Codan Radio Communications UT-3-460-S08 UT-3-460-S Paging Transmitter User Manual IM23 UT3400 4
Codan Radio Communications UT-3-460-S Paging Transmitter IM23 UT3400 4
Contents
- 1. Users guide
- 2. Revised users guide
Revised users guide
DANIELS TM ELECTRONICS LTD. MT-3 RADIO SYSTEMS PAGING MODULATOR INSTRUCTION MANUAL CI-PM-3 Covers models: CI-PM-3-00 Copyright © 2002 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 other wise, without the prior written consent of Daniels Electronics Ltd. DE™ is a registered trademark of Daniels Electronic Ltd. registered in the United States Patent and Trademark Office. Printing Date: Issue Date: Issue: Part No.: Dec 2002 February 2002 4 Rev A IM55-CIPM3 Previous Issue Date: Nov 99 Previous Issue: Daniels Electronics Ltd. Victoria, BC PRINTED IN CANADA Reviewed By: 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. DANIELS TM ELECTRONICS LTD ii CI-PM-3 Paging Modulator Instruction Manual TABLE OF CONTENTS Page GENERAL............................................................................................................................ 1-1 1.1 Introduction .......................................................................................................... 1-1 1.2 Construction ......................................................................................................... 1-2 1.3 Printed Circuit Board Numbering Convention...................................................... 1-2 1.4 Specifications........................................................................................................ 1-2 1.4.1 General Specifications .................................................................................... 1-2 1.4.2 CTCSS Decoder/Encoder (Option) ................................................................ 1-4 1.4.3 Physical Specifications ................................................................................... 1-5 THEORY OF OPERATION................................................................................................. 2-1 2.1 Paging Signal Path................................................................................................ 2-1 2.1.1 2-Level Digital Paging .................................................................................... 2-1 2.1.1.1 Self Test Circuitry..................................................................................... 2-2 2.1.2 4-Level Digital Paging .................................................................................... 2-2 2.1.3 Analog Paging ................................................................................................ 2-3 2.1.4 Front Panel Indicator Circuitry ....................................................................... 2-4 2.1.4.1 Data Indicator Circuitry ............................................................................ 2-4 2.1.4.2 Analog / Digital Indicator Circuitry........................................................... 2-4 2.1.4.3 LED Power............................................................................................... 2-4 2.2 OCXO/PLL .......................................................................................................... 2-5 2.2.1 Standard Frequency Reference ....................................................................... 2-5 2.2.2 High Stability Frequency Reference ............................................................... 2-5 2.3 Configuration Options.......................................................................................... 2-6 2.3.1 Simultaneous Broadcasting (2 Level Paging Only)......................................... 2-6 ALIGNMENT PROCEDURE AND INSTALLATION ...................................................... 3-1 3.1 General ................................................................................................................. 3-1 3.2 Repair Notes......................................................................................................... 3-1 3.3 Recommended Equipment List ............................................................................. 3-1 3.4 Installation ............................................................................................................ 3-2 3.5 Alignment ............................................................................................................. 3-2 3.6 Frequency (Digital Paging) Adjustment................................................................ 3-2 3.7 Reference (Analog Paging) Adjustment................................................................ 3-3 3.8 Test Data Symmetry Adjustment .......................................................................... 3-3 3.9 2 And 4 Level Deviation Adjustment..................................................................... 3-3 3.10 PLL Setup............................................................................................................. 3-4 3.11 Data Delay Setup.................................................................................................. 3-5 3.12 Simulcast Delay Setup.......................................................................................... 3-6 DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual iii ALIGNMENT PROCEDURE AND INSTALLATION CONTINUED 3.13 Repeater Configuration......................................................................................... 3-8 3.13.1 Base Transmitter Site CI-PM-3 Configuration ............................................... 3-8 3.13.1.1 Digital-Only Paging.................................................................................. 3-8 3.13.1.2 Analog/Digital Paging............................................................................... 3-8 3.13.2 Repeater Site CI-PM-3 Configuration ............................................................ 3-8 3.13.2.1 Digital-Only Repeater............................................................................... 3-9 3.13.2.2 Analog/Digital Repeater............................................................................ 3-9 3.13.3 TS-64 Configuration....................................................................................... 3-9 CONNECTOR PIN FUNCTIONS AND JUMPER FUNCTIONS.................................... 4-1 4.1 Data / Control Port (Connector J1) Pin Functions................................................ 4-1 4.2 Motherboard Interface (Connector P1) Pin Functions.......................................... 4-1 4.3 CI-PM-3 Data Delay Jumper Settings.................................................................. 4-3 4.4 CI-PM-3 Circuit Board Jumpers .......................................................................... 4-4 4.5 TS-64 MOD1 Jumper Settings - (If installed)...................................................... 4-5 4.6 4-Level Modulation Bit Pattern............................................................................. 4-5 4.7 Receiver IF / Audio PCB Jumper Settings............................................................ 4-5 4.8 Transmitter Audio Processor Jumper Settings...................................................... 4-6 4.9 Transmitter Synthesizer Jumper Settings.............................................................. 4-9 4.10 CI-PM-3 Test Points .......................................................................................... 4-10 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS ....................................................... 5-1 5.1 CI-PM-3 Front Panel Controls............................................................................. 5-1 5.2 Simulcast Paging Example.................................................................................... 5-2 5.3 CI-PM-3 Component Layout (Through-Hole Side) ............................................. 5-3 5.4 CI-PM-3 Component Layout (Surface-Mount Side)............................................ 5-4 5.5 CI-PM-3 Schematic Diagram ............................................................................... 5-5 5.6 CI-PM-3 Schematic Diagram ............................................................................... 5-6 5.7 CI-PM-3 Schematic Diagram Component Location Table.................................... 5-7 PARTS LISTS ...................................................................................................................... 6-1 6.1 CI-PM-3 Electrical Parts List................................................................................ 6-1 6.2 CI-PM-3 Mechanical Parts List............................................................................ 6-5 REVISION HISTORY.......................................................................................................... 7-1 DANIELS TM ELECTRONICS LTD iv CI-PM-3 Paging Modulator Instruction Manual LIST OF TABLES Page Data / Control Port (Connector J1) Pin Functions................................................ 4-1 Motherboard Interface Connector P1 Pin Functions............................................. 4-1 Delay Settings....................................................................................................... 4-3 CI-PM-3 Default Jumper Settings........................................................................ 4-4 CTCSS Jumper Settings....................................................................................... 4-5 4-Level Modulation Bit Pattern............................................................................. 4-5 Receiver IF / Audio PCB Jumper Settings............................................................ 4-5 Transmitter Audio Processor V1.6 Jumper Settings ............................................. 4-6 Transmitter Audio Processor V1.8 Jumper Settings ............................................. 4-6 Transmitter Audio Processor V2.3 Jumper Settings ............................................. 4-8 CI-PM-3 Test Points .......................................................................................... 4-10 Component Location Table Schematic.................................................................. 5-7 Table 4-1 Table 4-2 Table 4-3 Table 4-4 Table 4-5 Table 4-6 Table 4-9 Table 4-7 Table 4-8 Table 4-9 Table 4-10 Table 4-11 LIST OF ILLUSTRATIONS Page Transmitter Audio Processor V1.6 Jumper Settings ............................................. 4-6 Transmitter Audio Processor V1.8 Jumper Settings ............................................. 4-6 Transmitter Audio Processor V2.3 Jumper Settings ............................................. 4-8 VHF and (400 MHz) UHF Synthesizer Analog PCB Jumper Settings................ 4-9 VHF and (400 MHz) UHF Synthesizer Digital PCB Jumper Settings ................ 4-9 800MHz and 900MHz Transmitter Synthesizer Jumper Settings ........................ 4-9 CI-PM-3 Front Panel Controls............................................................................. 5-1 Simulcast Paging Example.................................................................................... 5-2 CI-PM-3 Circuit Board (Through-Hole Side) ...................................................... 5-3 CI-PM-3 Circuit Board (Surface-Mount Side)..................................................... 5-4 CI-PM-3 Circuit Board Schematic Diagram......................................................... 5-5 Figure 4-1 Figure 4-2 Figure 4-3 Figure 4-4 Figure 4-5 Figure 4-5 Figure 5-1 Figure 5-2 Figure 5-3 Figure 5-4 Figure 5-5 DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual This Page Intentionally Left Blank. DANIELS TM ELECTRONICS LTD vi CI-PM-3 Paging Modulator Instruction Manual 1 1.1 GENERAL Introduction The CI-PM-3 Paging Modulator module is an optional plug-in component of the MT-3 Radio Repeater System. This module provides digital and/or analog paging capability for Daniels MT-3 transmitters in all supported frequency bands. The CI-PM-3 is designed for low power consumption, typically drawing less than 250 mA in steady state. In its standard configuration, the CI-PM-3 uses an on-board frequency reference source consisting of a 10 MHz OCXO with a standard stability of 0.03 PPM. For high stability applications (such as Simulcast), the CI-PM-3 Paging Modulator may be configured to use an external high stability reference source (i.e. rubidium, GPS or WWV) with a standard stability greater 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 also incorporates a limited delay compensation for the different link propagation paths between transmitters. The CI-PM-3 Paging Modulator supports both analog and digital paging formats, and can transmit POCSAG and other 2-level modulation schemes at data transfer rates of 512, 1200, and 2400 Baud. 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-3 supports 4-level modulation formats in non-repeater mode (i.e. in a base station paging transmitter application only) at data transfer rates up to 1600 BPS. Each of the four modulation deviation levels can be independently set, making the CI-PM-3 suitable for use in such pager signaling schemes as Motorola’s FLEX™ Paging Protocol. Setup conditions are established via front panel switch settings, while internal jumper settings and setup 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 DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 1-1 1.2 Construction The CI-PM-3 Paging Modulator is packaged in a compact Eurostandard shell module housing of nickel/steel with an anodized aluminum front panel. Corrosion resistant fasteners are used throughout the assembly. 1.3 Printed Circuit Board Numbering Convention To ease troubleshooting and maintenance procedures, Daniels Electronics Limited 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. 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 1.4.1 Specifications General Specifications Model Number: CI-PM-3 Type: MT-3 Series Paging Modulator Compatibility: MT-3 Series Radio Systems Modulation: 16K0F3E (FM Analog), and 14K7F1D (FM Data Transmission) Audio Input: Balanced 600 Ω(tone or voice) Digital Input: Bipolar: Reference Input: 10 MHz, 0.5 to 2.5 V rms, 50 Ω Front Panel SMA Reference Output: 10 MHz (Modulated), 2.5 V rms, 50 Ω Front Panel SMA DANIELS RS-232 compatible TM ELECTRONICS LTD 1-2 CI-PM-3 Paging Modulator Instruction Manual Frequency Stability: Standard: Optional: ±0.03ppm from -40°C to +60°C External High Stability ±0.002ppm from -40°C to +60°C (requires WWV or GPS reference source). Duty Cycle: Continuous, 100% from -40°C to +60°C Audio Response: 0 Hz to 3.4 kHz Maximum Deviation: +/- 50 PPM Analog / Digital PTT Activation: Front panel connector and rear motherboard connection Current Consumption: +13.8 VDC supply: +9.5 VDC supply: 600 mA power 200 mA steady state 200mA (all options enabled) 80mA (all options disabled) 70mA (LED indicators off). Operating Temperature Range: -40°C to +60°C Paging 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 additional frequency band approvals to be sought. FCC Type Acceptance: Approved for use with MT-3 VHF Tx additional frequency band approvals to be sought. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 1-3 1.4.2 CTCSS Decoder/Encoder (Option) Manufacturer: Communications Specialists Inc. Model Number: TS-64 Number of Tones: 64 Frequency Range of Tones: 33.0 to 254.1 Hz Signal to Noise: Better than 4 dB SINAD Decode Time: 150 ms nominal Fade Time: 350 ms nominal Squelch Tail Elimination:: 160 ms reverse phase burst Current Consumption: 9 mA DANIELS TM ELECTRONICS LTD 1-4 CI-PM-3 Paging Modulator Instruction Manual 1.4.3 Physical Specifications Physical Dimensions: Width: 3.5 cm (1.38") Module Weight: 0.4 kg (1 lb.) Corrosion Prevention: Anodized aluminum construction with stainless steel hardware. Selectively applied Conformal coated glass epoxy 4 layer printed circuit boards. Gold plated module connectors. Module Design: Compact Eurostandard modular design. Plug-in module mates with Daniels standard 19" M3 repeater subrack. Interchangeable for test and repair. External Connections: REF Input and Output SMA connectors located on the module’s front panel. Motherboard Connections (Audio, Modulation, Power, and Control) are made through a 96 pin, gold plated type C connector on the rear of the module. User connections (Audio, Modulation, and Control) are made through a front panel DB-15 connector as well as through the 96 pin connector on the rear of the module. DANIELS Height: 12.8 cm (5.05") Depth: 19 cm (7.5") TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 1-5 This Page Intentionally Left Blank DANIELS TM ELECTRONICS LTD 6-6 CI-PM-3 Paging Modulator Instruction Manual 2 THEORY OF OPERATION DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 2-1 3 3.1 ALIGNMENT PROCEDURE AND INSTALLATION General The CI-PM-3 Paging Modulator is by default configured for stand-alone base station paging, using 2-Level paging data with a binary polarity of 1, and using the on-board +/-0.03 PPM 10 MHz OCXO. Table 4-4 contains a complete list of CI-PM-3 default jumper settings. The CI-PM-3 can also be configured for 4-level signal (base transmitter only) paging, remote paging, link repeater or higher stability operation. Each of these configurations is covered separately in the following sections. 3.2 Repair Notes Removal and replacement of surface mount components should be performed only in specifically designed 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, it is recommended that solder braid be used in place of manual vacuum de-soldering tools. 3.3 Recommended Equipment List Alignment of the CI-PM-3 requires the following test and radio equipment, or its equivalent: • Power Supply: • Oscilloscope / Multi-meter: • Current Meter: • Radio Communications Test Set: • Sub-rack: • System Monitor: • Transmitter Module: • Extender Card and Cable: • Alignment Tool: Regulated +13.8 VDC at 2 A Fluke 97 Scopemeter Fluke 75 Multi-meter Marconi Instruments 2955R (W/External Reference) Daniels SR-3 Series 19” Sub-rack Daniels SM-3 Series System Monitor Daniels Enhanced Performance VT-3 / UT-3 Series Daniels EC-96K, 96 Pin Extender Card and Cable Johanson 8766 Note: It is highly recommended that the Radio Communications Test Set be frequency locked to an external 10 MHz reference (WWV or GPS), especially if the factory-adjusted frequency settings are to be altered in any way. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 3-1 3.4 Installation 1. Install the Daniels EC-96 Extender Card in either the far left-hand or the far right-hand slot of the subrack (as viewed from the front). Remove the side covers of the CI-PM-3 Paging Modulator 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 Alignment Refer 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 to Table 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 INT b) SW2 (MODE) set to SETUP c) SW3 (SET MOD) set to 2 LEVEL d) SW4 (SET DEV) set to Data “1” (Top Position) 3. Ensure the Transmitter Audio Processor circuit board jumpers are initialized to their default settings (refer to Tables 4-7 or 4-8). 4. Connect the CI-PM-3 REF OUT connector to the transmitter REFERENCE INPUT connector via 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 the back 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) Adjustment CI-PM-3 frequency adjustments are factory set. It is strongly recommended that they not be altered. 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. DANIELS TM ELECTRONICS LTD 3-2 CI-PM-3 Paging Modulator Instruction Manual 4. Monitor the Communications Test Set and adjust FREQ ADJ potentiometer R82 for the transmitter 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) Adjustment CI-PM-3 Reference frequency adjustment is factory set. It is strongly recommended that they not be 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 the transmitter operating frequency +/-1 Hz. 5. Set the transmitter front panel NORM/KEY TX switch to NORM. 3.8 Test Data Symmetry Adjustment 1. 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 Bit Stream” position. 4. Adjust R70 (Test Data Symmetry Adjust) for symmetrical positive and negative pulses (i.e. of equal width) as measured at TP10. 3.9 2 And 4 Level Deviation Adjustment 1. 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 the transmitter front panel NORM/KEY TX switch to KEY TX. 4. Set shunt jumpers JU23-A and JU41-B. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 3-3 5. Set SW3 (SET MOD) to 2 LEVEL, and SW4 (SET DEV) to the Data “1” (top) position. For a VHF system adjust R5 (2-LVL +Dev) for +4.8 kHz deviation (4.8 kHz above center frequency). 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 system adjust 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 +1.6 kHz 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 Setup CI-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 SMA connector 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 voltage measured in step (5) above within ± 0.2 Vdc. Note that when the PLL locks in, the voltage at TP12 will also lock in to within ±0.2 Vdc of the voltage at TP13. At this point further adjustment of R101 will not change the value unless it is brought out of lock. DANIELS TM ELECTRONICS LTD 3-4 CI-PM-3 Paging Modulator Instruction Manual Steps 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 volts results in a badly distorted 10 MHz square wave. 10. Replace shunt jumper JU6-A. 3.11 Data Delay Setup 1. Enable the DATA DELAY option by installing Power Enable surface-mount jumpers JU38 And 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 as trigger 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 monitoring the 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 is identical 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 the signal at TP8. 10. Adjust tuning capacitor C55 for a frequency of 1.0 MHz (+/- 10 Hz) at TP8. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 3-5 3.12 Simulcast Delay Setup A typical Simulcast system is depicted in Figure 5-2. To correctly determine the differing propagation path delays to each transmitter in a Simulcast system and compensate for them, signal delays in both the transmission medium and the equipment must be known. For the purposes of this manual, it is assumed that only Daniels MT-3 radio equipment will be utilized at each paging site, and that each radio subrack will be identically configured with CI-PM-3 Paging Modulator modules. Signal delays from the base transmitter to any paging transmitter are calculated as follows: Where: Delay t(Link) + t(Eqpt) t(Link) t(Eqpt) t(RX) t(PM) t(TX) Propagation delay from Base TX to Paging TX t(RX) + t(PM) + t(TX) Delay through Receiver Delay through Paging Modulator Delay through Transmitter Distance The 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) of interest will be the distance from the base transmitter to each paging transmitter. Since radio waves propagate at or near the speed of light (3x108 m/sec), the delay calculation becomes: = t(Link) = d (km) × 3.33µsec Delay or = d (mi) × 5.37µsec For the Simulcast system depicted in Figure 5-2, the signal transmitted by PAGING TX #1 will not be delayed, as this is the furthest site from the BASE TX. However, to ensure identical signal processing characteristics at each site, the DATA DELAY circuitry of the CI-PM-3 at PAGING TX #1 will be enabled, but with zero delay selected. PAGING TX #2 will have its paging signal delayed by a value proportional to the difference in distance between PAGING TX #1 and PAGING TX #2 to the BASE TX. The delay for PAGING TX #2 is therefore calculated as: Delay(Link B) DANIELS (d(Link A) (km) - d(Link B) (km)) × 3.33µsec or (d(Link A) (mi) - d(Link B) (mi)) × 5.37µsec TM ELECTRONICS LTD 3-6 CI-PM-3 Paging Modulator Instruction Manual The delay calculations for any paging transmitter site in a multiple-transmitter system, with distances 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)) × 3.33µsec or (d(Furthest Site) (mi) - d(Site of Interest) (mi)) × 5.37µsec To set the delay value: Once the required delay has been calculated for a particular paging site, refer to 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 as trigger 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 at TP5 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 2 is 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). DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 3-7 3.13 Repeater Configuration The CI-PM-3 modules at both the base transmitter and paging/repeater must be configured individually. Individual setup procedures must also be followed for analog/digital paging and for digital-only paging. Note: The CI-PM-3 modules must be set for 2-level signal operation only when configured for use in a paging repeater system. 