MOTOTRBO™ REPEATER PROFESSIONAL DIGITAL TWO-WAY RADIO SYSTEM SLR 1000 Repeater Basic Service & Installation Manual DECEMBER 2018 © 2019 Motorola Solutions, Inc.
MN003557A01-AF Notice Foreword Notice Foreword This manual covers all versions of the MOTOTRBO SLR 1000 Repeater, unless otherwise specified. It includes all the information necessary to maintain peak product performance and maximum working time, using levels 1 and 2 maintenance procedures. These levels of service go down to software issues or replacement of an accessory, commonly performed by local service centers, Motorola Solutions Authorized Dealers, self-maintained customers, and distributors.
MN003557A01-AF Notice Foreword Copyrights The Motorola Solutions products described in this document may include copyrighted Motorola Solutions computer programs. Laws in the United States and other countries preserve for Motorola Solutions certain exclusive rights for copyrighted computer programs.
MN003557A01-AF Notice Foreword Return to Process Foreword on page 2 Trademarks MOTOROLA, MOTO, MOTOROLA SOLUTIONS and the Stylized M logo are trademarks or registered trademarks of Motorola Trademark Holdings, LLC and are used under license. All other trademarks are the property of their respective owners. © 2018 Motorola Solutions, Inc. All rights reserved.
MN003557A01-AF General Safety and Installation Standards and Guidelines Notice General Safety and Installation Standards and Guidelines ATTENTION! WARNING: For safe installation, operation, service and repair of this equipment, follow the safety precautions and instructions, as well as any additional safety information in Motorola Solutions product service and installation manuals and the Motorola Solutions R56 Standards and Guidelines for Communications Sites manual (which can be obtained by ordering CDR
MN003557A01-AF Notice General Safety and Installation Standards and Guidelines • Ensure that the installation area can safely support the weight of the repeater. • Burn hazard. The metal housing of the product may become extremely hot. Use caution when working around the equipment. • RF energy burn hazard. Disconnect power to prevent injury before disconnecting and connecting antennas. • Shock hazard.
MN003557A01-AF Declaration of Conformity Declaration of Conformity This declaration is applicable to your radio only if your radio is labeled with the FCC logo shown below. Declaration of Conformity Per FCC CFR 47 Part 2 Section 2.1077(a) Responsible Party Name: Motorola Solutions, Inc. Address: 1303 East Algonquin Road, Schaumburg, IL 60196-1078, U.S.A.
MN003557A01-AF Declaration of Compliance for the Use of Distress and Safety Frequencies Declaration of Compliance for the Use of Distress and Safety Frequencies The radio equipment does not employ a modulation other than the internationally adopted modulation for maritime use when it operates on the distress and safety frequencies specified in RSS-182 Section 7.3.
MN003557A01-AF MOTOTRBO SLR 1000 Repeater Supplemental Safety and Installation Requirements Notice MOTOTRBO SLR 1000 Repeater Supplemental Safety and Installation Requirements CAUTION: The MOTOTRBO SLR 1000 Repeater must be installed in a suitable, in-building location, or suitable outdoor location. A restricted access location is required when installing this equipment into the end system. When installing the equipment, all requirements of relevant standards and local electrical codes must be fulfilled.
MN003557A01-AF Notice Environmental Information Notice Environmental Information Related Links Material Content on page 10 Disposal of your Electronic and Electric Equipment on page 10 Disposal Guideline on page 11 Material Content This is to declare that Motorola Solutions products comply with the EU Directive 2011/65/EU (Restriction of Hazardous Substance or RoHS-2) and India RoHS, including applicable exemptions, concerning the following substances: • Lead (Pb) < 0.
MN003557A01-AF Notice Environmental Information Disposal Guideline The European Union's WEEE directive symbol on a Motorola Solutions product indicates that the product should not be disposed of with household waste.
MN003557A01-AF Document History Document History The following major changes have been implemented in this manual since the previous edition: Edition Description Date MN003557A01-AA Initial release of the MOTOTRBO SLR 1000 Repeater Basic Service & Installation manual June 2017 MN003557A01-AB Second release of the MOTOTRBO SLR 1000 Repeater Basic Service & Installation manual. August 2017 • MN003557A01-AC Third release of the MOTOTRBO SLR 1000 Repeater Basic Service & Installation manual.
MN003557A01-AF Document History Edition Description • Declaration of Conformity added • Changed Spurious Harmonics and Emissions figures for Repeater Specifications; • Industry Canada requirements added to SLR 1000 Repeater General Specifications; • Declaration of Compliance for the Use of Distress and Safety Frequencies added.
MN003557A01-AF Contents Contents Declaration of Conformity.......................................................................................... 7 Declaration of Compliance for the Use of Distress and Safety Frequencies........ 8 Document History..................................................................................................... 12 List of Figures............................................................................................................19 List of Tables................
MN003557A01-AF Contents 3.4.1 Station Control Audio............................................................................................... 54 3.4.2 Station Control Interface.......................................................................................... 55 Chapter 4: SLR 1000 Front Panel............................................................................ 56 4.1 Front Panel Description.................................................................................................
MN003557A01-AF Contents 10.1 Pre-Installation Considerations............................................................................................94 10.1.1 Installation Overview..............................................................................................94 10.1.2 Site Environmental Conditions...............................................................................95 10.1.3 Equipment Mounting Methods...............................................................................
MN003557A01-AF Contents A.1 Introduction..........................................................................................................................118 A.1.1 Antennas............................................................................................................... 118 A.1.2 Power Supplies......................................................................................................119 A.1.3 Documentation......................................................................
MN003557A01-AF Contents E.3.1 SAR Evaluation Formulas..................................................................................... 135 E.3.2 Implementation and Validation of SAR Formulas..................................................138 E.3.3 Equivalent Plane Wave Power Density Evaluation............................................... 139 E.4 Exposure Limits...................................................................................................................140 E.
MN003557A01-AF List of Figures List of Figures Figure 1: SLR 1000 Repeater Bottom View........................................................................................... 30 Figure 2: SLR 1000 Repeater Left View.................................................................................................30 Figure 3: SLR 1000 Repeater Right View.............................................................................................. 31 Figure 4: SLR 1000 Repeater Back View....................
MN003557A01-AF List of Figures Figure 37: Wall Mount Bracket Attached to Pole Mount Bracket..........................................................106 Figure 38: Power Supplies................................................................................................................... 107 Figure 39: Location of Repeater M6 Screw Mounts............................................................................. 108 Figure 40: Bracket Receiving Slots..................................................
MN003557A01-AF List of Tables List of Tables Table 1: SLR 1000 Repeater Bottom View Callout Legend................................................................... 30 Table 2: SLR 1000 Repeater Left View Callout Legend.........................................................................31 Table 3: SLR 1000 Repeater Right View Callout Legend...................................................................... 31 Table 4: SLR 1000 Repeater Front View Callout Legend.....................................
MN003557A01-AF List of Tables Table 34: Compliance Distance in General Public Exposure and Occupational-Type Exposure (UHF)...............................................................................................................................................141 Table 35: Compliance Distance in General Public Exposure (VHF).................................................... 142 Table 36: Compliance Distance in Occupational-Type Exposure (VHF)..............................................
