen the negative deviation.  Adjust the symmetry control (R14) until the ± deviation issymmetrical.  The variation between ± deviation levels should not exceed 300 Hz overthe 1 kHz to 3 kHz range.9 Repeat steps 4 and 6 and re-adjust if necessary.
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-1110 Adjust the balanced input level control (R31) so that the deviation increases  untilcompression is observed.  The deviation should be ±1.5 kHz or ±3 kHz fornarrowband and wideband channels respectively.11 Increase the input level (R31) by +20  dBm, it should not increase the deviation morethan maximum.  This confirms that the AGC action of preamplifier U1 is working.12 A 2.4 kHz tone at the  desired audio input level  should produce the maximumdeviation.  Increasing the input level by +20  dBm should not increase the deviation.This confirms that the limiting action of U4a and U5a is working.13 Set the audio frequency back to 1 kHz at -8 dBm output.  Confirm and record audiodistortion with the appropriate filter on the communications test set.14 Confirm  the audio frequency response by referencing all output deviationmeasurements to a 1 kHz  input tone at ±20% maximum deviation  (±500 Hz fornarrowband or ±1 kHz for wideband).  Remove the signal to the balanced input (pinsB18, Z18).15 Apply a 1 kHz tone at -8 dBm to the microphone audio input.  Set the microphonecompression control (R2) to produce ±50% maximum deviation.  Reduce the signalto -10 dBm and adjust the microphone input level control (R2) for ±50% maximumdeviation.  Remove the signal.16. Apply a 100 Hz tone at -18 dBm to the subtone 1 input and adjust the subtone 1 levelcontrol (R42) to produce ±500 Hz deviation.  Remove the signal.3.11 Low Frequency Modulation ConfigurationNote: the following information originates from Daniels Electronics document number A0361-06.3.11.1MT-3 TransmittersFor transmitters, the LTR™ or DCS signal should be applied to the  DIRECT  MODULATIONinput (pin Z28), which is also  available on the  M-3  and  SR-3 motherboards at the controlconnectors J1, P1, or J7 on pins B20 (TX A DIR MOD) and A20 (TX B DIR MOD).  The signalfrom an LTR™ or DCS  encoder should be applied through a 47k resistor to reduce theloading  effect of the DIRECT MODULATION input.  The signal should be capacitivelycoupled to avoid  pulling the transmitter frequency off  centre.  Most  LTR™ and DCS  encodermodules already have a capacitive output.  Note that the controller generating the low  frequencysignal  will  need to key the transmitter's PTT input.  Note that the  synthesizer and the audioprocessor may require modifications as described later in this document.
DE DANIELSELECTRONICS3-12 Transmitter Main Board Instruction ManualMT-3 Transmitter (board version 43-920910 through 43-920911)• J6 installed (synthesizer always powered up by +9.5V SWITCHED line).• J7 installed in 'X' position (audio processor always powered up by +9.5VSWITCHEDline).• solder a wire  from JA4-2 of main board to J51-18 of synthesizer.  This connects thesubtone output 2 to the synthesizer's phase modulation input.MT-3 Transmitter (board version 43-920912 through 43-920913)• J6 installed (synthesizer always powered up by +9.5V SWITCHED line).• J7 installed in 'X' position (audio processor always powered up by +9.5VSWITCHEDline).MT-3 Transmitter (board version 43-920914 or higher)• J6 installed (+9.5V SWITCHED line always powered).• J7 installed in 'X' position.  (audio processor always powered up by +9.5VSWITCHEDline).• J18 installed in the ''X' position (synthesizer always powered up by +9.5VSWITCHEDline).LTR™ is a Trademark of E.F. Johnson Company.3.11.2MT-3 Transmitter Audio ProcessorsMT-3 Transmitter Audio Processor (board version 43-911910 through 43-911913)• Remove R47 to avoid having too low an input impedance.• Change C40 to a 10 uF tantalum capacitor (stock code 1054-6E106M25) with the "+"polarity mark nearest to the edge of the PCB (see figure 3-1).  This allows lowfrequencies to pass.• Short pins P4-1 and P4-3 (or install J23) together with a short piece of 22 or 24 gaugesolid wire and solder (see diagram below).  This allows the DIRECT  MODULATION
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 3-13input to the transmitter to be used to gain access to the SUBTONE INPUT 2 whichconnects to the PHASE MOD IN input of a modified synthesizer.• Make sure J13 and J16 are not installed.Figure 3-1 Transmitter Audio Processor Low Frequency Modulation.REMOVE R47REPLACE WITH10 uF+SHORT TOP TWO PINSMT3TXMNM7MT-3 Transmitter Audio Processor (board version 43-911914 through 43-911916)• Install jumpers: JU38Y, JU35Y• Remove jumpers: JU27X, JU27Y, JU31, JU35X, JU37, JU38X• Short pins P4-1 and P4-3 (or install J23) together with a short piece of 22 or 24 gaugesolid wire and solder (see figure 3-1).  This allows the DIRECT MODULATION inputto the transmitter to be used to gain access to the SUBTONE INPUT 2 which connects tothe PHASE MOD IN input of a modified synthesizer.Note that the SUBTONE 2 input should not be used while this modification is in effect.  Note alsothat adjusting R44 has no effect on the deviation of the low frequency signal.MT-3 Transmitter Audio Processor (board version 43-911918)• Contact factory for configuration.3.11.3Synthesizer and Crystal Controlled OscillatorRefer to the manual for the Oscillator used in your Transmitter  for  the required Low  FrequencyModulation modifications.
DE DANIELSELECTRONICS3-14 Transmitter Main Board Instruction Manual3.11.4Tuning the TransmitterFor all MT-3 transmitters, apply a low impedance source of 20-300 Hz to the Direct Modulationinput of the transmitter (Pin Z28 of the 48 pin connector) through a 22 uF capacitor, positiveterminal connected to pin Z28.  A Marconi 2955 works well for this test.  Adjust R44 on the audioprocessor to the fully clockwise position.• Apply a 100 Hz tone at -8 dBm to the Direct Modulation input of the transmitter (Pin Z28of the 48 pin connector, and key the transmitter.  Adjust the level of the tone until adeviation of 1.5 kHz is acheived.  Note that the level required may be anwhere from -10dBm to 0 dBm depending on the type of transmitter.• Confirm that the frequency response rolls off by checking that the following deviationsare observed: (note that the deviation  will  NOT roll off at 300 Hz if an OC-3 crystaloscillator is used instead of a synthesizer).- 20 Hz tone gives about 700 Hz deviation- 100 Hz tone gives 1.5 kHz deviation- 300 Hz tone gives about 500 Hz deviation• Finally, confirm subtone 1 modulation: set-up for 100 Hz Mod with 500 Hz Dev.- Check 200 Hz Mod, Dev =     1.5 (VHF) / 2.0 kHz  (UHF)  - Check 300 Hz Mod, Dev =     1.5 (VHF) / 4.0 kHz  (UHF)
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 4-14 TRANSMITTER INTERCONNECT PIN DEFINITIONSThe MT-3 series Transmitter employs a 48 pin Eurostandard connector for  interfacing to alltransmitter power, audio, and control functions.  The following are the MT-3 series Transmitterbackplane connections to the M-3 Motherboard.Pin Name Pin Name Pin NameD2 No Connect B2 +13.8 Vdc Z2 +13.8 VdcD4 No Connect B4 MIC Out Z4 MIC InD6 No Connect B6 +9.5 Vdc Z6 +9.5 VdcD8 No Connect B8 Relay Positive Z8 Relay NegativeD10 No Connect B10 PTT WTO Z10 PTT WTOD12 No Connect B12 Tx Standby Z12 Tx StandbyD14 No Connect (IMC1) B14 PTT NTO Z14 PTT NTOD16 No Connect (IMC2) B16 No Connect (MT-2 +9.5V) Z16 No Connect (MT-2 +9.5V)D18 No Connect (IMC3) B18 Balanced Input 2 Z18 Balanced Input 1D20 Channel Select 0 (LSB) B20 Squelched,De-emph Audio Z20 Squelched, Flat AudioD22 Channel Select 1 B22 Subtone Input 1 Z22 Tx Audio ControlD24 Channel Select 2 B24 PTT Output Z24 Subtone Input 2D26 Channel Select 3 (MSB) B26 Forward Power Sense Z26 Reverse Power SenseD28 Synth Tx Data (Output) B28 Monitor Out Z28 Direct Mod InputD30 Synth Rx Data (Input) B30 Ground Z30 GroundD32 Synth Bootstrap (Input) B32 Ground Z32 Ground
DE DANIELSELECTRONICS4-2 Transmitter Main Board Instruction ManualThis Page Intentionally Left Blank
ELECTRONICS LTD.DANIELSTMMT-3 AM Transmitter Main Board Instruction Manual5      ILLUSTRATIONS AND SCHEMATIC DIAGRAMS          5.1    Transmitter Block Diagram5-1MT3TXMNM1D
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 6-16 PARTS LISTS6.1 Transmitter Main Board Parts List6.1.1 Transmitter Main Board Electrical Parts List
DE DANIELSELECTRONICSTransmitter Main Board Instruction Manual 7-17 REVISION HISTORYISSUE DATE REVISION1 August 97 First Issue.Sept. 97 Included PCB version 1.4 Component Layout and Schematic diagrams.2 Dec 97 Main PCB version now 1.7 (ECO 515).• BCD Switches changed from Surface Mount Part to Through Hole Part.• Audio Amplifier was removed because this option was never used.• Added Timer Out Timer circuitry to Main Tx Board.• TOT PCB no longer installed on Audio Processor.ForA21-TX3-00  TX MAIN/FP, MT-3, STANDARDA21-TX3-30   TX MAIN/FP, MT-3, + REF. INPUTTUBING, TFE-260C,14AWG T/W,CLR    7610-260C14TW18mm Long and Consummable Buss Wire 16 Awg 40mm LongNOW NOT INSTALLEDDec 97 ForA21-TX3-01  TX MAIN/FP, MT-3, WITH FUSEA21-TX3-02  TX MAIN/FP, MT-3, + DC RELAYA21-TX3-03  TX MAIN/FP, MT-3, + FUSE,RELAY• Removed Jumpers J1, J5, J8, J10, J11.• Added Jumpers J22 - J29,  J31 - J35.• Added Test Points TP28 - TP34Dec 97 Front Panel Board version now 1.2 (ECO 521).Modified MT-3 Tx Front Panel Board (FPB) to support all options on theNew Transmitter Main Board .  Also, the Front Panel Board is now easier toconfigure if new microphones (other than Daniels microphones) are  used.The new FPB can be used on the old TX-3 main - all options will function.However, the old version of FPB will NOT work with the new version TX-3Main PCB (unless you hard wire one of the microphone pins into the mainPCB (13.8V line.)Added J2 SM Jumper.  This jumper now selects Rx Audio or 13.8V to Pin4 of the Microphone.  This capability used to be selected by a jumper on theMain Tx Board.  For Normal Opertion J2 'x' position must be installedOptions - This is for future use (not used now).  Added 2x4  header landpattern to Tx Front Panel Board.  A 2x4  header can be installed to makeother microphones compatible with Daniels Transmitters.3 Nov 98 MT-3 FM Audio Processor now version 1.8The MT-3 FM Audio Processor was re-designed because the IC, XXXXX,XXXXX, SO-8 is no longer available from the supplier.  Also, the newdesign  improves the flat and 300Hz Pre-emphasis audio responses.Included PCB version 1.8 Component Layout, Schematic diagram, Parts Listand Section 2.4, 3.9 and 3.10.
