Daniels MT-3 Analog Radio Systems User Guide

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MT-3 Analog Radio Systems USER GUIDE

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Daniels MT-3 Analog Radio Systems User Guide

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NOTE

Copyright © 2009 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. The stylized “Daniels Electronics Ltd.” and “DE” logo are registered Canadian and US trademarks of Daniels Electronics Ltd. The stylized “Daniels Electronics Ltd.” and “DE” logo are trademarks of Daniels Electronics Ltd. FLEX™ is a trademark of Motorola, Inc.

DOCUMENT REVISION DEFINITION

Daniels Electronics Ltd. utilizes a three-level revision system. This system enables Daniels to identify the significance of a revision. Each element of the revision number signifies the scope of change as described in the diagram below.

1-0-0 Major Revisions: The result of a major change to product function, process or requirements. Minor Revisions: The result of a minor change to product, process or requirements. Editorial Revisions: The result of typing corrections or changes in formatting, grammar or wording. Three-level revision numbers start at 1-0-0 for the first release. The appropriate element of the revision number is incremented by 1 for each subsequent revision, causing any digits to the right to be reset to 0. For example: If the current revision = 2-1-1 Then the next major revision = 3-0-0 If the current revision = 4-3-1 Then the next minor revision = 4-4-0 If the current revision = 3-2-2 Then the next editorial revision = 3-2-3

Daniels Electronics Ltd. 43 Erie Street, Victoria, BC Canada V8V 1P8 www.danelec.com sales@danelec.com Toll Free Canada and USA: phone: 1-800-664-4066 fax: 1-877-750-0004 International: phone: 250-382-8268 fax: 250-382-6139 PRINTED IN CANADA

Document Number: Revision: Revision Date:

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For the past 60 years Daniels has provided customers in North America and internationally with highly reliable Base Stations and Repeaters that are environmentally robust to operate in rugged and extreme temperature conditions where low current consumption (solar powered) is a key requirement.

ABOUT DANIELS ELECTRONICS LTD.

Daniels has been a pioneering member of the P25 Digital standard, for radio system interoperability between emergency response governmental organizations, providing enhanced functionality and encryption. Our products operate between 29 - 869 MHz and are available in a variety of Base Station and Repeater configurations for two way voice and mobile data applications. Our self-servicing customers range from Forestry and National Park services through Police and Fire departments and on to Utility and Transportation groups. Our products have been deployed in every imaginable situation from the Antarctic to Hawaiian mountaintops to Alaska, enabling respondents to Forest Fires, Ground Zero rescue and routine patrols. Daniels is an industry leader in Analog and P25 radio systems design. We offer modular rack-mounted Base Stations and Repeaters capable of operating in the following bands: Low Band VHF VHF AM VHF FM UHF FM 800 MHz

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RESOURCES

Daniels Electronics Ltd. provides many resources for the testing, tuning, maintenance and design of your Daniels MT-3 Analog Radio System. Instruction Manuals Daniels Electronics instruction manuals are very comprehensive and include information on: Theory of operation Detailed Specifications Testing and tuning instructions Component layout illustrations Instruction manuals can be obtained from the factory. Technical Notes Technical notes outline key aspects of tuning, installing, maintaining and servicing Daniels MT-3 Radio Systems. Technical Notes can be found online at www.danelec.com. Daniels MT-3 and IFR 1200 / IFR COM-120 Test Procedures Technical Notes TN900 and TN910 are aids to configuring and testing Daniels MT-3 radios using either an IFR 1200 or IFR COM120 Service Monitor by Aeroflex. TN900 and TN910 can be found online at www.danelec.com. Application Notes Application Notes provide an overview of the range of applications in which Daniels MT-3 Radio equipment can be used. Application Notes can be found online at www.danelec.com. Daniels MT-4E Analog and P25 Digital User Guide The Daniels MT-4E User Guide provides the reader with an introduction to Daniels Electronics Ltd. MT-4E Analog and P25 Digital Radio Systems The Daniels MT-4E User Guide can be found online at www.danelec.com.

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Contents Chapter 1: Introduction ......................................................... 1 Daniels Model Numbers ............................................................................. 1 Differences Between MT-3 Series Modules ............................................... 2 Frequency Bands and Oscillators .............................................................. 3 Discontinued Products ............................................................................... 3 Identifying MT-3 Model Numbers ............................................................... 4

Chapter 2: Technical Information ........................................... 7 Wide or Narrowband Operation ................................................................. 7 MT-3 Software ............................................................................................ 7 Frequency Programming ........................................................................... 8 Other Settings and Configurations ........................................................... 11

Chapter 3: Analog Radio System Configurations................. 13 Simple Repeater Operation ..................................................................... 13 Complex Repeater Operation .................................................................. 14 Multiple Link Repeater Operation (Discontinued) .................................... 15 Base Station (or Repeater-Base) Operation ............................................ 16 Paging System Operation ........................................................................ 17

Chapter 4: Analog System Block Diagrams ......................... 19 Simple FM Repeater Block Diagram ........................................................ 20 FM Repeater / Base Station Block Diagram ............................................ 22 Paging Transmitter Block Diagram .......................................................... 24 AM Base Station (or AM / FM Cross-band) Block Diagram ..................... 26

Chapter 5: Radio System Components ............................... 29 Daniels Analog Radio System Components ............................................ 29 Subrack .................................................................................................... 30 System Regulator .................................................................................... 35 Power Amplifiers ...................................................................................... 37 Channel Programmer ............................................................................... 38 Tuning and Maintenance Tools ................................................................ 38

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CHAPTER 1: INTRODUCTION

This document is written as an introduction to Daniels Electronics Ltd. MT-3 Analog Radio Systems. The document assumes the reader is familiar with conventional Two-Way Radio Communications systems.

D A N I EL S MODEL NUMBER S Daniels Electronics Ltd. has manufactured radio systems for more than 60 years. In the early years, Daniels manufactured AM and SSB radiotelephones for the marine industry, and more recently, the MT series of radios for mountain top repeaters and base station applications.

MT-2 The MT-2 series of radio modules were originally manufactured in the 1980s. This radio series was a crystal controlled analog radio system capable of wideband (25 KHz) operation. Although systems are still in operation throughout North America, this series of radio modules was discontinued in the 1990s and is no longer supported.

MT-3 The MT-3 series of radio modules were originally manufactured in the early 1990s. This radio series was available with both crystal controlled and synthesized analog radio modules capable of wideband (25 KHz) or narrowband (12.5 KHz) operation. The MT-3 radio modules were discontinued in 2006, with the exception of the VHF Lowband and VHF AM products.

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Chapter 1: Introduction

MT-4 The MT-4 series of radio modules entered production during 2001. This radio series is the P25 compliant digital narrowband radio system, capable of analog (wideband and narrowband) or P25 digital operation. For more information on the MT-4 series of radios, see the Daniels MT-4R and MT-4D P25 Digital and Analog Radio Systems User Guide or Daniels MT-4E Analog and P25 Digital Radio Systems User Guide.

DIFFER EN C ES BETWEEN M T- 3 SER IES MODUL ES The MT-3 series of modules were designed and manufactured with three different oscillators in the transmitter and receiver modules.

CRYSTAL Crystal modules use a fundamental crystal in an oscillator circuit to determine the operating frequency of the oscillator. To maintain high frequency stability, the crystal oscillator has an on-board digital circuit board which provides temperature compensation information for each individual crystal element. To change the transmitter or receiver operating frequency, a new crystal oscillator assembly must be purchased. The crystal module was discontinued in the transmitter modules in 1995 and in the receiver modules in 2005. The crystal receiver had a current draw of less than 50 mA.

LOW CURRENT SYNTHESIZED The Low Current Synthesized modules select the operating frequency in standard channel increments that are programmed into the synthesizer. The synthesizer uses a Voltage Controlled Oscillator (VCO) to generate RF frequencies. To maintain high frequency stability, the VCO is locked to a frequency reference (either an internal TCXO, or an external reference) by use of a Phase Locked Loop (PLL) circuit. The VHF (150 MHz) and UHF (400 MHz) low current synthesized transmitter module was discontinued in 1995. The 800 MHz and 900 MHz transmitter use the low current synthesizer. The low current synthesized receiver module had a current draw of less than 100 mA and was typically recommended for solar sites. The low current synthesizer was discontinued in 2006.

ENHANCED SYNTHESIZED The Enhanced Synthesized modules operate with higher performance specifications and higher current draw than the Low Current Synthesized modules. The enhanced synthesizer circuitry is distributed between two printed circuit boards which are physically isolated from each other. This eliminates the electrical noise between the digital and analog circuitry in the oscillator. The boards are interconnected via photo-

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logic optical transceivers. The VHF (40 MHz), VHF (150 MHz) and UHF (400 MHz) transmitters all operate with enhanced synthesizers. The enhanced receiver has a current draw of approximately 400 mA and is typically recommended for AC powered sites. The enhanced synthesized receiver module is manufactured with an accompanied enhanced front end that has a higher L.O. injection than the standard low current front end. The local oscillators that are used in the MT-3 receiver and transmitter modules can be determined by the frequency bands of those modules.

FR E QUENCY BANDS A N D OSC IL L ATOR S Daniels Electronics manufactured analog radio systems in a wide range of frequency bands. Table 1-1 shows the frequency bands and the local oscillators that were available for the receiver and transmitter modules in those bands.

Table 1-1: Frequency Bands and Local Oscillators Band

Frequency

Transmitter

Receiver

VHF Lowband

29 – 50 MHz

Enhanced

Enhanced

VHF Highband

136– 174 MHz

Enhanced or Enhanced or Low Current Low Current or or Crystal Crystal

UHF 400 MHz

406 – 430 MHz and Enhanced or Enhanced or 450 – 470 MHz Low Current Low Current or or Crystal Crystal

UHF 800 MHz

806 – 824 MHz and Low Current 851 – 869 MHz

Low Current

UHF 900 MHz

896 – 902 MHz and Low Current 928 – 960 MHz

Low Current

VHF AM

118 – 138 MHz

Enhanced

Enhanced

D I S C ONTINUED PROD U C TS In 2006, Daniels Electronics discontinued the MT-3 VHF Highband, UHF 400 MHz, UHF 800 MHz and UHF 900 MHz radio modules. The MT-4E series of radio modules supersedes the MT-3 series. The MT4E product line is available with an “analog only” firmware version for customers that do not require P25 compliance. The MT-3 VHF Lowband and VHF AM products are still available.