MN003557A01-AF List of Procedures List of Procedures Verifying Transmitter Circuitry ............................................................................................................... 66 Verifying Receiver Circuitry ................................................................................................................... 68 Tuning the Reference Oscillator ............................................................................................................
MN003557A01-AF Related Publications Related Publications Related Publications Part No.
MN003557A01-AF Summary of Bands Available Summary of Bands Available The following table lists the SLR 1000 Repeater bands available in this manual. For details, see Repeater Model Chart on page 44.
MN003557A01-AF Notice Commercial Warranty Notice Commercial Warranty Related Links Limited Commercial Warranty on page 26 Limited Commercial Warranty This limited commercial warranty describes the conditions under, and period during, which the repeater is repaired, replaced, and what is not covered. I. What This Warranty Covers And For How Long MOTOROLA SOLUTIONS INC.
MN003557A01-AF Notice Commercial Warranty SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES OR LIMITATION ON HOW LONG AN IMPLIED WARRANTY LASTS, SO THE ABOVE LIMITATION OR EXCLUSIONS MAY NOT APPLY. This warranty gives specific legal rights, and there may be other rights which may vary from state to state IV.
MN003557A01-AF Notice Commercial Warranty software not furnished by MOTOROLA which is attached to or used in connection with the Product. The foregoing states the entire liability of MOTOROLA with respect to infringement of patents by the Product or any parts thereof. Laws in the United States and other countries preserve for MOTOROLA certain exclusive rights for copyrighted MOTOROLA software such as the exclusive rights to reproduce in copies and distribute copies of such Motorola software.
MN003557A01-AF SLR 1000 Repeater Chapter 1 SLR 1000 Repeater The Motorola Solutions SLR 1000 Repeater provides a modular, flexible analog and digital station designed for today's communication systems and for the future.
MN003557A01-AF Chapter 1: SLR 1000 Repeater Figure 1: SLR 1000 Repeater Bottom View 1 2 3 4 5 Table 1: SLR 1000 Repeater Bottom View Callout Legend Label Description 1 USB Port Programming Interface 2 Ethernet Port 3 Aux/Accessory Port 4 DC Power Inlet 5 Bonding Ground Connection Figure 2: SLR 1000 Repeater Left View 1 30 2
MN003557A01-AF Chapter 1: SLR 1000 Repeater Table 2: SLR 1000 Repeater Left View Callout Legend Label Description 1 Receiver RF (Rx) Input Cable Port 2 Option Dependent 1/GNSS Option Dependent 2/WLAN Figure 3: SLR 1000 Repeater Right View 1 2 Table 3: SLR 1000 Repeater Right View Callout Legend Label Description 1 Transmitter RF (Tx) Output Cable Port 2 Pressure Equalization Vent 31
MN003557A01-AF Chapter 1: SLR 1000 Repeater Figure 4: SLR 1000 Repeater Back View 32
MN003557A01-AF Chapter 1: SLR 1000 Repeater Figure 5: SLR 1000 Repeater Padlock Opening Figure 6: SLR 1000 Repeater Front View 1 2 3 33
MN003557A01-AF Chapter 1: SLR 1000 Repeater Table 4: SLR 1000 Repeater Front View Callout Legend Label Description 1 Status 2 Ethernet Link/Network Connectivity 3 Reference (for future use) 34
MN003557A01-AF Chapter 1: SLR 1000 Repeater Figure 7: SLR 1000 Repeater Connections 1 15 2 14 3 13 4 12 5 11 6 8 10 9 7 35
MN003557A01-AF Chapter 1: SLR 1000 Repeater Table 5: SLR 1000 Repeater Connections Callout Legend Label Description 1 Transmitter RF (Tx) Output Board Connection 2 Pressure Equalizer Vent 3 Receiver RF (Rx) Input Board Connection 4 Transmitter RF (Tx) Output Cable Port 5 Jumper Connection to enable external on/off function 6 Bonding Ground Connection 7 DC Power Inlet 8 Header Connection for optional antenna switch 9 Aux/Accessory Port 10 Ethernet Port 11 USB Port Programming Interfac
MN003557A01-AF Chapter 1: SLR 1000 Repeater • Ethernet Port (Network) • USB Port (Service) • Four configurable GPIO ports (Digital) • One configurable GPI port (Analog) • One configurable GPO port (Analog) • 1.5 PPM Frequency Stability (temperature AND 1-year aging) (VHF and UHF) • Station Diagnostic Tests – fixed set of tests run upon start-up • Physical Dimensions: 11" H x 9" W x 4" D (27.94 x 22.86 x 10.16 cm) without brackets or other peripheral equipment • Weight: 10 pounds (4.
MN003557A01-AF Chapter 1: SLR 1000 Repeater Frequency Band Bandwidth Power Level UHF 400–512 MHz 1–10 W Self-Quieting Frequencies When using an indoor antenna, there is a potential for degraded receiver performance with the following frequencies: VHF UHF 147.03125 MHz 400 MHz 150 MHz 403.2 MHz 153.6 MHz 422.4 MHz 425 MHz 441.6 MHz 450 MHz 460.8 MHz 475 MHz 480 MHz 499.2MHz 500 MHz 518.4 MHz 525 MHz Return to Process SLR 1000 Repeater on page 29 1.
MN003557A01-AF Chapter 1: SLR 1000 Repeater Parameter Specifications Height 11” (27.94 cm) Width 9” (22.86 cm) Depth 4” (10.16 cm) Table 8: SLR 1000 Repeater Specifications All specifications are in accordance to their respective TIA603E, ETSI 300 – 086, and ETSI 300 – 113 standards unless otherwise noted. Parameter Specifications VHF UHF Input Power (All Modulations) Standby (13.6 VDC) 0.73 A 10 W Transmit at Rated Power (13.
MN003557A01-AF Chapter 1: SLR 1000 Repeater Parameter Specifications VHF UHF FM Hum and Noise 25 kHz / 12.5 kHz -50 dB/ -45 dB Transmitter Rated Output Power (Continuous Duty) 1 – 10 W Intermodulation Attenuation 40 dB Adjacent Channel Power 25 kHz / 12.5 kHz 75 dB / 60 dB Modulation Fidelity (4FSK) FSK Error 5% FSK Magnitude 1% Wideband Noise (1 MHz) @ Rated Pout Rated System Deviation -152 dBc/ Hz ±2.5 kHz @ 12.5 kHz ±5.
MN003557A01-AF Chapter 1: SLR 1000 Repeater Parameter Specifications VHF UHF 7K60F7W 7K60FXW Return to Process SLR 1000 Repeater on page 29 1.5 Repeater Theory of Operation The SLR 1000 Repeater provides the radio frequency (RF) link between the network infrastructure and the subscriber radios. The repeater acquires inbound signals through its external receive (Rx) antenna and then amplifies, filters, and demodulates the signals into data or voice packets.