DE DANIELSELECTRONICS7-2 Transmitter Main Board Instruction ManualISSUE DATE REVISION3 Nov 98 Updated the DE logo and added the statuary trademark statement to the titlepage.  Updated the Low Frequency Modulation section 3.11 to reflect the inhouse document A0361-06.
   DANIELSELECTRONICS LTD.TM    MT-3 RADIO SYSTEMS     ENHANCED AM/FM SYNTHESIZER INSTRUCTION MANUAL OS(R/T)-3(A/H)  29 - 935 MHz Preliminary  Covers models:   OST-3H035, OST-3H045, OSR-3H061 OST-3A128, OSR-3A149 OST-3H141, OST-3H162, OSR-3H141, OSR-3H162 OST-3H440, OSR-3H440 OST-3H932   Copyright © 2000 Daniels Electronics Ltd.  All rights reserved.  No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without the prior written consent of Daniels Electronics Ltd.  DE™ is a registered trademark of Daniels Electronics Ltd. registered in the United States Patent and Trademark Office.    Issue:  4 in revision  Previous Issue:   3 Issue Date:  September 2000  Previous Issue Date:  March 2000  Daniels Electronics Ltd. Printing Date: September 2000      Victoria, BC. Part No.:  IM10-OS3AH      PRINTED IN CANADA
 ii  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  Reviewed By:   Quality Assurance: Claudia Boorman      _________________ Name Signature Date         NOTE:  The user's authority to operate this equipment could be revoked through any changes or modifications not expressly approved by Daniels Electronics Ltd.  The design of this equipment is subject to change due to continuous development.  The equipment covered by this manual may incorporate minor changes in detail from the information contained in this manual.
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  iii TABLE OF CONTENTS  Page 1 GENERAL .............................................................................................................................1-1 1.1 Introduction ...................................................................................................................1-1 1.2  OS(R/T)-3(A/H) Enhanced Synthesizer Family Models ..............................................1-1 1.3 Performance Specifications...........................................................................................1-3 1.4  Printed Circuit Board Numbering Convention..............................................................1-4 2 THEORY OF OPERATION..................................................................................................2-1 2.1  Internal Power and Control (Digital Board)..................................................................2-1 2.2  Synthesizer Analog Circuitry (Analog Board)..............................................................2-1 2.2.1  Common Analog Board Circuitry.....................................................................2-1 2.2.2  29 - 71.4 MHz Analog Board Circuitry ............................................................2-3 2.2.3  118 - 159.4 MHz Multichannel AM Analog Board Circuitry ..........................2-3 2.2.4  128 - 174 MHz Analog Board Circuitry ...........................................................2-4 2.2.5  406 - 470 MHz Analog Board Circuitry ...........................................................2-5 2.2.6  928 - 935 MHz Analog Board Circuitry ...........................................................2-6 2.3  Synthesizer Digital Circuitry (Digital Board) ...............................................................2-7 2.4 Frequency Control.........................................................................................................2-7 2.4.1  BCD Switch Frequency Control .......................................................................2-7 2.4.2  Frequency Select Handle Frequency Control....................................................2-8 2.5  Synthesizer Base and Frequency Increment Table .......................................................2-8 2.6  5.0/6.25 kHz Channelization.........................................................................................2-9 2.7  8.333 kHz Channelization.............................................................................................2-9 2.8  12.5 kHz Channelization.............................................................................................2-10 3 SYNTHESIZER ALIGNMENT ............................................................................................3-1 3.1 General ..........................................................................................................................3-1 3.2 Repair Note ...................................................................................................................3-1 3.3  Recommended Test Equipment ....................................................................................3-1 3.4  OS(R/T)-3(A/H) Synthesizer Factory Configuration....................................................3-1 3.5  OS(R/T)-3(A/H) Synthesizer Alignment ......................................................................3-2 3.5.1 General ..............................................................................................................3-2 3.5.2  Synthesizer Test Points .....................................................................................3-2 3.5.3  Synthesizer Removal and Installation ...............................................................3-3 3.5.4  Circuit Board Removal......................................................................................3-3 3.5.5  Frequency Adjustment and Channel Selection .................................................3-3 3.5.5.1  VHF OS(R/T)-3H 29 - 71.4 MHz VCO Alignment ..........................3-4 3.5.5.2  VHF OS(R/T)-3A 118 - 159.4 MHz Alignment................................3-5 3.5.5.3  VHF OS(R/T)-3H 128 - 174 MHz VCO Alignment .........................3-5 3.5.5.4  UHF OS(R/T)-3H 406 - 470 MHz VCO Alignment .........................3-6 3.5.5.5  UHF OS(R/T)-3H 928 - 935 MHz VCO Alignment .........................3-6 3.5.5.6  Reference Frequency Alignment........................................................3-7 3.5.6 Jumper Configuration........................................................................................3-8 4  ILLUSTRATIONS AND SCHEMATIC DIAGRAMS.........................................................4-1
 iv  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz 4.1  OS(R/T)-3H 29 - 71.4 MHz Analog Board Diagrams..................................................4-1 4.1.1  OS(R/T)-3H 29 - 71.4 MHz Analog Board Component Layout (Bottom).......4-1 4.1.2  OS(R/T)-3H 29 - 71.4 MHz Analog Board Component Layout (Top) ............4-2 4.1.3  OS(R/T)-3H 29 - 71.4 MHz Analog Board Schematic Diagram......................4-3 4.2  OS(R/T)-3A 118 - 159.4 MHz Analog Board Diagrams ..............................................4-5 4.2.1  OS(R/T)-3A 118 - 159.4 MHz Analog Board Component Layout (Bottom)...4-5 4.2.2  OS(R/T)-3A 118 - 159.4 MHz Analog Board Component Layout (Top) ........4-6 4.2.3  OS(R/T)-3A 118 - 159.4 MHz Analog Board Schematic Diagram..................4-7 4.3  OS(R/T)-3H 128 - 174 MHz Analog Board Diagrams .................................................4-9 4.3.1  OS(R/T)-3H 128 - 174 MHz Analog Board Component Layout (Bottom)......4-9 4.3.2  OS(R/T)-3H 128 - 174 MHz Analog Board Component Layout (Top) .........4-10 4.3.3  OS(R/T)-3H 128 - 174 MHz Analog Board Schematic Diagram...................4-11 4.4  OS(R/T)-3H 406 - 470 MHz Analog Board Diagrams ...............................................4-13 4.4.1  OS(R/T)-3H 406 - 470 MHz Analog Board Component Layout (Bottom)....4-13 4.4.2  OS(R/T)-3H 406 - 470 MHz Analog Board Component Layout (Top) .........4-14 4.4.3  OS(R/T)-3H 406 - 470 MHz Analog Board Schematic Diagram...................4-15 4.5  OS(R/T)-3H 928 - 935 MHz Analog Board Diagrams ...............................................4-17 4.5.1  OS(R/T)-3H 928 - 935 MHz Analog Board Component Layout (Bottom)....4-17 4.5.2  OS(R/T)-3H 928 - 935 MHz Analog Board Component Layout (Top) .........4-18 4.5.3  OS(R/T)-3H 928 - 935 MHz Analog Board Schematic Diagram...................4-19 4.6  OS(R/T)-3(A/H) Digital Board Diagrams...................................................................4-21 4.6.1  OS(R/T)-3(A/H) Digital Board Component Layout (Bottom) .......................4-21 4.6.2  OS(R/T)-3(A/H) Digital Board Component Layout (Top).............................4-22 4.6.3  OS(R/T)-3(A/H) Digital Board Schematic Diagram ......................................4-23 5 PARTS LISTS........................................................................................................................5-1 5.1  OS(R/T)-3H 29 - 71.4 MHz Analog Board Electrical Parts List..................................5-1 5.2  OS(R/T)-3A 118 - 159.4 MHz Analog Board Electrical Parts List ..............................5-5 5.3  OS(R/T)-3H 128 - 174 MHz Analog Board Electrical Parts List .................................5-8 5.4  OS(R/T)-3H 406 - 470 MHz Analog Board Electrical Parts List ...............................5-11 5.5  OS(R/T)-3H 928 - 935 MHz Analog Board Electrical Parts List ...............................5-14 5.6  OS(R/T)-3(A/H) Digital Board Electrical Parts List...................................................5-17 5.7  OS(R/T)-3(A/H) Synthesizer Mechanical Parts List ..................................................5-18 6 REVISION HISTORY...........................................................................................................6-1