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Chapter 1: Introduction

IDENT IFYIN G M T- 3 M OD EL N U M BER S Being able to identify the MT-3 module that you have is critical for understanding the capabilities and operation of the equipment, such as frequency band, wideband or narrowband, and local oscillator type. The model number of the MT-3 receiver or transmitter can be found on the bottom of the front panel of the receiver or transmitter module as shown in Figure 1-1. Figure 1-2 and 1-3 show the breakdown of the receiver and transmitter model numbers. RECEIVER

TRANSMITTER

FREQUENCY (MHz)

FREQUENCY (MHz)

SQ . DI SA B L E

TX

N O RM OFF

NORM OFF KEY TX

MIC

RF OUT

RF IN REFERENCE

REFERENCE

INPUT

INPUT

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DANIELS

ELECTRONICS LTD.

ELECTRONICS LTD.

MADE IN CANADA

MADE IN CANADA

MODEL # CODE

MODEL # CODE

Model Number Figure 1-1: Model Number Location

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MT-3 FM AND AM RECEIVERS EXAMPLE: UR-3/420-SNC200 MT-3 UHF low current synthesized Receiver, (406-430 MHz), 12.5 KHz channel width, no added options

U R - 3 / 420 - S N C 2 00

Bands: V = VHF U = UHF

Oscillator Type: Modulation: / = FM (Low Current) H = FM (Enhanced) A = AM (Air - Gnd)

S = Synthesized (Low Current or Enhanced) C = Crystalized (Low Current)

Channel Bandwidth:

Options:

W = 25 KHz N = 12.5 KHz Y = AM

00 = None (Standard) 10 = AM FP freq. select 11 = AM, no FP freq. select

Range Within Band: VHF/040: 035 = 029 - 038 MHz 045 = 038 - 050 MHz VHF/130 (AM): 130 = 118 - 138 MHz

VHF/150: 140 = 132 - 150 MHz 160 = 150 - 174 MHz UHF/400: 420 = 406 - 430 MHz 460 = 450 - 470 MHz

UHF/800: 815 = 806 - 824 MHz (W only) 860 = 851 - 869 MHz (W only) UHF/900: 900 = 896 - 902 MHz 930 = 928 - 935 MHz 950 = 935 - 960 MHz

Figure 1-2: Receiver Model Numbers

MT-3 FM AND AM TRANSMITTERS Example: VT-3/160-SNC800 MT-3 VHF Transmitter, (150-174 MHz), 12.5 KHz channel width 8 Watts, no added options

V T - 3 / 160 - S N C 8 00

Bands: V = VHF U = UHF

Modulation: / = FM (Enhanced where available) H = FM (Enhanced VHF/040 only) A = AM (Enhanced)

Oscillator Type: S = Synthesized C = Crystal

Occupied Channel Width:

Options: 00 = None (Standard) 10 = AM FP freq. select 11 = AM, no FP freq. select

W = 25 KHz N = 12.5 KHz Y = AM

Range Within Band:

RF Power Output:

VHF/040: 035 = 029 - 038 MHz 045 = 038 - 050 MHz VHF/130 (AM): 130 = 118 - 138 MHz VHF/150: 140 = 132 - 150 MHz 160 = 150 - 174 MHz

VHF/040: 3 = 3 Watts VHF/130 (AM): 4 = 4 Watts VHF/150: 8 = 8 Watts

UHF/400: 420 = 406 - 430 MHz 460 = 450 - 470 MHz UHF/800: 815 = 806 - 824 MHz (W only) 860 = 851 - 869 MHz (W only) UHF/900: 930 = 928 - 935 MHz 950 = 935 - 960 MHz

UHF/400: 2 = 2 Watts 8 = 8 Watts UHF/800: 3 = 3 Watts UHF/900: 3 = 3 Watts

Figure 1-3: Transmitter Model Numbers

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CHAPTER 2: TECHNICAL INFORMATION

WI D E OR NARROW BAN D OPER ATION VHF and UHF receivers and transmitters were available in both wideband (25 KHz) and narrowband (12.5 KHz) bandwidths. Receiver modules that have been ordered as wideband can be converted to narrowband using a narrowband modification kit. The conversion from wideband to narrowband requires replacing crystal filters, shields and a number of surface mount components. Transmitter modules can be converted to narrowband by re-tuning deviation levels and typically component replacement is not required. It is usually recommended that the transmitter and receiver modules be returned to the factory for this conversion.

M T- 3 SOF TWARE Daniels Analog MT-3 Radio Equipment does not use any software programming. Frequency selection, level adjustments, bandwidths, power outputs, etc. are all hardware programmable through variable resistors, capacitors, inductors, switches, and in some cases, parts selection.

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Chapter 2: Technical Information

FREQ U EN C Y PR OGR AM M IN G Synthesized Daniels synthesized MT-3 radio modules are capable of 16 channel operation. The channel selection operation is described further in Chapter 5. The MT-3 synthesized receiver and transmitter modules operating frequency may be selected in standard channel increments through either four internal BCD rotary switches, or by the synthesizer’s internal memory that can be programmed for 15 preset frequencies. In order to set the desired frequency for each channel, a four digit code is used to represent each available frequency. The four digit code is used internally in the synthesizer to generate the desired RF frequency. This four digit code is found in the Channel Designation Tables that accompany the receiver or transmitter Instruction Manual. The Channel Designation Tables cross reference each frequency with a code number. The code number can be found by looking up the desired frequency, noting the code number (Chan. Num.) located to the left, and programming this new value. For example, in a receiver, a frequency of 132.14500 MHz translating to code number (Chan. Num.) 0709, can be programmed.

Table 2-1: Channel Designation Table Example VHF Receiver Channel Designation Tables 132 - 150 MHz 5 KHz Increments Chan. Num.

Freq. (MHz)

0680...... 132.00000 0681...... 132.00500 0682...... 132.01000 0683...... 132.01500 0684...... 132.02000 0685...... 132.02500 0686...... 132.03000 0687...... 132.03500 0688...... 132.04000 0689...... 132.04500

Chan. Num.

Freq. (MHz)

0690...... 132.05000 0691...... 132.05500 0692...... 132.06000 0693...... 132.06500 0694...... 132.07000 0695...... 132.07500 0696...... 132.08000 0697...... 132.08500 0698...... 132.09000 0699...... 132.09500

Chan. Num.

Freq. (MHz)

0700...... 132.10000 0701...... 132.10500 0702.......132.11000 0703.......132.11500 0704...... 132.12000 0705...... 132.12500 0706...... 132.13000 0707...... 132.13500 0708...... 132.14000 0709...... 132.14500

Chan. Num.

Freq. (MHz)

0710...... 132.15000 0711 ...... 132.15500 0712...... 132.16000 0713...... 132.16500 0714...... 132.17000 0715...... 132.17500 0716...... 132.18000 0717...... 132.18500 0718...... 132.19000 0719...... 132.19500

Chan. Num.

Freq. (MHz)

0720...... 132.20000 0721...... 132.20500 0722...... 132.21000 0723...... 132.21500 0724...... 132.22000 0725...... 132.22500 0726...... 132.23000 0727...... 132.23500 0728...... 132.24000 0729...... 132.24500

Chan. Num.

Freq. (MHz)

0730...... 132.25000 0731...... 132.25500 0732...... 132.26000 0733...... 132.26500 0734...... 132.27000 0735...... 132.27500 0736...... 132.28000 0737...... 132.28500 0738...... 132.29000 0739...... 132.29500

(1) If Channel 1 is selected the synthesizer will scan the four digit code from four BCD switches mounted on the main circuitboard of the receiver or transmitter module. On newer modules the most significant BCD switch is hexadecimal, allowing for frequency steps in 5 KHz increments at 2.5 KHz offsets. (2) If Channel 2 through 16 is selected, then the frequency is established by the preprogrammed four digit code entered in the synthesizer’s internal memory. The internal memory is normally programmed at the factory, but can be field programmed using the CP-SC-3 synthesizer channel programmer module (see Chapter 5 for more information on the synthesizer channel programmer).

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Crystal The MT-3 crystal controlled receiver and transmitter modules operating frequency is selected by the control module’s fundamental crystal frequency. The channel select lines and internal BCD rotary switches are not used by the crystal control module. Crystal modules use a fundamental crystal in an oscillator circuit to determine the operating frequency of the oscillator. The output frequency of a VHF crystal module is three times the frequency of the fundamental crystal oscillator circuit. Output frequency of a UHF crystal module is nine times that of the fundamental crystal oscillator circuit. To maintain ¹ 1 ppm frequency tolerance the crystal oscillator circuitboard has an on-board digital board which provides temperature compensation information for each individual crystal element. To change the transmitter or receiver operating frequency, a new crystal oscillator board must be purchased.

Frequency Switching Range Although the receiver or transmitter channels can be programmed for any frequency in their band, the Maximum Frequency Switching Range of the module must not be exceeded or the module will require hardware re-tuning. The maximum frequency switching range of the modules are listed in the Technical Notes, and are typically shown as +/- 0.5 MHz +/- 1 MHz, +/- 2 MHz or Full Band, based on the individual specifications of the module. For example, a VHF receiver may be programmed for any frequency between 136 to 174 MHz, but the front end helical filter has a typical pass band of 5 MHz, requiring re-tuning if any frequencies are used that are outside of that pass band.