MN003557A01-AF Chapter 1: SLR 1000 Repeater • Contains and runs the preloaded repeater software • Manages inbound and outbound RF and Audio traffic • Provides an on-board USB port for local configuring, alignment, and diagnostics through the following applications: - Radio Management Configuration Client (RM) - Tuner application - Repeater Diagnostic and Control (RDAC) software • Provides an Ethernet port for IP site connectivity and remote RDAC • Provides General Purpose Input/Output (GPIO)
MN003557A01-AF Chapter 1: SLR 1000 Repeater The general status and condition of the SLR 1000 Repeater can be obtained by observing the three LED indicators on the front panel. The following tables indicate the LED symbols and their meaning, and identifies the information conveyed through the LED indicators.
MN003557A01-AF Chapter 1: SLR 1000 Repeater 1.7 Repeater Model Numbering Scheme The SLR 1000 Repeater model numbering scheme identifies the repeater model and the various options available. Figure 9: SLR 1000 Repeater Model Numbering Scheme Model No.
MN003557A01-AF Chapter 1: SLR 1000 Repeater Return to Process SLR 1000 Repeater on page 29 45
MN003557A01-AF Chapter 2: SLR 1000 Satellite Receiver Chapter 2 SLR 1000 Satellite Receiver Related Links Satellite Receiver Description on page 46 Satellite Receiver Operating Features on page 46 Satellite Receiver Frequency Ranges on page 46 Satellite Receiver Specifications on page 47 Satellite Receiver Configuration on page 47 Basic Satellite Receiver Level Troubleshooting – RDAC and LEDs on page 47 Satellite Receiver Model Chart on page 48 2.
MN003557A01-AF Chapter 2: SLR 1000 Satellite Receiver Return to Process SLR 1000 Satellite Receiver on page 46 2.4 Satellite Receiver Specifications The specifications of the SLR 1000 Satellite Receiver are identical to the SLR 1000 Repeater, with the exception that all transmitter related specifications are not applicable. See the SLR 1000 Repeater Repeater Specifications on page 38 for more details. Return to Process SLR 1000 Satellite Receiver on page 46 2.
MN003557A01-AF Chapter 2: SLR 1000 Satellite Receiver NOTICE: When configured for receiver only operation, the repeater does not support any transmitter sub-system functions. As such, disregard all references to the transmitter section in SLR 1000 Repeater on page 29, including any transmitter related topics in the RDAC and the front panel LEDs. Return to Process SLR 1000 Satellite Receiver on page 46 2.
MN003557A01-AF SLR 1000 Transceiver Board Chapter 3 SLR 1000 Transceiver Board Related Links Transceiver Board Description on page 49 Receiver Subsystem on page 51 Transmitter Subsystem on page 53 Station Control Subsystem on page 54 3.1 Transceiver Board Description A general description, identification of inputs and outputs, and functional theory of operation for the Transceiver board are provided.
MN003557A01-AF Chapter 3: SLR 1000 Transceiver Board Figure 11: SLR 1000 Repeater Transceiver Board Connector Locations 1 15 2 14 3 13 4 12 5 11 6 8 10 9 7 Table 11: SLR 1000 Repeater Front View (without Top Cover) Callout Legend Label Description 1 Transmitter RF (Tx) Output Board Connection 2 Pressure Equalizer Vent 3 Receiver RF (Rx) Input Board Connection 50
MN003557A01-AF Chapter 3: SLR 1000 Transceiver Board Label Description 4 Transmitter RF (Tx) Output Cable Port 5 Jumper Connection to enable external on/off function 6 Bonding Ground Connection 7 DC Power Inlet 8 Header Connection for optional antenna switch 9 Aux/Accessory Port 10 Ethernet Port 11 USB Port Programming Interface 12 Option Dependent 1 and 2 13 Expansion Board Connection (for future use) 14 Receiver RF (Rx) Input Cable Port 15 Front Panel Flex Connector Return to Pr
MN003557A01-AF Chapter 3: SLR 1000 Transceiver Board Varactor-tuned Preselector Filter(s) Provides bandpass filtering of the station Receiver RF input. Receiver Front-End Circuitry Performs filtering, amplification, and the first down conversion of the Receiver RF signal. Receiver-specific piece of transceiver IC Circuitry Consists of receiver-specific parts of a transceiver IC which performs the second down conversion, filtering, amplification, and analog-to-digital conversion of the receive signal.
MN003557A01-AF Chapter 3: SLR 1000 Transceiver Board 3.3 Transmitter Subsystem The Transmitter subsystem on the SLR 1000 Repeater Transceiver board provides the transmitter functions for the station. The Transmitter subsystem interfaces directly with the controller section, which provides control signals and monitoring, and routes transmit data to the Exciter. A frequency synthesizer consisting of synthesizer circuitry and Voltage-Controlled Oscillator (VCO) circuitry generates the RF carrier.
MN003557A01-AF Chapter 3: SLR 1000 Transceiver Board 3.4 Station Control Subsystem The SLR 1000 Repeater Station Control Subsystem circuitry performs the digital signal processing, data formatting, and audio routing for the station and provides the external interfaces to the rest of the site. The Station Control Subsystem is described in this section.
MN003557A01-AF Chapter 3: SLR 1000 Transceiver Board Figure 12: SLR 1000 Repeater Audio Block Diagram RFIC SSI (4) TI DM8148 (DSP Core) I²C (2) TI AIC3204 Audio Codec RX Audio Accessory Connector Audio SSI (4) TX Audio (Pin 1) RX Audio (Pin 7) The DM8148 processor primarily handles the repeater digital audio. The TX RFIC generates a 24.576 MHz master clock (MCLK) that the DM8148 uses to drive its McASP SSI interface for the audio codecs.
MN003557A01-AF Chapter 4: SLR 1000 Front Panel Chapter 4 SLR 1000 Front Panel Related Links Front Panel Description on page 56 4.1 Front Panel Description The Front Panel board user interface includes three LED indicators. The board is connected to the modem interface through a flex cable. The LED indicators inform the user of the state of the repeater. The LED indications are transferred to the front panel through a serial peripheral interface.
MN003557A01-AF SLR 1000 Bottom Panel Chapter 5 SLR 1000 Bottom Panel Related Links Bottom Panel Description on page 57 Bottom Panel Interfaces and Pin Location on page 58 5.1 Bottom Panel Description The Bottom Panel interface provides the electrical interconnection interface between the SLR 1000 Repeater and the end user’s system.
MN003557A01-AF Chapter 5: SLR 1000 Bottom Panel Label Description 2 Ethernet Port 3 Aux/Accessory Port 4 DC Power Inlet 5 Bonding Ground Connection Return to Process SLR 1000 Bottom Panel on page 57 5.2 Bottom Panel Interfaces and Pin Location The following figures and tables describe and list the pin locations of the DC power inlet, USB, Ethernet, and Aux bottom panel interfaces for the SLR 1000 Repeater. DC Power Inlet The DC power inlet connector is a 2.1 X 5.
MN003557A01-AF Chapter 5: SLR 1000 Bottom Panel USB Type B socket (Device Connection) that supports the USB 2.1 protocol standard. See the following figure and table for the location of the pins and a listing of the functional characteristics of the connector pins. Figure 15: USB Connector Table 16: USB Connector Callout Legend Location Pin Assignment 1 VBUS 2 D- 3 D+ 4 GND Type Signal Characteristics +5 VDC USB Physical Layer 3.