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  1-1 1 GENERAL  1.1 Introduction  The OS-3A/H Synthesizer is a compact, fully shielded and environmentally rugged frequency synthesis module that is the nucleus of every MT-3 synthesized Receiver and Transmitter radio module.  The OS-3A/H generates a high stability, low distortion radio frequency signal in one of several  frequency  bands,  including  29 - 50 MHz,  118 - 159.4 MHz,  118 - 174 MHz, 406 - 470 MHz and 928 – 935 MHz.  The OS-3A/H utilizes an internal temperature compensated 9.6 MHz reference to produce a signal stable to ±1 ppm within the temperature range of -40°C to +60°C.  Alternately, the OS-3A/H can be disciplined by an external 9.6 MHz or 10 MHz reference of higher stability.  The OS-3A/H Synthesizer Module is manufactured in thirteen distinct models which cover five primary frequency bands (see section 1.2 below).  All synthesizer modules are designed to be easily removed for programming, calibration and/or repair.  The synthesizer circuitry is distributed between two printed circuit boards (PCBs) which are isolated yet interconnected via photo-logic optical transceivers that effectively eliminate residual electrical noise between digital and analog circuitry.  Further shielding of the synthesizer’s RF filter circuitry is provided by an internal shielded enclosure.   1.2  OS(R/T)-3(A/H) Enhanced Synthesizer Family Models  The OS-3A/H Synthesizer Module is utilized in both the MT-3 Receiver and Transmitter product lines.  In MT-3 Transmitters, the OS-3A/H synthesizer provides a modulated, low-level RF signal to the Power Amplifier module.  In MT-3 Receivers, the OS-3A/H synthesizer provides a low noise local oscillator (LO) signal that either directly drives the mixer circuitry or first drives a buffer amplifier which precedes the mixer circuitry (if a higher LO drive signal is required for enhanced intermodulation capability).  There are thirteen distinct models within the OS-3A/H Enhanced Synthesizer Family.  Note that this manual provides service and operating information for all thirteen synthesizer modules.  It is extremely important to establish the correct synthesizer model number, as documentation is model-specific.  The model number can be found on the synthesizer label, located on the synthesizer module top cover.  The thirteen synthesizer models that comprise the OS-3A/H Synthesizer family are follows:  Frequency Band: 29 - 50 MHz, Common OS-3H0xx Analog Board    • OST-3H035  - installed in FM transmitter, 29 - 38 MHz RF output.   • OST-3H045  - installed in FM transmitter, 38 - 50 MHz RF output.   • OSR-3H061  - installed in FM receiver, 50.4 - 71.4 MHz RF output.
 1-2  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz Frequency Band: 118 - 159.4 MHz, AM Multichannel OS-3H1xx Analog Board    • OST-3A128  - installed in AM transmitter, 118 - 138 MHz RF output.   • OSR-3A149  - installed in AM receiver, 139.4 - 159.4 MHz RF output.  Frequency Band: 128 - 174 MHz, Common OS-3H1xx Analog Board    • OST-3H141  - installed in FM transmitter, 128 - 152.6 MHz RF output.   • OST-3H162  - installed in FM transmitter, 150 - 174 MHz RF output.   • OSR-3H141  - installed in FM receiver, 128 - 152.6 MHz RF output.   • OSR-3H162  - installed in FM receiver, 150 - 174 MHz RF output.  Frequency Band: 406 - 470 MHz, Common OS-3H4xx Analog Board    • OST-3H418  - installed in FM transmitter, 406 - 430 MHz RF output.   • OST-3H460  - installed in FM transmitter, 450 - 470 MHz RF output   • OSR-3H440  - installed in FM receiver, 427.4 - 451.4 MHz RF output.  Frequency Band: 928 - 935 MHz, Common OS-3H932 Analog Board    • OST-3H932  - installed in FM transmitter, 928 - 935 MHz RF output.  All OS-3A/H Enhanced Synthesizer Modules, regardless of the frequency band, use the same digital PCB and mechanical construction.  There are, however, significant differences between the various models when it comes to the analog PCB.  There are five different analog PCBs, designed to cover the five frequency bands of 29 - 50 MHz, 118 - 159.4 MHz, 128 - 174 MHz, 406 - 470 MHz and 928 - 935 MHz.  Each model’s specific sub-band of operation within a given frequency band is determined through SELECT components on the corresponding analog board.
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  1-3 1.3 Performance Specifications  Type: Narrow band FM, Single loop synthesizer module utilizing low noise VCO and PLL technology.  Compatible with Daniels MT-3 series Transmitter and Receiver modules.  Frequency Range: 29 MHz - 38 MHz [±0.5 MHz] (OST-3H035) (Tuning range with no adjustment  38 MHz - 50 MHz [±1.0 MHz] (OST-3H045) is shown in [ ] brackets.)  50.4 MHz - 71.4 MHz [±1.0 MHz] (OSR-3H061)  118 MHz -138 MHz [Full band] (OST-3A128)   128 MHz - 152.6 MHz [±2.0 MHz] (OST-3H141, OSR-3H141)   139.4 MHz - 159.4 MHz [Full band] (OSR-3A149)   150 MHz - 174 MHz [±2.0 MHz] (OST-3H162, OSR-3H162)   406 MHz - 430 MHz [Full band] (OST-3H418)   427.4 MHz - 451.4 MHz [Full band] (OSR-3H440)   450 MHz - 470 MHz [Full band] (OST-3H460)   928 MHz - 935 MHz [Full band] (OST-3H932)  Output Power:  +5 dBm ±2 dBm into 50Ω  Harmonics: <-30 dBc  Spurious: <-90 dBc   <-70 dBc above 400 MHz  Attack Time:  <10 ms (Normal Mode)   <50 ms (Low Current Standby Mode)  Hum and Noise:  -55 dB  Modulation Sensitivity:  3.0 kHz peak deviation  (400 mVrms input)  External Reference Input:  External reference input signal via SMB connector J1   Input level 0 dBm ±3 dB   Input impedance 50Ω   Input frequency 10.0 MHz or 9.6 MHz (selectable through   digital board jumper JU1)  Power Requirements:  Normal Configuration:   +9.5 Vdc @ 160 mA for FM and 65 mA for AM   Low Current Standby Mode (TCXO enabled):   +9.5 Vdc @ 14 mA for FM and 4 mA for AM
 1-4  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz 1.4  Printed Circuit Board Numbering Convention  To expedite troubleshooting and maintenance procedures, Daniels Electronics Ltd. has adopted a printed circuit board (PCB) numbering convention in which the last two digits of the circuit board number represent the circuit board version.  All PCB's manufactured by Daniels Electronics Ltd. are identified by one of the following numbering conventions:   • PCB number 43-912010  indicates circuit board version 1.0; or  • PCB number 50002-02  indicates circuit board version 2.0
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  2-1 2  THEORY OF OPERATION  2.1  Internal Power and Control (Digital Board)
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  3-1 3 SYNTHESIZER ALIGNMENT  3.1 General  OS(R/T)-3(A/H) enhanced synthesizer alignment is simplified by using a Type 84 subrack and RF extender card/cable of providing receiver or transmitter power and signal interconnection.  Alternately, +9.5 Vdc may be directly connected to a receiver or transmitter module with the positive connection on pins B6 / Z6 and the negative connection on pins B30 / Z30 / B32 / Z32.  Receiver balanced audio (600 Ω) is available at pins B26 and Z26.   3.2 Repair Note  The OS(R/T)-3(A/H) synthesizer employs a large number of surface mount components.  Removal and/or replacement of surface mount components should never be performed using an ordinary soldering iron but should only be performed at surface mount rework and repair stations equipped with Electro Static Dissipative (ESD) protection.  When removing Surface Mount Solder Jumpers, it is recommended that solder wick braid be used in lieu of vacuum type de-soldering tools to help prevent damage to the printed circuit boards.   3.3  Recommended Test Equipment  Alignment of the synthesizer requires the following test equipment, or its equivalent:    Power supply - Regulated +9.5 Vdc at 2 A. Phillips PM 2811   Oscilloscope / Multimeter - Fluke 97 Scopemeter   Radio communications test set - Marconi Instruments 2965A  It is recommended that the radio communications test set be referenced to an external high stability frequency source (WWVH, GPS, Loran C) so that the OS-3A/H internal high stability local oscillator may be accurately set to within its ±1 ppm frequency tolerance.   3.4  OS(R/T)-3(A/H) Synthesizer Factory Configuration  The OS(R/T)-3(A/H) Synthesizer is factory configured as follows:    •  Internal 9.6 MHz reference selected.   •  VCO modulation (via audio processor) enabled (OST TX versions only)
 3-2  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz The corresponding internal synthesizer jumper settings are:    Digital Board   •  Jumper JU2  not installed  9.6 MHz internal frequency reference selected   •  Jumper JU1   installed   AM Multichannel mode selected    Analog Board   •  Jumper JU1:  'B' position  Internal frequency reference selected  •  Jumper JU2   not installed   Internal frequency reference selected   3.5  OS(R/T)-3(A/H) Synthesizer Alignment  3.5.1 General  Under normal circumstances (i.e. a change in operating frequency within the synthesizer’s maximum tuning range), synthesizer alignment is accomplished with the synthesizer installed in the MT-3 Receiver IF/Audio Board or the MT-3 Transmitter Main Board.  The alignment procedure involves setting the internal TCXO reference frequency  (if one is installed and the internal reference option is enabled).  This step is described in "Reference Frequency Alignment", section 3.5.5.5.  A change in operating frequency from the initial factory setting that exceeds the synthesizer’s maximum tuning range  (Refer to Specifications section 1.3) requires a more involved alignment procedure as described in sections 3.5.2 to 3.5.5.  Conversion of a synthesizer from internal reference to external reference or vice-versa is accomplished through selection of jumper JU1 A or B, as appropriate and JU2 (Refer to section 3.5.6).   3.5.2 Synthesizer Test Points    Analog Board Component Layout (Top)   Common to all synthesizer family members.     TP1  +8.0 ±0.3 Vdc. U6 positive regulator output.   TP2  +5.0 ±0.1 Vdc. U7 positive regulator output.   TP3  +5.0 ±0.1 Vdc. U8 positive regulator output (always on).   TP4  PLL error voltage.  Normal range is +0.5 to +4.5 Vdc (depending on frequency). Nominally adjusted for +2.3 Vdc (via C24) for center channel.  UHF/VHF versions employing integrated VCO modules (OSR-3H440, OST-3H418, OST-3H460, OSR-3A149, OST-3A128, OST-3H932) require no adjustment.    Digital Board Component Layout (Bottom)     TP1  +5.0 ±0.1 Vdc.  U2 positive regulator output (controlled via pin P2-4).  TP2 Microcontroller E clock.  2 MHz logic level square wave.