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Chapter 2: Technical Information

AM Front Panel Frequency Selection The AM receiver and transmitter have a Frequency Select Handle that allows the user to select and display the frequency of Channel 16 on the front panel of the module. The frequency selection is achieved by pushing the up arrow or down arrow keys to increase or decrease the frequency. On older motherboards (Serial # 123125 and earlier), jumper JU73 on the subrack / motherboard must be installed for this operation. The frequencies of channels 1 through 15 are programmed the same as all other MT-3 modules. Figure 2-1 shows front panels of the AM receiver and transmitter and a larger representation of the Frequency Select Handle. TRANSMITTER

RECEIVER

FREQUENCY (MHz)

FREQUENCY (MHz)

TX

SQ . DI SA B L E

NORM OFF KEY TX

N O RM OFF

MIC

RF OUT

RF IN REFERENCE

REFERENCE

INPUT

INPUT

1 2 8.0 0 0 0

Daniels Electronics Ltd

MADE IN CANADA

*

Daniels Electronics Ltd

1 2 8.0 0 0 0

MODEL # CODE

1 2 8.0 0 0 0

MADE IN CANADA

*

MODEL # CODE

Daniels Electronics Ltd

*

Figure 2-1: AM Front Panel Frequency Select Handle

CTCSS and DCS CTCSS and DCS decoding and encoding is performed by a separate circuit board mounted in the control card. The receiver and transmitter modules do not typically contain the CTCSS and DCS decoder or encoder capability, although this can be installed if the system configuration requires it (eg. A voter system with no control card). The CTCSS / DCS subtones are sent to the decoder from the receiver using the discriminator audio signal line and the receiver is controlled by the decoder via a receiver mute line that overrides the squelch circuitry. Subtones from the CTCSS and DCS modules are sent to the transmitter using the subtone 1 input signal line. This style of connecting the CTCSS / DCS externally from the receiver and transmitter allows Daniels a greater flexibility for custom configurations. A receiver could be configured so that one of two different CTCSS tones would unmute it, or a repeater could be configured such that a link transmitter could be activated only when a specific CTCSS or DCS subtone is received.

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OTH ER SET TINGS AND C ON FIGURATIONS The MT-3 Radio System has a wide array of settings and configurations that can be adjusted or turned on and off. The main configuration of the radio system is set in the Audio Control Card, however additional settings may be found throughout the system.

Hang Timer The hang timer will keep the transmitter keyed once the receiver COR line has gone inactive. The hang timer can be turned on and off by setting jumpers in the Audio Control Card, and the length of the hang timer can be adjusted by variable resistors in the Audio Control Card.

Time Out Timer The transmitter module contains a programmable PTT time out timer circuit. The time out timer will count down when the transmitter is keyed (PTT active). The timer will shut the transmitter output off once the timer has expired. To reset the timer, the PTT input must go to an inactive state. The time out timer is designed to reduce battery draw during a “stuck microphone� condition, by turning off the transmitter after a set period of time. The time out timer duration is jumper selectable in the transmitter module from 1 second to 8 hours (default 5 minutes). The time out timer can also be enabled or disabled on the subrack / motherboard by selecting a jumper position. The jumper is labeled PTT WTO (With Time Out) or PTT NTO (No Time Out).

Pre-emphasis and De-emphasis The selection of flat or pre-emphasis audio is jumper selectable on the audio processor board in the transmitter module. The flat and pre-emphasis audios require slightly different tuning procedures to set up properly. The selection of flat or de-emphasis audio is jumper selectable in the receiver module for the 600 ohm balanced output. The receiver also has two additional signal lines dedicated to flat and de-emphasis audio output. In most configurations, the de-emphasis audio signal line drives the System Regulator speaker and the flat audio signal line is not used.

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Chapter 2: Technical Information

Squelch Settings The receiver squelch settings can be jumper selected for one of two different squelch detection methods. The standard squelch method is a noise operated squelch, while the optional squelch method is based on carrier level (RSSI). The squelch point can be set (using either method) by a variable resistor in the receiver module. A second variable resistor is used to set the hysteresis between the squelch and unsquelch points. A receiver mute line attached to the squelch circuitry can squelch the receiver when active (typically used in CTCSS systems). A squelch override signal line can be used to unsquelch the receiver.

External Connections External audio and control (PTT/COR) signals are typically connected to a Daniels radio system through the AC-3E Audio Control Card (the AC-3L-96, AC-3M-96 and AC-3S-96 Audio Control Cards have no external connections available). The AC-3E Audio Control Card contains four 600 ohm balanced transformers for two auxiliary audio inputs and two auxiliary audio outputs. Control signals (PTT/COR) to or from external equipment are optically isolated allowing for more flexibility in external equipment voltages. It is recommended that external audio connections are made to the AC3E Audio Control Card and NOT to the balanced audio connections on the receiver and transmitter modules.

Audio Level Adjustments The AC-3E AC-3M-96 and AC-3S-96 Audio Control Cards allow independent level control of all audio in a Daniels radio system (the AC-3L-96 Audio Control Card has no audio level control capability). The AC-3E Audio Control Card has four audio level control variable resistors on the front panel for receiver to transmitter level adjustments, and four audio level control variable resistors inside the module for auxiliary audio level adjustments. The AC-3M-96 and AC-3S-96 Audio Control Cards have six audio level control variable resistors on the front panel for receiver to transmitter (and slave to master / master to slave) level adjustments. The AC-3L-96, AC-3M-96 and AC-3S-96 Audio Control Cards were discontinued in 2006.

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CHAPTER 3: ANALOG RADIO SYSTEM CONFIGURATIONS

S I M P L E REPEATER OP ER ATION The MT-3 modules may be configured to operate as a repeater or two independent repeaters using the AC-3L-96 control card. The AC-3L-96 control card was discontinued in 2006. The AC-3E control card is now used for all simple and complex repeater configurations. The AC-3L-96 allows a direct connection from RXA to TXA and RXB to TXB. No cross-banding, linking or external connections are capable with the AC-3L-96. The receivers, transmitters and AC-3L-96 control card are shown in Figure 3-1.

AUDIO CONTROL

TRANSMITTER

RECEIVER

TRANSMITTER

RECEIVER

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

SQ . DI SA B L E

TX

7

NORM OFF KEY TX

5

SQ . DI SA B L E

TX

FUNCTION

N O RM OFF

1

11

2

10

3

9

NORM OFF KEY TX

N O RM OFF

SYSTEM REGULATOR 12

4

8

5 7

6

+

TX A VOL

RX A 7

TX B

METER

5

MIC 13

-

MIC

5

TX A 9

RF OUT

RX B

REFERENCE

TX B13

RF OUT

RF IN REFERENCE

REFERENCE

INPUT

INPUT

RF IN REFERENCE

5

ON OFF SPKR INT EXT EXT

9

INPUT

DANIELS

AC-3L-96

PULL DOWN TO REMOVE

ELECTRONICS LTD.

DANIELS

ELECTRONICS LTD.

INPUT

DANIELS

ELECTRONICS LTD.

SPKR

DANIELS

DANIELS

ELECTRONICS LTD.

MADE IN CANADA

MADE IN CANADA

MADE IN CANADA

MADE IN CANADA

MODEL # CODE

MODEL # CODE

MODEL # CODE

MODEL # CODE

ELECTRONICS LTD.

MADE IN CANADA

Figure 3-1: MT-3 Analog Simple Repeater System shown with two pairs of transceivers

The AC-3L-96 control card is hardware jumpered to control the interconnection between the modules. This allows the user to select the operation of this system (single repeater or dual repeater) by setting jumpers. The AC-3L-96 has no auxiliary connections for connecting external equipment. The AC-3L-96 does not allow for filtering of the CTCSS tones in the control card. The voice band filter in the receivers must be enabled if CTCSS is used in the system. The motherboard carries the signals from the receiver, through the controller to the transmitter(s). The signals on the motherboard are COR, PTT, Balanced Audio, Receiver Discriminator Audio, Receiver Mute and Transmitter Subtone 1 Input. The AC-3L-96 has a current draw of less than 1 mA. The optional CTCSS decoders / encoders have a current draw of less than 13 mA each. UG-002 Daniels MT-3 Radio Systems www.danelec.com

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Chapter 3: Analog Radio System Configurations

C OM P LEX REPEAT ER OP ER ATION The MT-3 modules may be configured to operate in more complex repeater configurations, such as a cross-band or linked system using the AC-3E control card. The AC-3E allows jumper selectable connections from RXA to TXA and/or TXB and RXB to TXA and/or TXB (any receiver to any transmitter). The receivers, transmitters and AC-3E control card are shown in Figure 3-2.

AUDIO CONTROL

TRANSMITTER

RECEIVER

TRANSMITTER

RECEIVER

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

SQ . DI SA B L E

TX

7

NORM OFF KEY TX

5

SQ . DI SA B L E

TX

N O RM OFF

1

11

2

10

3

9

NORM OFF KEY TX

N O RM OFF

SYSTEM REGULATOR FUNCTION

12

ANTENNA A

4

8

5 7

6

RX A

+

TX A VOL

RX A TX B

7

METER

5

MIC

-

MIC

5

13

TX A

TX A 9

RF OUT

RX B

REFERENCE

TX B13

RF OUT

RF IN REFERENCE

REFERENCE

INPUT

INPUT

RF IN REFERENCE

5

ON OFF SPKR INT EXT EXT

9

INPUT

DANIELS

AC-3E

PULL DOWN TO REMOVE

ELECTRONICS LTD.

DANIELS

ELECTRONICS LTD.

INPUT

DANIELS

ELECTRONICS LTD.

SPKR

DANIELS

ELECTRONICS LTD.

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Figure 3-2: MT-3 Analog Complex Repeater System shown with two pairs of transceivers

The AC-3E control card is hardware jumpered to control the interconnection between the modules. This allows the user to select the operation of this system (single repeater, dual repeater, repeater with a link, cross-band repeater, etc.) by setting jumpers. The AC-3E has auxiliary connections for connecting external equipment. The AC-3E is jumper selectable to allow for filtering of the CTCSS tones in the control card. The voice band filter in the receivers can be enabled for additional CTCSS filtering if required, or to remove the CTCSS tones from the System Regulator speaker. The motherboard carries the signals from the receiver, through the controller to the transmitter(s). The signals on the motherboard are COR, PTT, Balanced Audio, Receiver Discriminator Audio, Receiver Mute and Transmitter Subtone 1 Input. The AC-3E has a current draw of less than 30 mA. The optional CTCSS decoders / encoders have a current draw of less than 13 mA each.