MN003557A01-AF Chapter 5: SLR 1000 Bottom Panel Figure 16: Ethernet Connector Table 17: Ethernet Connector Callout Legend Location Pin Assignment Type Signal Characteristics 1 Ethernet Tx+ 2 Ethernet Tx- 3 Ethernet Rx+ 4 Unused 5 Unused 6 Ethernet Rx- 5 V differential data 7 Unused N/A 8 Unused N/A 5 V differential data Ethernet Physical Layer N/A N/A Auxiliary (Aux)/Accessory This connection supports the analog interface to the SLR 1000 Repeater, which includes audio, station co
MN003557A01-AF Chapter 5: SLR 1000 Bottom Panel Figure 17: Auxiliary/Accessory Connector Table 18: Auxiliary/Accessory Connector Callout Legend Location Pin Assignment Type Signal Characteristics 1 Tx Audio 1 Audio Transmit Audio – Nominal input level is 80 mVrms for 60% deviation with scaling factor set to 100%. 600 Ω input impedance. 2 GPIO 6 Digital Output Logic Low: 0.5 VDC max Output Logic High: Open Collector with 4.7 k pull-up to 5 V Input Logic Low: 0 – 0.8 VDC Input Logic High: 3.
MN003557A01-AF Chapter 5: SLR 1000 Bottom Panel Location Pin Assignment Type Signal Characteristics Output Logic High: Open Collector with 4.7 k pull-up to 5 V Input Logic Low: 0 – 0.8 VDC Input Logic High: 3.
MN003557A01-AF SLR 1000 Test Equipment And Service Aids Chapter 6 SLR 1000 Test Equipment And Service Aids Related Links Recommended Test Equipment on page 63 Service Aids on page 63 6.1 Recommended Test Equipment The list of equipment includes most of the standard test equipment required for servicing Motorola Solutions equipment. Table 19: Recommended Test Equipment Equipment Example Application Service Monitor Aeroflex 3920 Digital Radio Test Set or equivalent 2 http://www.aeroflex.
MN003557A01-AF Chapter 6: SLR 1000 Test Equipment And Service Aids Motorola Solutions Part Number Description Application HKVN4362_ Customer Programming Software (Motorola Online download) Allows the technician to program, tune, and troubleshoot the repeater. 30009477001 Standard Type "A" to Type "B" USB Programming cable Connects the repeater USB port for radio programming and data applications.
MN003557A01-AF SLR 1000 Performance Check or Testing Chapter 7 SLR 1000 Performance Check or Testing Related Links Performance Check or Testing General Description on page 65 Transmitter Testing on page 65 Receiver Testing on page 68 7.1 Performance Check or Testing General Description The SLR 1000 Repeater meets published specifications through the manufacturing process by utilizing high-accuracy laboratory-quality test equipment.
MN003557A01-AF Chapter 7: SLR 1000 Performance Check or Testing 7.2.1 Required Transmitter Test Equipment Test equipment is required to perform procedures for performance checks or testing.
MN003557A01-AF Chapter 7: SLR 1000 Performance Check or Testing a Press the PTT switch of the microphone and speak into the microphone. b Verify that the display shows an audio signal. c If the proper display is not obtained, suspect a faulty transceiver board. 8 Set the Aeroflex 3900 Series Communications System Analyzer for GEN/ MON MTR. a Press the PTT switch of the microphone and speak loudly into the microphone to cause maximum deviation. The display should read: • 4.
MN003557A01-AF Chapter 7: SLR 1000 Performance Check or Testing Return to Process Transmitter Testing on page 65 7.3 Receiver Testing Incorrect measurement signaling values of the SLR 1000 Repeater indicate a faulty module. Testing the Receiver circuitry is done by injecting and measuring signals using a Service Monitor (or equivalent). Measurement values within the acceptable range verify proper operation of the transceiver board and circuitry.
MN003557A01-AF Chapter 7: SLR 1000 Performance Check or Testing 2 Set the service monitor to generate a 1.0 μV (-107 dBm) FM signal at the receiver frequency, modulated by a 1 kHz tone at 3 kHz deviation for 25 /30 kHz channel spacing, or 1.5 kHz deviation for 12.5 kHz channel spacing. The 1 kHz tone should be audible through the external speaker.
MN003557A01-AF Chapter 7: SLR 1000 Performance Check or Testing Figure 19: Test Equipment Setup for Verifying Receiver Circuitry Rx Tx Dummy Load Power Supply Service Speaker (HSN1006_) Test Box (RLN4460_) MT B+ Return to Process Receiver Testing on page 68 70 CH 1 GEN
MN003557A01-AF SLR 1000 Programming and Tuning Chapter 8 SLR 1000 Programming and Tuning Related Links Programming and Tuning Introduction on page 71 Radio Management Setup on page 71 Repeater Tuning Setup on page 72 Tuning the Reference Oscillator on page 73 Tuning the Rx Audio Level Set on page 73 Tuning the Tx Audio Level Set on page 74 Modulation Limit Alignment on page 75 Tuning a Duplexer Module on page 77 8.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning Figure 20: Radio Management Setup Station Bottom Panel 13.6 V DC Return to Process SLR 1000 Programming and Tuning on page 71 8.3 Repeater Tuning Setup A personal computer (PC) with a Windows operating system, and the MOTOTRBO Tuner application are required to align the SLR 1000 Repeater.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning 8.4 Tuning the Reference Oscillator The reference oscillator of the SLR 1000 Repeater provides the timing reference used for all frequency synthesizers and ensures their frequency accuracy. This procedure is used to adjust the alignment of the reference oscillator. This alignment procedure should be done as maintenance schedules and regulations require. See Repeater Tuning Setup on page 72 for the repeater tuning equipment setup.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning 2 Power the repeater from either an AC or DC source. 3 Launch the Tuner application and click Read to read the softpot values. 4 In the tree view, select RX, then select Rx Rated Volume. 5 Set the Communication Analyzer to output a -47 dBm RF signal modulated with a 1 kHz tone at 60% of full deviation on the tuning frequency. The tuning frequency is the value displayed on the Tuner GUI under the heading Frequency Points.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning deviation for a given transmit audio level. Perform this procedure any time the transmitter audio level requires adjustment. Prerequisites: Obtain the following: • Wattmeter (Communication Analyzer) • Service monitor or counter • 20 dB pad • Standard Type A to Type B USB cable • Personal computer Procedure: 1 Connect the repeater transmitter antenna port to the Communication Analyzer. 2 Power the repeater from a DC source.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning Related Links Tuning the Modulation Limit (with no Tx Data and no PL) on page 76 Verifying the Modulation Limit (with no Tx Data and no PL) on page 77 8.7.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning 8.7.2 Verifying the Modulation Limit (with no Tx Data and no PL) Prerequisites: Obtain the following: • Wattmeter (Communication Analyzer) • Service monitor or counter • 20 dB pad • Standard Type A to Type B USB cable • Personal computer Procedure: 1 Connect the repeater antenna port to the attenuation pad, if necessary, before connecting to the Communication Analyzer. 2 Power the repeater from a DC source.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning transmit signal and rejects the receive signal. Concurrently, the receive cavity set must be tuned to pass the receive signal and reject the transmit signal. Tuning is performed by injecting RF signals and making tuning adjustments (using the tuning rods and trimmer screws) while monitoring for maximum or minimum readings on the RF millivoltmeter.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning Figure 24: SLR 1000 VHF Repeater Band Reject (Notch) Duplexer Tuning Screws - High Tuning Screws - Low a On the network analyzer (or equivalent) set the start frequency to a LOW frequency – 3 MHz, and set the stop frequency to a HIGH frequency + 3 MHz. b Using the sweep menu, adjust the power out to as high as possible, presumably 10 dBm. c Perform a 2-port calibration.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning Figure 25: Example for HIGH Port Tuning of the UHF Duplexer a Using the three T10 tuning screws on the LOW side, tune M2 for best insertion loss, s21, while keeping the isolation (M1) better than 65 dB. The results should be better than -1.7 dB. Shorter screws (turned clockwise) are for a lower frequency and longer screws (turned counterclockwise) are for a higher frequency.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning Figure 26: Example for LOW Port Tuning of the UHF Duplexer d Using the three T10 tuning screws on the HIGH side, tune M1 for best insertion loss, s21, while keeping the isolation (M2) better than 65 dB. The results should be better than -1.7 dB. Shorter screws (turned clockwise) are for a lower frequency and longer screws (turned counterclockwise) are for a higher frequency.