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  3-3 3.5.3  Synthesizer Removal and Installation  The synthesizer module is secured to the main board (MT-3 Receiver IF/Audio Board or MT-3 Transmitter Main board) with a single counter sunk Phillips machine screw accessible from the top cover.  Remove this screw to remove the synthesizer module.  Using a plastic coated lifting tool, such as a small screwdriver with the tip covered in heat shrink material, gently lift the synthesizer module from the main circuit board by applying pressure in a rotating fashion about the four corners of the synthesizer module.  It is important to gently remove the synthesizer module "straight out" in order to prevent damage to the connector pins.  Installation of the synthesizer is performed in a reverse fashion.  It is important to ensure complete connector pin alignment prior to any application of reinsertion force.  Four corner locating pins on the synthesizer housing assist in connector pin alignment during installation and removal.  Note:  Complete synthesizer alignment can be performed without removing the synthesizer.  The alignment procedure starting in section 3.5.5 may now be performed.   3.5.4  Circuit Board Removal  Note:   Circuit board removal is not required for tuning purposes.  Using a vacuum de-soldering station, de-solder connections P1, P2 and P3.  Remove SMB connectors J1 and J2 by de-soldering the center pins and removing four M2.0 machine screws.  These connection points are shown in the "OS(R/T)-3(A/H) XXX - XXX MHz Analog Board Component Layout (Top)" diagrams.  Remove seven M2.0 machine screws and carefully remove the analog circuit board.  Removal of the analog circuit board will expose three inter-board wire connections.  Carefully remove three ferrite beads and six Teflon washers from the inter-board connection wires.  Attempt to maintain the position of the three inter-board wires in order to simplify re-assembly.  The digital board may now be extracted by removing four M2.0 machine screws.  Follow a reverse procedure to re-assemble.   3.5.5  Frequency Adjustment and Channel Selection  Connect a radio communications test set through a short section of low loss 50 Ω coaxial cable to the synthesizer module SMB RF output jack (J2).  Select the desired channel number via the BCD frequency selection switches on the MT-3 Transmitter Main board or the MT-3 Receiver IF/Audio board (or through .the Frequency Programming Module).  Turn the power off and back on and wait a few minutes for the oscillator to completely stabilize.  It should be noted that the internal synthesizer TCXO, if installed, operates continuously (regardless of the TX PTT state) when installed in a transmitter.
 3-4  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz The measured RF output signal should be within ±1.0 ppm of the specified oscillator frequency at an output level of +5 dBm.  Note that unlocked synthesizer operation will be indicated by an unstable or spurious RF output signal.  The "Unlocked" red LED will also be illuminated when the PLL is unlocked.  Check that the requested channel number is within the frequency range of the particular synthesizer model.  An unlocked condition may be rectified by adjusting the VCO tuning elements as described in the following procedures (no adjustment required for the Multichannel AM Synthesizers).  Note that there are variations in alignment procedures between the three synthesizer family members as described in the following sections.   3.5.5.1  VHF OS(R/T)-3H 29 - 71.4 MHz VCO Alignment  Refer to the "OS(R/T)-3H 29 - 71.4 MHz Analog Board Component Layout" diagrams and the "OS(R/T)-3H 29 - 71.4 MHz Analog Board Schematic Diagram" on pages 4-1, 4-2 and 4-3 of this manual.  Using a high impedance (10 MΩ) DC Voltmeter, measure the PLL control voltage at TP4 located on the synthesizer module analog board (top).  Access to TP4 is available through the synthesizer top cover.  Using a small standard blade screwdriver, carefully adjust the VCO fine frequency "TUNE" trimmer capacitor C24 until a test point (TP4) voltage of approximately +2.3 Vdc is obtained.  PLL loop control voltages below approximately +0.5 Vdc and above approximately +4.5 Vdc will indicate an "out of lock" synthesizer condition.  If a test point (TP4) reading of approximately +2.3 Vdc is unattainable through adjustment of C24, then the coarse frequency jumpers, JU2-JU4 require modification in order to pull the VCO tune range within the adjustment range of fine tuning capacitor C24.  The top synthesizer cover must be removed in order to gain access to the coarse frequency jumpers.  The coarse frequency jumpers (JU2-JU4) may be considered to be a selectable binary weighted capacitor element with JU2 being the most significant "bit" and JU4 being the least significant "bit".  The tuning resolution size is ≈12 pF (JU4).  If the tuning voltage remains higher than +2.3 Vdc, decrease the tuning jumper setting by 1 "bit" position and re-adjust C24 in an attempt to achieve +2.3 Vdc at TP4.  For example, if coarse frequency jumpers JU2-JU4 are all installed and represented by 111 then a decrease by 1 "bit" position (12 pF) is represented by a binary jumper selection of 110;  jumper JU4 is not installed and jumpers JU2, JU3 are installed.  Continue to decrease the jumper position one "bit" at a time until the synthesizer regains lock with TP4 adjusted (C24) for +2.3 Vdc.  If the tuning voltage remains lower than +2.3 Vdc, increase the jumper setting by 1 "bit" position and re-adjust C24 in an attempt to achieve +2.3 Vdc at TP4.  Repeat this procedure until +2.3 Vdc is achieved at TP4.  It is important to check the loop control voltage at TP4 when multiple synthesizer channels have been programmed.  All channel selections should result in a TP4 voltage within a +1.0 to +4.0 Vdc  range.  Adjust the fine-tuning capacitor C24 to center multiple channel voltages symmetrically about +2.3 Vdc.  Channel selections beyond the tuning range capability of the
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  3-5 synthesizer will result in unlocked operation.  The tuning range capability of all synthesizer models is listed in the Specifications section (1.3) of this manual.  3.5.5.2  VHF OS(R/T)-3A 118 - 159.4 MHz Alignment  Refer to the "OS(R/T)-3A 118 - 159.4 MHz Analog Board Component Layout" diagram and the "OS(R/T)-3A 118 - 159.4 MHz Analog Board Schematic Diagram" on pages 4-5, 4-6 and 4-7 of this manual.  Using a high impedance (10 MΩ) DC Voltmeter, measure the PLL control voltage at TP4 located on the synthesizer module analog board (top).  Access to TP4 is available through the synthesizer top cover.   VHF synthesizers operating in the 118 - 159.4 MHz frequency range require no frequency adjustment as tuning is microprocessor controlled.  (The OST-3A128 and OSR-3A149, covering 118-138 MHz and 139.4 - 159.4 MHz respectively, provide full band coverage without tuning adjustment.)  All channel selections should result in a TP4 voltage between +3.1 and +3.5 Vdc.  Channel selections beyond the tuning range capability of the synthesizer will result in unlocked operation over the temperature range -40C to +60C.  The tuning range capability of all synthesizer models is listed in the Specifications section of this manual.   3.5.5.3  VHF OS(R/T)-3H 128 - 174 MHz VCO Alignment  Refer to the "OS(R/T)-3H  128 - 174 MHz Analog  Board Component  Layout" diagram and the "OS(R/T)-3H 128 - 174 MHz Analog Board Schematic Diagram" on pages 4-9, 4-10 and 4-11 of this manual.  Using a high impedance (10 MΩ) DC Voltmeter, measure the PLL control voltage at TP4 located on the synthesizer module analog board (top).  Access to TP4 is available through the synthesizer top cover.  Using a small standard blade screwdriver, carefully adjust the VCO fine frequency "TUNE" trimmer capacitor C24 until a test point (TP4) voltage of approximately +2.3 Vdc is obtained.  Measured PLL loop control voltages below approximately +0.5 Vdc and above approximately +4.5 Vdc will indicate an "out of lock" synthesizer condition.  It is important to check the loop control voltage at TP4 when multiple synthesizer channels have been programmed.  All channel selections should result in a TP4 voltage within the +1.0 to +4.0 Vdc range.  Adjust the fine-tuning capacitor C24 to center multiple channel voltages symmetrically about +2.3 Vdc. Channel selections beyond the tuning range capability of the synthesizer will result in unlocked operation.  The tuning range capability of all synthesizer models is listed in the Specifications section of this manual.