User Guide

UG-002 Daniels MT-3 Radio Systems www.danelec.com


Chapter 3: Analog Radio System Configurations

15

M U LTIPLE LINK REPEATER OPER ATION ( D ISC ON TIN U ED ) The MT-3 modules may be configured to operate in a multiple link repeater configuration of up to four sets of transceivers. Many possible configurations are available such as a multiple cross-band, multiple linked system or multiple repeaters using the AC-3M-96 and AC-3S-96 Master-Slave control cards. The AC-3M-96 and AC-3S-96 control cards were discontinued in 2006. The MT-4E product line is now used for all multiple link repeater configurations. The AC-3M-96 and AC-3S-96 allows jumper selectable connections from any receiver to any transmitter. The receivers, transmitters, AC-3M-96 and AC-3S-96 control cards are shown in Figure 3-3. MASTER AUDIO CONTROL

TRANSMITTER

RECEIVER

TRANSMITTER

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

RECEIVER

SYSTEM REGULATOR

FREQUENCY (MHz)

FREQUENCY (MHz)

TX A

TX

SQ . DI SA B L E

TX

SQ . DI SA B L E

TX B

NORM OFF KEY TX

N O RM OFF

NORM OFF KEY TX

N O RM OFF

RX A SLAVE

FUNCTION

12

2

10

3

9

5 7

6

-

MIC

TX A

TX A

RX B

RF OUT REFERENCE

SLAVE

INPUT

REFERENCE

INPUT

INPUT

SLAVE AUDIO CONTROL

ON OFF SPKR INT EXT EXT

RF IN REFERENCE

INPUT

DANIELS

SPKR

DANIELS

DANIELS

ELECTRONICS LTD.

ELECTRONICS LTD.

PULL DOWN TO REMOVE

RF OUT

RF IN REFERENCE

DANIELS

DANIELS

ELECTRONICS LTD.

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MADE IN CANADA

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TRANSMITTER

RECEIVER

TRANSMITTER

RECEIVER

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

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SYSTEM REGULATOR

TX

SQ . DI SA B L E

TX

SQ . DI SA B L E

TX D

NORM OFF KEY TX

N O RM OFF

NORM OFF KEY TX

N O RM OFF

RX C MASTER

FUNCTION

12

TX C

2

10

3

9

RF OUT REFERENCE

MASTER

INPUT

DANIELS

PULL DOWN TO REMOVE

ELECTRONICS LTD.

REFERENCE

INPUT

INPUT

DANIELS

ELECTRONICS LTD.

RF IN REFERENCE

INPUT

DANIELS

ELECTRONICS LTD.

6

+

RX A

RX B

TX A

TX B

METER -

RF OUT

RF IN REFERENCE

ANTENNA B

5 7

MIC

TX C RX D

ANTENNA A

4

8

TX D

MIC

1

11

VOL

AC-3S

RX A

+ METER

TX B

AC-3M

ANTENNA A

4

8

VOL MIC

1

11

ON OFF SPKR INT EXT EXT SPKR

DANIELS

DANIELS

ELECTRONICS LTD.

MADE MADEIN INCANADA CANADA

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Figure 3-3: MT-3 Analog Multiple Link Repeater System shown with four pairs of transceivers

The AC-3M-96 and AC-3S-96 control cards are hardware jumpered to control the interconnection between the modules. This allows the user to select the operation of this system (single repeater, dual repeater, multiple linked repeater, cross-band repeater, etc.) by setting jumpers. The AC-3M-96 and AC-3S-96 have no auxiliary connections for connecting external equipment. The AC-3M-96 and AC-3S-96 are jumper selectable to allow for filtering of the CTCSS tones in the control cards. The voice band filter in the receivers can be enabled for additional CTCSS filtering if required, or to remove the CTCSS tones from the System Regulator speakers. The motherboard carries the signals from the receiver, through the controller to the transmitter(s). The signals on the motherboard are COR, PTT, Balanced Audio, Receiver Discriminator Audio, Receiver Mute and Transmitter Subtone 1 Input. The connection between the AC-3M-96 (Master) and the AC3S-96 (Slave) control cards is accomplished though the use of a DB-25 ribbon cable connected to the front panel of the control cards. The ribbon cable carries COR, PTT and Balanced Audio between the control cards. The AC-3M-96 and AC-3S-96 have a current draw of less than 23 mA each. The optional CTCSS decoders / encoders have a current draw of less than 13 mA each. The optional DTMF decoder has a current draw of less than 14 mA. UG-002 Daniels MT-3 Radio Systems www.danelec.com

User Guide


16

Chapter 3: Analog Radio System Configurations

B A S E STAT ION (OR REPE ATER - BASE) OPER ATION The MT-3 modules may be configured to operate in a base station configuration, such as a tone remote controlled base station, dual base stations or repeater-base system (repeater with external control) using the AC-3E control card. The system could also be configured as a single base station with a separate single repeater in the same subrack. The AC-3E allows jumper selectable connections from RXA to TXA and/or TXB and RXB to TXA and/or TXB (any receiver to any transmitter), as well as external connections for both pairs of receivers and transmitters. The receivers, transmitters, AC-3E control card and tone remote adapter are shown in Figure 3-4.

DSP-223

FUNCTION

PROGRAMMING PORT

G POWER

PTT

MONITOR

POWER

TRANSMITTER

RECEIVER

TRANSMITTER

RECEIVER

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

FREQUENCY (MHz)

SQ . DI SA B L E

NORM OFF KEY TX

5

PTT

MONITOR

PTT IC

TX

7

HANDSET

R O LIN UN D E R TX AD IO C TC TX S LIN S E LIN RX E R TX AD + IO R AD TX IO + R LIN X E TX LIN E R X R AD IO TX R AD IO R X C TC SS

R O LIN UN D E R TX AD IO C TC TX S LIN S E R LIN X E R TX AD + IO R AD TX IO + R LIN X E TX LIN E R X R AD IO TX R AD IO R X C TC SS

G

PROGRAMMING PORT

PTT IC

AUDIO CONTROL

DSP-223

FUNCTION

HANDSET

SQ . DI SA B L E

TX

N O RM OFF

1

11

2

10

3

9

NORM OFF KEY TX

N O RM OFF

SYSTEM REGULATOR FUNCTION

12

ANTENNA A

ANTENNA B

RX A

RX B

TX A

TX B

4

8

5 7

6

+

TX A VOL

RX A TX B

7

METER

5

MIC

-

MIC

5

13

TX A 9

RF OUT

RX B

REFERENCE

TX B13

RF OUT

RF IN REFERENCE

REFERENCE

INPUT

INPUT

RF IN REFERENCE

5

ON OFF SPKR INT EXT EXT

9

INPUT

DANIELS

AC-3E

PULL DOWN TO REMOVE

ELECTRONICS LTD.

DANIELS

ELECTRONICS LTD.

INPUT

DANIELS

ELECTRONICS LTD.

SPKR

DANIELS

ELECTRONICS LTD.

MADE IN CANADA

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DANIELS

ELECTRONICS LTD.

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Figure 3-4: MT-3 Analog Base Station system shown with two pairs of transceivers and two tone remote adapters

The AC-3E control card is hardware jumpered to control the interconnection between the modules, as well as the interconnection to external equipment. This allows the user to select the operation of this system (single base, dual base, repeater-base, dual repeater-base) by setting jumpers. The AC-3E is jumper selectable to allow for filtering of the CTCSS tones in the control card. The voice band filter in the receivers can be enabled for additional CTCSS filtering if required, or to remove the CTCSS tones from the System Regulator speaker. The Vega DSP-223 tone-remote adapter provides the means of remotely controlling Daniels Electronics base stations and repeaters. The adapters can be used in conjunction with tone-remote control consoles which use the industry-standard sequential tone keying format. The DSP-223 adapters are interconnected to the distant remote control console(s) by any analog voice grade transmission medium such as a microwave link, a leased telephone line, or a twisted-pair 600-ohm line. The motherboard carries the outgoing signals from the receiver, through the controller to the external equipment (and/or the transmitter(s) in repeat operation). Signals from the external equipment are routed through the controller to the transmitter(s). The signals on the motherboard are COR, PTT, Balanced Audio, Receiver Discriminator Audio, Receiver Mute and Transmitter Subtone 1 Input. The AC-3E has a current draw of less than 30 mA. The optional CTCSS decoders / encoders have a current draw of less than 13 mA each. The Vega DSP-223 has a current draw of less than 500 mA.

User Guide

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Chapter 3: Analog Radio System Configurations

17

PA GI NG SYSTEM OPER ATION The MT-3 modules may be configured to operate in digital and/or analog paging configurations, such as base station paging, remote paging or simulcast paging using the CI-PM-3 paging modulator. The CI-PM-3 is configured via the front panel switches and internal jumper settings. The CI-PM-3 paging modulator supports both analog and digital paging formats, and can transmit POCSAG and other 2-level modulation schemes at 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 at data transfer rates up to 6400 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. The receiver, transmitter and CI-PM-3 paging modulator are shown in Figure 3-5.

PAGING MODULATOR

TRANSMITTER

RECEIVER

FREQUENCY (MHz)

FREQUENCY (MHz)

SQ . DI SA B L E

TX DATA MODE A

REF IN

D

EXT

FREQ REF

FUNCTION

2

10

3

N O RM OFF

DATA / CTRL PORT

4

8

5 7

VOL

INT NORM

1

11

9

NORM OFF KEY TX

REF OUT DATA

SYSTEM REGULATOR 12

6

+ METER -

MIC

MODE SETUP 2 LEVEL

RF OUT

SET MOD

RF IN REFERENCE

REFERENCE 4 LEVEL

SET DEV

INPUT

INPUT

DANIELS

CI-PM-3

PULL DOWN TO REMOVE

ON OFF SPKR INT EXT EXT

ELECTRONICS LTD.

SPKR

DANIELS

DANIELS

ELECTRONICS LTD.

MADE IN CANADA

MADE IN CANADA

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MODEL # CODE

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MADE IN CANADA

Figure 3-5: MT-3 Analog / Digital Paging system shown with one pair of transceivers

The CI-PM-3 uses an on-board frequency reference source consisting of a 10 MHz OCXO with a frequency stability of +/- 0.35 ppm from -30 C to +60 C. 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. The CI-PM-3 has a current draw of less than 250 mA.

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User Guide


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User Guide

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Chapter 4: Analog System Block Diagrams

19

CHAPTER 4: ANALOG SYSTEM BLOCK DIAGRAMS

This chapter contains sample block diagrams of FM repeaters, AM and FM base stations and a paging transmitter system. These blocks are shown to give a basic understanding of the signal flow through a Daniels radio system.

