MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Figure 58: Installing M3 Screws 2 Using a T30 Torx driver, install a M6 x1x13 mm screw with captivated external tooth (PN: 00310909C91) to 20 in-lb (2.3 N-m). Figure 59: Installing M6 Screw 11.6.1.2 Input Cable Installation Procedure: 1 Insert the RX (PN: 30012083001) and Reference (PN: CB000024A01) cables into corresponding holes in back panel.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Figure 60: Installing Rx and Reference Cables 2 Assemble the corresponding lock washers onto the connectors. Using a 16 mm hex nut driver, tighten the 16 mm hex nuts to 15 in-lb (1.7 N-m) on both connectors. Figure 61: Assembling Lock Washers onto Connectors 3 Insert two rubber plugs (PN 3287533V01) into the corresponding holes shown in Figure 62: Installing WLAN and GNSS Rubber Plugs on page 107.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly 11.6.1.3 Power Amplifier Module Installation Procedure: 1 Insert the TX connector into the back panel. 2 Slide the Power Amplifier Module into the repeater chassis until it rests against the back panel. Figure 63: Installing Power Amplifier Module into Repeater 3 Lightly torque the four M4 x 0.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly 2 Tighten the four M4 x 0.7 x 10 mm screws (PN: 0310909A61) to 15 in-lb (1.7 N-m) using a T20 Torx driver to secure the Modem to the repeater chassis. Figure 65: Securing Modem to Repeater Frame 3 Secure the RX and REF cable connectors to the Modem.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Figure 67: Modem FRU Product Label SN: SLR 5700 Serial No: XXXXXXXXX This device complies with Part 15 of the FCC rules. Operation is subject to the condition that this device does not cause harmful interference Model No: XXXXXXXXXXXXXX S/Tanapa: XXXXXXXXXXXXXX FCC ID: XXXXXXXXXXX IC: XXXXX-XXXXXXXX MAC 1: IC Model No: XXX XXXX-XXXX MAC 2: 100-240V ~ Max 4A 50/60 Hz 11.0-14.4V 17A Max AABBCCDDEEFF I.T.E.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Figure 69: Installing M4 Screws 4 Snap the fan jumper cables into the chassis for the Power Supply, Modem, and Power Amplifier fans. Figure 70: Snapping Fan Cable 11.6.1.6 Fan Installation Procedure: 1 Orient the fan module so that the cables are out at the lower left. See Figure 71: Installing Fan on page 112. 2 Rest the bottom tab of the mounting bracket onto the main frame opening with proper orientation.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Figure 71: Installing Fan NOTICE: For each of the fans, look inside the fan shroud to ensure both the top and bottom fan mounting bracket tabs are fully engaged with the protrusions (teeth) of the base frame. 5 Connect the three fan cables to their corresponding jumper cables. 11.6.1.7 Front Panel Installation Procedure: 1 Place the Front Panel (Kit Number: PMLN6490A) onto the corresponding bosses on the repeater frame.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Procedure: 1 Install the two power screws from the Power Supply Module into the PA board to 6.5 in-lb (0.7 N-m) using a T10 Torx driver. 2 Install the two power screws from the Power Supply Module into the Modem board to 6.5 in-lb (0.7 N-m) using a T10 Torx driver. CAUTION: Ensure that correct polarity of the modem power supply module is observed otherwise damage may occur.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly 11.6.1.9 Front Housing Installation Procedure: 1 Line up the tabs on the Front Housing (PN: HN000198A01) to the pins on the repeater chassis and engage them. With all three tabs engaged, rotate the Front Housing into place. Figure 75: Securing Front Housing 2 Install the three M3 x 0.5 x 6 mm screws (PN: 0310907D02) to 10 in-lb (1.1 N-m) using a T10 Torx driver.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Figure 76: Installing M3 Screws 11.6.1.10 Protective Cover Installation Procedure: Install the six M3 x 0.5 x 6 mm screws each (PN: 0310907D02) to 12 in-lb (1.3 N-m) using a T10 Torx driver to secure the bottom and top cover (PN: 07009402001) to the repeater chassis. 11.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly Item No. Description Part Number Quantity 2 Back Plate 64009331001 1 3 M3 Screw 0310907A18 8 4 M6 Screw, Ground 0310909C91 1 5 RF Cable, Rx 30012083001 1 6 RF Cable, Reference CB000024A01 1 7 Rubber Plugs 3287533V01 2 8 PA, FRU See Service Parts on page 134.
MN001436A01-AD Chapter 11: SLR 5000 Series Maintenance and Disassembly/Reassembly 11.9 Torque Charts Table 38: Torque Specifications for Nuts and Screws on page 117 lists the various screws by description and torque values in different units of measure. Torque all screws to the recommended value when assembling the repeater. Table 38: Torque Specifications for Nuts and Screws Driver Type Torque N-m (± 0.1) in-lb (± 1) kg-cm (± 1.2) Torx T10 (Front Housing/Panel) 1.1 10 11.