 3-6  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz 3.5.5.4  UHF OS(R/T)-3H 406 - 470 MHz VCO Alignment  Refer to the "OS(R/T)-3H  406 - 470 MHz Analog  Board Component  Layout" diagram and the "OS(R/T)-3H 406 - 470 MHz Analog Board Schematic Diagram" on pages 4-13, 4-14 and 4-15 of this manual. Using a high impedance (10 MΩ) DC Voltmeter, measure the PLL control voltage at TP4 located on the synthesizer module analog board (top).  Access to TP4 is available through the synthesizer top cover.  The UHF synthesizers operating in the 406 - 470 MHz frequency range employ integrated VCO modules having no external frequency adjustment capability.  The OST-3H418, OST-3H460 and OSR-3H440 models cover frequencies from 406 - 430 MHz, 450 - 470 MHz and 427.4 - 451.4 MHz respectively and provide full band coverage without tuning adjustment.  For the OST-3H418, measured PLL control voltages below approximately +0.5 Vdc and above approximately +4.5 Vdc will indicate an “out of lock” condition.  For the OSR-3H440 and the OST-3H460, measured PLL control voltages below approximately +1.0 Vdc and above approximately +7.0 Vdc will indicate an “out of lock” condition.  It is important to check the loop control voltage at TP4 when multiple synthesizer channels have been programmed.  All channel selections should result in a TP4 voltage within the +0.5 to +4.5 Vdc range for the OST-3H418.  The TP4 voltage for the OSR-3H440 and the OST-3H460 should be within the +1.0 to +7.0 Vdc range.  Channel selections beyond the tuning range capability of the synthesizer will result in unlocked operation.  The tuning range capability of all synthesizer models is listed in the Specifications section of this manual.   3.5.5.5  UHF OS(R/T)-3H 928 - 935 MHz VCO Alignment  Refer to the "OS(R/T)-3H 928 -935 MHz Analog Board Component Layout" diagram and the "OS(R/T)-3H 928 - 935 MHz Analog Board Schematic Diagram" on pages 4-17, 4-18 and 4-19 of this manual. Using a high impedance (10 MΩ) DC Voltmeter, measure the PLL control voltage at TP4 located on the synthesizer module analog board (top).  Access to TP4 is available through the synthesizer top cover.  The UHF synthesizers operating in the 928 - 935 MHz frequency range employ integrated VCO modules having no external frequency adjustment capability.  The OST-3H932 model covers frequencies from 928 - 935 MHz and provides full band coverage without tuning adjustment.  For the OST-3H932, measured PLL control voltages below approximately +0.5 Vdc and above approximately +4.5 Vdc will indicate an “out of lock” condition.    It is important to check the loop control voltage at TP4 when multiple synthesizer channels have been programmed.  All channel selections should result in a TP4 voltage within the +0.5 to +4.5 Vdc range for the OST-3H932.  Channel selections beyond the tuning range capability of
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  3-7 the synthesizer will result in unlocked operation.  The tuning range capability of all synthesizer models is listed in the Specifications section of this manual.   3.5.5.6 Reference Frequency Alignment  Adjust the synthesizer TCXO fine frequency potentiometer RV1 until the correct output frequency is achieved.  Access to this potentiometer is through an opening in the synthesizer top cover.  A RF power level of approximately +5 dBm should be measured at the synthesizer module output connector and the frequency should be within ±1 ppm of the desired operating frequency.  Reference frequency adjustments should be made at room temperature (+25°C) after a ten minute stabilization period.
 3-8  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz 3.5.6 Jumper Configuration  Solder jumpers are clearly marked on both synthesizer digital and analog circuit boards.  Refer to the "OS(R/T)-3(A/H) Digital Board Component Layout (Bottom)" diagram on page 4-20 of this manual and the applicable "OS(R/T)-3(A/H) Analog Board Component Layout (Top)" diagram on page 4-21 for jumper locations.  The following list details the required jumper configuration for the two synthesizer operating modes: 1) Internal reference.  Install jumper JU1-B, on the Analog Board (Standard).  The internal temperature compensated crystal oscillator (TCXO) provides the reference signal with a stability of ±1 ppm from -30°C (Optional -40°C) to +60°C. 2)  External reference input.  Install jumper JU1-A and JU2 on the Analog Board.  This mode is used in applications requiring better than ±1 ppm frequency stability.  An external reference signal must be provided at synthesizer SMB connector J1. 3) Reference Frequency Select.  Install jumper JU2 on the Digital Board to select a 10.0 MHz reference frequency.  When not installed, the reference frequency is by default 9.6 MHz.  JU2 must not be installed when using the internal 9.6 MHz TCXO reference.  JU2 is used by the microcontroller to establish the correct reference frequency division ratio.  (Located on the Digital Board; The Synthesizer module must be removed to change jumper JU2.) 4)  AM Multichannel Synthesizer Select.  Install jumper JU1 on the Digital Board to select  and enable the AM Multichannel Synthesizer with Frequency Select Handle.  Caution:  Care must be exercised when reinstalling the synthesizer module on the Transmitter Main board or the IF/Audio board.  Pay careful attention to pin alignment before pressing the synthesizer module into its mating sockets.
DE DANIELSELECTRONICSEnhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz 4-14             ILLUSTRATIONS AND SCHEMATIC DIAGRAMS4.1          OS(R/T)-3H 29 - 71.4 MHz Analog Board Diagrams4.1.1      OS(R/T)-3H 29 - 71.4 MHz Analog Board Component Layout (Bottom)
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  5-1 5 PARTS LISTS  5.1  OS(R/T)-3H 29 - 71.4 MHz Analog Board Electrical Parts List
 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz  6-1  6 REVISION HISTORY  ISSUE DATE  REVISION    1  May 97  •  Issue 1  2  Mar 98  •  Changes to the AM Analog board (OST-3A128) to improve performance.  ECO #547.       C37 was 220nF is now 100nF and C40 was 8.2pF is now not installed       C45 was 33nF is now 22nF and C49 was 2.2nF is now 1.5nF       R32 was 33kΩ is now 56kΩand R36 was 3k3Ω is now 5k6Ω  3  Mar 00  •  Changes to the AM Analog board to improve performance at  -40˚C.  ECO #565.       L4 was 1.5µH is now 3.9 µH      •  Changes to the FM Analog boards to improve manufacturing. ECO #572       C32 & C33 were 100µF through hole tantalums are now 100µF surface mount tantalums      •  Changes to the OS-3A/H Digital board for compatibility with the new AM wideband Synthesizers. ECO #579.       Added C15 (10µF) and R41 (221kΩ).       JU1 was added and is installed for AM modules only.       PCB, DIGITAL, OS-3H/P SYNTH was version 2 now version 3.      •  Added the new component layouts, schematic diagram and parts lists for the new AM wideband synthesizer. Wideband referring to only having to be tune once and working over the whole AM band (118-138 MHz).  4  May 00  •  Changes to the OS-3H 128-174 MHz Analog board. ECO #603.       R29 was 18k2 is now 3k92, U10 was MC145191 is now MC145193.         •  Changes to the OSR-3H 128-174 MHz Analog board. ECO #609.       R22 was 100R is now 0R0.      •  Changes to the OS-3A 118-159.4 Analog board. ECO #601.       R42 & R53 were 137kΩ are now 100kΩ.    Jul 00  •  Corrected the SELECT table on the OS(R/T)-3H 128-174 MHz Schematic diagram (section 4.3.3).