3.13.1 Base Transmitter Site CI-PM-3 Configuration The setup instructions of sections 3.13.1 through 3.13.3 must be completed prior to commencing setup of the remote paging/repeater site CI-PM-3. Jumper designators separated by a ‘/’ indicates an ‘and/or’ selection (eg JU19/JU45 means JU19 and/or JU45). 3.13.1.1 Digital-Only Paging 1. 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 Paging Ensure the TS-64 CTCSS Module, MOD1, is installed. Refer to section 3.13.3 for TS-64 CTCSS Module 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 Configuration At the remote paging/repeater site, the digital paging signal is received and discriminated by the receiver, regenerated (reshaped) by the CI-PM-3, and re-transmitted through the normal CI-PM-3 data signal path. Analog paging signals are routed from the receiver, through the CI-PM-3, then directly to the transmitter. DANIELS TM ELECTRONICS LTD 3-8 CI-PM-3 Paging Modulator Instruction Manual 3.13.2.1 Digital-Only Repeater 1. 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 Repeater Ensure the TS-64 CTCSS Module, MOD1, is installed. Refer to section 3.13.3 for TS-64 CTCSS Module 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/JU44 and JU55. 3. Remove surface mount jumpers JU34 and JU51. 3.13.3 TS-64 Configuration 1. Ensure POLARITY jumper JP7 is installed. 2. For normal operation (i.e. receiver audio is muted until a CTCSS coded transmission is received): a) Ensure TS-64 jumper JP11 is removed. b) Ground the TS-64 Hang-up Input: i) Install jumper JU52, or ii) Remove jumper JU52, install jumper JU53 and ground CTCSS HU/BUSY input J1 Pin 11. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 3-9 3. To place the TS-64 in monitor mode (i.e. over-ride the decoder and unmute the receiver audio for 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, or ii) Remove jumper JU52, install jumper JU53, and leave CTCSS HU/BUSY input J1 Pin 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. DANIELS TM ELECTRONICS LTD 3-10 CI-PM-3 Paging Modulator Instruction Manual 4 4.1 CONNECTOR PIN FUNCTIONS AND JUMPER FUNCTIONS Data / Control Port (Connector J1) Pin Functions Table 4-1 PIN 10 11 12 13 14 15 4.2 Data / Control Port (Connector J1) Pin Functions NAME 2-Lvl Data 4-Lvl Data Ext Clock 2-Lvl/4-Lvl Select A/D Mode Select Discr O/P PTT Ground Balanced Audio I/P 1 Balanced Audio I/P 2 Data Out HU/Busy No Connection No Connection No Connection FUNCTION 2 Level RS-232 Data input. 4 Level RS-232 Data input. External Clock for 4 Level signal synchronization. 2 Level / 4 Level select. Low = 2 Level, High = 4 Level. Analog / Digital Mode select. Low = Digital, High = Analog. Discriminator Output from Receiver. Push To Talk. Ground. Balanced Audio Input 1. Routed directly to Transmitter. Balanced Audio Input 2. Routed directly to Transmitter. Regenerated digital data from receiver. CTCSS Hang Up / Busy signal from optional CTCSS module. Motherboard Interface (Connector P1) Pin Functions Table 4-2 Motherboard Interface Connector P1 Pin Functions Note: PIN C1 B1 A1 C2 B2 A2 C3 B3 A3 C4 B4 A4 C5 B5 A5 C6 B6 A6 C7 B7 A7 C8 B8 A8 DANIELS NAME IMC1 5W RX AUDIO 5W RX AUDIO TX A AUDIO CNTL 13.8V 13.8V IMC2 RX A AMPD AUDIO RX B AMPD AUDIO TX B AUDIO CNTL 9.5V 9.5V IMC3 RX A 9.5V RX B 9.5V ALARM 1 TX A PTT TX B PTT ALARM 2 RX A 9.5V MON RX B 9.5V MON ALARM 3 RX A COR RX B COR Bolded entries are utilized by CI-PM-3 FUNCTION Inter-module Communications Line No. 1 5W RX A/RX B Audio From System Monitor 5W RX A/RX B Audio From System Monitor TX A Audio Control 13.8V from M3 Motherboard J8 (Unregulated) 13.8V from M3 Motherboard J8 (Unregulated) Inter-module Communications Line No. 2 RX A Amplified Audio Output RX B Amplified Audio Output TX B Audio Control Regulated +9.5V from System Monitor Regulated +9.5V from System Monitor Inter-module Communications Line No. 3 RX A Current Sense Output Line (Supply) RX B Current Sense Output Line (Supply) Inter-module Alarm Line No. 1. Transmitter A Press To Talk input. Transmitter B Press To Talk input. Inter-module Alarm Line No. 2. RX A Current Sense Output Line (Module) RX B Current Sense Output Line (Module) Inter-module Alarm Line No. 3 RX A Carrier Operated Relay Output RX B Carrier Operated Relay Output TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 4-1 PIN C9 B9 A9 C10 B10 A10 C11 B11 A11 C12 B12 A12 C13 B13 A13 C14 B14 A14 C15 B15 A15 C16 B16 A16 C17 B17 A17 C18 B18 A18 C19 B19 A19 C20 B20 A20 C21 B21 A21 C22 B22 A22 C23 B23 A23 C24 B24 A24 C25 B25 A25 C26 B26 A26 DANIELS NAME ALARM 4 TX A STANDBY TX B STANDBY RX A SQL OVERRIDE RX A DISC O/P TX A PTT OUT ALARM 5 SPARE 5 SPARE 6 RX A SQL FLAT RX A ISO COR A RX A ISO COR K ALARM 6 RX A DISC L/P O/P RX B DISC L/P O/P RX B SQL DE-EMP SPARE 3 SPARE 4 ALARM 7 RX A SIG STREN RX B SIG STREN TX B BAL I/P 1 TX B SUBT I/P 1 TX B PTT OUT ALARM 8 TX A VSWR FWD TX B VSWR FWD TX A BAL I/P 1 TX A BAL I/P 2 TX B BAL I/P 2 SPARE 1 TX A VSWR REV TX B VSWR REV SPARE 2 TX A DIR MOD TX B DIR MOD TX A CSEL D0 TX A CSEL D1 TX A CSEL D2 TX A SUBT I/P 1 RX A MUTE RX A SQL DE-EMP TX A CSEL D3 RX A CSEL D0 RX A CSEL D1 TX A SUBT I/P 2 RX A BAL O/P 1 RX A BAL O/P 2 RX A CSEL D2 RX A CSEL D3 TX B CSEL D0 TX B SUBT I/P 2 RX B SQL OVERRIDE RX B MUTE FUNCTION Inter-module Alarm Line No. 4 TX A Audio Standby TX B Audio Standby RX A Squelch Disable Input RX A Discriminator Output TX A Microphone Press To Talk Output Inter-module Alarm Line No. 5 Inter-module Spare Line No. 5 Inter-module Spare Line No. 6 RX A Squelched, Flat Audio Output RX A Isolated Carrier Operated Relay, Side A O/P RX A Isolated Carrier Operated Relay, Side K O/P Inter-module Alarm Line No. 6 RX A Discriminator Low-Pass Audio Output RX B Discriminator Low-Pass Audio Output RX B Squelched, De-Emphasized Audio Output Inter-module Spare Line No. 3 Inter-module Spare Line No. 4 Inter-module Alarm Line No. 7 RX A Signal Strength Indicator Output RX B Signal Strength Indicator Output TX B Balanced Audio Input, Side 1 TX B Subtone Audio Input No. 1 TX B Microphone Press To Talk Output Inter-module Alarm Line No. 8 TX A VSWR Forward Level Indicator Output TX B VSWR Forward Level Indicator Output TX B Balanced Audio Input, Side 1 TX B Balanced Audio Input, Side 2 TX B Balanced Audio Input, Side 2 Inter-module Spare Line No. 1 TX A VSWR Reverse Level Indicator Output TX B VSWR Reverse Level Indicator Output Inter-module Spare Line No. 2 TX A Direct Modulation Input TX B Direct Modulation Input TX A Channel Select Line No. D0 TX A Channel Select Line No. D1 TX A Channel Select Line No. D2 TX A Subtone Audio Input No. 1 RX A Mute Input RX A Squelched, De-Emphasized Audio Output TX A Channel Select Line No. D3 RX A Channel Select Line No. D0 RX A Channel Select Line No. D1 TX A Subtone Audio Input No. 2 RX A Balanced Audio Output, Side 1 RX A Balanced Audio Output, Side 2 RX A Channel Select Line No. D2 RX A Channel Select Line No. D3 TX B Channel Select Line No. D0 TX B Subtone Audio Input No. 2 RX B Squelch Disable Input RX B Mute Input TM ELECTRONICS LTD 4-2 CI-PM-3 Paging Modulator Instruction Manual PIN C27 B27 A27 C28 B28 A28 C29 B29 A29 C30 B30 A30 C31 B31 4.3 NAME TX B CSEL D1 TX B CSEL D2 TX B CSEL D3 RX B DISC O/P RX B ISO COR K RX B ISO COR A RX B CSEL D0 RX B CSEL D1 RX B CSEL D2 RX B BAL O/P 1 RX B BAL O/P 2 RX B SQL FLAT RX B CSEL D3 RX A PRIORITY COR FUNCTION TX B Channel Select Line No. D1 TX B Channel Select Line No. D2 TX B Channel Select Line No. D3 RX B Discriminator Audio Output RX B Isolated Carrier Operated Relay, Side K O/P RX B Isolated Carrier Operated Relay, Side A O/P RX B Channel Select Line No. D0 RX B Channel Select Line No. D1 RX B Channel Select Line No. D2 RX B Balanced Audio Output, Side 1 RX B Balanced Audio Output, Side 2 RX B Squelched, Flat Audio Output RX B Channel Select Line No. D3 RX A Priority COR (not affected by Mute) CI-PM-3 Data Delay Jumper Settings Table 4-3 Delay Settings JUMPER SETTINGS JU33 DANIELS JU32 JU31 DELAY DISTANCE DISTANCE JU35 (µSec) 12 16 20 24 32 40 48 64 80 96 128 160 192 256 320 384 512 640 768 1024 1280 1536 (km) 1.20 2.40 3.60 4.80 6.00 7.20 9.60 12.00 14.40 19.20 24.00 28.80 38.40 48.00 57.60 76.80 96.00 115.20 153.60 192.00 230.40 307.20 384.00 460.80 (mi) 0.75 1.49 2.24 2.98 3.73 4.47 5.97 7.46 8.95 11.93 14.91 17.90 23.86 29.83 35.79 47.72 59.65 71.59 95.45 119.31 143.17 190.89 238.62 286.34 TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 4-3 4.4 CI-PM-3 Circuit Board Jumpers Table 4-4 REF. DESIG. JU1 JU2 JU3 JU4 JU5 JU6 JU7 JU8 JU9 JU10 JU11 JU12 JU13 JU14 JU15 JU16 JU17 JU18 JU19 JU20 JU21 JU22 JU23 JU24 JU25 JU26 JU27 JU28 JU29 JU30 JU31 JU32 JU33 JU34 JU35 JU36 JU37 JU38 JU39 JU40 JU41 JU42 JU43 JU44 JU45 JU46 JU47 JU48 JU49 JU50 CI-PM-3 Default Jumper Settings DESCRIPTION 2-LVL Polarity Select (A = Inverted ; B = Normal) 4-LVL Polarity Select (A = Normal; B = Inverted) RX A Balanced O/P 1 Enable RX A Balanced O/P 2 Enable XO Polarity Select (A = Normal; B = Inverted) XO Select (A=OCXO; B=VCXO) Data Regeneration (A = Disable; B = Enable) Data Input (A = Data/Ctrl Port; B=RX A Regenerated Data) Discriminator O/P To Front Panel J1 Enable Repeater CTCSS Enable (A = Disable; B = Enable) TX A Direct Modulation Enable TX B Direct Modulation Enable TX A Subtone I/P 2 Enable TX B Subtone I/P 2 Enable TX A Balanced I/P 1 Enable TX B Balanced I/P 1 Enable TX A Audio Control Enable TX B Audio Control Enable RX A COR Enable TX A PTT Enable TX B PTT Enable Repeater PTT Enable Level Select (A=2/4-LVL; B=4-LVL) TX A Balanced I/P 2 Enable TX B Balanced I/P 2 Enable Alarm 7 To TX A and B Balanced O/P 1 Enable Alarm 5 To TX A and B Balanced O/P 2 Enable CTCSS RX A Mute Bypass RX A Discriminator Output Enable RX A Mute Enable Data Delay Selection (Refer to Table 4-3) Data Delay Selection (Refer to Table 4-3) Data Delay Selection (Refer to Table 4-3) CTCSS PTT Bypass Data Delay Selection (A - F, Refer to Table 4-3) Data Delay/By-Pass Switched 8.0 Volts For PLL I/O Circuitry Switched 8.0 Volts For Data Delay Circuitry Switched 5.0 Volts For PLL I/O Circuitry Switched 5.0 Volts For Regenerated PTT and Data Delay Circuitry Analog/Digital Mode Over-ride Low Frequency Deviation Enable RX B Discriminator O/P Enable RX B Mute Enable RX B COR Enable RX B Balanced O/P 1 Enable RX B Balanced O/P 2 Enable External Clock Enable (A = Disable; B = Enable) Switched 5.0 Volts For 2-LVL / 4-LVL Switching Circuitry RS-232 Data Out Enable DANIELS JUMPER TYPE Shunt Shunt SM Solder SM Solder Shunt Shunt SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder Shunt SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder Shunt SM Solder SM Solder SM Solder SM Solder Shunt SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder Shunt SM Solder SM Solder DEFAULT POSITION Not Installed Not Installed Not Installed Installed Not Installed Not Installed Not Installed Installed Not Installed Installed Not Installed Not Installed Installed Not Installed Not Installed Installed Not Installed Installed Installed Not Installed Not Installed Not Installed Installed Bypass Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Installed Not Installed TM ELECTRONICS LTD 4-4 CI-PM-3 Paging Modulator Instruction Manual REF. DESIG. JU51 JU52 JU53 JU54 JU55 JU56 JU57 JU58 JU59 JU60 4.5 REF. DESIG. JP1-JP6 JP7 JP8-JP10 JP11 CTCSS Jumper Settings DEFAULT DESCRIPTION POSITION CTCSS Tone Frequency Select RX Audio Mute Polarity (Installed: Mute = Open, Not Installed: Mute = Ground) Installed TX Time-Out-Timer Interval Select Hang-Up/Busy-Input Configure (Installed = Busy-Input, Not Installed = Hang-Up Input) Not Installed Note: Refer to TS-64 Instruction Sheet for configuration details. 4-Level Modulation Bit Pattern Table 4-6 J1-PIN1 (BIT 0) 4.7 DEFAULT POSITION Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed Not Installed TS-64 MOD1 Jumper Settings - (If installed) Table 4-5 4.6 JUMPER TYPE SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder SM Solder DESCRIPTION Repeater Digital-Only PTT Enable TS-64 Hang-up RX Mute TS-64 Busy Input Enable TS-64 Busy Input Connect to COR TS-64 Repeater PTT Enable (Analog/Digital only) Switched 9.5 Volts For Reference Input Circuitry U18 (14174 IC) enable Data regeneration PLL calibration reference U4 or U4A select 4-Level Modulation Bit Pattern J1-PIN2 (BIT 1) DEVIATION SETTING - 4800 Hz - 1600 Hz + 1600 Hz + 4800 Hz Receiver IF / Audio PCB Jumper Settings Table 4-9 Receiver IF / Audio PCB Jumper Settings JUMPER JU5 JU25 JU37 POSITION Short Short Open Note: All other jumper settings as per the factory defaults. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 4-5 4.8 Transmitter Audio Processor Jumper Settings Figure 4-1 JU35 JU38 Transmitter Audio Processor V1.6 Jumper Settings JU1 JU11 JU9 JU15 JU34 JU6 100nF JU28 JU8 JU27 CIPM3M6A Table 4-7 Transmitter Audio Processor V1.6 Jumper Settings JUMPER JU1 JU6 (VHF) JU6 (UHF) JU8 JU9 JU11 JU10 POSITION Replaced with 100nF Short Short Open Open Short Note: POSITION Open All other jumper settings as per the factory defaults. Figure 4-2 Transmitter Audio Processor V1.8 Jumper Settings JU37 JU38 JU35 JUMPER JU15 JU27 JU28 JU34 JU35 JU38 JU11 JU9 JU15 JU34 JU28 JU6 100nF JU1 JU8 JU27 Table 4-8 Jumper JU5 CIPM3M7A Transmitter Audio Processor V1.8 Jumper Settings Balanced Subtone I/P Description I/P 1 / 2 JU1 JU2 JU3 JU4 JU5 JU6 OUT OUT OUT OUT OUT IN(UHF) OUT OUT OUT IN OUT / Y IN(UHF) JU7 JU8 JU9 JU10 OUT IN OUT IN OUT IN OUT OUT DANIELS Direct Modulation Circuits Power Source Select MT-2 Deviation Enable (MT-2 Transmitters) Microphone Preamplifier Flat Response Subtone Input 2 Audio Path Select Auxiliary Input Enable (DC Or AC Coupled) Processed Audio Path Enable (Limited And Filtered). Replace with a 100nF capacitor for VHF Unprocessed Auxiliary Audio Path Enable (Unfiltered) Audio Output DC Coupled Balanced Input Pre-emphasis Response Enable Balanced Input Flat Audio Response Enable TM ELECTRONICS LTD 4-6 CI-PM-3 Paging Modulator Instruction Manual JU11 JU12 JU13 JU14 JU15 JU16 JU17 JU18 JU19 JU20 JU21 JU22 JU23 JU24 JU25 JU26 JU27 JU28 JU29 JU30 JU31 JU32 JU33 JU34 JU35 JU36 JU37 JU38 JU39 JU40 JU41 JU42 OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT / IN OUT OUT / IN IN / OUT OUT OUT OUT / IN OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT OUT / X OUT OUT OUT OUT Balanced Input To Auxiliary Audio Circuit Enable Tone/Digital Input To Auxiliary Audio Circuit Enable Direct Modulation Input To Auxiliary Audio Circuit Enable Auxiliary Input Pre-emphasis Response Enable Auxiliary Input Flat Audio Response Enable Subtone Input 1 Audio Path Select MT-2 Temperature Compensation Bypass Continuous Data Mode Selection Audio Switches Power Source Select (X=Continuous, Y=Switched) Q2 Power Source Select (Y=Continuous, X=Switched) Bilateral Switch Power Source Select (Y=Continuous, X=Switched) Audio Output To Splatter Filter Direct Modulation Input To Subtone 2 Enable Splatter Filter Response Select Splatter Filter Response Select Splatter Filter Response Select Direct Modulation Input Audio Path Select Amplified Direct Modulation Bypass Amplified Direct Modulation Input DC Coupled Enable Amplified Direct Modulation Audio Path Select Audio Output AC-Coupled (MT-3 Synthesized Transmitters) Audio Output AC-Coupled (MT-3 Crystal Transmitters) Audio Output AC-Coupled Audio Output From Direct Modulation Circuits Select Direct Modulation Output Source Select AGC Preamplifier Power Source Select (Y=Continuous, X=Switched) Direct Modulation Output Enable Subtone 2, DC Coupled, To Direct Modulation Output Select Direct Modulation Low Input Impedance Enable Microphone Preamplifier Power Enable Not Used Processed Audio Path To Direct Modulation Output JU43 OUT OUT Bilateral Switch U9 Bypass Enable DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 4-7 Figure 4-3 Transmitter Audio Processor V2.3 Jumper Settings JU27 JU25 JU43 JU20 JU8 JU35 JU8 JU34 JU42 CIPM3M8A Table 4-9 JUMPER JU8 JU20 JU21 JU25 JU27 JU34 JU42 JU43 DANIELS Transmitter Audio Processor V2.3 Jumper Settings POSITION DESCRIPTION Short Audio Output DC couple Direct modulation input buffer ( X enabled, Y bypass ) Transmit audio control Wide/Narrow Band Switched Select (X wide ) Direct Modulation Input Offset Output (Y enabled, X Bypass) Audio Routing ( Y enabled , X dual port) Modulation input bias select ( X no offset, Y offset adjust) Short Modulation input Direct (Short) / Cap Couple (Open) TM ELECTRONICS LTD 4-8 CI-PM-3 Paging Modulator Instruction Manual 4.9 Transmitter Synthesizer Jumper Settings Figure 4-3 VHF and (400 MHz) UHF Synthesizer Analog PCB Jumper Settings Top View Of PCB JU1 CIPM3M8 Jumper 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 Settings Bottom View of PCB JU2 CIPM3M10 Jumper JU2 must be installed to enable the 10MHz reference option. Figure 4-5 800MHz and 900MHz Transmitter Synthesizer Jumper Settings Bottom View of PCB JU1 A B CIPM3M9 Jumper JU1 must be installed in the ‘A’ position to enable the external reference option. DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 4-9 4.10 CI-PM-3 Test Points Table 4-10 TEST POINT TP1 TP2 TP3 TP4 TP5 TP6 TP7 TP8 TP9 TP10 TP11 TP12 TP13 TP14 TP15 TP16 TP17 DANIELS CI-PM-3 Test Points DESCRIPTION +8 Vdc Supply +4 Vdc Supply +5 Vdc Supply Analog / Digital Mode (High = Digital, Low = Analog) 2 Level Data (TTL) OCXO 9.5 Vdc Supply Positive and Negative Edge Integrator Output Data Delay Programmable Counter Output. Input to Data Delay Circuitry 2 Level Data Level Adjusted Paging Signal OCXO Reference Adjust (nominally 2.5 Vdc) PLL Correction Voltage Tx A/B Direct Modulation Output 13.8 Vdc Supply Input (from Subrack) 9.5 VDC Supply Input (from Subrack) Low Pass Filter Output TM ELECTRONICS LTD 4-10 CI-PM-3 Paging Modulator Instruction Manual 5 5.1 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS CI-PM-3 Front Panel Controls DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 5-1 6 6.1 PARTS LISTS CI-PM-3 Electrical Parts List DANIELS TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 6-1 7 REVISION HISTORY Issue Issued Revised Details Nov 99 N/A All prototype updates incorporated in this issue. All previous revision history in preliminary issue 3 (Pre3). Jan 02 Jan 02 New Issue, incorporates all changes since release of Issue 3. 4A Dec 02 DANIELS New CI-PM-3 version to accommodate multiple footprints for U4 ( AD9901 ) , and incorporate changes to the reference input circuit ( MMIC removed ). Correct component layout (bottom CIPM3M4E) - TP14 & TP15 locations corrected - JU56 designation removed TM ELECTRONICS LTD CI-PM-3 Paging Modulator Instruction Manual 7-1 DANIELS TM ELECTRONICS LTD. MT-3 RADIO SYSTEMS UHF SYNTHESIZED TRANSMITTER INSTRUCTION MANUAL UT-3/400 406 - 512 MHz Covers models: UT-3/420-SNC2, UT-3/420-SWC2, UT-3/420-SNC8, UT-3/420-SWC8, UT-3/460-SNC2, UT-3/460-SWC2, UT-3/460-SNC8, UT-3/460-SWC8, UT-3/480-SNC2, UT-3/480-SWC2, UT-3/480-SNC8, UT-3/480-SWC8, UT-3/500-SNC2, UT-3/500-SWC2, UT-3/500-SNC8, UT-3/500-SWC8, 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 Electronic Ltd. registered in the United States Patent and Trademark Office. Issue: Issue Date: Printing Date: Part No.: Previous Issue: December 98 Previous Issue Date: August 98 December 98 IM23-UT3400 Daniels Electronics Ltd. Victoria, BC PRINTED IN CANADA 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. DANIELS DE ELECTRONICS ii UHF Transmitter Instruction Manual UT-3 406 - 512 MHz TABLE OF CONTENTS Page GENERAL..................................................................................................................1-1 1.1 Introduction.....................................................................................................1-1 1.2 Manual Organization.......................................................................................1-1 1.3 UT-3 406 - 512 MHz Transmitter Family Models..........................................1-2 1.4 Performance Specifications.............................................................................1-3 1.4.1 General................................................................................................1-3 1.4.2 Audio Specifications ...........................................................................1-4 1.4.3 Physical Specifications........................................................................1-5 SYSTEM OVERVIEW...............................................................................................2-1 2.1 Transmitter Operation .....................................................................................2-1 2.2 Frequency Selection........................................................................................2-3 2.2.1 Synthesizer Transmitter....................................................................2-3 2.3 Transmitter Assembly and Adjustment............................................................2-3 2.3.1 Complete Transmitter Alignment.........................................................2-3 2.3.2 Frequency Change ..............................................................................2-4 2.3.3 Output Power Adjustment...................................................................2-5 2.3.4 Deviation Setting.................................................................................2-5 2.3.5 Setting RF Alarm Thresholds..............................................................2-5 2.4 Recommended Test Equipment List................................................................2-6 2.5 Repair Note.....................................................................................................2-6 2.6 Printed Circuitboard Numbering Convention..................................................2-6 ILLUSTRATIONS.....................................................................................................3-1 3.1 MT-3 Transmitter Front Panel ........................................................................3-1 3.2 MT-3 Transmitter Case - Exploded View........................................................3-2 PARTS LIST ..............................................................................................................4-1 REVISION HISTORY ...............................................................................................5-1 MODULE MANUALS Transmitter Main Board Instruction Manual ..................................... IM20-MT3TXMN UHF Amplifier Instruction Manual UT-3 406 - 512 MHz ..............IM23-UT3400AMP Enhanced Synthsizer Instruction Manual OS(R/T)-3A/H 29-470 MHz ..IM10-OS3AH UHF Transmitter Channel Designation Table .....................................IM23-UT3400CT DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz iii 1 GENERAL 1.1 Introduction The UT-3 406 - 512 MHz Transmitter is a synthesized FM transmitter capable of operating in 12.5 kHz or 25 kHz channels. The transmitter operates continuous duty in one of four frequency bands: 406 to 430 MHz, 450 to 470 MHz, 470 to 490 MHz or 490 to 512 MHz and its output power is continuously adjustable from 0.5 T0 2.0 or 2.0 to 8.0 Watts. The transmitter is not to be operated within the 406 to 406.1 MHz frequency band, unless specifically authorized by COSPAS/SARSAT through the Federal Communications Commission and/or Industry Canada. A modular design allows each of the transmitter's modules; MT-3 Transmitter Board, MT-3 Audio Processor, UT3/400 Amplifier, and OS-3H400 Synthesizer Module to be individually assembled and tested. This facilitates construction, tuning, maintenance as well as troubleshooting procedures. The synthesizer module can be programmed to have up to 16 channels exclusive to one frequency band. The UT-3 406 - 512 MHz Transmitter is designed to interface with Daniels Electronics' MT-3 Repeater System while maintaining MT-2 System compatibility. Both repeater systems are characterized by dependable, low maintenance performance under the most severe environmental conditions. 