UG-002 Daniels MT-3 Radio Systems www.danelec.com

User Guide


20

Chapter 4: Analog System Block Diagrams

S I M P LE FM REPEATER B L OC K D IAGR AM Figure 4-1 shows a block diagram of a Daniels FM analog repeater system using an AC-3L-96 Audio Control Card. The incoming FM transmission is routed through the Front End sub-module where the RF signal: • is filtered (VHF and UHF 400 – high selectivity multiple pole, helical resonator filter, 5 MHz pass band; UHF 800/900 – dielectric bandpass filter) • is amplified through a low noise amplifie • is filtered again through an image rejection filter • is mixed with a local oscillator • produces an IF frequency of 21.4 MHz (VHF and UHF 400) or 45 MHz (UHF 800/900). The first IF amplifier provides linear IF amplification and then crystal filters provide optimum bandpass characteristics for good selectivity and low distortion. A second L.O. source of 21.855 MHz (VHF and UHF 400) or 44.545 MHz (UHF 800/900) produces a second IF of 455 KHz. Second IF filtering is achieved through the use of a 455 KHz ceramic filter. The second IF is demodulated to recovered audio which is then sent to the discriminator output (for CTCSS decoding), the squelch circuitry and the flat and de-emphasis audio paths. The squelch circuitry will produce the COR output and control the audio squelch gates. The audio will typically be routed through the de-emphasis circuitry and a jumper selectable voice band filter (flat audio is not commonly used). The de-emphasis audio output will drive the speaker in the System Regulator. The balanced audio output, as well as the other audio outputs, are typically set for -8.0 dBm (308 mVrms) using a 1.0 KHz tone at 60% of maximum modulation (3.0 KHz wideband; 1.5 KHz narrowband). The COR signal and audio are then routed through the AC-3L-96 audio control card and are sent to the transmitter as a PTT signal and audio. The AC-3L-96 has no capability for multiple audio routes or audio level adjustments. The CTCSS decoder can also encode the same tone it is programmed to decode. If a separate tone is required for encoding, an optional CTCSS encoder can be installed and configured for the separate tone. The transmitter will accept the incoming balanced audio and route it through the audio processor board in the transmitter. The balanced level control, compression control, and maximum deviation levels are all set in the audio processor. The balanced audio input level is typically set for a transmitter deviation of 60% of maximum modulation (3.0 KHz wideband; 1.5 KHz narrowband) at the RF output, using a 1.0 KHz tone at -8.0 dBm (308 mVrms) at the audio input. The CTCSS tone is also added in the audio processor and set by the subtone 1 input level control. The incoming PTT signal will activate all circuitry in the transmitter and will key the transmitter. The transmitter will then modulate the audio signal to an FM carrier in the oscillator and then amplify the output of the oscillator.

User Guide

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LOW PASS FILTER 1 KHz TONE @ 60% MAX MOD = -8.0 dBm

SQUELCH GATES

RX MUTE

DISC O/P

COR

BALANCED AUDIO

SQUELCH CIRCUITRY

DE-EMPHASIS AUDIO (TO SYSTEM REGULATOR SPEAKER)

VOICE BAND FILTER

DE-EMPHASIS

IF AMP & DEMOD

FRONT END

FM RECEIVER

FLAT AUDIO (NO CONNECTION)

FLAT

LOCAL OSCILLATOR

DISCRIMINATOR LPF O/P (NO CONNECTION)

RF IN

CTCSS DECODER

HANG TIMER

REPEATER CONTROL

OPTIONAL CTCSS ENCODER

CONTROLLER

SUB TONE 1 I/P

PTT

BALANCED AUDIO

BALANCED LEVEL

AGC PREAMP & PRE-EMPHASIS

COMPRESSION

MAXIMUM DEVIATION

OSCILLATOR

1 KHz TONE @ -8.0 dBm = 60% MAX. MOD.

SUBTONE LEVEL

AUDIO PROCESSOR

TIME OUT TIMER

RF POWER AMPLIFIER

FM TRANSMITTER

RF OUT

Chapter 4: Analog System Block Diagrams

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21

Figure 4-1: MT-3 Simple Analog Repeater Block Diagram

User Guide


22

Chapter 4: Analog System Block Diagrams

FM R E PEAT ER / BASE STATION BL OC K D IAGR AM Figure 4-2 shows a block diagram of a Daniels FM analog repeater or base station system (or a repeater-base) using an AC-3E Audio Control Card. A block diagram of a repeater system using an AC-3M-96 and AC-3S-96 Audio Control Card would be identical, with the exception of the auxiliary COR, PTT and audio. The incoming FM transmission is routed through the Front End sub-module where the RF signal: • is filtered (VHF and UHF 400 – high selectivity multiple pole, helical resonator filter, 5 MHz pass band; UHF 800/900 – dielectric bandpass filter) • is amplified through a low noise amplifie • is filtered again through an image rejection filter • is mixed with a local oscillator • produces an IF frequency of 21.4 MHz (VHF and UHF 400) or 45 MHz (UHF 800/900). The first IF amplifier provides linear IF amplification and then crystal filters provide optimum bandpass characteristics for good selectivity and low distortion. A second L.O. source of 21.855 MHz (VHF and UHF 400) or 44.545 MHz (UHF 800/900) produces a second IF of 455 KHz. Second IF filtering is achieved through the use of a 455 KHz ceramic filter. The second IF is demodulated to recovered audio which is then sent to the discriminator output (for CTCSS decoding), the squelch circuitry and the flat and de-emphasis audio paths. The squelch circuitry will produce the COR output and control the audio squelch gates. The audio will typically be routed through the de-emphasis circuitry and a jumper selectable voice band filter (flat audio is not commonly used). The de-emphasis audio output will drive the speaker in the System Regulator. The balanced audio output level, as well as the other audio output levels, are typically set for -8.0 dBm (308 mVrms) audio output, using a 1.0 KHz tone at 60% of maximum modulation (3.0 KHz wideband; 1.5 KHz narrowband) at the RF input. The COR signal and audio are then routed through the AC-3E audio control card and are sent to the transmitter as a PTT signal and audio. The AC-3E has audio routing capability that can be configured to use the audio distribution amplifier to send the audio from one receiver to both transmitters (or the AC-3M-96 and AC-3S-96 can send audio to all four transmitters). Audio level control variable resistors allow the user to adjust the audio levels between the receivers and transmitters using the front panel of the AC-3E. An additional benefit of the audio routing circuitry is the capability of routing audio through the CTCSS filter built into the CTCSS decoder board, allowing the voice band filter in the receiver to be disabled to save current draw. The AC-3E audio control card also has auxiliary audio inputs and outputs for external control which can be used simultaneously with the internal audio routing, allowing a repeater-base configuration or just a base station configuration. For external control, the AC-3E also has optically isolated COR and PTT inputs and outputs for connecting external equipment with high voltage control signals such as E&M. The CTCSS decoder can also encode the same tone it is programmed to decode. If a separate tone is required for encoding, an optional CTCSS encoder can be installed and for the separate tone. The transmitter will accept the incoming balanced audio and route it through the audio processor board in the transmitter. The balanced level control, compression control, and maximum deviation levels are all set in the audio processor. The balanced audio input level is typically set for a transmitter deviation of 60% of maximum modulation (3.0 KHz wideband; 1.5 KHz narrowband) at the RF output, using a 1.0 KHz tone at -8.0 dBm (308 mVrms) at the audio input. The CTCSS tone is also added in the audio processor and set by the subtone 1 input level control. The incoming PTT signal will activate all circuitry in the transmitter and will key the transmitter. The transmitter will then modulate the audio signal to an FM carrier in the oscillator and then amplify the output of the oscillator.

User Guide

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LOW PASS FILTER 1 KHz TONE @ 60% MAX MOD = -8.0 dBm

SQUELCH GATES

RX MUTE

DISC O/P

COR

BALANCED AUDIO

SQUELCH CIRCUITRY

DE-EMPHASIS AUDIO (TO SYSTEM REGULATOR SPEAKER)

VOICE BAND FILTER

DE-EMPHASIS

IF AMP & DEMOD

FRONT END

FM RECEIVER

FLAT AUDIO (NO CONNECTION)

FLAT

LOCAL OSCILLATOR

DISCRIMINATOR LPF O/P (NO CONNECTION)

RF IN

AUXILIARY BALANCED OUTPUT

1 KHz TONE @ 60% MAX MOD = 0 dBm

DISTRIBUTION AMP

OPTICAL ISOLATOR

AUXILIARY PTT

1 KHz TONE @ 0 dBm = 60% MAX MOD

SUMMING AMP

OPTIONAL CTCSS ENCODER

AUXILIARY BALANCED INPUT

AUDIO LEVEL

HANG TIMER

REPEATER CONTROL

CONTROLLER

CTCSS DECODER

OPTICAL ISOLATOR

AUXILIARY COR

SUB TONE 1 I/P

PTT

BALANCED AUDIO

BALANCED LEVEL

AGC PREAMP & PRE-EMPHASIS

COMPRESSION

MAXIMUM DEVIATION

OSCILLATOR

1 KHz TONE @ -8.0 dBm = 60% MAX. MOD.

SUBTONE LEVEL

AUDIO PROCESSOR

TIME OUT TIMER

RF POWER AMPLIFIER

FM TRANSMITTER

RF OUT

Chapter 4: Analog System Block Diagrams

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23

Figure 4-2: MT-3 Analog Repeater and/or Base Station Block Diagram

User Guide


24

Chapter 4: Analog System Block Diagrams

PA GI N G T RANSMIT TER B L OC K D IAGR AM Figure 4-3 shows a block diagram of a Daniels digital or analog paging transmitter using a CI-PM-3 Paging Modulator Card. The paging encoder can be connected to the CI-PM-3 through auxiliary connections on the subrack / motherboard or through a front panel DB-15 located on the front panel of the paging modulator card. The analog / digital select control line of the paging encoder is fed to the transmitter and is used to control the signal path in the audio processor. Analog audio is fed directly through the paging card to the balanced audio input of the transmitter. The incoming paging data from the paging encoder is connected to the appropriate 2 or 4 level input. These signals are fed to control circuits that will turn on or off the appropriate pre-set control voltages, which are then routed to the modulation input of a high stability reference oscillator (OCXO). The modulated 10 MHz signal is fed to the reference in put of the transmitter’s synthesizer. A component of the digital page is also sent to the modulation input of the transmitter synthesizer through the direct modulation input of the transmitter’s audio processor. If the system requires a great amount of frequency stability, as required in simulcast transmissions, an external high stability reference can be connected to the external reference input of the paging card. The reference signal in combination with the paging cards phase lock loop (PLL) circuit will condition the OCXO to +/-0.002ppm.