 6-2  Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 935 MHz ISSUE DATE  REVISION    4  Aug 00  •  Changes to the OS(R/T)-3(A/H) Digital board. ECO #599.       R30, R31 & R32 were 332R are now 215R.      •  Changes to the OS-3H 406-470 MHz Analog board. ECO # 597.       R48 was 27R4 is now 47R5, R49 was 33R2 is now 10R.       R52 was 49R9 is now Not Installed.    Oct 00  •  Added the TBA part numbers for U1- U4 & U18 on the OS-3A 118-159.4 MHz Analog Board.    Dec 00  •  Changes to the OS-3H 29-71.4 MHz Analog Board. ECO #631       R22 eas 475R is now 1k00.    Jan 01  •  Change to the OS-3A 118-159.4 MHz Analog Board. ECO #589.       R31 was 100R is now 49R9     •  Changes to the OST-3A128 Analog Board.       C35 was 5.6pF is now 3.3pF and R40 was 330R is now 220R.    Feb 01  •  Corrected the confusion with D6 & D7 on the OS-3A 118-159.4 MHz Analog Board parts list.     •  Changes to the OS-3A 118-159.4 MHz Analog Board. ECO #634.       C26 was 1nF is now 3.3pF.     •  Changes to the OS-3 128 – 174 MHz Analog Board. ECO #635.       C56 was 330pF is now R42 (Select).    Apr 01  •  Changes to the OST-3H4xx Analog Board. ECO #619.       C37 – C39 were 1.0µF are now 1.5µF, C45 was 220nF is now 68nF.       C49 was 22nF now 15nF, C60 was 100nF now a zero ohm wire jumper.       R19 was 10k0 is now zero ohm jumper (Both OS(R/T)-3H4xx).       R32 was 5k6 is now 6k2 and R36 was 2k2 is now 1k2.    Jan 03  •  Updated all sections to include an extra band from 928 - 935 MHz      •  Added Schematics, CLD and Parts lists for the OST-3H932 module
    DANIELSELECTRONICS LTD.TM    MT-3 RADIO SYSTEMS       UHF TX CHANNEL DESIGNATION TABLES UT-3/935 928 - 935MHz     Covers models:  UT-3/935-SWB3, UT-3/935-SNB3       Copyright © 1998 Daniels Electronics Ltd.  All rights reserved.  No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without the prior written consent of Daniels Electronics Ltd.  DE™ is a registered trademark of Daniels Electronics Ltd. registered in the United States Patent and Trademark Office.    Issue: Preliminary Previous Issue:  - Issue Date:  New  Previous Issue Date:  -  Daniels Electronics Ltd. Printing Date:  Month Year      Victoria, BC. Part No.:  New    PRINTED IN CANADA
DEDANIELSELECTRONICSii  UHF Tx Channel Designation Tables UT-3 928 - 935 MHz  Reviewed By:   Quality Assurance: Larry Freeman      _________________ Name Signature Date          NOTE:  The user's authority to operate this equipment could be revoked through any changes or modifications not expressly approved by Daniels Electronics Ltd.  The design of this equipment is subject to change due to continuous development.  This equipment may incorporate minor changes in detail from the information contained in this manual.
DEDANIELSELECTRONICSUHF Tx Channel Designation Tables UT-3 928 - 935 MHz  iii TABLE OF CONTENTS   Page  1.  CHANNEL DESIGNATION TABLES...............................................................1-1 1.1  UT-3/935 Channel Designation Table: 928 - 935 MHz ..........................1-1 2 REVISION HISTORY.........................................................................................2-1
DEDANIELSELECTRONICSiv  UHF Tx Channel Designation Tables UT-3 928 - 935 MHz This Page Intentionally Left Blank
 DEDANIELSELECTRONICSUHF Tx Channel Designation Tables UT-3 928 - 935 MHz  1-1 1.  CHANNEL DESIGNATION TABLES 1.1  UT-3/932 Channel Designation Table: 928-935 MHz,6.25 kHz Increments  Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan.  Freq. Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num.  (MHz)  2400 928.00000  2475 928.46875  2550 928.93750  2625 929.40625  2700 929.87500  2775 930.34375  2850  930.81250 2401 0.00625 2476 0.47500 2551 0.94375 2626 0.41250 2701 0.88125 2776 0.35000 2851  0.81875 2402 0.01250 2477 0.48125 2552 0.95000 2627 0.41875 2702 0.88750 2777 0.35625 2852  0.82500 2403 0.01875 2478 0.48750 2553 0.95625 2628 0.42500 2703 0.89375 2778 0.36250 2853  0.83125 2404 0.02500 2479 0.49375 2554 0.96250 2629 0.43125 2704 0.90000 2779 0.36875 2854  0.83750 2405 0.03125 2480 928.50000 2555 0.96875 2630 0.43750 2705 0.90625 2780 0.37500 2855  0.84375 2406 0.03750 2481 0.50625 2556 0.97500 2631 0.44375 2706 0.91250 2781 0.38125 2856  0.85000 2407 0.04375 2482 0.51250 2557 0.98125 2632 0.45000 2707 0.91875 2782 0.38750 2857  0.85625 2408 0.05000 2483 0.51875 2558 0.98750 2633 0.45625 2708 0.92500 2783 0.39375 2858  0.86250 2409 0.05625 2484 0.52500 2559 0.99375 2634 0.46250 2709 0.93125 2784 0.40000 2859  0.86875 2410 0.06250 2485 0.53125 2560 929.00000 2635 0.46875 2710 0.93750 2785 0.40625 2860  0.87500 2411 0.06875 2486 0.53750 2561 0.00625 2636 0.47500 2711 0.94375 2786 0.41250 2861  0.88125 2412 0.07500 2487 0.54375 2562 0.01250 2637 0.48125 2712 0.95000 2787 0.41875 2862  0.88750 2413 0.08125 2488 0.55000 2563 0.01875 2638 0.48750 2713 0.95625 2788 0.42500 2863  0.89375 2414 0.08750 2489 0.55625 2564 0.02500 2639 0.49375 2714 0.96250 2789 0.43125 2864  0.90000 2415 0.09375 2490 0.56250 2565 0.03125 2640 929.50000 2715 0.96875 2790 0.43750 2865  0.90625 2416 0.10000 2491 0.56875 2566 0.03750 2641 0.50625 2716 0.97500 2791 0.44375 2866  0.91250 2417 0.10625 2492 0.57500 2567 0.04375 2642 0.51250 2717 0.98125 2792 0.45000 2867  0.91875 2418 0.11250 2493 0.58125 2568 0.05000 2643 0.51875 2718 0.98750 2793 0.45625 2868  0.92500 2419 0.11875 2494 0.58750 2569 0.05625 2644 0.52500 2719 0.99375 2794 0.46250 2869  0.93125 2420 0.12500 2495 0.59375 2570 0.06250 2645 0.53125 2720 930.00000 2795 0.46875 2870  0.93750 2421 0.13125 2496 0.60000 2571 0.06875 2646 0.53750 2721 0.00625 2796 0.47500 2871  0.94375 2422 0.13750 2497 0.60625 2572 0.07500 2647 0.54375 2722 0.01250 2797 0.48125 2872  0.95000 2423 0.14375 2498 0.61250 2573 0.08125 2648 0.55000 2723 0.01875 2798 0.48750 2873  0.95625 2424 0.15000 2499 0.61875 2574 0.08750 2649 0.55625 2724 0.02500 2799 0.49375 2874  0.96250 2425 0.15625 2500 0.62500 2575 0.09375 2650 0.56250 2725 0.03125 2800 930.50000 2875  0.96875 2426 0.16250 2501 0.63125 2576 0.10000 2651 0.56875 2726 0.03750 2801 0.50625 2876  0.97500 2427 0.16875 2502 0.63750 2577 0.10625 2652 0.57500 2727 0.04375 2802 0.51250 2877  0.98125 2428 0.17500 2503 0.64375 2578 0.11250 2653 0.58125 2728 0.05000 2803 0.51875 2878  0.98750 2429 0.18125 2504 0.65000 2579 0.11875 2654 0.58750 2729 0.05625 2804 0.52500 2879  0.99375 2430 0.18750 2505 0.65625 2580 0.12500 2655 0.59375 2730 0.06250 2805 0.53125 2880 