1.2 Manual Organization The organization of this manual reflects the modular makeup of the UT-3 product line. Each module is fully described within its respective submanual, all of which are contained within this document. In general, each submanual contains: 1. A functional description and specification summary, 2. A detailed technical description (Theory of Operation) and 3. Assembly, setup and alignment procedures relevent to that particular module. The module manuals are as follows: Note: material presented in a given "submanual" may include information related to other module versions not directly applicable to the UT-3 406 - 512 MHz Transmitter family (eg, the OS-3H Synthesizer Instruction Manual covers models from 29 MHz to 512 MHz). UHF Transmitter Instruction Manual UT-3 406 - 512 MHz: This manual provides an overview of the 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 processor module, transmitter Main Board and Front Panel Board. Most of the user selectable options are accessed within the Transmitter Main Board module, including channel selection. Since all external connections (including power and signal lines) are made to the Transmitter Main Board, most of the material pertaining to transmitter operation and installation is found here. DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 1-1 UHF Amplifier Instruction Manual UT-3 406 - 512 MHz : The amplifier module provides the final stages of RF power amplification and harmonic filtering for the transmitter. This manual is intended primarily as a reference since the amplifier module is adjusted at the factory. Enhanced Synthesizer Instruction Manual OS(R/T)-3(A/H) 132 - 470 MHz: This manual pertains to the enhanced synthesizer module. UHF Transmitter Channel Designation Table UT-3 406 - 512 MHz: This document relates the operating frequency to the transmitter channel number (see section 2.1). 1.3 UT-3 406 - 512 MHz Transmitter Family Models There are 16 distinct models in the UT-3/400 Transmitter family each with different bands of operation, channel spacing and/or power outputs. The 16 models are as follows: • UT-3/420-SN02 • UT-3/420-SN08 • UT-3/420-SW02 • UT-3/420-SW08 - synthesized, 406-430 MHz band, 12.5 kHz channels, 0.5-2.0 Watt - synthesized, 406-430 MHz band, 12.5 kHz channels, 2.0-8.0 Watt - synthesized, 406-430 MHz band, 25 kHz channels, 0.5-2.0 Watt - synthesized, 406-430 MHz band, 25 kHz channels, 2.0-8.0 Watt • UT-3/460-SN02 • UT-3/460-SN08 • UT-3/460-SW02 • UT-3/460-SW08 - synthesized, 450-470 MHz band, 12.5 kHz channels, 0.5-2.0 Watt - synthesized, 450-470 MHz band, 12.5 kHz channels, 2.0-8.0 Watt - synthesized, 450-470 MHz band, 25 kHz channels, 0.5-2.0 Watt - synthesized, 450-470 MHz band, 25 kHz channels, 2.0-8.0 Watt • UT-3/480-SN02 • UT-3/480-SN08 • UT-3/480-SW02 • UT-3/480-SW08 - synthesized, 470-490 MHz band, 12.5 kHz channels, 0.5-2.0 Watt - synthesized, 470-490 MHz band, 12.5 kHz channels, 2.0-8.0 Watt - synthesized, 470-490 MHz band, 25 kHz channels, 0.5-2.0 Watt - synthesized, 470-490 MHz band, 25 kHz channels, 2.0-8.0 Watt • UT-3/500-SN02 • UT-3/500-SN08 • UT-3/500-SW02 • UT-3/500-SW08 - synthesized, 490-512 MHz band, 12.5 kHz channels, 0.5-2.0 Watt - synthesized, 490-512 MHz band, 12.5 kHz channels, 2.0-8.0 Watt - synthesized, 490-512 MHz band, 25 kHz channels, 0.5-2.0 Watt - synthesized, 490-512 MHz band, 25 kHz channels, 2.0-8.0 Watt The transmitters' band of operation is determined by select components in the synthesizer module and the channel width is determined by the roll-off of the splatter filter on the MT-3 Audio Processor. DANIELS DE ELECTRONICS 1-2 UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 1.4 Performance Specifications 1.4.1 General The following is a general set of specifications for the generic UT-3/400 transmitter. Additional specifications, specific to individual modules may be found in their respective submanuals. Type: MT-3 Series Transmitter. Family: UT-3 406 - 512 MHz. Compatibility: MT-2 Series and MT-3 Series Radio Systems. Frequency Range: 406 to 512 MHz (406 to 406.1 MHz unavailable, see note below). RF Power Output: Continuously Adjustable: 0.5 to 2.0 W or 2.0 to 8.0 W. Modulation: 11K0F3E or 16K0F3E (Frequency Modulation). System Impedance: 50 Ω; Type N connector. Duty Cycle: 100%; Continuous operation from -40°C to +60°C. Spurious Emissions: More than 80 dB below carrier. Harmonic Emissions: More than 90 dB below carrier. Transmitter Mismatch Protection: 20:1 VSWR at all phase angles. Transmitter Alarm: Forward power sense and reverse VSWR; • open collector output (separate or 'OR'ed configuration); • linear output (separate lines only). Operating Temperature Range: -30˚C to +60˚C, optional -40˚C temperature test. Operating Humidity: 95% RH (non-condensing) at +25°C. Operating Voltage: +13.8 Vdc Nominal (range +11 to +16 Vdc), +9.5 Vdc Regulated. Transmit Current: 1.2 Amps at 2 Watts RF Power Output, 2.5 Amps at 8 Watts RF Power Output 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. DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 1-3 PTT Time-Out-Timer: Selectable from 1 sec. to 8 hrs. (factory set 5 min.). Reference Frequency: 9.600000 MHz. Channel Spacing: 12.5 kHz or 25 kHz. Frequency Stability: Standard: ±1 ppm, -40°C to +60°C. Optional: high stability external reference provided through front panel connection. Channel Selection: In 12.5 kHz increments selected through four internal BCD rotary switches. Preset capability for 16 channel memory selectable through external control. Standby Current and Rise time: 95% RF power, 95% system deviation within; • 50 ms: typically 7 mA (normal configuration); • 25 ms: typically 65 mA (synthesizer continuously enabled); • 10 ms: typically 90 mA (synth. and audio circuitry enabled). DOC Type Approval RSS119 142 194 241 RSS122 142 221 126 FCC Type Acceptance: H4JUT-3-420-S02 H4JUT-3-420-S08 H4JUT-3-460-S02 H4JUT-3-460-S08 (406-430 MHz, 0.5-2.0 Watt), (406-430 MHz, 2.0-8.0 Watt), (450-470 MHz, 0.5-2.0 Watt), (450-470 MHz, 2.0-8.0 Watt). Note: The transmitter is not to be operated within the 406 to 406.1 MHz frequency band, unless specifically authorized by COSPAS/SARSAT through the Federal Communications Commission and/or Industry Canada. 1.4.2 Audio Specifications Audio 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 Hz to 3 kHz; Flat Audio Response: +1 to -1 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 (internally adjustable). Subtone Audio Input 1 Freq range: 60 Hz to 300 Hz. DANIELS DE ELECTRONICS 1-4 UHF Transmitter Instruction Manual UT-3 406 - 512 MHz Subtone Audio Input 2: 0.5 Vpp at 100 Hz for ±500 Hz deviation (internally adjustable). 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 kHz deviation (-40°C to +60°C). Hum and Noise: Better than 40 dB (test receiver band limited: 400 Hz to 30 kHz). 1.4.3 Physical Specifications Physical 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 printed circuitboards. Gold plated module connectors. Module Design: Compact Eurostandard modular design. Plug-in modules mate with 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 transmitter module front panel. Motherboard Connections (Audio, Power, and Control) are made through a 48 pin, gold plated, type F connector on the rear of the transmitter module. User connection made through mated "motherboard" assembly of the repeater subrack. Type F standard connector complies with DIN 41612 Level 2 (200 mating cycles, 4 day 10 ppm SO2 gas test with no functional impairment and no change in contact resistance). Handle Text Colour: Black. DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 1-5 2 SYSTEM OVERVIEW 2.1 Transmitter Operation DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 2-1 3 ILLUSTRATIONS 3.1 MT-3 Transmitter Front Panel DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 3-1 4 PARTS LIST DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 4-1 5 REVISION HISTORY ISSUE DATE DESCRIPTION AND (REASON) August 98 • Manual formatted to modular style. All previous revision history in issue 2 December 98 • Added an advisory to our customers in section 1.1 and 1.4.1 that this transmitter is not to be operated within the 406 to 406.1 MHz frequency band. DANIELS DE ELECTRONICS UHF Transmitter Instruction Manual UT-3 406 - 512 MHz 5-1 This Page Intentionally Left Blank DANIELS DE ELECTRONICS 5-2 UHF Transmitter Instruction Manual UT-3 406 - 512 MHz DANIELS TM ELECTRONICS LTD. MT-3 RADIO SYSTEMS TRANSMITTER MAIN BOARD INSTRUCTION MANUAL Covers: Version 1.7 of the Transmitter Main Board Version 1.6 & 1.8 of the FM Audio Processor Board 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: 3 Issue Date: Printing Date: Part No.: Previous Issue: 2 November 98 Previous Issue Date: May 98 NA IM20-MT3TXMN Daniels Electronics Ltd. Victoria, B.C. PRINTED IN CANADA 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. DANIELS DE ELECTRONICS ii Transmitter Main Board Instruction Manual TABLE OF CONTENTS Page GENERAL .................................................................................................................. 1-1 1.1 Introduction.................................................................................................... 1-1 1.2 Performance Specifications............................................................................ 1-1 1.2.1 General............................................................................................... 1-1 1.2.2 Audio Specifications .......................................................................... 1-2 THEORY OF OPERATION....................................................................................... 2-1 2.1 Transmitter Main Board................................................................................. 2-1 2.1.1 General............................................................................................... 2-1 2.1.2 Transmitter Push-To-Talk.................................................................. 2-1 2.1.2.1 Microphone PTT.................................................................... 2-1 2.1.2.2 PTT With Time-Out-Timer.................................................... 2-2 2.1.2.3 PTT No Time-Out-Timer....................................................... 2-2 2.1.2.4 Optional Relay ....................................................................... 2-2 2.1.2.5 PTT Output............................................................................ 2-3 2.1.2.6 PTT Voltage Switching .......................................................... 2-3 2.1.2.7 Transmitter Standby Modes................................................... 2-3 2.1.3 Audio Circuits.................................................................................... 2-4 2.1.3.1 Microphone Audio................................................................. 2-5 2.1.3.2 Received Audio ...................................................................... 2-5 2.1.4 Channel Selection............................................................................... 2-5 2.1.4.1 Synthesized Transmitter......................................................... 2-5 2.1.4.2 Crystal Controlled Transmitter............................................... 2-6 2.1.5 Amplifier Circuits............................................................................... 2-6 2.1.6 Time-Out-Timer Circuitry.................................................................. 2-6 2.2 MT-3 Front Panel Board................................................................................ 2-8 2.3 MT-3 Audio Processor (Version 1.6) ............................................................ 2-8 2.3.1 General............................................................................................... 2-8 2.3.2 Power Requirements .......................................................................... 2-8 2.3.3 Audio Processor Turn-on Time.......................................................... 2-9 2.3.4 Audio Processor Signals.................................................................... 2-9 2.3.4.1 Audio Processor Outputs....................................................... 2-9 2.3.4.2 Audio Processor Modulation Output ..................................... 2-10 2.3.4.3 Audio Processor Low Frequency / Direct Mod. Output......... 2-10 2.3.4.4 Audio Processor Inputs.......................................................... 2-10 2.3.4.5 Audio Processor Microphone Input....................................... 2-11 2.3.4.6 Audio Processor Balanced Input............................................ 2-11 2.3.4.7 Audio Processor Auxiliary Input............................................ 2-11 2.3.4.8 Audio Processor Subtone Inputs............................................ 2-11 2.3.4.9 Audio Processor Direct Modulation Input ............................. 2-12 2.4 MT-3 Audio Processor (Version 1.8) ............................................................ 2-12 DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual iii 2.4.1 General............................................................................................... 2-12 2.4.2 Power Requirements .......................................................................... 2-12 2.4.3 Audio Processor Turn-on Time.......................................................... 2-13 2.4.4 Audio Processor Signals.................................................................... 2-13 2.4.4.1 Audio Processor Outputs....................................................... 2-13 2.4.4.2 Audio Processor Modulation Output ..................................... 2-14 2.4.4.3 Audio Processor Low Frequency / Direct Mod. Output......... 2-14 2.4.4.4 Audio Processor Inputs.......................................................... 2-14 2.4.4.5 Audio Processor Microphone Input....................................... 2-15 2.4.4.6 Audio Processor Balanced Input............................................ 2-15 2.4.4.7 Audio Processor Auxiliary Input............................................ 2-15 2.4.4.8 Audio Processor Subtone Inputs............................................ 2-15 2.4.4.9 Audio Processor Direct Modulation Input ............................. 2-16 2.5 Low Frequency Modulation........................................................................... 2-16 TRANSMITTER ALIGNMENT ................................................................................ 3-1 3.1 General........................................................................................................... 3-1 3.2 Repair Note.................................................................................................... 3-1 3.3 Printed Circuitboard Numbering Convention................................................. 3-1 3.4 Recommended Test Equipment List............................................................... 3-1 3.5 Standard Factory Settings and Jumper Configuration.................................... 3-2 3.5.1 MT-3 Transmitter Board Factory Configuration................................ 3-2 3.5.2 MT-3 Audio Processor Factory Configuration .................................. 3-3 3.6 MT-3 Transmitter Board Alignment............................................................... 3-4 3.6.1 General............................................................................................... 3-4 3.6.2 MT-3 Transmitter Board Test Points ................................................. 3-5 3.7 Module Installation and Removal................................................................... 3-5 3.8 MT-3 Audio Processor Alignment................................................................. 3-6 3.8.1 General............................................................................................... 3-6 3.8.2 MT-3 Audio Processor Standard Deviation Adjustment .................... 3-6 3.9 Standard Factory Settings and Jumper Configuration.................................... 3-8 3.9.1 MT-3 Audio Processor Factory Configuration (Version 1.8) ............ 3-8 3.10 MT-3 Audio Processor Alignment (Version 1.8)........................................... 3-10 3.10.1 General............................................................................................... 3-10 3.10.2 MT-3 Audio Processor Standard Deviation Adjustment .................... 3-10 3.11 Low Frequency Modulation Configuration.................................................... 3-11 3.11.1 MT-3 Transmitters............................................................................. 3-11 3.11.2 MT-3 Transmitter Audio Processors.................................................. 3-12 3.11.3 Synthesizer and Crystal Controlled Oscillator.................................... 3-13 3.11.4 Tuning the Transmitter....................................................................... 3-14 TRANSMITTER INTERCONNECT PIN DEFINITIONS ....................................... 4-1 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS.............................................. 5-1 5.1 Transmitter Block Diagram............................................................................ 5-1 5.2 Transmitter Main Board Electrical Assembly................................................. 5-3 DANIELS DE ELECTRONICS iv Transmitter Main Board Instruction Manual 5.2.1 Transmitter Main Board Top Side Component Layout ...................... 5-3 5.2.2 Transmitter Main Board Bottom Side Component Layout................. 5-4 5.2.3 Transmitter Main Board Schematic Diagram ..................................... 5-5 5.3 Front Panel Board.......................................................................................... 5-6 5.3.1 Front Panel Board Component Layout............................................... 5-6 5.3.2 Front Panel Board Schematic............................................................. 5-7 5.4 Audio Processor Electrical Assembly (Version 1.6)....................................... 5-8 5.4.1 Audio Processor Component Layout ................................................. 5-8 5.4.2 Audio Processor Schematic Diagram................................................. 5-9 5.5 Audio Processor Electrical Assembly (Version 1.8)....................................... 5-10 5.5.1 Audio Processor Component Layout ................................................. 5-10 5.5.2 Audio Processor Schematic Diagram................................................. 5-11 5.5.3 TX Time-Out-Timer Electrical Assembly........................................... 5-12 5.5.3.1 TX Time-Out-Timer Component Layout................................ 5-12 5.5.3.2 TX Time-Out-Timer Schematic Diagram ............................... 5-12 PARTS LISTS............................................................................................................. 6-1 6.1 Transmitter Main Board Parts List................................................................. 6-1 6.1.1 Transmitter Main Board Electrical Parts List...................................... 6-1 6.1.2 Transmitter Main Board Mechanical Parts List.................................. 6-3 6.1.3 MT-3 Front Panel Board Electrical Parts List .................................... 6-4 6.2 MT-3 Audio Processor Parts List (Version 1.7) ............................................ 6-4 6.2.1 MT-3 Audio Processor Electrical Parts List (Version 1.6)................. 6-4 6.3 MT-3 Audio Processor Parts List (Version 1.8) ............................................ 6-6 6.3.1 MT-3 Audio Processor Electrical Parts List (Version 1.8)................. 6-6 REVISION HISTORY................................................................................................ 7-1 DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 1 GENERAL 1.1 Introduction The MT-3 Transmitter Main Board integrates the MT-3 Front Panel Board, MT-3 Audio Processor, Synthesizer or Crystal Controlled Oscillator module, and Amplifier module together to comprise a MT-3 series transmitter (see section 5.1: MT-3 Transmitter Block Diagram). The Front Panel Board and the Audio Processor are soldered directly to the Transmitter Main Board while the Amplifier 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 the modules as well as the overall operation of the MT-3 transmitter. Power and signal connections are made through the 48 pin type 'F' connector on the rear of the Transmitter Main Board where they are then routed to the other MT-3 modules. The front and rear panels are attached to the Transmitter Main Board and together with the extruded aluminum shell, form the transmitter enclosure. 1.2 Performance Specifications 1.2.1 General Type: MT-3 Series Transmitter Compatibility: MT-3 Series Amplifier, OC-3 Crystal Controlled Oscillator module, 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.). DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 1-1 1.2.2 Audio Specifications Audio 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 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. DANIELS DE ELECTRONICS 1-2 Transmitter Main Board Instruction Manual 2 THEORY OF OPERATION 2.1 Transmitter Main Board 2.1.1 General DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 2-1 3 TRANSMITTER ALIGNMENT 3.1 General Transmitter alignment is simplified by using an M-3 Subrack, SM-3 System Monitor, and RF extender 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 pins B30, Z30, B32, and Z32. Transmitter balanced audio (600 Ω) is available at pins B18 and Z18. 3.2 Repair Note MT-3 Transmitter modules are mainly made up of surface mount devices which should not be removed or replaced using an ordinary soldering iron. Removal and replacement of surface mount components should be performed only with specifically designed surface mount rework and repair stations complete with ElectroStatic Dissipative (ESD) protection. When removing Surface Mount Solder Jumpers, it is recommended to use solder braid in place of manual vacuum type desoldering tools when removing jumpers. This will help prevent damage to the circuitboards. 3.3 Printed Circuitboard Numbering Convention To ease troubleshooting and maintenance procedures, Daniels Electronics Limited has adopted a printed circuitboard (PCB) numbering convention in which the last two digits of the circuitboard number 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 List Alignment of the complete transmitter requires the following test equipment or its equivalent. It is assumed that any adjustment of the Transmitter Main Board will also involve the other modules. Dual Power Supply: Oscilloscope / Multimeter: Current Meter: Regulated +9.5 Vdc at 2 A. Regulated +13.8 Vdc at 2 A - Topward TPS-4000 Fluke 97 Scopemeter Fluke 75 multimeter DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-1 Radio communications test set : Marconi Instruments 2955R VSWR 3:1 mismatch load: JFW 50T-035-3.0:1 Alignment Tool: Johanson 4192 It is recommended that the radio communications test set be frequency locked to an external reference (WWVH, GPS, Loran C) so that the high stability oscillator may be accurately set to within its ±1 ppm frequency tolerance. 