MN003557A01-AF Chapter 8: SLR 1000 Programming and Tuning Figure 27: Rejection of Each Port for UHF Duplexer 5 Complete the tuning procedure, as follows: a If the results are similar to Figure 27: Rejection of Each Port for UHF Duplexer on page 82 with better than -65 dB isolation between the LOW and HIGH ports of the duplexer, carefully tighten the nuts on the six T10 torque screws. Tighten them slightly snug, not all the way. Be careful not to accidentally change the tuning of those screws.
MN003557A01-AF SLR 1000 Maintenance and Disassembly/Reassembly Chapter 9 SLR 1000 Maintenance and Disassembly/Reassembly Related Links Routine Maintenance on page 83 Preventive Maintenance on page 83 Safe Handling of CMOS and LDMOS Devices on page 84 Installing a Duplexer on page 85 Installing a High-Speed Solid-State Antenna Switch on page 89 9.
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly 9.2.2 Cleaning Periodically clean smudges and grime from the exterior of the SLR 1000 Repeater with a soft cloth. External surfaces include the top cover and repeater enclosure. Use a soft, non-abrasive cloth moistened in a 0.5% solution of mild dishwashing detergent and water solution. Use a second cloth moistened in clean water, and clean any dirt or debris from the heatsink fins.
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Return to Process SLR 1000 Maintenance and Disassembly/Reassembly on page 83 9.4 Installing a Duplexer Install a duplexer into the SLR 1000 Repeater when transmitting and receiving using one antenna. Prerequisites: Obtain the following: • Duplexer kit • Four M3 screws (obtained from the repeater package) • T20 bit screwdriver • T10 bit screwdriver • ¾ in.
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Figure 28: SLR 1000 Repeater Front View (without top cover) 5 1 4 2 3 Table 21: SLR 1000 Repeater Front View (without top Cover) Callout Legend 86 Label Description 1 Transmitter RF (Tx) Output Board Connection 2 Receiver RF (Rx) Input Board Connection 3 Transmitter RF (Tx) Output Cable Port
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Label Description 4 Receiver RF (Rx) Input Cable Port 5 Front Panel Flex Connector 4 Install the duplexer into the repeater, as follows: a Lay the front panel flex cable down across the board.
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Figure 29: SLR 1000 Repeater Front View (without top cover) with a Duplexer 6 1 5 2 3 4 Table 22: SLR 1000 Repeater Front View (without top Cover) with a Duplexer Callout Legend 88 Label Description 1 Transmitter RF (Tx) Output Board Connection 2 Duplexer 3 Receiver RF (Rx) Input Board Connection 4 Transmitter RF (Tx) Output Cable Port 5 Receiver RF (Rx) Input Cable Port
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Label Description 6 Front Panel Flex Connector Return to Process SLR 1000 Maintenance and Disassembly/Reassembly on page 83 9.5 Installing a High-Speed Solid-State Antenna Switch The high-speed solid-state antenna switch is required for a single antenna, single frequency operation.
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Figure 30: SLR 1000 Repeater Front View (without top cover) 5 1 4 2 3 Table 23: SLR 1000 Repeater Front View (without top Cover) Callout Legend 90 Label Description 1 Transmitter RF (Tx) Output Board Connection 2 Receiver RF (Rx) Input Board Connection 3 Transmitter RF (Tx) Output Cable Port
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Label Description 4 Receiver RF (Rx) Input Cable Port 5 Front Panel Flex Connector 4 Install the antenna switch into the repeater, as follows: a Place the antenna switch into the chassis and align the screw openings, as shown in Figure 31: SLR 1000 Repeater Front View (without top cover) with an Antenna Switch on page 92. b Secure the antenna switch to the chassis with the two M3 screws using a T10 bit. Torque to 13 in.-lbs.
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Figure 31: SLR 1000 Repeater Front View (without top cover) with an Antenna Switch 1 10 9 2 3 4 5 6 7 8 Table 24: SLR 1000 Repeater Front View (without top Cover) with an Antenna Switch Callout Legend 92 Label Description 1 Transmitter RF (Tx) Output Board Connector 2 J1000 Connector 3 P1000 Connector 4 J1002 Connector 5 J1001 Connector
MN003557A01-AF Chapter 9: SLR 1000 Maintenance and Disassembly/Reassembly Label Description 6 Receiver RF (Rx) Input Board Connector 7 Transmitter RF (Tx) Output Cable Port 8 Header Connector 9 Receiver RF (Rx) Input Cable Port 10 Front Panel Flex Connector 6 Enable with switch within Radio Management by performing the following steps: a Click the green Actions icon. b From the drop-down menu, select Manage → Configurations c Right-click on the repeater and select Edit.
MN003557A01-AF Chapter 10: SLR 1000 Installation Chapter 10 SLR 1000 Installation Related Links Pre-Installation Considerations on page 94 SLR 1000 Repeater Package Contents on page 101 Mounting the SLR 1000 Repeater to a Wall or Ceiling on page 101 Mounting the SLR 1000 Repeater to a Pole on page 104 Electrical Connections on page 109 General Bonding and Grounding Requirements on page 115 General Cabling Requirements on page 116 Post Installation Checklist on page 116 10.