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ANALOG

A/D SEL

4 LVL DATA

2 LVL DATA

PTT

PAGING ENCODER

LIMIT ADJUST

-4.8 KHz

+4.8 KHz

-1.6 KHz

+1.6 KHz

EXTERNAL REFERENCE

REF IN

PLL

BESSEL FILTER

BANDPASS ADJUST

OCXO 10 MHz

PHASE CORRECTION

INT / EXT REF

PAGING MODULATOR

REF OUT

A/D SEL I/P

DIR MOD I/P

PTT

BALANCED LEVEL

DIR MOD LEVEL

BALANCED AUDIO

AUDIO PROCESSOR

REF IN

COMPRESSION

MAXIMUM DEVIATION

1 KHz TONE @ -8.0 dBm = 60% MAX. MOD.

AGC PREAMP & PRE-EMPHASIS

OSCILLATOR

RF POWER AMPLIFIER

FM TRANSMITTER

RF OUT

Chapter 4: Analog System Block Diagrams

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25

Figure 4-3: Analog / Digital Paging Transmitter Block Diagram

User Guide


26

Chapter 4: Analog System Block Diagrams

A M B A SE STAT ION (OR AM / FM C R OSS- BAN D ) BL OC K D I A G R AM Figure 4-4 shows a block diagram of a Daniels AM base station system (or AM/FM cross-band system) using an AC-3E Audio Control Card. In an AM / FM cross-band system, either the receiver or transmitter in the block diagram would be replaced with an FM receiver or transmitter. The incoming AM transmission is routed through the preselector where the RF signal: • is passed through a 20 MHz Elliptical Band Pass Filter • is amplified through a low noise amplifier • is filtered again through an image rejection filter • is mixed with a local oscillator • produces an IF frequency of 21.4 MHz. The first IF amplifier provides linear IF amplification and then crystal filters provide optimum bandpass characteristics for good selectivity and low distortion. A second L.O. source of 32.15 MHz produces a second IF of 10.75 MHz. Second IF filtering is achieved through the use of a 10.7 MHz ceramic filter. The second IF is demodulated to recovered audio and an AGC output is applied to the RF amplifier in the preselector. The recovered audio is sent to the squelch circuitry and the recovered (flat) audio path. The squelch circuitry will produce the COR output and control the audio squelch gate. The flat audio will be routed through the squelch gate and will then be split to the low level and high level audio adjust drivers. The low level audio output will drive the speaker in the System Regulator. The balanced audio output (high level), as well as the audio output (low level) to the system regulator speaker, are typically set for -8.0 dBm (308 mVrms) audio output, using a 1.0 KHz tone at 30% modulation at the RF input. For an AM / FM Cross-band application, the COR signal and audio are routed through the AC-3E audio control card and are sent to the transmitter as a PTT signal and audio. The AC-3E has audio routing capability that can be configured to use the audio distribution amplifier to send the audio from one receiver to both transmitters. Audio level control variable resistors allow the user to adjust the audio levels between the AM and FM receivers and transmitters using the front panel of the AC-3E. For an AM Base Station application, the AC-3E audio control card has auxiliary audio inputs and outputs for external control which can be used simultaneously with the internal audio routing, allowing a crossband-base configuration or just a base station configuration. For external control, the AC-3E also has optically isolated COR and PTT inputs and outputs for connecting external equipment with high voltage control signals such as E&M. The transmitter will accept the incoming balanced audio and route it through the audio processor board in the transmitter. The balanced level control and modulation control output level are set in the audio processor. The balanced audio input level is typically set for a transmitter deviation of 30% modulation at the RF output, using a 1.0 KHz tone at -25.0 dBm (44 mVrms) at the audio input. The incoming PTT signal will activate all circuitry in the transmitter and will key the transmitter. The transmitter will then modulate the audio signal to an AM carrier in the amplifier.

User Guide

UG-002 Daniels MT-3 Radio Systems www.danelec.com


RF IN

IF AMP & DEMOD

1 KHz TONE @ 30% MOD = -8.0 dBm

SQUELCH GATE

BALANCED AUDIO

HIGH LEVEL AUDIO ADJUST

SQUELCH CIRCUITRY

AGC CONTROL

RECOVERED FLAT AUDIO

AUDIO O/P (TO SYSTEM REGULATOR SPEAKER)

LOW LEVEL AUDIO ADJUST

LOCAL OSCILLATOR

PRESELCTOR

AM RECEIVER

COR

CROSSBAND CONTROL

CONTROLLER OPTICAL ISOLATOR

AUXILIARY PTT

AUXILIARY BALANCED OUTPUT

1 KHz TONE @ 30% MOD = 0 dBm

DISTRIBUTION AMP

AUXILIARY BALANCED INPUT

CROSSBAND AUDIO LEVEL

1 KHz TONE @ 0 dBm = 30% MOD

SUMMING AMP

NOTE: FOR AN AM / FM CROSSBAND SYSTEM THE AM RX OR TX BLOCK WOULD BE REPLACED WITH AN FM RX OR TX BLOCK. (TWO AM MODULES ARE SHOWN)

OPTICAL ISOLATOR

AUXILIARY COR

PTT

1 KHz TONE @ 0.0 to +10.0 dBm = 85% MOD

BALANCED AUDIO

BALANCED LEVEL

AUTOMATIC LEVEL CONTROL

MODULATION CONTROL

OSCILLATOR

1 KHz TONE @ -25.0 dBm = 30% MOD

AUDIO PROCESSOR

TIME OUT TIMER

RF POWER AMPLIFIER

AM TRANSMITTER

RF OUT

Chapter 4: Analog System Block Diagrams

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27

Figure 4-4: AM Base Station (or AM / FM Cross-band System) Block Diagram

User Guide


28

User Guide

This Page Intentionally Left Blank

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Chapter 5: Radio System Components

29

CHAPTER 5: RADIO SYSTEM COMPONENTS

D A N I EL S ANAL OG RADIO SYSTEM C OM PON EN TS A Daniels MT-3 Analog Radio System consists of: • MT-3 Receiver and Transmitter Modules • MT-3 controller (AC-3L-96, AC-3E, AC-3M-96, AC-3S-96, CI-PM-3) • Subrack (with Optional Auxiliary Connector) • System Regulator • Power Amplifiers • Channel Programmer • Tuning and Maintenance Tools

The Receiver, Transmitter, and Controller were discussed previously. components are further explained in greater detail in this chapter.

The other radio system

All Daniels modules are hot swappable. There is no need to disconnect the power supply when inserting or removing the modules from the subrack. Most variable components are designed so that an increase in voltage, frequency, etc. is achieved by a clockwise turn, and a decrease is achieved by a counter-clockwise turn.

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User Guide


30

Chapter 5: Radio System Components

S U B R A CK The SR-39-1 subrack is designed to hold and interconnect the MT-3 series of receiver, transmitter and control modules on one universal motherboard. The subrack has room for two receiver and transmitter pairs. The left side connectors are reserved for transmitter A and receiver A, while the right side connectors are reserved for transmitter B and receiver B. See Figure 5-1.

CONTROL CARD

TRANSMITTER A

DANIELS

ELECTRONICS LTD.

RECEIVER A

DANIELS

ELECTRONICS LTD.

TRANSMITTER B

RECEIVER B

DANIELS

DANIELS

ELECTRONICS LTD.

ELECTRONICS LTD.

SYSTEM REGULATOR

DANIELS

ELECTRONICS LTD.

Figure 5-1: Standard Subrack Configuration

If a VHF or UHF 30 Watt power amplifier is installed, only one transmitter and receiver pair can be installed. The power amplifier takes up two slots as shown in Figure 5-2.

CONTROL CARD

TRANSMITTER A

DANIELS

ELECTRONICS LTD.

RECEIVER A

DANIELS

ELECTRONICS LTD.

POWER AMPLIFIER A

DANIELS

ELECTRONICS LTD.

SYSTEM REGULATOR

DANIELS

ELECTRONICS LTD.

Figure 5-2: Standard Subrack with Power Amplifier

Power Input The main power input (+10 to +17 Vdc; +13.8 Vdc nominal) connector is located at the back of the subrack, on the motherboard. There is an identical +9.5 Vdc power output connector on the motherboard that is used to power other Daniels equipment at +9.5 Vdc. NOTE: Do not connect the main power input to the +9.5 Vdc power output connector, as a transient suppressor (over voltage protection) will short to ground to protect the equipment.

Reverse voltage protection and over voltage protection (transient suppressor) is provided at the main power input as well as the +9.5 Vdc line. The main power input is protected with a standard fast-blow 15 amp fuse. These components may require replacing if the power supply is not connected properly, or even after a power surge or a lightning strike. The two transient suppressors have different voltage ratings for the main power input and +9.5 Vdc lines. Figure 5-3 shows the subrack / motherboard rear view.

User Guide

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Chapter 5: Radio System Components

31

Channel Selection Daniels MT-3 crystal controlled radio modules operating frequency is selected by the control module’s fundamental crystal frequency. The channel select lines and internal BCD rotary switches are not used by the crystal control module. Daniels MT-3 synthesized radio modules are capable of 16 channel operation. The 16 channels are controlled via four CSEL signal lines connected to each receiver and transmitter module. The CSEL signal lines are set as either a 0 (0 Vdc) or a 1 (+9.5 Vdc). Table 5-1 shows the channel selected for the CSEL input settings. Bank select jumpers / connections are not used for MT-3 radio systems.