3.5 Standard Factory Settings and Jumper Configuration Standard factory settings and the associated jumper configuration for each module of the MT-3 series transmitter are given below. 3.5.1 MT-3 Transmitter Board Factory Configuration The 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 • Jumper J3: no connection • Jumper J4: 'y' position • Jumper J6: not installed • Jumper J7: 'y' position • Jumper J9: not installed • Jumper J12: not installed • Jumper J13: 'x' position • Jumper J14: 'x' position • Jumper J15: 'x' position • Jumper J16: 'x' position • Jumper J17: installed • Jumper J18: 'y' position • Jumper J19: 'x' position • Jumper J20: 'x' position • Jumper J21: not installed • Jumper J22: 'x' position • Jumper J23: 'x' position • Jumper J24: installed • Jumper J25: 'x' position Optional relay configuration Optional relay configuration Optional relay configuration Transmitter standby mode select - Mode 1 Audio processor standby mode select Receiver audio ac/dc input coupling Amplifier power sense output configuration Amplifier power sense output configuration Amplifier power sense output configuration Amplifier power sense output configuration Microphone configuration Microphone output line Synthesizer or crystal module standby mode select 600Ω audio transformer enable. 'y' position disables 600Ω audio transformer enable. 'y' position disables +8 Vdc audio processor supply bypass 600Ω audio transformer enable. 'y' position disables 600Ω audio transformer enable. 'y' position disables Subtone #2 output enable Audio output enable DANIELS DE ELECTRONICS 3-2 Transmitter Main Board Instruction Manual • Jumper J26: • Jumper J27: • Jumper J28: • Jumper J29: • Jumper J31: • Jumper J32: • Jumper J33: • Jumper J34: • Jumper J35: installed not installed not installed installed installed not installed installed installed installed Time-Out-Timer Timing resistor select. Time-Out-Timer Timing resistor select. Time-Out-Timer Timing period output select. Time-Out-Timer Timing period output select. Time-Out-Timer Timing period output select. Time-Out-Timer Timing period output select. Time-Out-Timer input enable Time-Out-Timer power enable Time-Out-Timer output enable Note: Jumpers J1, J5, J8, J10, J11 designations not used 3.5.2 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. DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-3 • Jumper JU11: not installed • Jumper JU12: not installed • Jumper JU13: not installed • Jumper JU14: not installed • Jumper JU15: not installed • Jumper JU16: not installed • Jumper JU17: installed • Jumper JU18: not installed • Jumper JU19: 'y'position • Jumper JU20 to JU22: • Jumper JU23: not installed • Jumper JU24: installed • Jumper JU25: installed • Jumper JU26: installed • Jumper JU27: not installed • Jumper JU28: not installed • Jumper JU29: not installed • Jumper JU30: not installed • Jumper JU31: not installed • Jumper JU32: not installed • Jumper JU33: not installed • Jumper JU34: not installed • Jumper JU35: not installed • Jumper JU36: 'x' position • Jumper JU37: not installed • Jumper JU38: not installed • Jumper JU39: not installed 3.6 Balanced input to auxiliary audio circuit enable. Tone/Digital input to auxiliary audio circuit enable. Direct modulation input to auxiliary audio circuit enable. Auxiliary input preemphasis response enable. Auxiliary input flat audio response enable. Subtone input 2 audio path select. MT-2 Temperature compensation bypass. Continuous data mode selection. Power source for audio switches. not used Direct modulation input to subtone 2 enable. Lowpass filter response select. Lowpass filter response select. Lowpass filter response select. Direct Modulation input audio path select. Amplified direct modulation bypass. Amplified direct modulation input DC couple enable. Amplified direct modulation audio path select. Subtone 2, AC coupled,to direct modulation output enable. Audio output AC coupled (MT-3 crystal transmitters). Audio output AC coupled (MT-3 synthesized transmitters). Audio output from Direct Modulation circuits select. Direct Modulation output source select. Subtone input 1 audio path select. Summed Subtone audio to direct modulation output enable Subtone 2, DC coupled, to direct modulation output select. Direct Modulation low input impedance enable. MT-3 Transmitter Board Alignment 3.6.1 General Before 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, is normally employed for transmitter alignment. In a standard configuration, the only alignment required on the MT-3 Transmitter Main Board for a synthesized transmitter is to set the frequency switches (FSW1, FSW2, FSW3, and FSW4) for the desired channel frequency. FSW1 is the most significant digit of the frequency switches. The switch settings for the desired channel frequency can be found in the channel designation tables. If the transmitter is using a crystal control oscillator module, the switch settings are irrelevant. DANIELS DE ELECTRONICS 3-4 Transmitter Main Board Instruction Manual 3.6.2 MT-3 Transmitter Board Test Points TP1: squelched, de-emphasized audio / +13.8 Vdc TP2: microphone audio TP3: microphone PTT WTO; inactive +9.5 Vdc, active 0 Vdc TP4: microphone PTT NTO; inactive +9.5 Vdc, active 0 Vdc TP5: +9.5 Vdc from backplane connector TP6: +9.5 Vdc from front panel board TP7: +9.5 Vdc Switched TP8: Qualified PTT; inactive +9.5 Vdc, active 0 Vdc: activated by synthesizer TP9: synthesizer enable; selected by J18 TP10: synthesizer bootstrap line; +5 Vdc TP11: synthesizer PTT input; inactive +9.5 Vdc, active 0 Vdc TP12: audio processor TOT input; inactive +9.5 Vdc, active 0 Vdc TP13: audio processor TOT output; inactive +9.5 Vdc, active 0 Vdc TP14: audio processor audio output TP15: audio processor audio control line TP16: audio processor subtone #2 output TP17: audio processor direct modulation input TP18: audio processor subtone #2 input TP19: audio processor continuous +9.5 Vdc TP20: audio processor subtone #1 input TP21: audio processor supply +8 Vdc, selected by J7 TP22: audio processor tone/digital input TP23: synthesizer receive data line; 0 Vdc TP24: synthesizer transmit data line; +5 Vdc TP25: Q1 collector; inactive 0 Vdc, active +9.5 Vdc TP26: U2d output; inactive +9.5 Vdc, active 0 Vdc TP27: U1a output (PTT WTO); inactive +9.5 Vdc, active 0 Vdc TP28: U1b output (PTT NTO); inactive +9.5 Vdc, active 0 Vdc TP29: Q6 collector / Q7 gate; inactive +9.5 Vdc, active 0 Vdc TP30: +9.5 Vdc PTT Switched TP31: U8 pin 1, Time-Out-Timer circuitry set input TP32: U8 pin 2, Time-Out-Timer circuitry reset input TP33: Audio processor balanced audio input TP34: Audio processor balanced audio input 3.7 Module Installation and Removal Installation of the Enhanced Synthesizer or Crystal Controlled Oscillator module is facilitated by alignment pins on each corner of the module. When the four pins are aligned with their corresponding hole in the Transmitter Main Board, push the module down, taking care to ensure the connector pins on the bottom of the Synthesizer or Crystal Controlled Oscillator module are not bent. DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-5 To remove the Enhanced Synthesizer or Crystal Controlled Oscillator module, simply remove the center screw from the module lid and pull the module out. The module should be pulled straight out 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 the bottom of the Synthesizer are not bent. To install the low Power Synthesizer module, remove the two of the synthesizer side screws that correspond to the tabs on the Transmitter Main board and install 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 synthesizer module "straight out" in order to prevent damage to the connector pins. Remove the two side screws holding the sinthesizer module to the tabs. 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 Transmitter Main Board by applying pressure in a rotating fashion about four corners of the synthesizer module. Replace the two side screws. 3.8 MT-3 Audio Processor Alignment (Version 1.6) 3.8.1 General Verify the standard factory settings for the MT-3 Audio Processor as given in section 3.5.2 before beginning the standard deviation adjustment procedure. If the transmitter's channel frequency changes, the audio processor should be realigned to optimize the transmitter's performance. The schematic diagram for the audio processor is shown in section 5.4.2 and the component layout is shown in section 5.4.1. 3.8.2 MT-3 Audio Processor Standard Deviation Adjustment Note: clockwise rotation of controls increases signal levels. Connect the transmitter to the radio communications test set and monitor FM deviation, distortion, and audio frequency. Before adjusting the audio deviation, confirm that the transmitter RF output frequency is correct. Connect the 600 ohm input to the incoming audio (pins B18, Z18). Set the audio frequency to 1 kHz at the desired level of -8 dBm. Increase the balance level control (R31) for maximum gain. DANIELS DE ELECTRONICS 3-6 Transmitter Main Board Instruction Manual 4 Turn the transmitter on. Adjust the balance compression level (R38) for compression at ±60% maximum deviation. Set the audio frequency to 2.4 kHz, then adjust the deviation control (R29) for maximum deviation. Reset the modulating frequency to 1 kHz and re-adjust R38 for ±60% maximum deviation. Repeat steps 6 and 7 until both conditions are met. Vary the audio signal from 1 kHz to 3 kHz and measure the positive deviation and then the negative deviation. Adjust the symmetry control (R14) until the ± deviation is symmetrical. The variation between ± deviation levels should not exceed 300 Hz over the 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 kHz tone at -8 dBm falls below ±60% maximum deviation, then adjust R31 so that the deviation increases until compression is observed. The deviation should be ±1.5 kHz or ±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 the procedure. If so, increasing the input level by +20 dBm should not increase the deviation. 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 maximum deviation. 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 audio distortion with the appropriate filter on the communications test set. 15 Confirm the audio frequency response by referencing all output deviation measurements to a 1 kHz input tone at ±20% maximum deviation (±500 Hz for narrowband or ±1 kHz for wideband). 16 Remove the signal to the balanced input (pins B18, Z18). DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-7 17 Apply a 1 kHz tone at -8 dBm to the microphone audio input. Set the microphone compression control (R8) to produce ±60% maximum deviation. Reduce the signal to -10 dBm and adjust the microphone input level control (R2) for ±50% maximum deviation. Remove the signal. 18. Apply a 100 Hz tone at -18 dBm to the subtone 1 input and adjust the subtone 1 level control (R42) to produce ±500 Hz deviation. Remove the signal. 3.9 Standard Factory Settings and Jumper Configuration Standard 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. DANIELS DE ELECTRONICS 3-8 Transmitter Main Board Instruction Manual • Jumper JU10: • Jumper JU11: • Jumper JU12: • Jumper JU13: • Jumper JU14: • Jumper JU15: • Jumper JU16: • Jumper JU17: • Jumper JU18: • Jumper JU19: • Jumper JU20: • Jumper JU21: • Jumper JU22: • Jumper JU23: • Jumper JU24: • Jumper JU25: • Jumper JU26: • Jumper JU27: • Jumper JU28: • Jumper JU29: • Jumper JU30: • Jumper JU31: • Jumper JU32: • Jumper JU33: • Jumper JU34: • Jumper JU35: • Jumper JU36: • Jumper JU37: • Jumper JU38: • Jumper JU39: • Jumper JU40: • Jumper JU41: • Jumper JU42: • Jumper JU43: not installed 'y' position not installed not installed not installed not installed installed not installed not installed not installed not installed not installed 'x' position not installed installed installed installed not installed not installed not installed not installed not installed not installed installed not installed not installed 'y' position not installed not installed not installed installed not installed installed Balanced input flat audio response enable. Balanced input to auxiliary audio circuit enable. Tone/Digital input to auxiliary audio circuit enable. Direct modulation input to auxiliary audio circuit enable. Auxiliary input preemphasis response enable. Auxiliary input flat audio response enable. Subtone input 1 audio path select. MT-2 Temperature compensation bypass. Continuous data mode selection. Power source for audio switches. Power source for Q2. Power source for bilateral switch U9. Audio output to lowpass filter Direct modulation input to subtone 2 enable. Lowpass filter response select. Lowpass filter response select. Lowpass filter response select. Direct modulation input audio path select. Amplified direct modulation bypass. Amplified direct modulation input DC coupled enable. Amplified direct modulation audio path select. Audio output AC coupled (MT-3 synthesized transmitters) Audio output AC coupled (MT-3 crystal transmitters). Audio ouput AC coupled. Audio output from direct modulation circuits select. Direct Modulation output source select. Power source select for AGC Preamplifier. Direct modulation output enable. Subtone 2, DC coupled, to direct modulation output select. Direct modulation low input impedance enable. Power for Microphone preamplifier enable. not used. Processed audio path to dircet modulation output. Bilateral switch U9 bypass enable. DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-9 3.10 MT-3 Audio Processor Alignment (Version 1.8) 3.10.1General Verify the standard factory settings for the MT-3 Audio Processor as given in section 3.9.1 before beginning the standard deviation adjustment procedure. If the transmitter's channel frequency changes, the audio processor should be realigned to optimize the transmitter's performance. The schematic diagram for the audio processor is shown in section 5.5.2 and the component layout is shown in section 5.5.1. 3.10.2MT-3 Audio Processor Standard Deviation Adjustment Note: clockwise rotation of controls increases signal levels. Connect the transmitter to the radio communications test set and monitor FM deviation, distortion, and audio frequency. Before adjusting the audio deviation, confirm that the transmitter RF output frequency is correct. Connect the 600 ohm input to the incoming audio (pins B18, Z18). Set the audio frequency to 1 kHz at the desired level of -8 dBm. Increase the balance level control (R31) so that the deviation increases until compression is observed. Adjust the compression control pot (R38) for compression at ±60% maximum deviation. Set the audio frequency to 2.4 kHz, then adjust the deviation control (R29) for maximum deviation. Reset the modulating frequency to 1 kHz and re-adjust R38 for ±60% maximum deviation. Repeat steps 4 and 6 until both conditions are met. Vary the audio signal from 1 kHz to 3 kHz and measure the positive deviation and then the negative deviation. Adjust the symmetry control (R14) until the ± deviation is symmetrical. The variation between ± deviation levels should not exceed 300 Hz over the 1 kHz to 3 kHz range. Repeat steps 4 and 6 and re-adjust if necessary. DANIELS DE ELECTRONICS 3-10 Transmitter Main Board Instruction Manual 10 Adjust the balanced input level control (R31) so that the deviation increases until compression is observed. The deviation should be ±1.5 kHz or ±3 kHz for narrowband and wideband channels respectively. 11 Increase the input level (R31) by +20 dBm, it should not increase the deviation more than 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 maximum deviation. 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 audio distortion with the appropriate filter on the communications test set. 14 Confirm the audio frequency response by referencing all output deviation measurements to a 1 kHz input tone at ±20% maximum deviation (±500 Hz for narrowband or ±1 kHz for wideband). Remove the signal to the balanced input (pins B18, Z18). 15 Apply a 1 kHz tone at -8 dBm to the microphone audio input. Set the microphone compression control (R2) to produce ±50% maximum deviation. Reduce the signal to -10 dBm and adjust the microphone input level control (R2) for ±50% maximum deviation. Remove the signal. 16. Apply a 100 Hz tone at -18 dBm to the subtone 1 input and adjust the subtone 1 level control (R42) to produce ±500 Hz deviation. Remove the signal. 3.11 Low Frequency Modulation Configuration Note: the following information originates from Daniels Electronics document number A0361-06. 3.11.1MT-3 Transmitters For transmitters, the LTR™ or DCS signal should be applied to the DIRECT MODULATION input (pin Z28), which is also available on the M-3 and SR-3 motherboards at the control connectors J1, P1, or J7 on pins B20 (TX A DIR MOD) and A20 (TX B DIR MOD). The signal from an LTR™ or DCS encoder should be applied through a 47k resistor to reduce the loading effect of the DIRECT MODULATION input. The signal should be capacitively coupled to avoid pulling the transmitter frequency off centre. Most LTR™ and DCS encoder modules already have a capacitive output. Note that the controller generating the low frequency signal will need to key the transmitter's PTT input. Note that the synthesizer and the audio processor may require modifications as described later in this document. DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-11 MT-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 +9.5VSWITCHED line). • solder a wire from JA4-2 of main board to J51-18 of synthesizer. This connects the subtone 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 +9.5VSWITCHED line). 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 +9.5VSWITCHED line). • J18 installed in the ''X' position (synthesizer always powered up by +9.5VSWITCHED line). LTR™ is a Trademark of E.F. Johnson Company. 3.11.2MT-3 Transmitter Audio Processors MT-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 low frequencies to pass. • Short pins P4-1 and P4-3 (or install J23) together with a short piece of 22 or 24 gauge solid wire and solder (see diagram below). This allows the DIRECT MODULATION DANIELS DE ELECTRONICS 3-12 Transmitter Main Board Instruction Manual input to the transmitter to be used to gain access to the SUBTONE INPUT 2 which connects 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. SHORT TOP TWO PINS REMOVE R47 REPLACE WITH 10 uF MT3TXMNM7 MT-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 gauge solid wire and solder (see figure 3-1). This allows the DIRECT MODULATION input to the transmitter to be used to gain access to the SUBTONE INPUT 2 which connects to the 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 also that 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 Oscillator Refer to the manual for the Oscillator used in your Transmitter for the required Low Frequency Modulation modifications. DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 3-13 3.11.4Tuning the Transmitter For all MT-3 transmitters, apply a low impedance source of 20-300 Hz to the Direct Modulation input of the transmitter (Pin Z28 of the 48 pin connector) through a 22 uF capacitor, positive terminal connected to pin Z28. A Marconi 2955 works well for this test. Adjust R44 on the audio processor to the fully clockwise position. • Apply a 100 Hz tone at -8 dBm to the Direct Modulation input of the transmitter (Pin Z28 of the 48 pin connector, and key the transmitter. Adjust the level of the tone until a deviation of 1.5 kHz is acheived. Note that the level required may be anwhere from -10 dBm to 0 dBm depending on the type of transmitter. • Confirm that the frequency response rolls off by checking that the following deviations are observed: (note that the deviation will NOT roll off at 300 Hz if an OC-3 crystal oscillator 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 = - Check 300 Hz Mod, Dev = 1.5 (VHF) / 2.0 kHz (UHF) 1.5 (VHF) / 4.0 kHz (UHF) DANIELS DE ELECTRONICS 3-14 Transmitter Main Board Instruction Manual 4 TRANSMITTER INTERCONNECT PIN DEFINITIONS The MT-3 series Transmitter employs a 48 pin Eurostandard connector for interfacing to all transmitter power, audio, and control functions. The following are the MT-3 series Transmitter backplane connections to the M-3 Motherboard. Pin Name P i n Name P i n Name D2 D4 D6 D8 D10 D12 D14 D16 D18 D20 D22 D24 D26 D28 D30 D32 No Connect No Connect No Connect No Connect No Connect No Connect No Connect (IMC1) No Connect (IMC2) No Connect (IMC3) Channel Select 0 (LSB) Channel Select 1 Channel Select 2 Channel Select 3 (MSB) Synth Tx Data (Output) Synth Rx Data (Input) Synth Bootstrap (Input) B2 +13.8 Vdc B4 MIC Out B6 +9.5 Vdc B8 Relay Positive B10 PTT WTO B12 Tx Standby B14 PTT NTO B16 No Connect (MT-2 +9.5V) B18 Balanced Input 2 B20 Squelched,De-emph Audio B22 Subtone Input 1 B24 PTT Output B26 Forward Power Sense B28 Monitor Out B30 Ground B32 Ground Z2 Z4 Z6 Z8 Z10 Z12 Z14 Z16 Z18 Z20 Z22 Z24 Z26 Z28 Z30 Z32 +13.8 Vdc MIC In +9.5 Vdc Relay Negative PTT WTO Tx Standby PTT NTO No Connect (MT-2 +9.5V) Balanced Input 1 Squelched, Flat Audio Tx Audio Control Subtone Input 2 Reverse Power Sense Direct Mod Input Ground Ground DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 4-1 This Page Intentionally Left Blank DANIELS DE ELECTRONICS 4-2 Transmitter Main Board Instruction Manual 5 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS 5.1 Transmitter Block Diagram DANIELS TM ELECTRONICS LTD. MT-3 AM Transmitter Main Board Instruction Manual 5-1 6 PARTS LISTS 6.1 Transmitter Main Board Parts List DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 6-1 7 REVISION HISTORY ISSUE DATE REVISION August 97 First Issue. Sept. 97 Included PCB version 1.4 Component Layout and Schematic diagrams. 