931.00000 2431 0.19375 2506 0.66250 2581 0.13125 2656 0.60000 2731 0.06875 2806 0.53750 2881  0.00625 2432 0.20000 2507 0.66875 2582 0.13750 2657 0.60625 2732 0.07500 2807 0.54375 2882  0.01250 2433 0.20625 2508 0.67500 2583 0.14375 2658 0.61250 2733 0.08125 2808 0.55000 2883  0.01875 2434 0.21250 2509 0.68125 2584 0.15000 2659 0.61875 2734 0.08750 2809 0.55625 2884  0.02500 2435 0.21875 2510 0.68750 2585 0.15625 2660 0.62500 2735 0.09375 2810 0.56250 2885  0.03125 2436 0.22500 2511 0.69375 2586 0.16250 2661 0.63125 2736 0.10000 2811 0.56875 2886  0.03750 2437 0.23125 2512 0.70000 2587 0.16875 2662 0.63750 2737 0.10625 2812 0.57500 2887  0.04375 2438 0.23750 2513 0.70625 2588 0.17500 2663 0.64375 2738 0.11250 2813 0.58125 2888  0.05000 2439 0.24375 2514 0.71250 2589 0.18125 2664 0.65000 2739 0.11875 2814 0.58750 2889  0.05625 2440 928.25000 2515 0.71875 2590 0.18750 2665 0.65625 2740 0.12500 2815 0.59375 2890  0.06250 2441 0.25625 2516 0.72500 2591 0.19375 2666 0.66250 2741 0.13125 2816 0.60000 2891  0.06875 2442 0.26250 2517 0.73125 2592 0.20000 2667 0.66875 2742 0.13750 2817 0.60625 2892  0.07500 2443 0.26875 2518 0.73750 2593 0.20625 2668 0.67500 2743 0.14375 2818 0.61250 2893  0.08125 2444 0.27500 2519 0.74375 2594 0.21250 2669 0.68125 2744 0.15000 2819 0.61875 2894  0.08750 2445 0.28125 2520 928.75000 2595 0.21875 2670 0.68750 2745 0.15625 2820 0.62500 2895  0.09375 2446 0.28750 2521 0.75625 2596 0.22500 2671 0.69375 2746 0.16250 2821 0.63125 2896  0.10000 2447 0.29375 2522 0.76250 2597 0.23125 2672 0.70000 2747 0.16875 2822 0.63750 2897  0.10625 2448 0.30000 2523 0.76875 2598 0.23750 2673 0.70625 2748 0.17500 2823 0.64375 2898  0.11250 2449 0.30625 2524 0.77500 2599 0.24375 2674 0.71250 2749 0.18125 2824 0.65000 2899  0.11875 2450 0.31250 2525 0.78125 2600 929.25000 2675 0.71875 2750 0.18750 2825 0.65625 2900  0.12500 2451 0.31875 2526 0.78750 2601 0.25625 2676 0.72500 2751 0.19375 2826 0.66250 2901  0.13125 2452 0.32500 2527 0.79375 2602 0.26250 2677 0.73125 2752 0.20000 2827 0.66875 2902  0.13750 2453 0.33125 2528 0.80000 2603 0.26875 2678 0.73750 2753 0.20625 2828 0.67500 2903  0.14375 2454 0.33750 2529 0.80625 2604 0.27500 2679 0.74375 2754 0.21250 2829 0.68125 2904  0.1500 2455 0.34375 2530 0.81250 2605 0.28125 2680 929.75000 2755 0.21875 2830 0.68750 2905  0.15625 2456 0.35000 2531 0.81875 2606 0.28750 2681 0.75625 2756 0.22500 2831 0.69375 2906  0.16250 2457 0.35625 2532 0.82500 2607 0.29375 2682 0.76250 2757 0.23125 2832 0.70000 2907  0.16875 2458 0.36250 2533 0.83125 2608 0.30000 2683 0.76875 2758 0.23750 2833 0.70625 2908  0.17500 2459 0.36875 2534 0.83750 2609 0.30625 2684 0.77500 2759 0.24375 2834 0.71250 2909  0.18125 2460 0.37500 2535 0.84375 2610 0.31250 2685 0.78125 2760 930.25000 2835 0.71875 2910  0.18750 2461 0.38125 2536 0.85000 2611 0.31875 2686 0.78750 2761 0.25625 2836 0.72500 2911  0.19375 2462 0.38750 2537 0.85625 2612 0.32500 2687 0.79375 2762 0.26250 2837 0.73125 2912  0.20000 2463 0.39375 2538 0.86250 2613 0.33125 2688 0.80000 2763 0.26875 2838 0.73750 2913  0.20625 2464 0.40000 2539 0.86875 2614 0.33750 2689 0.80625 2764 0.27500 2839 0.74375 2914  0.21250 2465 0.40625 2540 0.87500 2615 0.34375 2690 0.81250 2765 0.28125 2840 930.75000 2915  0.21875 2466 0.41250 2541 0.88125 2616 0.35000 2691 0.81875 2766 0.28750 2841 0.75625 2916  0.22500 2467 0.41875 2542 0.88750 2617 0.35625 2692 0.82500 2767 0.29375 2842 0.76250 2917  0.23125 2468 0.42500 2543 0.89375 2618 0.36250 2693 0.83125 2768 0.30000 2843 0.76875 2918  0.23750 2469 0.43125 2544 0.90000 2619 0.36875 2694 0.83750 2769 0.30625 2844 0.77500 2919  0.24375 2470 0.43750 2545 0.90625 2620 0.37500 2695 0.84375 2770 0.31250 2845 0.78125 2920 931.25000 2471 0.44375 2546 0.91250 2621 0.38125 2696 0.85000 2771 0.31875 2846 0.78750 2921  0.25625 2472 0.45000 2547 0.91875 2622 0.38750 2697 0.85625 2772 0.32500 2847 0.79375 2922  0.26250 2473 0.45625 2548 0.92500 2623 0.39375 2698 0.86250 2773 0.33125 2848 0.80000 2923  0.26875 2474 0.46250 2549 0.93125 2624 0.40000 2699 0.86875 2774 0.33750 2849 0.80625 2924  0.27500
 DEDANIELSELECTRONICS1-2  UHF Tx Channel Designation Tables UT-3 928 - 935 MHz U(R/T)-3/900 Channel Designation Table: 896 to 902 MHz, 6.25 kHz Increments (continued)  Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan.  Freq. Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num.  (MHz)  2925 931.28125  3000 931.75000  3075 932.21875  3150 932.68750  3225 933.15625  3300 933.62500  3375  934.09375 2926 0.28750 3001 0.75625 3076 0.22500 3151 0.69375 3226 0.16250 3301 0.63125 3376  0.10000 2927 0.29375 3002 0.76250 3077 0.23125 3152 0.70000 3227 0.16875 3302 0.63750 3377  0.10625 2928 0.30000 3003 0.76875 3078 0.23750 3153 0.70625 3228 0.17500 3303 0.64375 3378  0.11250 2929 0.30625 3004 0.77500 3079 0.24375 3154 0.71250 3229 0.18125 3304 0.65000 3379  0.11875 2930 0.31250 3005 0.78125 3080 932.25000 3155 0.71875 3230 0.18750 3305 0.65625 3380  0.12500 2931 0.31875 3006 0.78750 3081 0.25625 3156 0.72500 3231 0.19375 3306 0.66250 3381  0.13125 2932 0.32500 3007 0.79375 3082 0.26250 3157 0.73125 3232 0.20000 3307 0.66875 3382  0.13750 2933 0.33125 3008 0.80000 3083 0.26875 3158 0.73750 3233 0.20625 3308 0.67500 3383  0.14375 2934 0.33750 3009 0.80625 3084 0.27500 3159 0.74375 3234 0.21250 3309 0.68125 3384  0.15000 2935 0.34375 3010 0.81250 3085 0.28125 3160 932.75000 3235 0.21875 3310 0.68750 3385  0.15625 2936 0.35000 3011 0.81875 3086 0.28750 3161 0.75625 3236 0.22500 3311 0.69375 3386  0.16250 2937 0.35625 3012 0.82500 3087 0.29375 3162 0.76250 3237 0.23125 3312 0.70000 3387  0.16875 2938 0.36250 3013 0.83125 3088 0.30000 3163 0.76875 3238 0.23750 3313 0.70625 3388  0.17500 2939 0.36875 3014 0.83750 3089 0.30625 3164 0.77500 3239 0.24375 3314 0.71250 3389  0.18125 2940 0.37500 3015 0.84375 3090 0.31250 3165 0.78125 3240 933.25000 3315 0.71875 3390  0.18750 2941 0.38125 3016 0.85000 3091 0.31875 3166 0.78750 3241 0.25625 3316 0.72500 3391  0.19375 2942 0.38750 3017 0.85625 3092 0.32500 3167 0.79375 3242 0.26250 3317 0.73125 3392  0.20000 2943 0.39375 3018 0.86250 3093 0.33125 3168 0.80000 3243 0.26875 3318 0.73750 3393  0.20625 2944 0.40000 3019 0.86875 3094 0.33750 3169 0.80625 3244 0.27500 3319 0.74375 3394  0.21250 2945 0.40625 3020 0.87500 3095 0.34375 3170 0.81250 3245 0.28125 3320 933.75000 3395  0.21875 2946 0.41250 3021 0.88125 3096 0.35000 3171 0.81875 3246 0.28750 3321 0.75625 3396  0.22500 2947 0.41875 3022 0.88750 3097 