Table 5-1: Channel Selection Settings Channel

Decimal

CSEL3

CSEL2

CSEL1

CSEL0

1

0

0

0

0

0

2

1

0

0

0

1

3

2

0

0

1

0

4

3

0

0

1

1

5

4

0

1

0

0

6

5

0

1

0

1

7

6

0

1

1

0

8

7

0

1

1

1

9

8

1

0

0

0

10

9

1

0

0

1

11

10

1

0

1

0

12

11

1

0

1

1

13

12

1

1

0

0

14

13

1

1

0

1

15

14

1

1

1

0

16

15

1

1

1

1

There are 3 different ways to change the channel of a transmitter / receiver module: 1

The user can set jumpers mounted on the motherboard for each Channel Select signal line (Set of four for each Tx / Rx module). These jumpers can be used to permanently set a subrack slot at a specific channel. • Jumpers can be set for 0 (0 Vdc) “B” or “down” or 1 (+9.5 Vdc) “A” or “up”. • Pull-up resistor jumpers to +9.5 Vdc must be installed.

2

CSEL signal lines can be controlled externally by a tone remote adapter, or other third party devices.

3

Sixteen-position rotary select switches mounted on the front of the base controller can control the CSEL lines. Optionally the Audio Control Card can have a rotary switch added.

The pull-up resistor jumpers to +9.5 Vdc must be removed and all channel select jumpers must be installed in the 1 or “up” position for both external control and rotary switch control of channel selection. The locations of the channel select and pull-up jumpers are shown in Figure 5-3.

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User Guide


32

Chapter 5: Radio System Components

Antenna Relay Activation The motherboard on the subrack contains a set of jumpers that are used to activate the optional antenna relays in the System Regulator module from the Transmitter PTT IN and PTT OUT signal lines. Figure 5-3 shows the location of these jumpers. JU36 JU39 JU42 JU45

TXA PTT OUT activates Relay A TXA PTT OUT activates Relay B TXB PTT OUT activates Relay A TXB PTT OUT activates Relay B

JU37 JU40 JU43 JU46

TXA PTT IN activates Relay A TXA PTT IN activates Relay B TXB PTT IN activates Relay A TXB PTT IN activates Relay B

Simplex Operation The motherboard on the subrack contains a set of jumpers that are enabled when the radio system is operated in simplex mode (simplex base station or simplex links). The jumper connects the Transmitter PTT OUT signal line to the RX MUTE. This jumper will cause the receiver to mute when the transmitter is keyed. JU38 JU44

TXA PTT OUT mutes RXA TXB PTT OUT mutes RXA

JU41 JU47

TXA PTT OUT mutes RXB TXB PTT OUT mutes RXB

+13.8 Vdc LINE TRANSIENT SUPPRESSOR (2007-1N637800) & REVERSE VOLTAGE DIODE (2001-MR751000)

15 AMP FAST BLOW FUSE (5604-5GAGC150) POWER INPUT +10 to +17 Vdc +13.8 Vdc NOMINAL

+9.5 Vdc LINE TRANSIENT SUPPRESSOR (2007-1N637500) & REVERSE VOLTAGE DIODE (2001-MR751000)

AUXILIARY CONNECTORS +9.5 Vdc REGULATED POWER INPUT / OUTPUT (NOT TYPICALLY USED)

ANTENNA RELAY & RX MUTE ACTIVATION JUMPERS

CHANNEL SELECT PULL-UP OR EXTERNAL CONTROL JUMPERS B SIDE CHANNEL SELECT JUMPERS

Figure 5-3: Subrack / Motherboard Rear View

User Guide

UG-002 Daniels MT-3 Radio Systems www.danelec.com

A SIDE CHANNEL SELECT JUMPERS

CHANNEL SELECT PULL-UP OR EXTERNAL CONTROL JUMPERS


Chapter 5: Radio System Components

33

Auxiliary Connectors The motherboard on the subrack has two auxiliary connectors available, a DB25 connector for direct connection to a Vega DSP-223 or IP-223 and a 96 pin connector typically used to connect to the A-PNLAUX96-3.

DB25 Connector to DSP-223 or IP-223 Connector J10 is a female DB25 connector which can be used for basic base connections. When connected to a Vega DSP-223 or IP-223, a standard straight-through male-to-male DB25 extender cable can be used with some motherboard jumper changes. WARNING: JU108 must be configured correctly for DSP-223 or IP-223 or damage can occur. JU108 A for +13.8 Vdc / DSP-223 or JU108 B for Rx A COR / IP-223

A-PNL-AUX96-3 Auxiliary Connector An optional component that can be added to the subrack is the A-PNL-AUX96-3 Auxiliary Connector. The auxiliary connector mounts on the back wrap-around cover of the subrack and connects to the auxiliary connector on the motherboard. The A-PNL-AUX96-3 brings all of the auxiliary connector signal lines out to screw terminals for easy connection. These connections are ideal for interfacing external equipment and allowing easy access for testing and tuning points. The A-PNL-AUX96-3 Auxiliary Connector and the back wrap-around cover are shown in Figure 5-4.

PLUG IN SCREW CONNECTORS TERMINAL BLOCK BOARD

CONNECTOR BOARD

A-PNL-AUX96-3 HEADERS AND LABEL J1

Tx

2 1 1 2 1 1 2 1 2 1 t I/P O/P O/P R I/P T t I/P O/P O/P R I/P T c O/P I/P c O/P I/P Bal A PT A Sub A Bal A Bal A CO A Dis B Bal B Bal B PT B Sub B Bal B Bal B CO B Dis A Bal A Rx Rx Rx Rx Tx Tx Tx Tx Rx Rx Rx Rx Tx Tx Tx

D3 el D0 el D1 el D2 el D3 el D0 el D1 el D2 el D3 el D0 el D1 el D2 el D3 D1 D0 D2 el el el el CS A CS A CS A CS B CS B CS B CS B CS B CS B CS B CS B CS A CS A CS A CS A CS A Rx Rx Rx Rx Tx Tx Tx Tx Rx Rx Rx Rx Tx Tx Tx

J2

Tx

J3

Spa

J4

p O/P er COR LP O/P -em LP COR LP O/P -em De r De c r Ov c c Sql A Prio A Dis A Sql B Dis B Prio B Dis B Sql und und und und 8 Vdc 8 Vdc Vdc Vdc A Rx Rx Rx Rx Rx Rx Rx Rx 9.5 13. 9.5 Gro Gro Gro Gro 13.

Spare 1

Spare 2

Spare 3

Spare 4

re

Spare 5

8 7 6 5 4 3 2 1 6 1 5 4 3 2 1 2 re re re re re rm rm rm rm rm rm rm rm Spa Spa Spa Spa Spa IMC IMC Ala Ala Ala Ala Ala Ala Ala Ala

Spare 6

Spare 7

Spare 8 p

Spare 9

Spare 10

Spare 11

Spare 12

J5

d Rev tl Fwd Rev tl 2 2 t t Fw en Cn en d Cn d io t I/P T Ou Str te io t I/P T Ou Str te WR WR Mo WR VSWR Mo Sub PT A Sig Mu B Aud B VS B VS B Dir B Sub PT B Sig Mu A Aud A VS A A A Dir A B B A Tx Tx Tx Tx Tx Tx Tx Rx Tx Rx Rx Tx Tx Tx Tx Rx

J6

K K n n RA R RA R t t y y io V Mo CO CO V Mo CO CO ndb p Aud Fla V ndb p Aud Fla V Am A Sql 9.5 A 9.5 A Iso A Iso Sta B Am B Sql 9.5 B 9.5 B Iso B Iso Rx Aud3 B B A Sta A A Rx Rx Rx Tx Rx Rx Rx 5W IMC Rx Rx Rx Rx Rx Rx Tx

Spare 13

Spare 14

Spare 15

Spare 16

Pin 1

Wire Sizes: 22 AWG Min, 16 AWG Max

Pin 16

SUBRACK REAR VIEW

Figure 5-4: Auxiliary Panel Diagram

UG-002 Daniels MT-3 Radio Systems www.danelec.com

User Guide


34

Chapter 5: Radio System Components

A close-up view of the auxiliary connector label, as shown in Figure 5-5, indicates the short signal name for each connection point. Definitions for these signals can be found in the SR-39-1 subrack manual. Extra connectors (Spare, Alarm and IMC) that can be used for different functions depending on the control card are listed to the right of the connectors. For example, the AC-3E audio control card uses these lines for auxiliary audio inputs / outputs and auxiliary COR / PTT connections. The custom functions of these connectors will be marked in the blank space next to the signal name.

J1

J2

1 1 1 2 1 2 P P I/P /P /P I/P /P /P O/ O/ P 1 P 2 P1 P2 l I/ al I/ PTT Subt al O al O OR isc al I/ al I/ TT ubt Bal OBal OCOR Disc a P C B B S B D B B A A B B B A A B A B B B AB AB A Tx Tx Tx Tx Rx Rx Rx Rx Tx Tx Tx Tx Rx Rx Rx Rx

0 1 2 3 3 0 2 1 1 0 2 3 2 3 1 0 lD lD lD lD lD lD lD lD lD lD lD lD lD lD lD lD Se CSe CSe CSe CSe CSe CSe CSe CSe CSe CSe CSe CSe CSe CSe CSe C B B B B A A A A B B B B A A A A Tx Tx Tx Tx Rx Rx Rx Rx Tx Tx Tx Tx Rx Rx Rx Rx

Spare 1 Spare 2 Spare 3 Spare 4

J3

4 5 6 7 2 1 8 3 3 6 2 4 1 5 are are are are are are C 1 C 2 arm arm arm arm arm arm arm arm Sp Sp Sp Sp Sp Sp IM IM Al Al Al Al Al Al Al Al

Spare 5 Spare 6

IMC 1

J4

p p /P /P OR P O -em OR P O -em er er Ov ior C isc L ql De ql Ov rior C isc L ql De l c c nd nd nd nd Vd Vd Vdc Vdc A Sq A Pr A D A S B S B P B D B S ou ou ou ou .8 .8 Gr Gr Gr Gr 13 13 9.5 9.5 Rx Rx Rx Rx Rx Rx Rx Rx

IMC 2 Alarm 1 Alarm 2 Alarm 3

J5

d ev tl tl Fwd Rev en en P 2 ut Cn Fw R d P 2 ut Cn d io WR WR r Mo bt I/ T O g Str ute dio WR WR r Mo bt I/ T O g Str ute d u S u i i S i u u T S i T S M A V S S B AA A V A V A D A S A P A S A M B BD B BP B BV B Tx Tx Tx Tx Tx Tx Rx Rx Tx Tx Tx Tx Tx Tx Rx Rx

Alarm 4 Alarm 5 Alarm 6 Alarm 7 Alarm 8

J6

Pin 1

K A K A n n ud lat ud lat Mo OR OR io by Mo OR OR by nd mp A ql F .5V .5V so C so C tand mp A ql F .5V .5V so C so C Aud a t I I 9 x 9 AI AI A BS S R C3 B B B9 B BS B A9 A A S AA A Tx Rx Rx Rx Rx Rx Rx Tx Rx Rx Rx Rx Rx Rx 5W IM

Wire Sizes: 22 AWG Min, 16 AWG Max

Figure 5-5: Auxiliary Panel Pin-Out

User Guide

UG-002 Daniels MT-3 Radio Systems www.danelec.com

Pin 16

IMC 3


Chapter 5: Radio System Components

35

S Y S T EM REGULATOR The SM-3 System Regulator is a plug-in module which provides voltage regulation, system metering and audio monitoring for an MT-3 radio system. The SM-3 includes the following features: • High current +9.5 Vdc voltage regulator with an anti-latchup hysteresis circuit. • Front panel switch selectable meter outputs to check supply voltages, regulated voltages, etc. • Audio amplifier and loudspeaker. • Relay drivers for optional antenna relays.