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. For A21-TX3-00 TX MAIN/FP, MT-3, STANDARD A21-TX3-30 TX MAIN/FP, MT-3, + REF. INPUT TUBING, TFE-260C,14AWG T/W,CLR 7610-260C14TW 18mm Long and Consummable Buss Wire 16 Awg 40mm Long NOW NOT INSTALLED Dec 97 For A21-TX3-01 TX MAIN/FP, MT-3, WITH FUSE A21-TX3-02 TX MAIN/FP, MT-3, + DC RELAY A21-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 - TP34 Dec 97 Front Panel Board version now 1.2 (ECO 521). Modified MT-3 Tx Front Panel Board (FPB) to support all options on the New Transmitter Main Board . Also, the Front Panel Board is now easier to configure 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-3 Main PCB (unless you hard wire one of the microphone pins into the main PCB (13.8V line.) Added J2 SM Jumper. This jumper now selects Rx Audio or 13.8V to Pin 4 of the Microphone. This capability used to be selected by a jumper on the Main Tx Board. For Normal Opertion J2 'x' position must be installed Options - This is for future use (not used now). Added 2x4 header land pattern to Tx Front Panel Board. A 2x4 header can be installed to make other microphones compatible with Daniels Transmitters. Nov 98 MT-3 FM Audio Processor now version 1.8 The MT-3 FM Audio Processor was re-designed because the IC, XXXXXX, XXXXX, SO-8 is no longer available from the supplier. Also, the new design improves the flat and 300Hz Pre-emphasis audio responses. Included PCB version 1.8 Component Layout, Schematic diagram, Parts List and Section 2.4, 3.9 and 3.10. DANIELS DE ELECTRONICS Transmitter Main Board Instruction Manual 7-1 ISSUE DATE REVISION Updated the DE logo and added the statuary trademark statement to the title page. Updated the Low Frequency Modulation section 3.11 to reflect the in house document A0361-06. Nov 98 DANIELS DE ELECTRONICS 7-2 Transmitter Main Board Instruction Manual MT-3 RADIO SYSTEMS Audio Processor Instruction Manual For AM/FM Transmitters Covers the following V 2.2 and V2.3 of the FM Audio Processor Board used in the VT-3/xxx, UT-3/xxx, VT-3Hxxx and A22-VAP130 AM Audio Processor Version 04 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 Electronic Ltd. registered in the U.S. Patent and Trademark Office. Issue: Issue Date: Printing Date: Part No.: November 2000 January 2001 IM20-AP3 Previous Issue: Previous Issue Date: October 2000 Daniels Electronics Ltd. Victoria, BC. PRINTED IN CANADA 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. ii Audio Processor Board Instruction Manual TABLE OF CONTENTS Page FM AUDIO PROCESSOR .............................................................................................1-1 1.1 Introduction ..........................................................................................................1-1 1.2 Block Diagram (FM Audio Processor).................................................................1-3 1.3 FM Audio Processor Board Pin Connections.......................................................1-4 1.4 Factory Configuration...........................................................................................1-4 1.5 Turn-on Time........................................................................................................1-5 1.6 Low Frequency Modulation..................................................................................1-5 1.7 Transmitter Standby Modes..................................................................................1-5 SIGNALS.........................................................................................................................2-1 2.1 FM Audio Processor Outputs...............................................................................2-1 2.2 Modulation Output ...............................................................................................2-1 2.3 Low Frequency / Direct Mod. Output...................................................................2-1 2.4 Microphone Input.................................................................................................2-1 2.5 Balanced Input......................................................................................................2-1 2.6 Auxiliary Input......................................................................................................2-2 2.7 Subtone Inputs......................................................................................................2-2 2.8 Direct Modulation Input .......................................................................................2-2 THEORY OF OPERATION ............................................................................................3-1 ALIGNMENT..................................................................................................................4-1 4.1 Standard Deviation Adjustment.............................................................................4-1 4.2 Balanced Input Setup............................................................................................4-1 4.3 Microphone Input Setup.......................................................................................4-1 4.4 Subtone Input Setup .............................................................................................4-2 4.5 Balanced Input Frequency Response....................................................................4-2 TROUBLESHOOTING - TEST EQUIPMENT NEEDED ............................................5-1 5.1 Balanced Input Test ..............................................................................................5-1 5.2 Frequency Response Test.....................................................................................5-1 5.3 Subtone Input Test................................................................................................5-2 5.4 Audio benchmarks ................................................................................................5-2 TEMPERATURE COMPENSATION ............................................................................6-1 ILLUSTRATIONS, TABLES AND SCHEMATIC DIAGRAMS ..................................7-1 7.1 Special Jumper Configuration Table.....................................................................7-1 7.2 FM Audio Processor Component Layout.............................................................7-2 7.3 FM Audio Processor Schematic Diagram.............................................................7-3 FM AUDIO PROCESSOR PARTS LIST.......................................................................8-1 AM AUDIO PROCESSOR.............................................................................................9-5 9.1 Introduction ..........................................................................................................9-5 9.2 Performance Specifications...................................................................................9-5 9.3 Audio Specifications .............................................................................................9-6 Audio Processor Board Instruction Manual iii 9.4 9.5 9.6 9.7 9.8 9.9 9.10 9.11 9.12 10 Audio Circuits.......................................................................................................9-6 Power Requirements .............................................................................................9-6 Transmitter Standby Modes..................................................................................9-6 Audio Circuitry.....................................................................................................9-7 AM Audio Processor Factory Configuration........................................................9-8 AM Audio Processor Alignment...........................................................................9-8 AM Audio Processor Electrical Parts List...........................................................9-11 AM Audio Processor Component Layout...........................................................9-14 AM Audio Processor Schematic Diagram ..........................................................9-15 REVISION HISTORY...................................................................................................10-1 LISTS OF FIGURES Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Block Diagram - Audio Processor............................................................... 1-3 Pin Connection Diagram.............................................................................. 1-4 Microphone and Balanced Input Circuitry................................................... 3-1 Limiter and Splatter Filter ............................................................................ 3-2 Bypassing Compression.............................................................................. 3-3 TX Audio Control Circuitry......................................................................... 3-4 LIST OF TABLES Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 iv Bandwidth Definition................................................................................... 1-1 Factory Configuration.................................................................................. 1-4 Turn On Time.............................................................................................. 1-5 Mode Condition Table................................................................................. 1-6 Standby Mode Selection Table .................................................................... 1-6 MT-3 Audio Processor Total Current Consumption.................................... 1-6 Operating Current........................................................................................ 5-1 Waveform Levels ......................................................................................... 5-2 Audio Processor Board Instruction Manual 1 FM AUDIO PROCESSOR 1.1 Introduction The MT-3 FM Audio Processor is a versatile circuit board that can provide several types of audio processing for voice or data transmission. The following terms are defined: Table 1 Bandwidth Definition Term Channel Spacing Rated System Deviation Wideband 25 kHz or 30 kHz ±5.00 kHz Narrowband 12.5 kHz or 15 kHz ±2.50 kHz LTR™ is a trademark of E.F. Johnson Co. Features include: • • • • • • • • • • • • • • Automatic level control using a compression amplifier with a 25 dB dynamic range Limiter and Splatter filter that removes noise and harmonics Selectable pre-emphasis or flat audio response Temperature compensated audio output Ability to transmit data and voice switched by a single control line. Backwards compatible with Daniels Electronics MT-2 series transmitters. Direct modulation input for LTR™, DCS, paging and other digital modulations that require very low frequency modulation to the synthesizer or crystal oscillator module. Separate voice and direct modulation outputs, each individually configurable. Multiple jumpers that can be configured to allow maximum flexibility in routing signals from inputs to outputs, and disabling selected circuits to reduce operating current. Dual microphone and balanced audio compression circuits. On-board multi-configurable temperature compensation to correct for changes in transmitter deviation over temperature caused by changing characteristics of synthesizers and oscillators. A single chip 10th Order Linear Phase Lowpass splatter filter for increased cutoff attenuation responses needed in today’s narrow band environment. The ability to switch between narrow and wideband through a single control line which can be externally controlled. This can be useful when configured as a multi-channel transmitter which uses mixed wide and narrowband frequencies. The ability to easily reconfigure fixed operations from narrow to wideband through simple jumper settings Audio Processor Board Instruction Manual 1-1 A continuous +9.5 VDC supply and a switched +8.0 VDC supply are required to power the module which is normally supplied by the Main Transmitter Board. The 6 audio inputs on the FM Audio Processor are: • • • • • DYNAMIC MICROPHONE INPUT 600 OHM BALANCED INPUT subtone inputs auxiliary input. direct modulation input for data signals. The Audio Processor's balanced input pins are isolated by a transformer (T1) on the Transmitter Main Board. Two audio outputs from the MT-3 Audio Processor are routed to the Synthesizer or Crystal Controlled Oscillator Modules. 1-2 Audio Processor Board Instruction Manual 1.2 Block Diagram (FM Audio Processor) Audio Processor Board Instruction Manual 1-3 1.3 FM Audio Processor Board Pin Connections P3 P4 P2 P1 Surface Mount Side PCB END VIEW +9.5V Mic Input +8V -10 dBm Subtone Input 1 Voice And Subtone Output Balanced Input -18 dBm Low Frequency Direct Mod Output dBm -8 dBm Figure 2 Pin Connection Diagram 1.4 Factory Configuration The MT-3 FM Audio Processor is factory configured as follows: Table 2 Parameter Specification Maximum Deviation ±2.5 kHz (Narrowband), ±5.0 kHz (Wideband). 1 kHz signal at -10 dBm gives ±60% rated system deviation 1 kHz signal compression set at ±84% rated system deviation 1 kHz tone at -8 dBm gives ±60% rated system deviation 1 kHz signal compression set at ±84% rated system deviation 100 Hz tone at -18 dBm gives ±500 Hz (Wideband) ±350 Hz (Narrowband) deviation Disabled Microphone Input Audio Balanced Input pre-emphasis response Subtone Input 1 All other audio inputs 1-4 Factory Configuration Audio Processor Board Instruction Manual 1.5 Turn-on Time This measurement is made with the standard factory settings with a 1 kHz tone applied to the balanced input. The turn-on time is the time it takes the FM Audio Processor to output a stable audio signal to P3-1 from the time its power (+8.0 VDC) is switched on. The turn-on time can be virtually eliminated by configuring the FM Audio Processor for continuous audio standby (see section 1.7 Transmitter Standby Modes). The drawback is that more current is used to enable the audio circuits to minimize the turn on time. The bulk of the delay is in the powering of the compression amplifier. For applications that do not use the compression amplifier, the fast turn on times apply as in the case of data transmission, or audio with no compression. Table 3 1.6 Turn On Time Mode Turn on time Fast turn on – higher current Current save – slower response Approx 1mS Approx 150mS Audio Processor Standby Current 15 mA 450uA Low Frequency Modulation The transmitter has an additional option to address low frequency user modulation requirements. A phase modulated bandwidth from 0 (dc) to 100 Hz (PLL loop filter bandwidth) allows specialized applications such as paging or trunking where a separate low frequency digital/analog modulation channel is required. Low Frequency Modulation allows external access to the low frequency modulation capabilities of the synthesizer module. The DIRECT MODULATION inputs on the J1 control connector of the M-3 motherboard will be used (B20 for TX A, and A20 for TX B). Refer to “Data Modulation and Signalling Applications Manual”, P/N AM20-DMS for specific FM Audio Processor configuration methods. 1.7 Transmitter Standby Modes The MT-3 series transmitters has 8 different standby modes that trade-off standby current consumption for start-up speed. Three of these jumpers are on the Transmitter Main Board : • J6 which always turns on the '+9.5 VDC Switched' supply, • J7 which selects the power source for the MT-3 FM Audio Processor • J18 which selects the enable line for the OS-3 or OS-3H Synthesizer, or OC-3 Crystal Controlled Oscillator module. Additionally, there is a jumper on the FM Audio Processor Board: • JU36 which determines the power hookup for the dual compression amplifiers Audio Processor Board Instruction Manual 1-5 Notes: If FM Audio Processor JU36 is not installed, both microphone and balanced audio compression amplifiers will be disabled. This means that the front panel microphone jack will be disabled for local microphone operations. When in this condition, balanced audio is routed around the compression circuitry via JU11 (installed) with JU1 and JU2 removed. Table 4 Mode Condition Table MODE J6 J7 J18 Synthesizer/Osc State 1a 1b 1c 2a 2b 2c PTT Switched PTT Switched PTT Switched Always enabled Always enabled Always enabled PTT Switched Always enabled OUT OUT OUT IN IN IN IN IN Table 5 MODE 1a 1b 1c 2a 2b 2c Table 6 Audio Processor State (8V Switched) PTT Switched PTT Switched PTT Switched PTT Switched PTT Switched PTT Switched Always enabled Always enabled Standby Mode Selection Table Total Xmtr Standby Current 13 mA 6 mA 22 mA 15 mA 13 mA 6 mA 165 mA 25 mA 174 mA 34 mA 165 mA 25 mA 27 mA 20 mA 175 mA 34 mA Startup Time 150 mS 10 mS 10 mS 150 mS 10 mS 10 mS 10 mS 10 mS 150 mS 10 mS 10 mS 150 mS 10 mS 10 mS 10 mS 10 mS FM Audio Processor Total Current Consumption. Compression configuration Compression enabled (JU36X) Compression and microphone disabled (JU36 Open) Compression enabled (JU36Y) 1-6 Audio Processor Compression JU36 Switched +8.0V(X) Continuous 9.5V(Y) Disabled (Not Installed) Switched +8.0V (X) Continuous 9.5V (Y) Disabled (Not Installed) Doesn’t matter Doesn’t matter Audio Processor Current Draw keyed / unkeyed 15 mA/0.45 mA 9.2 mA/0.45 mA 15 mA /9.2 mA Audio Processor Board Instruction Manual 2 SIGNALS The MT-3 FM Audio Processor has six audio inputs, two audio outputs and one audio control input. Five of the audio inputs are used primarily for voice and tone signals. The sixth, the Direct modulation input, is used primarily for data signals. The audio control input is used to switch audio outputs so the transmitter can transmit voice or data. 2.1 FM Audio Processor Outputs Both the audio outputs, Modulation Output (P3-1) and Low Frequency / Direct Modulation Output (P4-2), are gated by audio switches U5 and U6 respectively which are controlled by the Transmit Audio Control Input (P4-4). The audio switches can be operated complimentary to each other so there can ever only be one source modulating the transmitter. In standard configuration, the Modulation Output port is used so switch U5 is always on. 2.2 Modulation Output The Modulation Output port is the output port used by all voice input signals. The voice inputs are passed to U1A and U1B, a dual programmable compandor which is configured as an automatic level control amplifier. Op-amp U3A provides the limiting action for the FM Audio Processor. After the audio signals have been combined limited and buffered, they are filtered by 10th order Linear Phase Lowpass Filter (U4). The output signal from the filter is then level adjusted by the deviation control pot, R29, before buffer amplifier U3D. In special applications, jumper JU6 can be disabled and JU7 enabled, this allows the transmitter to be modulated directly from the auxiliary input. This should not be done without external filtering since jumper JU7 bypasses the limiting and filter circuits. 2.3 Low Frequency / Direct Mod. Output The Low Frequency / Direct Modulation Output port has two functions depending on whether the transmitter is synthesized or crystal controlled. In a synthesized transmitter, this port is used to modulate the synthesizer reference frequency. The frequency response of this port is typically DC to 300 Hz. In a crystal controlled transmitter, this port can be used by the Direct Modulation Input to directly modulate the crystal control oscillator module. The frequency response of this port is essentially flat from DC to 5 kHz with no limiting or filtering. 2.4 Microphone Input The microphone input has an automatically level controlled (ALC) preamplifier U1 whose input level is controlled by R2. The microphone input level control (R2) can accommodate a -25 dBm to 0 dBm input signal. The microphone input is limited and filtered and is output at the standard modulation output port. The microphone input can have a standard 6dB/octave pre-emphasis response or a flat-audio response, jumper JU1 at 'y' and 'x' position respectively. 2.5 Balanced Input The 600 ohm balanced input uses the ALC preamplifier U1B, with input level control pot (R31). The balanced input level control can accommodate a -25 dBm to 0 dBm input. (install JU17 when Audio Processor Board Instruction Manual 2-1 using the lower input levels) Like the microphone input, the balance input is limited and filtered and is output at the standard modulation output port. If no compression is required (i.e.: customer is providing their own), JU11 can be enabled providing a path through R48 (Auxiliary Input Level Control) to amplifier U2C where preemphasis or flat audio can then be selected from its output. 2.6 Auxiliary Input The auxiliary input is a special input and does not have an ALC. This input can be configured for a pre-emphasis response (enable JU9Y) or a flat-audio response (enable JU9X). The level for this input is set by R48. The auxiliary output is normally summed with the voice signals by op-amp U3A, limited, then filtered and output at the standard modulation output port. When jumper JU6 is disabled and jumper JU7 is enabled, the auxiliary input can be used to directly modulate the transmitter. Care should be taken when directly modulating the transmitter with the auxiliary input because the MT-3 transmitters use direct FM modulation and there is no filtering or limiting action provided by the auxiliary input. The input level to the auxiliary input should be -18 dBm and can be driven by one of three inputs: • the balanced input – JU11 • the tone/digital input – JU12 X or Y enabled • the direct modulation input – through JU28 When the 600 ohm balanced input is connected to the auxiliary input, the balanced input level control can be used to adjust the level for the auxiliary input. 2.7 Subtone Inputs There are two subtone inputs available on the FM Audio Processor. Both subtone inputs can be individually configured to be output from the standard Modulation Output port or to be output from the Low Frequency / Direct Modulation Output. In standard configuration, Subtone 1 is summed with the voice signals to be output from the standard Modulation Output port while Subtone 2 is used for DCS. Both subtone inputs have an input level control. 2.8 Direct Modulation Input The Direct Modulation Input is an extremely versatile input. This port is designed to be used for data signals. Depending on the application, the signal can be amplified, AC or DC coupled and output to the Modulation Output or the Low Frequency / Direct Modulation Output port. Please consult the factory for specific jumper settings for your application. 2-2 Audio Processor Board Instruction Manual 3 THEORY OF OPERATION Audio Processor Board Instruction Manual 3-1 4 ALIGNMENT Verify the standard factory settings for the MT-3 FM Audio Processor as given in section 1 before beginning the standard deviation adjustment procedure. If the transmitter's operating frequency is changed beyond the factory recommended bandwidth or if the synthesizer is changed, the FM Audio Processor should be realigned to optimize the transmitter's performance. The schematic diagram for the FM Audio Processor is shown in section 7-2 of this manual. The settings tolerance is +/- 0.1 kHz. 4.1 Standard Deviation Adjustment Set up the Communications Analyzer : -Audio filter to LOW PASS 15 or 20 kHz -To monitor transmit frequency and audio deviation level. 4.2 Balanced Input Setup 10 11 12 4.3 Connect audio generator output to the BALANCED INPUT (Transmitter Main Board edge connector pins B18, Z18). Preset R31 (BALANCED INPUT LEVEL CONTROL) R38 (COMPRESSION CONTROL) R29 (DEVIATION CONTROL) all maximum clockwise Set audio generator to 2.4 kHz at 0 dBm. Adjust R29 for ±4.8 kHz (Wideband) or ±2.4 kHz (Narrowband). Set audio generator to 1 kHz at 0dBm Set R38 for ±4.2 kHz (Wideband) or ±2.1 kHz (Narrowband). Repeat steps c) to f) (slight interaction) Set audio generator to 1 kHz at –8 dBm Adjust R31 for ±3.0 kHz (Wideband) or ±1.5 kHz (Narrowband). Set audio generator to 1 kHz at –18 dBm Ensure deviation is at ±1.0 kHz (Wideband) or ±0.5 kHz (Narrowband). Set audio generator to 1 kHz at –8 dBm. Set Communications Analyzer Audio Filter to BANDPASS 300-3400 Hz. Activate distortion analyzer. Confirm that the distortion is within specification. Microphone Input Setup 1. Set R2 fully clockwise 2. Apply a 1 kHz tone at 0 dBm to the microphone audio input (PIN 1 on the front panel connector. Pin 2 is ground). Set R63 (MICROPHONE COMPRESSION for ±4.2 kHz (Wideband) or ±2.1 kHz (Narrowband). 3. Reduce the audio generator level to –10 dBm. Adjust R2 (MICROPHONE INPUT LEVEL) for ±3.0 kHz (Wideband) or ±1.5 kHz (Narrowband). Audio Processor Board Instruction Manual 4-1 4.4 Subtone Input Setup • Apply a 100 Hz tone at -18 dBm to the subtone 1 input . • Adjust R42 (SUBTONE INPUT 1) to produce: • ±500 Hz(Wideband) or ±350 Hz(Narrowband) deviation. • Remove the signal. 4.5 Balanced Input Frequency Response • Apply a 1 kHz tone at –18 dBm to the BALANCED INPUT (Transmitter Main Board edge connector pins B18, Z18). • Record deviation and use this level as the 0 dB reference. • Sweep frequency from 100 Hz to 5 kHz. • The audio response should be within +/- 1dB from 300 Hz to 2500 Hz. 4-2 Audio Processor Board Instruction Manual 5 TROUBLESHOOTING - TEST EQUIPMENT NEEDED Variable Power supply/supplies to supply 9.6V and 8.0V at the same time. Digital Voltmeter to measure RMS AC Volts, DC Volts, DC Current and resistance. 