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MN001436A01-AD SLR 5000 Series Installation Chapter 12 SLR 5000 Series Installation 12.1 Pre-Installation Considerations Proper installation ensures the best possible performance and reliability of the repeater. Pre-installation planning is required. This includes considering the mounting location of the equipment in relation to input power, antennas, and system interfaces.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation • Operating Temperature Range -30 °C (-22 °F) to +60 °C (+140 °F) This is the temperature measured in close proximity to the repeater. For example, if the repeater is mounted in a cabinet, the temperature within the cabinet is measured. • Humidity Repeater to be kept at or below RH of 95%, non-condensing at 50 °C (122 °F).
MN001436A01-AD Chapter 12: SLR 5000 Series Installation 12.1.3.2 Mounting in a Rack Multiple repeaters can be mounted in an open rack without degradation of specification. 12.1.4 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. 12.1.4.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation CAUTION: The repeater should only be connected to a battery supply that is in accordance with the applicable electrical codes for the end use country; for example, the National Electrical Code ANSI/NFPA No. 70 in the U.S. 12.1.4.5 RF Antenna Connections The transmit and receive antenna RF connections are made using two separate connectors. Coax cables from the receive and transmit antennas must be connected to their respective connectors.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation Table 40: Cabinet Slide Model Description THN6788 Slides Motorola Solutions Cabinet CAUTION: Ensure that the cabinet is securely anchored to the floor, thereby avoiding possible equipment tipping and personal injury. Figure 78: Floor Mount Cabinet Big holes (2) Station Support Brackets (2) VIEWED FROM TOP Small holes (4) TOP VIEW FRONT VIEW SIDE VIEW Mounting Rails (4) 12.1.5.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation Figure 79: Modular Rack Rack Center Hole TOP/BOTTOM VIEW SIDE VIEW 12.1.5.3 Desk Mount The repeater can be set up for mounting onto a desk. See Desk Mount on page 128 for installation details. 12.1.6 Site Grounding and Lightning Protection CAUTION: Proper site grounding and lightning protection are vitally important considerations. Failure to provide proper lightning protection may result in permanent damage to the radio equipment.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation 12.1.6.1 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 located at the site, and wires or cables connected to alarms or sensors located at the site. 12.1.6.2 RF Ground This type of ground is related to the bypassing of unwanted radio frequency energy to earth ground.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation 12.1.8 Equipment Unpacking and Inspection This section describes ways to unpack and inspect the repeater equipment. 12.1.8.1 Unpack Equipment Remove the repeater from the cardboard box. Remove the foam inserts and remove the repeater from the antistatic bag. Keep all packing components for future shipping of the repeater. 12.1.8.2 Initial Inspection • After removing the repeater from the packaging, set on the surface for inspection.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation 12.2 Mechanical Installation This section describes the equipment unpacking and inspection, as well as the mounting procedure for the repeater. 12.2.1 Mounting Procedures The repeater can be mounted in the selected cabinet or rack, and may be installed by using the following information. 12.2.1.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation 6 Tightly secure the rack to the floor anchors making sure that it remains vertically plumb and horizontally level. 7 Assemble the two mounting brackets to each side of the repeater either in the front or middle of the repeater depending on whether rack is made for front mount or mid-mount using three supplied screws for each bracket. 8 Hold the repeater in the desired rack location.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation • grounding. Figure Figure 81: Back Panel Connector Names and Locations on page 129 shows the position of the repeaters external connectors located on the back panel of the repeater. Table 42: Connector Type and Primary Function on page 129 identifies the connector types as well as a given connector's primary function.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation Table 43: Callout Legend Label Description 1 USB Service Port 12.3.1 Power Supply Connections 12.3.1.1 AC Input Power Connection CAUTION: Do not apply AC power to the repeater at this time. Make sure that the circuit breaker associated with the AC outlet is turned OFF. The AC socket-outlet must be installed near the equipment and must be easily accessible. Each repeater is shipped with an 2.5 m (8 ft) 3-conductor line cord.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation CAUTION: The repeater should only be connected to a battery supply that is in accordance with the applicable electrical codes for the end use country; for example, the National Electrical Code ANSI/ NFPA No. 70 in the U.S. 12.3.1.5 RF Antenna Connections The transmit and receive antenna RF connections are made using two separate connectors. Coax cables from the receive and transmit antennas must be connected to their respective connectors.