MN003557A01-AF Chapter 10: SLR 1000 Installation • Plan the installation, paying particular attention to environmental conditions at the site, ventilation requirements, and grounding and lightning protection. • Unpack and inspect the equipment. • Mechanically install the equipment at the site.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.1.3 Equipment Mounting Methods The SLR 1000 Repeater may be mounted on a wall, ceiling, or pole. Return to Process Pre-Installation Considerations on page 94 10.1.4 Equipment Ventilation The SLR 1000 Repeater is a natural-convection or passively cooled device with no fans. Care must be taken in mounting the unit to ensure that fresh air can flow into the fin entrances and heated air can adequately escape.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.1.5 AC and DC Input Power Requirements This section describes the power requirements for the AC and DC inputs, as well as ground, battery, RF antenna, and system cable connections. Return to Process Pre-Installation Considerations on page 94 Related Links DC Input Power Requirements on page 97 AC Input Power Requirements on page 97 Ground Connection on page 98 RF Antenna Connections on page 98 System Cable Connections on page 98 10.1.5.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.1.5.3 Ground Connection The SLR 1000 Repeater is equipped with a ground screw on the bottom panel of the repeater. Return to Process AC and DC Input Power Requirements on page 97 10.1.5.4 RF Antenna Connections The transmit and receive antenna RF connections are made using two separate connectors in the standard unit. Duplexer and antenna switch accessories are also available to allow duplexed, half duplexed, or simplex single antenna operation.
MN003557A01-AF Chapter 10: SLR 1000 Installation Related Links Electrical Ground on page 99 RF Ground on page 99 Lightning Ground on page 99 Equipment Grounding on page 99 10.1.6.1 Electrical Ground Ground wires carrying electrical current from circuitry or equipment at the site is included in the category of electrical ground. Examples include the AC or DC electrical power used to source equipment at the site, and wires or cables connected to alarms or sensors at the site.
MN003557A01-AF Chapter 10: SLR 1000 Installation Return to Process Site Grounding and Lightning Protection on page 98 10.1.7 Recommended Tools and Equipment In addition to the typical compliment of hand tools, the following tools and equipment are recommended for proper installation of the repeater equipment. • Tarpaulin or plastic drop cloth or cover surrounding equipment while drilling concrete anchor holes. • Vacuum cleaner for removing concrete dust caused by drilling.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.2 SLR 1000 Repeater Package Contents Inspect the various parts and fittings within the SLR 1000 Repeater packing box. Verify that the following contents are included.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 32: Bracket Mounting Holes 2 If using a power supply, mount using the four M4 T20 bit screws. Torque to 20 in.-lbs. For an indoor power supply, attach the indoor PS bracket (part no. BR000276A01) to the wall mount bracket before installing. For detailed instructions on assembling the AC and DC cables on an outdoor power supply, see Assembling an Outdoor Power Supply on page 112.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 33: Location of Repeater M6 Screw Mounts 4 Place the repeater chassis into the bracket by sliding the M6 screws into the receiving slots on the bracket. Torque to 60 in.-lb. See Figure 34: Bracket Receiving Slots on page 103.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.4 Mounting the SLR 1000 Repeater to a Pole Perform this procedure to mount the SLR 1000 Repeater to a pole. Prerequisites: Obtain the following: • PMLN7213_ Pole Mount Kit. Consists of: - One pole mount bracket - One ½ in. U-bolt - Two ½ in. bolts - Four ½ in. nuts - Two ½ in.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 35: U-Bolt and Pole Mount Bracket Assembly d Tighten the inner nuts against the pole mount bracket and torque to 300 in.-lb. 2 If using the band clamps for installation, perform the following actions: a Slide the band clamps through the slots on the pole mount bracket and attach the bracket to the pole.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 36: Band Clamps and Pole Mount Bracket b Attach the wall mount bracket to the pole mount bracket, with the receiving slots facing upwards, using two ½ in. bolts and two ½ in. nuts. Torque to 300 in.-lb. See Figure 37: Wall Mount Bracket Attached to Pole Mount Bracket on page 106 Figure 37: Wall Mount Bracket Attached to Pole Mount Bracket 3 If using a power supply, mount using the four M4 T20 bit screws. Torque to 20 in.-lbs.
MN003557A01-AF Chapter 10: SLR 1000 Installation For an indoor power supply, attach the indoor PS bracket (part no. BR000276A01) to the wall mount bracket before installing. For detailed instructions on assembling the AC and DC cables on an outdoor power supply, see Assembling an Outdoor Power Supply on page 112. Figure 38: Power Supplies 4 Insert the four M6 screws, supplied in the repeater package, into the repeater chassis side fins and partially tighten.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 39: Location of Repeater M6 Screw Mounts 5 Place the repeater chassis into the bracket by sliding the M6 screws into the receiving slots on the bracket. Torque to 60 in.-lb. See Figure 40: Bracket Receiving Slots on page 108.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.5 Electrical Connections After the repeater equipment has been mechanically installed, electrical connections must be made. The electrical connections involve making the following connections to: • power supply • antenna coax cables • system cables • grounding Figure 41: SLR 1000 Repeater Bottom Panel Connector Names and Locations on page 110 shows the position of the repeaters external connectors on the bottom panel of the repeater.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 41: SLR 1000 Repeater Bottom Panel Connector Names and Locations 8 1 7 6 2 5 4 3 Table 26: SLR 1000 Repeater Connector Types and Primary Functions Location Connector Type Function(s) 1 N-Type – Female Receiver RF (Rx) 2 M6 TORX Screw Bonding Ground Connection 110
MN003557A01-AF Chapter 10: SLR 1000 Installation Location Connector Type Function(s) 3 2.1 X 5.
MN003557A01-AF Chapter 10: SLR 1000 Installation 3 Thread on the nut. Torque to 55 in.-lb to compress the gland and seal to the cable jacket. Ensure that the barrel connector is fully seated before final tightening of the gland nut. Return to Process Electrical Connections on page 109 10.5.2 Connecting the Indoor Adapter AC Input Power AC/DC power supplies are available and operate from 100–240 VAC at 47–63 Hz AC input power.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 42: Attach AC Wires to Joiner A 6 Attached the DC wires to Joiner B (part no. CN001149A01). Torque to 1.5 in.-lb. See Figure 43: Attach DC Wires to Joiner B on page 113 Ensure the polarity is correct. Figure 43: Attach DC Wires to Joiner B 7 Tighten all joiner nuts with a torque of 5.5 in.-lb.
MN003557A01-AF Chapter 10: SLR 1000 Installation Figure 44: Assembled SLR 1000 Repeater Power Supply Return to Process Electrical Connections on page 109 10.5.4 Ground Connection The SLR 1000 Repeater is equipped with a ground screw on the bottom panel. Figure 41: SLR 1000 Repeater Bottom Panel Connector Names and Locations on page 110 shows the location of the grounding screw. Connect the ground screw to the site ground point. The size of the wire used for this connection must be 6 AWG minimum.
MN003557A01-AF Chapter 10: SLR 1000 Installation Return to Process Electrical Connections on page 109 10.5.6 System Cable Connections The system connections are made through the Aux and/or Ethernet connectors on the bottom panel of the SLR 1000 Repeater. The positions of the Aux and Ethernet connectors are shown in Figure 41: SLR 1000 Repeater Bottom Panel Connector Names and Locations on page 110. See Auxiliary (Aux)/Accessory on page 60 for a description of the signaling that the Aux connector supports.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.7 General Cabling Requirements Diagrams for cabling are typically included in the system–specific configuration documentation provided by Motorola Solutions. Also see the Motorola Solutions R56 manual Standards and Guidelines for Communication Sites (which can be obtained by ordering CDROM 9880384V83) for cabling standards. Return to Process SLR 1000 Installation on page 94 10.