20 MHz Oscilloscope, single channel. Audio Signal Generator (600 Ohm Output Impedance) capable of frrequencies from 67 Hz to 5000 Hz. Power Supply • Connect a regulated power supply with +9.5V as follows: Positive to P2-4 Negative to P1-4 (Ground) • Connect a regulated power supply with +8.0V as follows: Positive to P2-3 Negative to P1-4 (Ground) • Measure total current from both power line inputs: Table 7 5.1 Operating Current Voltage Input Current (mA) 8.0V 15.7 9.5V 0.47 Balanced Input Test Connect an Audio Generator set for a 2.4 kHz tone @ 0 dBm (775 mV RMS) output to the Balanced Input (P1-1 and P1-2). Refer to Table 8 Waveform Levels for measurement points, levels and waveforms that should be present. Change Audio Generator settings for a 1 kHz tone @ -8 dBm (309 mV RMS) output. Refer to Table 8 Waveform Levels for levels and waveforms that should be present. 5.2 Frequency Response Test Reduce Audio Generator level to –18 dBm (98 mV RMS). Step frequency to 500, 1000, 2000 and 3000 Hz. Ensure that the results conform to the 6dB/octave +/- 1 dB from 300 Hz to 2500 Hz referenced to 1000 Hz. Measurements are made at JU8 with respect to ground. Audio Processor Board Instruction Manual 5-1 5.3 Subtone Input Test Change Audio Generator frequency to 100 Hz and maintain level at –18 dBm (98 mV RMS). Connect output to Subtone Input 1 (P2-2) and ground (P1-4). Refer to Table 8 Waveform Levels, for levels and waveforms that should be present. 5.4 Audio benchmarks Set the audio generator to 2.4 kHz @ 0 dBm at the Balanced Input. Compare the waveform levels with those listed in table below. Repeat for the various audio frequencies and levels and compare with the levels in the table below. Table 8 Measured TP3 TP12 TP10 TP5 JU6 TP8 5-2 Limiting Test 2.4kHz @0dBm 5.2V P-P N/A 6.5V P-P 2.4V P-P 5.5V P-P 1.5V Waveform Levels Std Level 1 kHz @ -8dBm 3.8V P-P N/A 4.9V P-P 1.3V P-P 1.7V P-P 0.9V P-P Mic Test 1 kHz @ -10 dBm N/A 3.8V P-P 4.8V P-P 1.9V P-P 1.8V P-P 0.9V P-P Subtone 100 Hz @ -18 dBm N/A N/A 1.1V P-P 0.4V P-P 0.4V P-P 0.2V P-P Audio Processor Board Instruction Manual 6 TEMPERATURE COMPENSATION The FM Audio Processor includes temperature compensation circuitry to maintain constant transmitter audio deviation with a fixed level input signal. It is capable of not only compensating for temperature related level variations within the FM Audio Processor (typically –0.3 to –0.5 dB at –40C) but can also compensate for changes caused by the synthesizer or crystal oscillator module that is not equipped with its own temperature compensation. The factory specification is as follows: Wideband When a 2.4 kHz tone is applied at a level of –8dBm to the balanced input of the transmitter, the transmitter deviation shall be ±4.8 kHz at room temperature and can vary from ±4.5 kHz to ±5.0 kHz from -40ºC to +60ºC. Narrowband When a 2.4 kHz tone is applied at a level of –8 dBm to the balanced input of the transmitter, the transmitter deviation shall be ±2.4 kHz at room temperature and can vary from ±2.25 kHz to ±2.5 kHz from -40ºC to +60ºC. Since the specifications of the components used in the synthesizer or oscillator may change over time, changes to the temperature compensation circuit may be necessary even for the same type of equipment. Contact the factory for more information on values used. Audio Processor Board Instruction Manual 6-1 This Page Intentionally Left Blank 6-2 Audio Processor Board Instruction Manual 7 ILLUSTRATIONS, TABLES AND SCHEMATIC DIAGRAMS 7.1 Special Jumper Configuration Table DANIELS ELECTRONICS LTD. TM Audio Processor Board Instruction Manual 7-1 8 FM AUDIO PROCESSOR PARTS LIST Audio Processor Board Instruction Manual 8-1 9 AM AUDIO PROCESSOR 9.1 Introduction The MT-3 AM Transmitter Main Board integrates the MT-3 Front Panel Board, MT-3 AM Audio Processor, Synthesizer or Crystal Control module and Amplifier module together to make a working MT-3 AM series transmitter. The Front Panel Board and the Audio Processor are soldered directly to the Transmitter Main Board while the Amplifier and the Synthesizer or Crystal Control module are frequency band sensitive, plug-in modules. Circuitry and jumpers on the Transmitter Main Board control the operation of the modules as well as the overall operation of the MT-3 transmitter. Power and signal connections are made to the 48 pin type 'F' connector on the rear of the Transmitter Main Board and are routed to the other modules. The front and rear back plates are attached to the Transmitter Main Board and together with the extruded aluminum shell, as discussed in the assembly section of the Transmitter Manual, form the transmitter enclosure. 9.2 Performance Specifications Type: MT-3 AM Series Transmitter Compatibility: VT-3A Series Amplifier, OCT-3 Crystal Oscillator, OST-3 Frequency Synthesizer. Modulation: 6K00A3 (Amplitude Modulation) Operating Temperature Range: -30˚C to +60˚C, optional - 40˚C temperature test. Operating Humidity: 95% RH (non-condensing) at +25°C. Operating Voltage: +13.8Vdc , +9.5 Vdc Regulated. Front Panel Control: One 3 position switch • NORM (repeat mode) • OFF • KEY TX 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 set 5 min.). Audio Processor Board Instruction Manual 9-5 9.3 Audio Specifications Audio Input: Audio Response: Audio Distortion: 9.4 -30 to 0 dBm into a 600Ω balanced load. Flat audio; +1/-3 dB: 300 Hz - 3 kHz Less than 3% -40˚C to +60˚C at 30% modulation, Less than 5% -40˚C to +60˚C at 90% modulation Audio Circuits All of the audio signal conditioning (e.g. limiting, filtering) is performed by the MT-3 AM Audio Processor. The transmitter board routes the audio lines from the backplane connector to the audio processor. The audio lines routed to the audio processor are: a 600 ohm balanced input (pins B18 and Z18), and a MIC AUDIO from the MT-3 FRONT PANEL BOARD. It is here that the MIC audio is processed in the same manner as the 600 ohm balanced audio. The audio processor's balanced input pins are isolated from pins B18 and Z18 by a transformer (T1). Two audio outputs from the MT-3 AM Audio Processor are routed to the VT-3A130 Amplifier. The MT-3 AM Audio Processor is a versatile circuitboard that can provide several types of audio processing. The module also has an on-board programmable push-to-talk (PTT) time-out-timer (TOT) on an attached circuitboard. A continuous +9.5 Vdc supply and a continuous +13.8 Vdc supply together with a switched +8.0 Vdc supply are required to power the module. Refer to section 9.11 "MT-3 AM Audio Processor Component Layout" and to section 9.12 "MT-3 AM Audio Processor Schematic Diagram" for component location and designation references. 9.5 Power Requirements The audio processor can be configured for continuous audio standby or for switched audio standby by the Transmitter Main Board. If fast audio risetime is desired, the transmitter should be operated in standby mode 3 or 4 as specified below. The current for the associated TOT is approximately 4 mA when the transmitter is keyed. 9.6 Transmitter Standby Modes The VT-3A130 Transmitter has four different standby modes that trade-off standby current consumption for start-up speed. The standby modes are determined by three jumpers: jumper J6 which always turns on the '+9.5 Vdc Switched' supply, jumper J7 which selects the power source for the MT-3 AM Audio Processor and jumper J18 which selects the enable line for the OST3A128 Synthesizer Module. 9-6 The actual current and start-up time may depend on the frequncy controlled source (crystal or synthesizer) and amplifier module. The current and start-up times given below are representative values intended only as a guideline. MODE 1: Jumper J6 out - the audio processor is switched by a PTT signal - the synthesizer is switched by a PTT signal - standby current typically 13 mA - start-up time typically 40 ms MODE 2: Jumper J6 in, jumper J7 in the 'y' position, jumper J18 in the 'x' position - the audio processor is switched by a PTT signal - the synthesizer is enabled all of the time - standby current not used in this mode - start-up time not used in this mode MODE 3: Jumper J6 in, jumper J7 in the 'x' position, jumper J18 in the 'y' position - the audio processor is enabled all of the time - the synthesizer is switched by a PTT signal - standby current typically 19 mA - start-up time typically 40 ms MODE 4: Jumper J6 in, jumper J7 in the 'x' position, jumper J18 in the 'x' position - the audio processor is enabled all of the time -the synthesizer is enabled all of the time -standby current typically 163 mA -start-up time typically 12 ms 9.7 Audio Circuitry The MT-3 AM Tx Audio Processor refer to section 9.12 "MT-3 AM Audio Processor Schematic Diagram" has two audio inputs (Microphone input and Balanced input) which can be used to modulate the transmitter. The input signals are combined by R2 and R17 at a compandor U1. U1b controls the input level and makes gain inversely proportional to the input level (say a 20 dB drop in input level will produced a 20 dB increase in gain). The output will remain fixed at a constant level without clipping and distortion. (Automatic Level Control) The input signals are adjusted by the pots R1, R16. The variable gain cell in U1a is used as a voltagecontrolled amplifier so that if the power supply (13.8Vdc) has changed the output level will change in order to keep the modulation of the RF output signal at the same level. The gain control can be adjust by the pot R4. (Automatic Modulation Control) The audio signal then amplifies and filters at U2. The output signal is adjusted by the pot R14. Audio Processor Board Instruction Manual 9-7 9.8 AM Audio Processor Factory Configuration The MT-3 AM Transmitter Audio Processor is factory configured as follows: • Microphone Input: modulations. • Audio Balanced Input: modulations. • Automatic Modulation Control • Automatic Level Control 1kHz tone at -10 dBm gives 50% maximum 1 kHz tone at -8 dBm gives 90% maximum enabled enabled The corresponding jumper settings are: • • • • • • • • • 9.9 Jumper JU1: Jumper JU2: Jumper JU3: Jumper JU4: Jumper JU5: Jumper JU6: Jumper JU7: Jumper JU8: Jumper JU9: 'x' position not installed 'y' position not installed 'y' position 'y' position not installed 'y' position installed Automatic Modulation Control disabled Modulation configuration Automatic Level Control enabled Time-out-time power supply (optional) Voice application Voice application Modulation configuration Automatic Level Control enabled Power AMC and Microphone enabled AM Audio Processor Alignment Verify the standard factory settings for the MT-3 AM Audio Processor as given in section 9.8 before beginning the standard modulation adjustment procedure. If the transmitter's channel frequency changes, the audio processor should be realigned to optimize the transmitter's performance. The schematic diagram for the audio processor is shown in section 9.12 and the component layout is shown in section 9.11. *Note: clockwise rotation of controls increases signal levels 9-8 Before adjusting the audio board, confirm that the transmitter frequency is correct. Unscrew and slide out the case of the transmitter. Locate the Tx Audio Board. Connect the transmitter RF Output to a Radio communications test set. Connect the 600 ohm input to the incoming audio (pins B18, Z18). Set the audio frequency to 1 kHz at the desired level of -8 dBm. Turn the transmitter on. Adjust the pot R16, in order to achieve about 0.700 Vrms at TP4. Adjust the pot R14, in order to achieve about 0.200 Vrms at TP8. Tune the Audio Adjust pot R35 on the Power Amplifier board to obtain 90% modulation. Apply a 1 kHz, -20 dBm input signal and adjust the pot R16 in order to obtain 30% modulation. 10 Apply a 1 kHz, -8 dBm input signal, the modulation should be 90%, observe that the distortion of the transmitted signal is within 5.0%. 11 Slowly increase the input audio signal level to 5 dBm and observe that the modulation does not go over 100%. This step verifies the correct operation of the ALC . 12 Change 13.8Vdc power supply to 10V and then to 17V, the modulation of the output RF signal should remain at the same level of 90% ±7% and distortion should be less then 3%. This step verifies the correct operation of the power regulator on the transmitter amplifier board. 13 Repeat steps 7 and 9 if required. 14 Supply a 1 kHz, -10 dBm signal to the microphone input. (Note the level restriction of 25 dBm to 0 dBm.) 15 Adjust the Microphone Input Level Adjust pot (R1) to achieve 50% of RF signal modulation. Observe that the distortion should be under 5%. 16 Turn off the transmitter. Remove the signal source and replace all the screws. Audio Processor Board Instruction Manual 9-9 This Page Intentionally Left Blank 9-10 10 REVISION HISTORY ISSUE DATE REVISION First Issue. Second Issue Incorporated the AM Audio Processor documentation into this manual. For specific AM revision history, see manual IM22-MT3AMTXMN-4IM Oct 2000 Nov 2000 Audio Processor Board Instruction Manual 10-1 This Page Intentionally Left Blank 10-2 Audio Processor Board Instruction Manual DANIELS ELECTRONICS LTD. ® MT-3 RADIO SYSTEMS UHF AMPLIFIER INSTRUCTION MANUAL UT-3 406 - 512 MHz Covers models: UT-3/400 Amplifier 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. Issue: 1 Issue Date: Printing Date: Part No.: Previous Issue: N/A May 98 Previous Issue Date: N/A May 98 IM23-UT3400AMP Daniels Electronics Ltd. Victoria, B.C. PRINTED IN CANADA Reviewed By: Quality Assurance: 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. DANIELS DE ELECTRONICS ii UHF Amplifier Instruction Manual UT-3 406 - 512 MHz TABLE OF CONTENTS Page GENERAL.................................................................................................................... 1-1 1.1 Introduction....................................................................................................... 1-1 1.2 Performance Specification................................................................................. 1-1 THEORY OF OPERATION ........................................................................................ 2-1 2.1 Amplifier Operation .......................................................................................... 2-1 2.2 Power Requirements ......................................................................................... 2-2 2.3 RF Circuitry...................................................................................................... 2-2 2.3.1 UT-3/400 Lowpass Filter...................................................................... 2-2 2.4 Power Control Circuitry.................................................................................... 2-3 2.5 Power Sensing Circuitry ................................................................................... 2-3 2.5.1 Output Power Sense.............................................................................. 2-3 2.5.2 VSWR Sense........................................................................................ 2-4 2.5.3 VSWR Overload................................................................................... 2-4 UT-3/400 AMPLIFIER ALIGNMENT........................................................................ 3-1 3.1 General.............................................................................................................. 3-1 3.2 Repair Note....................................................................................................... 3-1 3.3 Recommended Test Equipment List.................................................................. 3-1 3.4 Printed Circuitboard Numbering Convention.................................................... 3-2 3.5 Standard Factory Settings and Jumper Configuration....................................... 3-2 3.6 UT-3/400 Amplifier Alignment......................................................................... 3-2 3.6.1 General.................................................................................................. 3-2 3.6.2 UT-3/400 Amplifier Adjustment ........................................................... 3-3 3.6.2.1 General Set-Up ......................................................................... 3-3 3.6.2.2 Output Power Alarm (Forward Power) ..................................... 3-4 3.6.2.3 Output Power............................................................................ 3-5 3.6.2.4 Antenna VSWR Alarm (Reverse Power)................................... 3-5 3.6.2.5 Antenna VSWR Overload......................................................... 3-6 3.6.2.6 Procedure Verification............................................................... 3-6 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS............................................... 4-1 4.1 UT-3/400 UHF Amplifier Component Layout.................................................. 4-2 4.2 UT-3/400 UHF Amplifier Schematic Diagram ................................................. 4-3 4.3 UT-3/400 UHF Lowpass Filter Component Layout ......................................... 4-5 4.4 UT-3/400 UHF Lowpass Filter Schematic Diagram......................................... 4-5 DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz iii 5 PARTS LISTS.............................................................................................................. 5-1 5.1 UT-3/400 UHF Amplifier Electrical Parts List.................................................. 5-1 5.2 UT-3/400 UHF Amplifier Mechanical Parts List.............................................. 5-4 5.3 UT-3/400 UHF Low Pass Filter Electrical Parts List........................................ 5-4 REVISION HISTORY ................................................................................................. 6-1 DANIELS DE ELECTRONICS iv UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 1 GENERAL 1.1 Introduction The UT-3/400 Amplifier provides the final stage of RF amplification and filtering for the entire UHF Transmitter UT-3 406 -512 MHz family. The amplifier has four distinct frequency ranges: 406 to 430 MHz, 450 to 470 MHz, 470 to 490 MHz and 490 to 512 MHz as well as two distinct output power ranges: 0.5 to 2.0 Watts and 2.0 to 8.0 Watts. The UT-3/400 Amplifier is housed in a machined aluminum case that ensures optimum RF shielding, provides a good ground, and also acts as a heatsink. Additionally, the UT-3/400 Amplifier is equipped with output power and VSWR sensing lines which can be individually configured as open collector or linear outputs. The internal VSWR sensor protects the amplifier from high antenna VSWR by approximately halving the amplifier's RF gain when a VSWR overload condition is present. Output filtering for the UT-3/400 Amplifier is provided by the UT-3/400 Lowpass Filter Board. The lowpass filter assembly is mounted in a separate compartment of the amplifier case in order to provided maximum attenuation of harmonic and other spurious signals. Refer to Section 4 for the UT-3 406 - 512 MHz UHF amplifier and lowpass filter component layouts and schematic diagrams 1.2 Performance Specification Type: MT-3 series UHF Amplifier module. Compatibility: MT-3 series Transmitter Main Board. Frequency Range: 406 to 430 MHz, 450 to 470 MHz, 470 to 490 MHz or 490 to 512 MHz. RF Power Output: adjustable 0.5 to 2.0 Watts or 2.0 to 8.0 Watts RF power Input: nominal level adjustable from +4 dBm to +10 dBm, held within +/- 2 dB of nominal. Ouput Impedance and VSWR: 50 Ω, Type N connector; 3:1 max. VSWR. Input /Output Isolation: > 60 dB Duty Cycle: 100%: Continuous operation from -40˚ C to +60˚C. DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 1-1 Harmonic Emissions: Less than -80 dBc . Transmitter Mismatch Protection: 20:1 VSWR at all phase angles. Transmitter Alarm: Forward power sense and reverse VSWR; - open collector output (separate or 'OR'ed configuration); -linear output (separate lines only). Operating Temperature Range: -30˚ C to +60˚ C, optional -40˚ C temperature test. Operating Humidity: 95% RH (non-condensing) at +25˚ C. Operating Voltage: +13.8 Vdc Nominal (range +11 to +16 Vdc), +9.5 Vdc Regulated. Transmit Current: 0.7 Amp typical; 1.1 Amp maximum Amplifier Standby Current: less than 0.5 mA. Amplifier Enable: Active to ground. Amplifier Enable Response: typically overdamped, rising to within 90% of full power within 5 msec; maximum (underdamped) overshoot of 30%. DANIELS DE ELECTRONICS 1-2 UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 2 THEORY OF OPERATION 2.1 Amplifier Operation DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 2-1 3 UT-3/400 AMPLIFIER ALIGNMENT 3.1 General Connections to the power supply, alarm and transmit enable lines (ENA), are clearly marked on the amplifier case. The amplifier is enabled when the enable line (ENA) is grounded. If the amplifier is installed in the transmitter, alignment is simplified by using an SR-3 Subrack, SM-3 System Monitor, and RF extender cable to provide transmitter power and signal interconnection (see the Transmitter Main Board Manual for details). For complete transmitter alignment, the Transmitter Main Board, Synthesizer, Amplifier, and Audio Processor should be tuned in the aforementioned order. Please refer the corresponding manuals for each module. If the input RF level is not changed, adjustments to the output power and alarm thresholds may be made without removing the amplifier cover. However, in the case of a complete amplifier alignment, the amplifier should be separated from the Transmitter Main Board and the amplifier cover removed to expose all amplifier circuitry. All jumpers and test points are clearly marked. 3.2 Repair Note The UT-3/400 Transmitter is mainly made up of surface mount devices which should not be removed or replaced using an ordinary soldering iron. Removal and replacement of surface mount components should be performed only with specifically designed surface mount rework and repair stations complete with ElectroStatic Dissipative (ESD) protection. When removing Surface Mount Solder Jumpers, it is recommended to use solder braid in place of manual vacuum type desoldering tools when removing jumpers. This will help prevent damage to the circuitboards. 3.3 Recommended Test Equipment List Alignment of the transmitter requires the following test equipment or its equivalent. Dual Power Supply: Oscilloscope / Multimeter: Current Meter: Radio communications test set : VSWR 3:1 mismatch load: coaxial test cable set Alignment Tool: Regulated +9.5 Vdc at 0.1 A. Regulated +13.8 Vdc at 2 A - Topward TPS-4000 Fluke 97 Scopemeter Fluke 75 multimeter Marconi Instruments 2955R JFW 50T-035-3.0:1 three 50 Ω cables of incremental length 20 to 40 cm Johanson 4192 DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 3-1 It is recommended that the radio communications test set be frequency locked to an external reference (WWVH, GPS, Loran C) so that the high stability oscillator may be accurately set to within its ±1 ppm frequency tolerance. 3.4 Printed Circuitboard Numbering Convention To ease troubleshooting and maintenance procedures, Daniels Electronics Limited has adopted a printed circuitboard (PCB) numbering convention in which the last two digits of the circuitboard number 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. 