There are several different models of System Regulators as shown in Figure 5-6. The basic SM-3 is the same size as a transmitter or receiver module. The System Regulator can also be purchased with 1 or 2 optional antenna relays.

SYSTEM REGULATOR FUNCTION

12

SYSTEM REGULATOR FUNCTION

SYSTEM REGULATOR FUNCTION

12

11

2

11

2

11

2

10

3

10

3

10

3

9

4

9

4

9

4

8

5

8

5

8

7 VOL

6

7

+ METER

VOL

-

6

1

ANTENNA A

1

12

METER

7 VOL

-

ON OFF SPKR INT EXT EXT

SPKR

DANIELS

MADE IN CANADA

6

+

RX A

RX B

TX A

TX B

METER

ON OFF SPKR INT EXT EXT

SPKR

ELECTRONICS LTD.

ANTENNA B

TX A

ON OFF SPKR INT EXT EXT

ANTENNA A

5

RX A

+

1

SPKR

DANIELS

ELECTRONICS LTD.

MADE IN CANADA

DANIELS

ELECTRONICS LTD.

MADE IN CANADA

Figure 5-6: System Regulators

Backwards Compatibility The SM-3 System Regulator is a direct replacement for the SM-3 System Monitor, however, the rotary switch positions for the front panel test points have been changed. The simplex mode jumpers to connect the Transmitter PTT OUT signal line to the RX MUTE are now located on the new motherboard, but the System Regulators still contain the simplex mode jumpers for backwards compatibility with older motherboards.

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User Guide


36

Chapter 5: Radio System Components

System Regulator Testing The System Regulator module is designed with a convenient and easy test point built in to the front panel. This test point allows a technician access to the DC supply and regulated voltages. Simply connect a standard Digital Volt Meter (DVM) to the METER jacks on the front panel of the System Regulator as shown in Figure 5-7. Turn the rotary switch to the desired position to measure the supply voltage, regulated voltages, receiver carrier strength, audio output or Priority COR as shown in Table 5-2. Note that the RSSI and Priority COR requires a carrier and the audio output requires an audio tone injected into the receiver.

RECEIVER

TRANSMITTER

AUDIO CONTROL

FREQUENCY (MHz)

FREQUENCY (MHz)

154.2500

140.1250 SQ . DI SA B L E

TX

7

NORM OFF KEY TX

5

DIGITAL MULTIMETER

SYSTEM REGULATOR FUNCTION

12

N O RM OFF

1

11

2

10

3

9

4

8

5 7

6

+

DC

AutoHOLD

FAST MN MX

HOLD

MIN MAX

TX A VOL

RX A TX B

7

METER

YES

REL SAVE

RANGE RANGE

NO

nS

5

-

MIC

ac+dc

5

13

ac+dc

TX A 9

RF OUT

RX B

ON OFF SPKR INT EXT EXT

RF IN REFERENCE

REFERENCE

TX B13

5

dB

mV

C

A mA mA

V

A A mA mA

V

ac+dc

A

OFF

ac+dc

VIEW CLEAR MEM

INPUT

INPUT

SPKR

TEMPERATURE

A

DANIELS

DANIELS

PULL DOWN TO REMOVE

F

mV

dB

9

AC-3E

LOGGING

CANCEL

ms Hz % % ms Hz SETUP

COM

V

ELECTRONICS LTD.

MADE IN CANADA

MADE IN CANADA

MADE IN CANADA VT-3/160-SW08

mA A

DANIELS

ELECTRONICS LTD.

ELECTRONICS LTD.

MADE IN CANADA VR-3/140-SW02

MADE IN CANADA

Figure 5-7: System Regulator Testing

Table 5-2: System Regulator Rotary Switch Functions

User Guide

Position

Function

Parameter

1

Supply Voltage

+10 Vdc to +17 Vdc (+13.8 Vdc nominal)

2

+9.5 Volts Regulated

+9.5 Vdc (± 0.1 Vdc)

3

Rx A Audio

Receiver A Audio (NOT Rx Balanced Output)

4

Rx A Carrier Strength

+1 Vdc to +5 Vdc based on received signal strength (+1 Vdc is a low RF signal level, +5 Vdc is high)

5

Rx B Audio

Receiver B Audio (NOT Rx Balanced Output)

6

Rx B Carrier Strength

+1 Vdc to +5 Vdc based on received signal strength (+1 Vdc is a low RF signal level, +5 Vdc is high)

7

Rx A Priority COR

Open Collector Output; Measure with an Ohm meter. Ground for Active; Open for Inactive

10

Rx B Priority COR

Open Collector Output; Measure with an Ohm meter. Ground for Active; Open for Inactive

11

Rx A +6.0 Volts

+6.0 Vdc (± 0.1 Vdc)

12

Rx B +6.0 Volts

+6.0 Vdc (± 0.1 Vdc)

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Chapter 5: Radio System Components

37

P OWER AMPL IFIERS Table 5-3 shows the RF Power outputs for the transmitter modules in each frequency band.

Table 5-3: RF Power Outputs Band

Frequency

Transmitter

VHF Lowband

29 – 50 MHz

0.5 to 3.0 Watts

VHF Highband

136– 174 MHz

2.0 to 8.0 Watts

UHF 400 MHz

406 – 430 MHz and 450 – 470 MHz

0.5 to 2.0 Watts or 2.0 to 8.0 Watts

UHF 800 MHz

806 – 824 MHz and 851 – 869 MHz

0.5 to 3.0 Watts

UHF 900 MHz

896 – 902 MHz and 928 – 960 MHz

0.5 to 3.0 Watts

VHF AM

118 – 138 MHz

1.0 to 3.0 Watts (Carrier Only)

If a higher RF power output is required, the transmitter may be used as an exciter to drive a power amplifier. Daniels Electronics manufactures a 30 Watt power amplifier for VHF highband and UHF 400 MHz, shown in Figure 5-8, that will fit into a standard subrack.

POWER AMPLIFIER FREQUENCY (MHz)

PWR TX O/T VSWR

ON OFF

RF OUT

RF IN

DANIELS

ELECTRONICS LTD.

MADE IN CANADA

MODEL # CODE

Figure 5-8: 30 Watt Power Amplifier

Daniels Electronics can also supply higher power amplifiers (60 W, 100 W, 250 W) that are 19” rack mountable, as well as amplifiers for other frequency bands (Lowband and AM). All transmitters and power amplifiers are rated for 100% continuous duty.

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User Guide


38

Chapter 5: Radio System Components

C H A N N EL PROGRAMMER The CP-SC-3 synthesizer channel programmer is used to program channels 2 through 16 (and read channel 1) of Daniels MT-3 synthesized radios. The CP-SC-3 synthesizer channel programmer is packaged in the same size of enclosure as the MT-3 receiver module, allowing it to be conveniently mounted in any receiver subrack slot position. An interconnect cable (Type F to DB-9) connects the front panel of the CP-SC-3 synthesizer channel programmer to any free standing synthesized receiver or transmitter. The programmer allows the four digit Channel Designation codes to be entered into channels 2 through 16 of the connected receiver or transmitter and will read the codes programmed into channels 1 through 16. PROGRAMMER

Ch 0 1 RS232 I/O

1234 TX/RX DATA I/O

PRGM

ADV

RESET

FCTN

DANIELS

ELECTRONICS LTD.

MADE IN IN CANADA CANADA MADE

Figure 5-9: CP-SC-3 Synthesizer Channel Programmer

TU N I N G AND MAINT ENAN C E TOOL S To facilitate testing, alignment and maintenance for the MT-3 radio systems, extender cards can be used to extend the individual modules out from the subrack. Extender kits (extender card plus a four foot cable) allow the modules to be extended out to a bench for servicing. The following extender cards and kits are available: EC-96D1 (direct connect) or EC-96K-1.22 (card and cable) Used for the 96 pin control cards (AC-3L-96, AC-3E, AC-3M-96, AC-3S-96 and CI-PM-3). EC-48RD (direct connect) or EC-48RK-1.22 (card and cable) Used for all receiver, transmitter, power amplifier and system regulator modules.

The A-TK-01 tool kit includes a number of spare parts for the MT-3 radio system, including tuning tools, guide rails, transient suppressors, diodes, a fuse, dust caps, shunt jumpers, ESD wrist strap, and various screws and hardware.

User Guide

UG-002 Daniels MT-3 Radio Systems www.danelec.com



Daniels Electronics Ltd. 43 Erie Street, Victoria, BC Canada, V8V 1P8 www.danelec.com sales@danelec.com Toll Free Canada and USA Phone: 1-800-664-4066 Fax: 1-877-750-0004 International Phone: 250-382-8268 Fax: 250-382-6139 Š2009 Daniels Electronics Ltd. All Rights Reserved. UG-002-3-0-0

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