MN003557A01-AF Chapter 10: SLR 1000 Installation 10.8.2.1 Front Panel LEDs After turning on the repeater power (or after a repeater reset), the three LEDs on the repeater front panel: • light for approximately one second to indicate that they are functional, then • turn off for one second, then • indicate the operational status of the repeater. Return to Process Verify Proper Operation on page 116 10.8.
MN003557A01-AF Appendix A: Accessories Appendix A Accessories Related Links Introduction on page 118 A.1 Introduction Motorola Solutions provides the following approved accessories to improve the productivity of the SLR 1000 Repeater. For a list of Motorola Solutions-approved accessories, visit the following web site: http://www.motorolasolutions.com.
MN003557A01-AF Appendix A: Accessories A.1.2 Power Supplies Part No. Description PMLN7773_ Indoor Power Adapter (includes AC/DC adapter and mounting bracket) PMLN7771_ Outdoor Power Adapter Kit Return to Process Introduction on page 118 A.1.3 Documentation Part No. Description 6880309T12 MOTOTRBO System Planner 9880384V83 CDROM for R56 manual RVN5115_ MOTOTRBO CPS-RM and Tools DVD Return to Process Introduction on page 118 A.1.4 Duplexers Part No.
MN003557A01-AF Appendix A: Accessories A.1.5 Antenna Switches Part No. Description PMLN7263_ Extended Range Direct Mode Antenna Switch Return to Process Introduction on page 118 A.1.6 Mounting Part No. Description PMLN7213_ Pole Mount Kit Return to Process Introduction on page 118 A.1.7 Surge Arrestors Part No.
MN003557A01-AF Appendix A: Accessories Return to Process Introduction on page 118 121
MN003557A01-AF Appendix B: Replacement Parts Ordering Appendix B Replacement Parts Ordering Related Links Basic Ordering Information on page 122 Motorola Solutions Online on page 122 Mail Orders on page 123 Telephone Orders on page 123 Fax Orders on page 123 Parts Identification on page 123 Product Customer Service on page 124 B.1 Basic Ordering Information Some replacement parts, spare parts, and/or product information can be ordered directly.
MN003557A01-AF Appendix B: Replacement Parts Ordering B.3 Mail Orders Mail orders are only accepted by the US Federal Government Markets Division (USFGMD). Motorola 7031 Columbia Gateway Drive 3rd Floor – Order Processing Columbia, MD 21046 U.S.A. Return to Process Replacement Parts Ordering on page 122 B.4 Telephone Orders Radio Products and Solutions Organization (see note) (United States and Canada) 7:00 AM to 7:00 PM (Central Standard Time) Monday through Friday (Chicago, U.S.A.
MN003557A01-AF Appendix B: Replacement Parts Ordering 1-800-422-4210 NOTICE: The Radio Products and Solutions Organization (RPSO) was formerly known as the Radio Products Services Division (RPSD) and/or the Accessories and Aftermarket Division (AAD). Return to Process Replacement Parts Ordering on page 122 B.
MN003557A01-AF Motorola Solutions Service Centers Appendix C Motorola Solutions Service Centers Related Links Servicing Information on page 125 Motorola Solutions Service Center on page 125 Motorola Solutions Federal Technical Center on page 125 Motorola Solutions Canadian Technical Logistics Center on page 125 C.
MN003557A01-AF Appendix C: Motorola Solutions Service Centers L3R 9T1 Toll Free: 800-543-3222 Return to Process Motorola Solutions Service Centers on page 125 126
MN003557A01-AF SLR 1000 Series Third-Party Controllers Appendix D SLR 1000 Series Third-Party Controllers Related Links Third-Party Controllers Overview on page 127 Tone Remote Adapter on page 128 D.1 Third-Party Controllers Overview The SLR 1000 Repeater interfaces with several third-party controllers through the 4-wire and GPIO/GPI interface afforded by the back panel AUX connector.
MN003557A01-AF Appendix D: SLR 1000 Series Third-Party Controllers Return to Process SLR 1000 Series Third-Party Controllers on page 127 D.2 Tone Remote Adapter When a dispatch console or deskset sends out signals to a remote repeater, it does so over a Wireline. Two types of signals are sent: • Audio signal • Command signals (function tones) that are used to perform the remote control functions.
MN003557A01-AF Appendix D: SLR 1000 Series Third-Party Controllers D.2.1 Tone Remote Adapter Compatibility Model L3276 Tone Remote Adapter is compatible for all versions of SLR 1000 Repeater software and hardware. Return to Process Tone Remote Adapter on page 128 D.2.
MN003557A01-AF Appendix D: SLR 1000 Series Third-Party Controllers Return to Process Tone Remote Adapter on page 128 D.2.3 Radio Management Configuration (For a 2-Channel Remote Control) The SLR 1000 Repeater is configured through the Radio Management (RM) application as shown in Figure 48: Radio Management Configuration for L3276 Tone Remote Adapter (for a 2-Channel Remote Control) on page 131.
MN003557A01-AF Appendix D: SLR 1000 Series Third-Party Controllers Figure 48: Radio Management Configuration for L3276 Tone Remote Adapter (for a 2-Channel Remote Control) NOTICE: This configuration is considered typical. The L3276 Remote Tone Adapter provides alternate configurations that are supported by the repeater as well. See the L3276 Remote Tone Adapter manual for additional details. Return to Process Tone Remote Adapter on page 128 D.2.
MN003557A01-AF Appendix D: SLR 1000 Series Third-Party Controllers D.2.4.2 Radio Tx The transmitter yields 60% RSD with 80mV rms into the Tx Audio port. The “Radio Tx” signal delivered by the Remote Tone Adapter is at a high enough drive level to leave jumper S9 in the factory default position (position A). Return to Process Tone Remote Adapter Settings on page 131 D.2.4.