3.5 Standard Factory Settings and Jumper Configuration The UT-3/400 Amplifier is factory configured as follows: • Open collector configuration for Output Power Alarm (3 dB drop). • Open collector configuration for Antenna VSWR Alarm (VSWR ≥ 3:1). • Output power of 2 Watts or 6 Watts for low and high power amplifiers respectively. The corresponding jumper settings are: • Jumper JU1: not installed • Jumper JU2: installed • Jumper JU3: installed • Jumper JU4: not installed • Jumper JU5: installed • Jumper JU5: not installed 3.6 Output power alarm - linear output Output power alarm - open collector output Antenna VSWR alarm - open collector output Antenna VSWR alarm - linear output Low power (2 W) transmitters High power (8 W) transmitters UT-3/400 Amplifier Alignment 3.6.1 GENERAL The UT-3/400 Amplifier is a frequency sensitive module that is factory assembled to operate in one of four frequency bands: 406 to 430 MHz, 450 to 470 MHz, 470 to 490 MHz or 490 to 512 MHz. The amplifier is available in a low power version, 0.5 to 2.0 Watts output power, and a high power version, 2.0 to 8.0 Watts output power. Both amplifier versions require 5 dBm of input power and in both versions the amplifiers output power is continuously adjustable over the its respective power range. The UT-3/400 Amplifier provides Output Power and Antenna VSWR Alarm outputs which can be configured for open collector output or linear operation. The DANIELS DE ELECTRONICS 3-2 UHF Amplifier Instruction Manual UT-3 406 - 512 MHz amplifier's output power level, alarm levels, and tuning for the transistor matching circuit in the high power version can be set without detaching the amplifier from the transmitter board. However, if the output power alarm or the Antenna VSWR alarm output configuration requires changing, the UT-3/400 Amplifier must be detached from the MT-3 Transmitter Board. Refer to section 4 page 2 "UT-3/400 Amplifier Component Layout" for the location of solder jumpers JU1 to JU5. 3.6.2 UT-3/400 AMPLIFIER ADJUSTMENT The Amplifier alignment consists of two adjustment procedures; (i) a general set up (section 3.6.2.1) procedure which sets up the proper bias conditions for the RF transistors and (ii) the RF threshold adjustments which set up the desired alarm threshold levels as well as the RF output power. The general alignment procedure is required following major repair operations, changes in RF input levels or large changes in operating frequency (greater than ± 1.0 MHz). The RF output and alarm threshold level adjustments are more easily accessible so that fine adjustments can be made in the field. Depending on user requirements, the RF alarm threshold levels should be checked whenever a significant change in operating frequency (± 0.5 MHz) is made. As the antenna VSWR alarm is dependent on the output power alarm, the output power alarm should always be set first. The order of adjustment should be: The adjustment procedures for the high power and the low power version amplifiers are identical after the matching for transistor Q1 is tuned in the high power version. As the antenna VSWR alarm is dependent on the output power alarm, the output power alarm should always be set first. The order of adjustment should be: 1) High Power Amplifiers Only — Tune the transistor matching circuit at the desired frequency and power. Set the desired output power alarm level (section 3.6.2.2). Set the desired output power level (section 3.6.2.3). Set the desired Antenna VSWR alarm level (section 3.6.2.4). Set the desired overload condition level (section 3.6.2.5). 2) 3) 4) 5) Details for the preceding four steps are outlined below. 3.6.2.1 General Set-Up Connect the transmitter's antenna output connector to the type N input of the radio communications test set through a short section of low loss 50 Ω coaxial cable. Turn all four (4) of the adjustment potentiometers (R7, R21, R36, and R38) fully counterclockwise. DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 3-3 3 Turn on the power to the transmitter. For high power amplifier units, follow steps 5 to 7 below. For low power amplifiers, skip to the Output Power Alarm procedure. Tune the output matching capacitor for maximum output power. This should be approximately 8 Watts. For single frequency applications, tune the input matching capacitor so that +9.5 Vdc current is minimized without sacrificing output power. For wideband applications it is best to tune the amplifier at the highest frequency in the band of interest and then tune the input matching capacitor so that the +9.5 Vdc current never exceeds 1.2 amps over the desired frequency band. For single frequency applications, re-peak the output matching capacitor. For wideband applications it is best to tune the amplifier at the highest frequency in the band of interest and then re-peak the output matching capacitor so that the +13.8 Vdc current never exceeds 1.5 amps over the desired frequency band. 3.6.2.2 Output Power Alarm (Forward Power) Open Collector Output * note: the output power alarm output is factory configured as an open collector output so a pull-up resistor may be required on transmitter pin B26 if one is not already present. Adjust R7, the output power adjustment, to the output power at which the Output Power Alarm is to be activated. Monitor transmitter pin B26, the Output Power Alarm line, and slowly turn R21, the output power alarm adjustment, clockwise until pin B26 goes low. The alarm is now set for the current output power of the transmitter. Linear Output Open the amplifier case to disable (open circuit) jumper JU2 and enable (short) jumper JU1. Monitor transmitter pin B26 with a voltmeter. Adjust R7, the output power adjustment, for full transmitter output power. DANIELS DE ELECTRONICS 3-4 UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 4 Adjust R21, the output power alarm adjustment, so that the voltmeter indicates +7.5 Vdc for full transmitter output power. Turn R7, the output power adjustment, fully counterclockwise. The voltmeter should read approximately +3 Vdc. Disconnect the voltmeter. 3.6.2.3 Output Power Turn R7, the output power adjustment, clockwise to the desired transmitter output power. 3.6.2.4 Antenna VSWR Alarm (Reverse Power) Open Collector Output * note: the antenna VSWR alarm output is factory configured as an open collector output so a pull-up resistor may be required on transmitter pin Z26 if one is not already present. The output power alarm must be set first before the antenna VSWR alarm can be set. Disconnect the radio communications test and terminate the transmitter with the 3:1 mismatch load. Monitor pin Z26, the Antenna VSWR Alarm line, and turn R36 fully counterclockwise. Pin Z26 should be high. Slowly turn R36 clockwise until pin Z26 is pulled low. Put the 50 ohm load back on again, Pin Z26 should go high. The reverse power trip point is now set for a VSWR of 3:1. Linear Output Open the amplifier case to disable (open circuit) jumper JU3 and enable (short) jumper JU4. Monitor transmitter pin Z26 with a voltmeter. Disconnect the radio communications test set and terminate the transmitter with the 3:1 mismatch load. Adjust R36, the VSWR alarm adjustment, so that the voltmeter indicates +5 Vdc for a 3:1 mismatch. DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 3-5 5 Put the 50 ohm load back on again. The voltmeter should read approximately 0 Vdc. Disconnect the voltmeter. 3.6.2.5 Antenna VSWR Overload Disconnect the radio communications test set and so that the amplifier is terminated with an open circuit. Monitor the current from the +9.5 Vdc supply. Adjust R38, the VSWR overload adjustment, clockwise until a noticeable drop in the +9.5 Vdc current occurs. Reconnect the radio communications test set and, the +9.5 Vdc current should return to the previous level. 3.6.2.6 Procedure Verification Verify that the current drawn from the +13.8 Vdc supply is less than 1.5 A and from the +9.5 Vdc supply is less than 1.2 A when transmitting full 8 W RF output power. Turn off the power to the transmitter. DANIELS DE ELECTRONICS 3-6 UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 4 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS This Page Intentionally Left Blank DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 4-1 5 PARTS LISTS 5.1 UT-3/400 UHF Amplifier Electrical Parts List NOTE: Reference Designators labeled with an asterisk (*) are used only in 2.0 - 8.0 Watts amplifiers. DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 5-1 6 REVISION HISTORY ISSUE DATE REVISION First Issue. JUL 97 DANIELS DE ELECTRONICS UHF Amplifier Instruction Manual UT-3 406 - 512 MHz 6-1 MT-3 RADIO SYSTEMS ENHANCED AM/FM SYNTHESIZER INSTRUCTION MANUAL OS(R/T)-3(A/H) 29 - 470 MHz Covers models: OST-3H035, OST-3H045, OSR-3H061 OST-3A128, OSR-3A149 OST-3H141, OST-3H162, OSR-3H141, OSR-3H162 OST-3H440, OSR-3H440 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: Issue Date: Printing Date: Part No.: September 2000 January 2001 IM10-OS3AH Previous Issue: Previous Issue Date: March 2000 Daniels Electronics Ltd. Victoria, BC. PRINTED IN CANADA 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. ii Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz TABLE OF CONTENTS Page 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................................................1-5 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 2.3 Synthesizer Digital Circuitry (Digital Board)..................................................2-6 2.4 Frequency Control..........................................................................................2-6 2.4.1 BCD Switch Frequency Control.........................................................2-6 2.4.2 Frequency Select Handle Frequency Control......................................2-7 2.5 Synthesizer Base and Frequency Increment Table..........................................2-7 2.6 5.0/6.25 kHz Channelization...........................................................................2-8 2.7 8.333 kHz Channelization...............................................................................2-8 2.8 12.5 kHz Channelization.................................................................................2-9 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 Reference Frequency Alignment.............................................3-6 3.5.6 Jumper Configuration.........................................................................3-7 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz iii 4 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS ..............................................4-1 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)49 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)413 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)-3(A/H) Digital Board Diagrams ......................................................4-17 4.5.1 OS(R/T)-3(A/H) Digital Board Component Layout (Bottom)............4-17 4.5.2 OS(R/T)-3(A/H) Digital Board Component Layout (Top) .................4-18 4.5.3 OS(R/T)-3(A/H) Digital Board Schematic Diagram...........................4-19 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)-3(A/H) Digital Board Electrical Parts List .......................................5-14 5.6 OS(R/T)-3(A/H) Synthesizer Mechanical Parts List.......................................5-15 REVISION HISTORY.................................................................................................1 iv Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 1. GENERAL This is hidden text. 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 and 406 - 470 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 twelve distinct models which cover three 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 twelve distinct models within the OS-3A/H Enhanced Synthesizer Family. Note that this manual provides service and operating information for all twelve 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 twelve synthesizer models that comprise the OS-3A/H Synthesizer family are follows: Frequency Band: 29 - 50 MHz, Common OS-3H0xx Analog Board • OST-3H035 • OST-3H045 • OSR-3H061 - installed in FM transmitter, 29 - 38 MHz RF output. - installed in FM transmitter, 38 - 50 MHz RF output. - installed in FM receiver, 50.4 - 71.4 MHz RF output. Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 1-1 Frequency Band: 118 - 159.4 MHz, AM Multichannel OS-3H1xx Analog Board • OST-3A128 • OSR-3A149 - installed in AM transmitter, 118 - 138 MHz RF output. - installed in AM receiver, 139.4 - 159.4 MHz RF output. Frequency Band: 128 - 174 MHz, Common OS-3H1xx Analog Board • OST-3H141 • OST-3H162 • OSR-3H141 • OSR-3H162 - installed in FM - installed in FM - installed in FM - installed in FM transmitter, 128 - 152.6 MHz RF output. transmitter, 150 - 174 MHz RF output. receiver, 128 - 152.6 MHz RF output. receiver, 150 - 174 MHz RF output. Frequency Band: 406 - 470 MHz, Common OS-3H4xx Analog Board • OST-3H418 • OST-3H460 • OSR-3H440 - installed in FM transmitter, 406 - 430 MHz RF output. - installed in FM transmitter, 450 - 470 MHz RF output - installed in FM receiver, 427.4 - 451.4 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 four different analog PCBs, designed to cover the four frequency bands of 29 - 50 MHz, 118 - 159.4 MHz, 128 - 174 MHz and 406 - 470 MHz. Each model’s specific sub-band of operation within a given frequency band is determined through SELECT components on the corresponding analog board. 1-2 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 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) 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 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 1-3 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 - 470 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 PCB number 43-912010 50002-02 indicates circuit board version 1.0; or indicates circuit board version 2.0 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 1-5 This Page Left Intentionally Blank 1-6 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 2. THEORY OF OPERATION This is hidden text. 2.1 Internal Power and Control (Digital Board) Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 2-1 3. SYNTHESIZER ALIGNMENT This is hidden text. 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) Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 3-1 The corresponding internal synthesizer jumper settings are: • • Digital Board Jumper JU2 not installed Jumper JU1 installed 9.6 MHz internal frequency reference selected AM Multichannel mode selected • • Analog Board Jumper JU1: 'B' position Jumper JU2 not installed Internal frequency reference selected Internal frequency reference selected 3.5 OS(R/T)-3(A/H) Synthesizer Alignment Invisible text 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 TP2 TP3 TP4 +8.0 ±0.3 Vdc. U6 positive regulator output. +5.0 ±0.1 Vdc. U7 positive regulator output. +5.0 ±0.1 Vdc. U8 positive regulator output (always on). 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) require no adjustment. Digital Board Component Layout (Bottom) TP1 TP2 3-2 +5.0 ±0.1 Vdc. U2 positive regulator output (controlled via pin P2-4). Microcontroller E clock. 2 MHz logic level square wave. Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 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. Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 3-3 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 readjust 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 synthesizer will result in 3-4 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 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. Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 3-5 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 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. 3-6 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 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 4-17 of this manual and the applicable "OS(R/T)-3(A/H) Analog Board Component Layout (Top)" diagram on page 4-18 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. Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 3-7 This Page Intentionally Left Blank 3-8 Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 4 ILLUSTRATIONS AND SCHEMATIC DIAGRAMS 4.1 OS(R/T)-3H 29 - 71.4 MHz Analog Board Diagrams 4.1.1 OS(R/T)-3H 29 - 71.4 MHz Analog Board Component Layout (Bottom) DANIELS DE ELECTRONICS Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 4-1 5. PARTS LISTS This is hidden text. 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 - 470 MHz 5-1 6. REVISION HISTORY ISSUE DATE REVISION May 97 • Issue 1 Mar 98 • Mar 00 • Changes to the AM Analog board (OST-3A128) to improve performance ECO #547. C37 was XXX nF is now XXX nF and C40 was XXX pF is now not installed C45 was XXX nF is now XXX nF and C49 was XXX nF is now XXX nF R32 was XXX kΩ is now XXX kΩand R36 was XXX Ω is now XXX Ω Changes to the AM Analog board to improve performance at ECO #565. L4 was XXX µH is now XXX µH -40˚C. • Changes to the FM Analog boards to improve manufacturing. ECO #572 C32 & C33 were XXX µF through hole tantalums are now XXX µF surface mount tantalums • Changes to the OS-3A/H Digital board for compatibility with the new AM wideband Synthesizers. ECO #579. Added C15 (XXX µF) and R41 (XXX kΩ). 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). May 00 • Changes to the OS-3H 128-174 MHz Analog board. ECO #603. R29 was XXX is now XXX, U10 was XXXXX is now XXXXX. • Changes to the OSR-3H 128-174 MHz Analog board. ECO #609. R22 was XXX R is now XXX R. • Changes to the OS-3A 118-159.4 Analog board. ECO #601. R42 & R53 were XXX kΩ are now XXX kΩ. Jul 00 • Corrected the SELECT table on the OS(R/T)-3H 128-174 MHz Schematic diagram (section 4.3.3). Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz 7-1 ISSUE DATE Aug 00 • Changes to the OS(R/T)-3(A/H) Digital board. ECO #599. R30, R31 & R32 were XXX R are now XXX R. • 7-2 REVISION Changes to the OS-3H 406-470 MHz Analog board. ECO # 597. R48 was XXX R is now XXX R, R49 was XXX R is now XXX R. R52 was XXX R is now Not Installed. Enhanced AM/FM Synthesizer Instruction Manual OS(R/T)-3(A/H) 29 - 470 MHz DANIELS TM ELECTRONICS LTD. MT-3 RADIO SYSTEMS UHF SYNTHESIZED TRANSMITTER CHANNEL DESIGNATION TABLES UT-3/400 406 - 470 MHz Covers models: UT-3/420-SNC2, UT-3/420-SWC2, UT-3/420-SNC8, UT-3/420-SWC8, UT-3/460-SNC2, UT-3/460-SWC2, UT-3/460-SNC8, UT-3/460-SWC8, 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 Electronic Ltd. registered in the United States Patent and Trademark Office. Issue: Issue Date: Printing Date: Part No.: Previous Issue: N/A September 1998 Previous Issue Date: N/A September 1998 IM23-UT3400CT Daniels Electronics Ltd. Victoria, BC. PRINTED IN CANADA 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. DANIELS iiDE ELECTRONICS ii UHF Transmitter Channel Designation Tables 406 - 470 MHz TABLE OF CONTENTS Page 1. UT-3/420 Channel Designation Table: 406-430MHz, 12.5kHz Increments.....................1-1 UT-3/460 Channel Designation Table: 450-470MHz, 12.5kHz Increments.....................2-1 REVISION HISTORY.....................................................................................................3-1 DANIELS DE ELECTRONICS UHF Transmitter Channel Designation Tables 406 - 470 MHz iii This Page Intentionally Left Blank DANIELS ivDE ELECTRONICS iv UHF Transmitter Channel Designation Tables 406 - 470 MHz 1. Chan. Num. UT-3/420 Channel Designation Table: 406-430MHz, 12.5kHz Increments Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 0000 406.00000 0001 .01250 0002 .02500 0003 .03750 0004 .05000 0005 .06250 0006 .07500 0007 .08750 0008 .10000 0009 .11250 00010 .12500 0011 .13750 0012 .15000 0013 .16250 0014 .17500 0015 .18750 0016 .20000 0017 .21250 0018 .22500 0019 .23750 0020 406.25000 0021 .26250 0022 .27500 0023 .28750 0024 .30000 0025 .31250 0026 .32500 0027 .33750 0028 .35000 0029 .36250 0030 .37500 0031 .38750 0032 .40000 0033 .41250 0034 .42500 0035 43750 0036 .45000 0037 .46250 0038 .47500 0039 .48750 0040 406.50000 0041 .51250 0042 .52500 0043 .53750 0044 .55000 0045 .56250 0046 .57500 0047 .58750 0048 .60000 0049 61250 0050 .62500 0051 .63750 0052 .65000 0053 .66250 0054 .67500 0055 .68750 0056 .70000 0057 .71250 0058 .72500 0059 .73750 0060 406.75000 0061 .76250 0062 .77500 0063 .78750 0064 .80000 0065 .81250 0066 .82500 0067 .83750 0068 .85000 0069 .86250 0070 .87500 0071 .88750 0072 .90000 0073 .91250 0074 .92500 0075 0076 0077 0078 0079 0080 0081 0082 0083 0084 0085 0086 0087 0088 0089 0090 0091 0092 0093 0094 0095 0096 0097 0098 0099 0100 0101 0102 0103 0104 0105 0106 0107 0108 0109 0110 0111 0112 0113 0114 0115 0116 0117 0118 0119 0120 0121 0122 0123 0124 0125 0126 0127 0128 0129 0130 0131 0132 0133 0134 0135 0136 0137 0138 0139 0140 0141 0142 0143 0144 0145 0146 0147 0148 0149 406.93750 .95000 .96250 .97500 .98750 407.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 407.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 407.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 407.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 0150 0151 0152 0153 0154 0155 0156 0157 0158 0159 0160 0161 0162 0163 0164 0165 0166 0167 0168 0169 0170 0171 0172 0173 0174 0175 0176 0177 0178 0179 0180 0181 0182 0183 0184 0185 0186 0187 0188 0189 0190 0191 0192 0193 0194 0195 0196 0197 0198 0199 0200 0201 0202 0203 0204 0205 0206 0207 0208 0209 0210 0211 0212 0213 0214 0215 0216 0217 0218 0219 0220 0221 0222 0223 0224 407.87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 408.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 408.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 408.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 408.75000 .76250 .77500 .78750 .80000 0225 0226 0227 0228 0229 0230 0231 0232 0233 0234 0235 0236 0237 0238 0239 0240 0241 0242 0243 0244 0245 0246 0247 0248 0249 0250 0251 0252 0253 0254 0255 0256 0257 0258 0259 0260 0261 0262 0263 0264 0265 0266 0267 0268 0269 0270 0271 0272 0273 0274 0275 0276 0277 0278 0279 0280 0281 0282 0283 0284 0285 0286 0287 0288 0289 0290 0291 0292 0293 0294 0295 0296 0297 0298 0299 408.81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 409.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 409.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 409.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 0300 0301 0302 0303 0304 0305 0306 0307 0308 0309 0310 0311 0312 0313 0314 0315 0316 0317 0318 0319 0320 0321 0322 0323 0324 0325 0326 0327 0328 0329 0330 0331 0332 0333 0334 0335 0336 0337 0338 0339 0340 0341 0342 0343 0344 0345 0346 0347 0348 0349 0350 0351 0352 0353 0354 0355 0356 0357 0358 0359 0360 0361 0362 0363 0364 0365 0366 0367 0368 0369 0370 0371 0372 0373 0374 409.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 410.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 410.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 410.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 0375 0376 0377 0378 0379 0380 0381 0382 0383 0384 0385 0386 0387 0388 0389 0390 0391 0392 0393 0394 0395 0396 0397 0398 0399 0400 0401 0402 0403 0404 0405 0406 0407 0408 0409 0410 0411 0412 0413 0414 0415 0416 0417 0418 0419 0420 0421 0422 0423 0424 0425 0426 0427 0428 0429 0430 0431 0432 0433 0434 0435 0436 0437 0438 0439 0440 0441 0442 0443 0444 0445 0446 0447 0448 0449 410.68750 .70000 .71250 .72500 .73750 410.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 411.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 411.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 411.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 0450 0451 0452 0453 0454 0455 0456 0457 0458 0459 0460 0461 0462 0463 0464 0465 0466 0467 0468 0469 0470 0471 0472 0473 0474 0475 0476 0477 0478 0479 0480 0481 0482 0483 0484 0485 0486 0487 0488 0489 0490 0491 0492 0493 0494 0495 0496 0497 0498 0499 0500 0501 0502 0503 0504 0505 0506 0507 0508 0509 0510 0511 0512 0513 0514 0515 0516 0517 0518 0519 0520 0521 0522 0523 0524 411.62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 411.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 412.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 412.