0.35625 3172 0.82500 3247 0.29375 3322 0.76250 3397  0.23125 2948 0.42500 3023 0.89375 3098 0.36250 3173 0.83125 3248 0.30000 3323 0.76875 3398  0.23750 2949 0.43125 3024 0.90000 3099 0.36875 3174 0.83750 3249 0.30625 3324 0.77500 3399  0.24375 2950 0.43750 3025 0.90625 3100 0.37500 3175 0.84375 3250 0.31250 3325 0.78125 3400 934.25000 2951 0.44375 3026 0.91250 3101 0.38125 3176 0.85000 3251 0.31875 3326 0.78750 3401  0.25625 2952 0.45000 3027 0.91875 3102 0.38750 3177 0.85625 3252 0.32500 3327 0.79375 3402  0.26250 2953 0.45625 3028 0.92500 3103 0.39375 3178 0.86250 3253 0.33125 3328 0.80000 3403  0.26875 2954 0.46250 3029 0.93125 3104 0.40000 3179 0.86875 3254 0.33750 3329 0.80625 3404  0.27500 2955 0.46875 3030 0.93750 3105 0.40625 3180 0.87500 3255 0.34375 3330 0.81250 3405  0.28125 2956 0.47500 3031 0.94375 3106 0.41250 3181 0.88125 3256 0.35000 3331 0.81875 3406  0.28750 2957 0.48125 3032 0.95000 3107 0.41875 3182 0.88750 3257 0.35625 3332 0.82500 3407  0.29375 2958 0.48750 3033 0.95625 3108 0.42500 3183 0.89375 3258 0.36250 3333 0.83125 3408  0.30000 2959 0.49375 3034 0.96250 3109 0.43125 3184 0.90000 3259 0.36875 3334 0.83750 3409  0.30625 2960 931.50000 3035 0.96875 3110 0.43750 3185 0.90625 3260 0.37500 3335 0.84375 3410  0.31250 2961 0.50625 3036 0.97500 3111 0.44375 3186 0.91250 3261 0.38125 3336 0.85000 3411  0.31875 2962 0.51250 3037 0.98125 3112 0.45000 3187 0.91875 3262 0.38750 3337 0.85625 3412  0.32500 2963 0.51875 3038 0.98750 3113 0.45625 3188 0.92500 3263 0.39375 3338 0.86250 3413  0.33125 2964 0.52500 3039 0.99375 3114 0.46250 3189 0.93125 3264 0.40000 3339 0.86875 3414  0.33750 2965 0.53125 3040 932.00000 3115 0.46875 3190 0.93750 3265 0.40625 3340 0.87500 3415  0.34375 2966 0.53750 3041 0.00625 3116 0.47500 3191 0.94375 3266 0.41250 3341 0.88125 3416  0.35000 2967 0.54375 3042 0.01250 3117 0.48125 3192 0.95000 3267 0.41875 3342 0.88750 3417  0.35625 2968 0.55000 3043 0.01875 3118 0.48750 3193 0.95625 3268 0.42500 3343 0.89375 3418  0.36250 2969 0.55625 3044 0.02500 3119 0.49375 3194 0.96250 3269 0.43125 3344 0.90000 3419  0.36875 2970 0.56250 3045 0.03125 3120 932.50000 3195 0.96875 3270 0.43750 3345 0.90625 3420  0.37500 2971 0.56875 3046 0.03750 3121 0.50625 3196 0.97500 3271 0.44375 3346 0.91250 3421  0.38125 2972 0.57500 3047 0.04375 3122 0.51250 3197 0.98125 3272 0.45000 3347 0.91875 3422  0.38750 2973 0.58125 3048 0.05000 3123 0.51875 3198 0.98750 3273 0.45625 3348 0.92500 3423  0.39375 2974 0.58750 3049 0.05625 3124 0.52500 3199 0.99375 3274 0.46250 3349 0.93125 3424  0.40000 2975 0.59375 3050 0.06250 3125 0.53125 3200 933.00000 3275 0.46875 3350 0.93750 3425  0.40625 2976 0.60000 3051 0.06875 3126 0.53750 3201 0.00625 3276 0.47500 3351 0.94375 3426  0.41250 2977 0.60625 3052 0.07500 3127 0.54375 3202 0.01250 3277 0.48125 3352 0.95000 3427  0.41875 2978 0.61250 3053 0.08125 3128 0.55000 3203 0.01875 3278 0.48750 3353 0.95625 3428  0.42500 2979 0.61875 3054 0.08750 3129 0.55625 3204 0.02500 3279 0.49375 3354 0.96250 3429  0.43125 2980 0.62500 3055 0.09375 3130 0.56250 3205 0.03125 3280 933.50000 3355 0.96875 3430  0.43750 2981 0.63125 3056 0.10000 3131 0.56875 3206 0.03750 3281 0.50625 3356 0.97500 3431  0.44375 2982 0.63750 3057 0.10625 3132 0.57500 3207 0.04375 3282 0.51250 3357 0.98125 3432  0.45000 2983 0.64375 3058 0.11250 3133 0.58125 3208 0.05000 3283 0.51875 3358 0.98750 3433  0.45625 2984 0.65000 3059 0.11875 3134 0.58750 3209 0.05625 3284 0.52500 3359 0.99375 3434  0.46250 2985 0.65625 3060 0.12500 3135 0.59375 3210 0.06250 3285 0.53125 3360 934.00000 3435  0.46875 2986 0.66250 3061 0.13125 3136 0.60000 3211 0.06875 3286 0.53750 3361 0.00625 3436  0.47500 2987 0.66875 3062 0.13750 3137 0.60625 3212 0.07500 3287 0.54375 3362 0.01250 3437  0.48125 2988 0.67500 3063 0.14375 3138 0.61250 3213 0.08125 3288 0.55000 3363 0.01875 3438  0.48750 2989 0.68125 3064 0.15000 3139 0.61875 3214 0.08750 3289 0.55625 3364 0.02500 3439  0.49375 2990 0.68750 3065 0.15625 3140 0.62500 3215 0.09375 3290 0.56250 3365 0.03125 3440 934.50000 2991 0.69375 3066 0.16250 3141 0.63125 3216 0.10000 3291 0.56875 3366 0.03750 3441  0.50625 2992 0.70000 3067 0.16875 3142 0.63750 3217 0.10625 3292 0.57500 3367 0.04375 3442  0.51250 2993 0.70625 3068 0.17500 3143 0.64375 3218 0.11250 3293 0.58125 3368 0.05000 3443  0.51875 2994 0.71250 3069 0.18125 3144 0.65000 3219 0.11875 3294 0.58750 3369 0.05625 3444  0.52500 2995 0.71875 3070 0.18750 3145 0.65625 3220 0.12500 3295 0.59375 3370 0.06250 3445  0.53125 2996 0.72500 3071 0.19375 3146 0.66250 3221 0.13125 3296 0.60000 3371 0.06875 3446  0.53750 2997 0.73125 3072 0.20000 3147 0.66875 3222 0.13750 3297 0.60625 3372 0.07500 3447  0.54375 2998 0.73750 3073 0.20625 3148 0.67500 3223 0.14375 3298 0.61250 3373 0.08125 3448  0.55000 2999 0.74375 3074 0.21250 3149 0.68125 3224 0.15000 3299 0.61875 3374 0.08750 3449  0.55625
 DEDANIELSELECTRONICSUHF Tx Channel Designation Tables UT-3 928 - 935 MHz  1-3 Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan. Freq. Chan.  Freq. Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num. (MHz) Num.  (MHz)  3450 934.56250     3451 0.56875    3452 0.57500    3453 0.58125    3454 0.58750    3455 0.59375    3456 0.60000    3457 0.60625  3458 0.61250  3459 0.61875  3460 0.62500    3461 0.63125  3462 0.63750    3463 0.64375    3464 0.65000    3465 0.65625    3466 0.66250    3467 0.66875    3468 0.67500  3469 0.68125    3470 0.68750    3471 0.69375    3472 0.70000    3473 0.70625    3474 0.71250    3475 0.71875    3476 0.72500    3477 0.73125    3478 0.73750    3479 0.74375    3480 934.75000     3481 0.75625    3482 0.76250    3483 0.76875    3484 0.77500    3485 0.78125    3486 0.78750    3487 0.79375    3488 0.80000    3489 0.80625    3490 0.81250    3491 0.81875    3492 0.82500    3493 0.83125    3494 0.83750    3495 0.84375    3496 0.85000    3497 0.85625    3498 0.86250    3499 0.86875    3500 0.87500    3501 0.88125    3502 0.88750    3503 0.89375    3504 0.90000    3505 0.90625    3506 0.91250    3507 0.91875    3508 0.92500    3509 0.93125    3510 0.93750    3511 0.94375    3512 0.95000    3513 0.95625    3514 0.96250    3515 0.96875    3516 0.97500    3517 0.98125    3518 0.98750    3519 0.99375    3520 935.00000
 DEDANIELSELECTRONICS2-1  UHF Tx Channel Designation Tables UT-3 928 - 935 MHz  2 REVISION HISTORY  ISSUE  DATE  DESCRIPTION AND (REASON)      1 Jan 2003 • Preliminary.
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