MN003557A01-AF MOTOTRBO Repeater EME Assessment Appendix E MOTOTRBO Repeater EME Assessment NOTICE: The examples in this Appendix apply to a UHF band system configuration. For different frequency bands, applicable band-specific parameters should be employed to carry out the computations yielding band-specific compliance boundaries.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment Table 28: Outdoor EME Compliance Distances Based on the UHF Evaluation Example (applicable antenna: DB408-B) Based on the Peak 1-g SAR FCC Limit Based on the Peak 10-g SAR ICNIRP Limit Based on the WholeBody SAR Limit General public exposure 20 cm 20 cm 20 cm Occupational-type exposure 20 cm 20 cm 20 cm Exposure Condition The compliance distances in the preceding tables were derived based on the applicable IEC 62232:2017 standard [10]
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment Length m 3 dB Elevation Beamwidth, deg 3 dB Azimuth Beamwidth, deg -0.6 0.49* 100 Omni monopole 3.4 0.40* 60 Omni 440-495 monopole 3.2 0.40* 60 Omni HKAE4005 490-530 monopole 3.4 0.40* 60 Omni DB408-B 450-470 linear array 8.7 2.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment a,ch SARwb = C( f) Heff Pavg à a,ch B a,ch ϕ3dB · L · d 1 4·π·d ϕ3dB · D · L 2 – 1/ 2 (B.28) SAR10g = 25·SAR awb B Heff 1 Rwb/10g (B.29) SAR1g = 20·SAR awb B Heff 1 Rwb/1g (B.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment Heff shall be ecaluated using Heff = L Hbeam < L AND Hbeam < B Hbeam L ≤ Hbeam < B B B ≤ Hbeam B B≤ L where Hbeam = 2· d ·tan(θ3dB / 2) Table B.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment E.3.2 Implementation and Validation of SAR Formulas Formulas B.28, B.29, and B.30 from the IEC 62232:2017 standard were implemented in Mathcad 15.0 software as shown in the following formula with highlighted items being the input antenna parameters. Pavg := 10 φ_3dB := 360 f := 530 d := 0.46 π 180 θ_3dB := 60 π 3.4 Aa := 0.089 10 Ach := 0.06 180 D := 10 L := 0.4 Ba := 1.54 Bch := 0.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment The validation of this implementation was performed according to IEC 62232:2017 standard using the test input parameters from the following table of the standard: • RF Power: 1 W • Antenna Length: 1.3 m • Gain: 18 dBi • 3 dB elevation beamwidth: 6.5 deg • 3 dB azimuth beamwidth: 65 deg • Frequency: 2140 MHz The SAR results computed using this implementation of the IEC 62232:2017 standard formulas B.28, B.29, and B.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment It should be noted that this formula is generally accurate in the far field region, however, as explained in section "Equations for Predicting RF Fields" in [2], it tends to over-predict power density in the near field and therefore can be used for making a conservative prediction. Return to Process Exposure Prediction Model on page 135 E.4 Exposure Limits Applicable guidelines and regulations are referenced for the EME exposure assessment.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment corresponding peak 1-g average and whole-body average SAR values derived from the IEC 62232:2017 formulas and applicable to evaluation of EME compliance with U.S. FCC regulations. Table 32: Compliance Distance in General Public Exposure (UHF) Antenna Kit or Model Number Evaluation Frequency (MHz) Compliance Distance (m) Peak 1-g Average SAR (W/kg) Whole-Body Average SAR (W/kg) HKAE4003 460 0.45 1.57 0.016 HKAE4004 495 0.45 1.55 0.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment evaluated against the ICNIRP reference levels and FCC MPE limits alongside the corresponding peak equivalent plane wave power density values. Table 35: Compliance Distance in General Public Exposure (VHF) Antenna Kit or Model Number Evaluation Frequency (MHz) Compliance Distance (m) Equivalent plane wave power density (W/m2) HKAD4003 136-154 0.52 1.94 HKAD4004 146-164 0.55 1.95 HKAD4005 160-174 0.59 1.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment Return to Process MOTOTRBO Repeater EME Assessment on page 133 E.7 Product Put In Service Some regulations require that additional exposure assessments be performed when putting the product in service, to account for antenna site-specific circumstances such as the environment (for example, electromagnetic scatterers) and other antennas.
MN003557A01-AF Appendix E: MOTOTRBO Repeater EME Assessment 9 EN 50492:2008. Basic standard for the in-situ measurement of electromagnetic field strength related to human exposure in the vicinity of base stations. CENELEC (European Committee for Electrotechnical Standardization). 10 IEC 62232:2017. Determination of RF field strength and SAR in the vicinity of radio communication base stations for the purpose of evaluating human exposure. IEC (International Electrotechnical Commission).
MN003557A01-AF Glossary of Terms and Acronyms Glossary of Terms and Acronyms This glossary contains an alphabetical listing of terms and their definitions that are applicable to repeater products. All terms do not necessarily apply to all radios, and some terms are merely generic in nature.
MN003557A01-AF Glossary of Terms and Acronyms Radio Management on page 150 Receiver on page 150 Repeater on page 150 RF on page 151 RSSI on page 151 Rx on page 151 SCM on page 151 SELV on page 151 Signal on page 151 SINAD on page 151 SLR on page 151 Spectrum on page 151 SPI on page 151 Squelch on page 152 TOT on page 152 TPL on page 152 Transceiver on page 152 Transmitter on page 152 Trunking on page 152 Tx on page 152 UHF on page 152 USB on page 152 VCO on page 153 VCTCXO on page 153 VHF on page 153 VIP o
MN003557A01-AF Glossary of Terms and Acronyms Band Frequencies allowed for a specific purpose. See also: Glossary of Terms and Acronyms CTCSS Continuous Tone-Controlled Squelch Systems (PL). See also: Glossary of Terms and Acronyms Clear Channel modulation type in which voice information is transmitted over the channel using analog modulation. See also: Glossary of Terms and Acronyms Conventional Term used for standard non-trunked radio system (usually using TRC/DC console).
MN003557A01-AF Glossary of Terms and Acronyms EIA Electronic Industries Association. See also: Glossary of Terms and Acronyms ESD Electro Static Discharge. See also: Glossary of Terms and Acronyms EU European Union. See also: Glossary of Terms and Acronyms FCC Federal Communications Commission. See also: Glossary of Terms and Acronyms FM Frequency Modulation.
MN003557A01-AF Glossary of Terms and Acronyms Glossary of Terms and Acronyms IC Integrated Circuit: An assembly of interconnected components on a small semiconductor chip, usually made of silicon. One chip can contain millions of microscopic components and perform many functions. See also: Glossary of Terms and Acronyms IF intermediate frequency. See also: Glossary of Terms and Acronyms I/O Input or Output. See also: Glossary of Terms and Acronyms kHz kilohertz: One thousand cycles per second.
MN003557A01-AF Glossary of Terms and Acronyms MOSI Master Out, Slave In. See also: Glossary of Terms and Acronyms PA Power Amplifier that transmits final RF signal to transmit antenna. See also: Glossary of Terms and Acronyms PC Board Printed Circuit Board. Also referred to as a PCB. See also: Glossary of Terms and Acronyms PFC Power Factor Correction. See also: Glossary of Terms and Acronyms PL Private-Line Tone Squelch: A continuous sub-audible tone that is transmitted along with the carrier.
MN003557A01-AF Glossary of Terms and Acronyms See also: Glossary of Terms and Acronyms RF Radio Frequency: The portion of the electromagnetic spectrum between audio sound and infrared light (approximately 10 kHz to 10 GHz). See also: Glossary of Terms and Acronyms RSSI Received Signal Strength Indicator; a dc voltage proportional to the received RF signal strength. See also: Glossary of Terms and Acronyms Rx Receive.
MN003557A01-AF Glossary of Terms and Acronyms SPI Serial Peripheral Interface (clock and data lines); simple synchronous serial interface for data transfer between processors and peripheral ICs. See also: Glossary of Terms and Acronyms Squelch Muting of audio circuits when received signal levels fall below a pre-determined value. With carrier squelch, all channel activity that exceeds the radio’s preset squelch level can be heard.
MN003557A01-AF Glossary of Terms and Acronyms Universal Serial Bus: An external bus standard that supports data transfer rates of 12 Mbps. See also: Glossary of Terms and Acronyms VCO Voltage-Controlled Oscillator; an oscillator whereby the frequency of oscillation can be varied by changing a control voltage. See also: Glossary of Terms and Acronyms VCTCXO Voltage Controlled Temperature Compensated Crystal Oscillator. See also: Glossary of Terms and Acronyms VHF Very High Frequency.