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 412.50000 .51250 .52500 .53750 .55000 DANIELS DE ELECTRONICS UHF Transmitter Channel Designation Tables 406 - 470 MHz 1-1 UT-3/420 Channel Designation Table: 406 to 430 MHz, 12.5 kHz Increments (continued) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 0525 0526 0527 0528 0529 0530 0531 0532 0533 0534 0535 0536 0537 0538 0539 0540 0541 0542 0543 0544 0545 0546 0547 0548 0549 0550 0551 0552 0553 0554 0555 0556 0557 0558 0559 0560 0561 0562 0563 0564 0565 0566 0567 0568 0569 0570 0571 0572 0573 0574 0575 0576 0577 0578 0579 0580 0581 0582 0583 0584 0585 0586 0587 0588 0589 0590 0591 0592 0593 0594 0595 0596 0597 0598 0599 412.56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 412.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 413.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 413.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 0600 0601 0602 0603 0604 0605 0606 0607 0608 0609 0610 0611 0612 0613 0614 0615 0616 0617 0618 0619 0620 0621 0622 0623 0624 0625 0626 0627 0628 0629 0630 0631 0632 0633 0634 0635 0636 0637 0638 0639 0640 0641 0642 0643 0644 0645 0646 0647 0648 0649 0650 0651 0652 0653 0654 0655 0656 0657 0658 0659 0660 0661 0662 0663 0664 0665 0666 0667 0668 0669 0670 0671 0672 0673 0674 413.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 413.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 414.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 414.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 0675 0676 0677 0678 0679 0680 0681 0682 0683 0684 0685 0686 0687 0688 0689 0690 0691 0692 0693 0694 0695 0696 0697 0698 0699 0700 0701 0702 0703 0704 0705 0706 0707 0708 0709 0710 0711 0712 0713 0714 0715 0716 0717 0718 0719 0720 0721 0722 0723 0724 0725 0726 0727 0728 0729 0730 0731 0732 0733 0734 0735 0736 0737 0738 0739 0740 0741 0742 0743 0744 0745 0746 0747 0748 0749 414.43750 .45000 .46250 .47500 .48750 414.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 414.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 415.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 415.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 0750 0751 0752 0753 0754 0755 0756 0757 0758 0759 0760 0761 0762 0763 0764 0765 0766 0767 0768 0769 0770 0771 0772 0773 0774 0775 0776 0777 0778 0779 0780 0781 0782 0783 0784 0785 0786 0787 0788 0789 0790 0791 0792 0793 0794 0795 0796 0797 0798 0799 0800 0801 0802 0803 0804 0805 0806 0807 0808 0809 0810 0811 0812 0813 0814 0815 0816 0817 0818 0819 0820 0821 0822 0823 0824 415.37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 415.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 415.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 416.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 416.25000 .26250 .27500 .28750 .30000 0825 0826 0827 0828 0829 0830 0831 0832 0833 0834 0835 0836 0837 0838 0839 0840 0841 0842 0843 0844 0845 0846 0847 0848 0849 0850 0851 0852 0853 0854 0855 0856 0857 0858 0859 0860 0861 0862 0863 0864 0865 0866 0867 0868 0869 0870 0871 0872 0873 0874 0875 0876 0877 0878 0879 0880 0881 0882 0883 0884 0885 0886 0887 0888 0889 0890 0891 0892 0893 0894 0895 0896 0897 0898 0899 416.31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 416.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 416.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 417.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 0900 0901 0902 0903 0904 0905 0906 0907 0908 0909 0910 0911 0912 0913 0914 0915 0916 0917 0918 0919 0920 0921 0922 0923 0924 0925 0926 0927 0928 0929 0930 0931 0932 0933 0934 0935 0936 0937 0938 0939 0940 0941 0942 0943 0944 0945 0946 0947 0948 0949 0950 0951 0952 0953 0954 0955 0956 0957 0958 0959 0960 0961 0962 0963 0964 0965 0966 0967 0968 0969 0970 0971 0972 0973 0974 417.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 417.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 417.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 418.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 0975 0976 0977 0978 0979 0980 0981 0982 0983 0984 0985 0986 0987 0988 0989 0990 0991 0992 0993 0994 0995 0996 0997 0998 0999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 418.18750 .20000 .21250 .22500 .23750 418.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 418.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 418.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 419.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 DANIELS DE ELECTRONICS 1-2 UHF Transmitter Channel Designation Tables 406 - 470 MHz UT-3/420 Channel Designation Table: 406 to 430 MHz, 12.5 kHz Increments (continued) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 419.12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 419.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 419.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 419.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 420.00000 .01250 .02500 .03750 .05000 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 420.06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 420.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 420.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 420.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 421.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 421.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 421.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 421.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 421.93750 .95000 .96250 .97500 .98750 422.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 422.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 422.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 422.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422 1423 1424 422.87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 423.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 423.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 423.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 423.75000 .76250 .77500 .78750 .80000 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 423.81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 424.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 424.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 424.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 424.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 425.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 425.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 425.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 DANIELS DE ELECTRONICS UHF Transmitter Channel Designation Tables 406 - 470 MHz 1-3 UT-3/420 Channel Designation Table: 406 to 430 MHz, 12.5 kHz Increments (continued) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599 1600 1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611 1612 1613 1614 1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 425.68750 .70000 .71250 .72500 .73750 425.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 426.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 426.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 426.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 426.62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 426.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 427.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 427.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 427.50000 .51250 .52500 .53750 .55000 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774 1775 1776 1777 1778 1779 1780 1781 1782 1783 1784 1785 1786 1787 1788 1789 1790 1791 1792 1793 1794 1795 1796 1797 1798 1799 427.56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 427.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 428.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 428.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 1800 1801 1802 1803 1804 1805 1806 1807 1808 1809 1810 1811 1812 1813 1814 1815 1816 1817 1818 1819 1820 1821 1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 428.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 428.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 429.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 429.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 429.43750 .45000 .46250 .47500 .48750 429.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 429.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 430.00000 Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) DANIELS DE ELECTRONICS 1-4 UHF Transmitter Channel Designation Tables 406 - 470 MHz 2 UT-3/460 Channel Designation Table: 450-470MHz, 12.5kHz Increments Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 3520 3521 3522 3523 3524 3525 3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550 3551 3552 3553 3554 3555 3556 3557 3558 3559 3560 3561 3562 3563 3564 3565 3566 3567 3568 3569 3570 3571 3572 3573 3574 3575 3576 3577 3578 3579 3580 3581 3582 3583 3584 3585 3586 3587 3588 3589 3590 3591 3592 3593 3594 450.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 450.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 450.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 450.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 3595 3596 3597 3598 3599 3600 3601 3602 3603 3604 3605 3606 3607 3608 3609 3610 3611 3612 3613 3614 3615 3616 3617 3618 3619 3620 3621 3622 3623 3624 3625 3626 3627 3628 3629 3630 3631 3632 3633 3634 3635 3636 3637 3638 3639 3640 3641 3642 3643 3644 3645 3646 3647 3648 3649 3650 3651 3652 3653 3654 3655 3656 3657 3658 3659 3660 3661 3662 3663 3664 3665 3666 3667 3668 3669 450.93750 .95000 .96250 .97500 .98750 451.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 451.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 451.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 451.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 3670 3671 3672 3673 3674 3675 3676 3677 3678 3679 3680 3681 3682 3683 3684 3685 3686 3687 3688 3689 3690 3691 3692 3693 3694 3695 3696 3697 3698 3699 3700 3701 3702 3703 3704 3705 3706 3707 3708 3709 3710 3711 3712 3713 3714 3715 3716 3717 3718 3719 3720 3721 3722 3723 3724 3725 3726 3727 3728 3729 3730 3731 3732 3733 3734 3735 3736 3737 3738 3739 3740 3741 3742 3743 3744 451.87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 452.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 452.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 452.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 452.75000 .76250 .77500 .78750 .80000 3745 3746 3747 3748 3749 3750 3751 3752 3753 3754 3755 3756 3757 3758 3759 3760 3761 3762 3763 3764 3765 3766 3767 3768 3769 3770 3771 3772 3773 3774 3775 3776 3777 3778 3779 3780 3781 3782 3783 3784 3785 3786 3787 3788 3789 3790 3791 3792 3793 3794 3795 3796 3797 3798 3799 3800 3801 3802 3803 3804 3805 3806 3807 3808 3809 3810 3811 3812 3813 3814 3815 3816 3817 3818 3819 452.81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 453.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 453.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 453.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 3820 3821 3822 3823 3824 3825 3826 3827 3828 3829 3830 3831 3832 3833 3834 3835 3836 3837 3838 3839 3840 3841 3842 3843 3844 3845 3846 3847 3848 3849 3850 3851 3852 3853 3854 3855 3856 3857 3858 3859 3860 3861 3862 3863 3864 3865 3866 3867 3868 3869 3870 3871 3872 3873 3874 3875 3876 3877 3878 3879 3880 3881 3882 3883 3884 3885 3886 3887 3888 3889 3890 3891 3892 3893 3894 453.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 454.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 454.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 454.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 3895 3896 3897 3898 3899 3900 3901 3902 3903 3904 3905 3906 3907 3908 3909 3910 3911 3912 3913 3914 3915 3916 3917 3918 3919 3920 3921 3922 3923 3924 3925 3926 3927 3928 3929 3930 3931 3932 3933 3934 3935 3936 3937 3938 3939 3940 3941 3942 3943 3944 3945 3946 3947 3948 3949 3950 3951 3952 3953 3954 3955 3956 3957 3958 3959 3960 3961 3962 3963 3964 3965 3966 3967 3968 3969 454.68750 .70000 .71250 .72500 .73750 454.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 455.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 455.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 455.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 3970 3971 3972 3973 3974 3975 3976 3977 3978 3979 3980 3981 3982 3983 3984 3985 3986 3987 3988 3989 3990 3991 3992 3993 3994 3995 3996 3997 3998 3999 4000 4001 4002 4003 4004 4005 4006 4007 4008 4009 4010 4011 4012 4013 4014 4015 4016 4017 4018 4019 4020 4021 4022 4023 4024 4025 4026 4027 4028 4029 4030 4031 4032 4033 4034 4035 4036 4037 4038 4039 4040 4041 4042 4043 4044 455.62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 455.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 456.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 456.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 456.50000 .51250 .52500 .53750 .55000 DANIELS DE ELECTRONICS UHF Transmitter Channel Designation Tables 406 - 470 MHz 2-1 UT-3/460 Channel Designation Table: 450 to 470 MHz, 12.5 kHz Increments (continued) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 4045 4046 4047 4048 4049 4050 4051 4052 4053 4054 4055 4056 4057 4058 4059 4060 4061 4062 4063 4064 4065 4066 4067 4068 4069 4070 4071 4072 4073 4074 4075 4076 4077 4078 4079 4080 4081 4082 4083 4084 4085 4086 4087 4088 4089 4090 4091 4092 4093 4094 4095 4096 4097 4098 4099 4100 4101 4102 4103 4104 4105 4106 4107 4108 4109 4110 4111 4112 4113 4114 4115 4116 4117 4118 4119 456.56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 456.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 457.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 457.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 4120 4121 4122 4123 4124 4125 4126 4127 4128 4129 4130 4131 4132 4133 4134 4135 4136 4137 4138 4139 4140 4141 4142 4143 4144 4145 4146 4147 4148 4149 4150 4151 4152 4153 4154 4155 4156 4157 4158 4159 4160 4161 4162 4163 4164 4165 4166 4167 4168 4169 4170 4171 4172 4173 4174 4175 4176 4177 4178 4179 4180 4181 4182 4183 4184 4185 4186 4187 4188 4189 4190 4191 4192 4193 4194 457.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 457.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 458.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 458.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 4195 4196 4197 4198 4199 4200 4201 4202 4203 4204 4205 4206 4207 4208 4209 4210 4211 4212 4213 4214 4215 4216 4217 4218 4219 4220 4221 4222 4223 4224 4225 4226 4227 4228 4229 4230 4231 4232 4233 4234 4235 4236 4237 4238 4239 4240 4241 4242 4243 4244 4245 4246 4247 4248 4249 4250 4251 4252 4253 4254 4255 4256 4257 4258 4259 4260 4261 4262 4263 4264 4265 4266 4267 4268 4269 458.43750 .45000 .46250 .47500 .48750 458.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 458.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 459.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 459.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 4270 4271 4272 4273 4274 4275 4276 4277 4278 4279 4280 4281 4282 4283 4284 4285 4286 4287 4288 4289 4290 4291 4292 4293 4294 4295 4296 4297 4298 4299 4300 4301 4302 4303 4304 4305 4306 4307 4308 4309 4310 4311 4312 4313 4314 4315 4316 4317 4318 4319 4320 4321 4322 4323 4324 4325 4326 4327 4328 4329 4330 4331 4332 4333 4334 4335 4336 4337 4338 4339 4340 4341 4342 4343 4344 459.37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 459.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 459.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 460.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 460.25000 .26250 .27500 .28750 .30000 4345 4346 4347 4348 4349 4350 4351 4352 4353 4354 4355 4356 4357 4358 4359 4360 4361 4362 4363 4364 4365 4366 4367 4368 4369 4370 4371 4372 4373 4374 4375 4376 4377 4378 4379 4380 4381 4382 4383 4384 4385 4386 4387 4388 4389 4390 4391 4392 4393 4394 4395 4396 4397 4398 4399 4400 4401 4402 4403 4404 4405 4406 4407 4408 4409 4410 4411 4412 4413 4414 4415 4416 4417 4418 4419 460.31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 460.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 460.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 461.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 4420 4421 4422 4423 4424 4425 4426 4427 4428 4429 4430 4431 4432 4433 4434 4435 4436 4437 4438 4439 4440 4441 4442 4443 4444 4445 4446 4447 4448 4449 4450 4451 4452 4453 4454 4455 4456 4457 4458 4459 4460 4461 4462 4463 4464 4465 4466 4467 4468 4469 4470 4471 4472 4473 4474 4475 4476 4477 4478 4479 4480 4481 4482 4483 4484 4485 4486 4487 4488 4489 4490 4491 4492 4493 4494 461.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 461.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 461.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 462.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 4495 4496 4497 4498 4499 4500 4501 4502 4503 4504 4505 4506 4507 4508 4509 4510 4511 4512 4513 4514 4515 4516 4517 4518 4519 4520 4521 4522 4523 4524 4525 4526 4527 4528 4529 4530 4531 4532 4533 4534 4535 4536 4537 4538 4539 4540 4541 4542 4543 4544 4545 4546 4547 4548 4549 4550 4551 4552 4553 4554 4555 4556 4557 4558 4559 4560 4561 4562 4563 4564 4565 4566 4567 4568 4569 462.18750 .20000 .21250 .22500 .23750 462.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 462.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 462.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 463.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 DANIELS DE ELECTRONICS 2-2 UHF Transmitter Channel Designation Tables 406 - 470 MHz UT-3/460 Channel Designation Table: 450 to 470 MHz, 12.5 kHz Increments (continued) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 4570 4571 4572 4573 4574 4575 4576 4577 4578 4579 4580 4581 4582 4583 4584 4585 4586 4587 4588 4589 4590 4591 4592 4593 4594 4595 4596 4597 4598 4599 4600 4601 4602 4603 4604 4605 4606 4607 4608 4609 4610 4611 4612 4613 4614 4615 4616 4617 4618 4619 4620 4621 4622 4623 4624 4625 4626 4627 4628 4629 4630 4631 4632 4633 4634 4635 4636 4637 4638 4639 4640 4641 4642 4643 4644 463.12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 463.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 463.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 463.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 464.00000 .01250 .02500 .03750 .05000 4645 4646 4647 4648 4649 4650 4651 4652 4653 4654 4655 4656 4657 4658 4659 4660 4661 4662 4663 4664 4665 4666 4667 4668 4669 4670 4671 4672 4673 4674 4675 4676 4677 4678 4679 4680 4681 4682 4683 4684 4685 4686 4687 4688 4689 4690 4691 4692 4693 4694 4695 4696 4697 4698 4699 4700 4701 4702 4703 4704 4705 4706 4707 4708 4709 4710 4711 4712 4713 4714 4715 4716 4717 4718 4719 464.06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 464.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 464.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 464.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 4720 4721 4722 4723 4724 4725 4726 4727 4728 4729 4730 4731 4732 4733 4734 4735 4736 4737 4738 4739 4740 4741 4742 4743 4744 4745 4746 4747 4748 4749 4750 4751 4752 4753 4754 4755 4756 4757 4758 4759 4760 4761 4762 4763 4764 4765 4766 4767 4768 4769 4770 4771 4772 4773 4774 4775 4776 4777 4778 4779 4780 4781 4782 4783 4784 4785 4786 4787 4788 4789 4790 4791 4792 4793 4794 465.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 465.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 465.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 465.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 4795 4796 4797 4798 4799 4800 4801 4802 4803 4804 4805 4806 4807 4808 4809 4810 4811 4812 4813 4814 4815 4816 4817 4818 4819 4820 4821 4822 4823 4824 4825 4826 4827 4828 4829 4830 4831 4832 4833 4834 4835 4836 4837 4838 4839 4840 4841 4842 4843 4844 4845 4846 4847 4848 4849 4850 4851 4852 4853 4854 4855 4856 4857 4858 4859 4860 4861 4862 4863 4864 4865 4866 4867 4868 4869 465.93750 .95000 .96250 .97500 .98750 466.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 466.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 466.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 466.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 4870 4871 4872 4873 4874 4875 4876 4877 4878 4879 4880 4881 4882 4883 4884 4885 4886 4887 4888 4889 4890 4891 4892 4893 4894 4895 4896 4897 4898 4899 4900 4901 4902 4903 4904 4905 4906 4907 4908 4909 4910 4911 4912 4913 4914 4915 4916 4917 4918 4919 4920 4921 4922 4923 4924 4925 4926 4927 4928 4929 4930 4931 4932 4933 4934 4935 4936 4937 4938 4939 4940 4941 4942 4943 4944 466.87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 467.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 467.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 467.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 467.75000 .76250 .77500 .78750 .80000 4945 4946 4947 4948 4949 4950 4951 4952 4953 4954 4955 4956 4957 4958 4959 4960 4961 4962 4963 4964 4965 4966 4967 4968 4969 4970 4971 4972 4973 4974 4975 4976 4977 4978 4979 4980 4981 4982 4983 4984 4985 4986 4987 4988 4989 4990 4991 4992 4993 4994 4995 4996 4997 4998 4999 5000 5001 5002 5003 5004 5005 5006 5007 5008 5009 5010 5011 5012 5013 5014 5015 5016 5017 5018 5019 467.81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 468.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 468.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 468.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 .68750 .70000 .71250 .72500 .73750 5020 5021 5022 5023 5024 5025 5026 5027 5028 5029 5030 5031 5032 5033 5034 5035 5036 5037 5038 5039 5040 5041 5042 5043 5044 5045 5046 5047 5048 5049 5050 5051 5052 5053 5054 5055 5056 5057 5058 5059 5060 5061 5062 5063 5064 5065 5066 5067 5068 5069 5070 5071 5072 5073 5074 5075 5076 5077 5078 5079 5080 5081 5082 5083 5084 5085 5086 5087 5088 5089 5090 5091 5092 5093 5094 468.75000 .76250 .77500 .78750 .80000 .81250 .82500 .83750 .85000 .86250 .87500 .88750 .90000 .91250 .92500 .93750 .95000 .96250 .97500 .98750 469.00000 .01250 .02500 .03750 .05000 .06250 .07500 .08750 .10000 .11250 .12500 .13750 .15000 .16250 .17500 .18750 .20000 .21250 .22500 .23750 469.25000 .26250 .27500 .28750 .30000 .31250 .32500 .33750 .35000 .36250 .37500 .38750 .40000 .41250 .42500 .43750 .45000 .46250 .47500 .48750 469.50000 .51250 .52500 .53750 .55000 .56250 .57500 .58750 .60000 .61250 .62500 .63750 .65000 .66250 .67500 DANIELS DE ELECTRONICS UHF Transmitter Channel Designation Tables 406 - 470 MHz 2-3 UT-3/460 Channel Designation Table: 450 to 470 MHz, 12.5 kHz Increments (continued) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) Chan. Num. Freq. (MHz) 5095 469.68750 5096 .70000 5097 .71250 5098 .72500 5099 .73750 5100 469.75000 5101 .76250 5102 .77500 5103 .78750 5104 .80000 5105 .81250 5106 .82500 5107 .83750 5108 .85000 5109 .86250 5110 .87500 5111 .88750 5112 .90000 5113 .91250 5114 .92500 5115 .93750 5116 .95000 5117 .96250 5118 .97500 5119 .98750 5120 470.00000. DANIELS DE ELECTRONICS 2-4 UHF Transmitter Channel Designation Tables 406 - 470 MHz 3 REVISION HISTORY ISSUE DATE REVISION Issue 1 September 98 DANIELS DE ELECTRONICS UHF Transmitter Channel Designation Tables 406 - 470 MHz 3-1 This Page Intentionally Left Blank. DANIELS DE ELECTRONICS 3-2 UHF Transmitter Channel Designation Tables 406 - 470 MHz
Source Exif Data:
File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.3 Linearized : No Create Date : 2002:12:16 09:55:18 Producer : Acrobat Distiller 4.05 for Macintosh Creator : Microsoft Word: AdobePS 8.8.0 (301) Author : administrator Title : Microsoft Word - IM23-UT3400-4 Modify Date : 2003:03:06 11:41:04-08:00 Page Count : 159EXIF Metadata provided by EXIF.tools