MN001436A01-AD Chapter 12: SLR 5000 Series Installation • Go off for one second, then • Indicate the operational status of the repeater. 12.4.4 Repeater Codeplug Data Backup Backup the repeater codeplug data by using the Customer Programming Software (CPS) on a computer. 12.5 Installing Repeater Hardware Options This section describes ways to install the hardware options of the repeater. 12.5.
MN001436A01-AD Appendix A: Accessories Appendix A: Accessories Introduction Motorola Solutions provides the following approved accessories to improve the productivity of the SLR 5000 Series Repeater. For a list of Motorola Solutions-approved accessories, visit the following web site: http://www.motorolasolutions.com. Cables Part No.
MN001436A01-AD Appendix A: Accessories Part No. Description DSCP10725 Tuned UHF Duplexer Tuned 406–500 MHz DSCP10725 Untuned UHF Duplexer Untuned 406–500 MHz HFD8188_ VHF Duplexer, 144–155 MHz HFD8189_ VHF Duplexer, 155–162 MHz HFD8190_ VHF Duplexer, 162–174 MHz HFD8465_ VHF Duplexer, 150–160 MHz HFE8400_ UHF Duplexer, 406–450 MHz HFE8401_ UHF Duplexer, 470–495 MHz Mounting Part No.
MN001436A01-AD Appendix A: Accessories Part No. Description PMPN4026_S SLR 5000 Series Power Supply Service Kit PMLN6490_S SLR 5000 Series Front Panel Board Service Kit PMLN7244_ SLR 5000 Series Fan Assembly Service Kit Service Tools Part No.
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MN001436A01-AD Appendix B: Replacement Parts Ordering Appendix B: Replacement Parts Ordering Replacement Parts Ordering This section describes ways you can place your orders for the replacement parts. Basic Ordering Information Some replacement parts, spare parts, and/or product information can be ordered directly. While parts may be assigned with a Motorola Solutions part number, this does not guarantee that they are available from Motorola Solutions Radio Products and Solutions Organization (RPSO).
MN001436A01-AD Appendix B: Replacement Parts Ordering U.S.
MN001436A01-AD Appendix C: Motorola Solutions Service Centers Appendix C: Motorola Solutions Service Centers Motorola Solutions Service Centers This section lists the Motorola Solutions service centers for testing, troubleshooting, and service.
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MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Appendix D: SLR 5000 Series ThirdParty Controllers Overview The SLR 5000 Series Repeater is capable of interfacing to a number of third party controllers via the four-wire and GPIO/GPI interface afforded by the back panel AUX connector. This section covers the connections and signal levels between the third party controllers and the repeater, as well as the audio path configuration needed via CPS.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Compatibility Zetron Model 38 Repeater Panel is compatible for all versions of SLR 5000 Series Repeater software and hardware. Hardware Connections The connections between the SLR 5000 Series Repeater and the community repeater panel are facilitated with a multi-conductor cable connected between the SLR 5000 back panel AUX 25-Pin connector and that of the community repeater panel.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Configuration for Community Repeater Panel (2 of 2) on page 144.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Figure 87: CPS Configuration for Community Repeater Panel (2 of 2) Community Repeater Panel Settings The input and output levels should be adjusted per the community repeater panel’s instructions. The following sections give a brief overview of the high level characteristics and community repeater panel settings for configuration with the SLR 5000 Series Repeater.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Tx Audio Pre-Emphasis Set the "Encode flat/De-emphasized" switch to the Up position on the community repeater panel. Carrier Operated Relay (COR) Configure the specified back panel switches on the community repeater panel as follows: • Switch 6 "COR source internal/external" (set to the Down position). • Switch 7 "COR polarity positive/negative" (set to the Up position). • Switch 8 "COR pull-up on/off" (set to the Up position).
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Signal connections are noted in Figure 1. The SLR 5000 Series Repeater connector and physical Pin locations are noted in the backplane interface board section of this manual. See Zetron Model 30 manual for its connector and physical Pin locations. The part number for a pre-fabricated cable is noted in the SLR 5000 Series ordering guide.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Figure 90: CPS Configuration for Phone Patch (1 of 2) Figure 91: CPS Configuration for Phone Patch (2 of 2) Phone Patch Level Settings The input and output levels should be adjusted per the phone patch’s instructions. The summary below gives a brief overview of the high level characteristics and phone patch settings for configuration with the SLR 5000 Series Repeater.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers • Set jumper JP7 to position B, to external squelch indication. • Set jumper JP8 to position C, to match the repeater's active low indication of a COR detect. 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.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers • Wild Card (such as Repeater Knockdown) • Ground Signal connections are noted in Figure 85: Signal Connections between SLR 5000 Series Repeater and Community Repeater Panel on page 142. SLR 5000 Series Repeater connector and physical Pin locations are noted in the backplane interface board section of this manual. See Motorola Solutions L3276 25-Pin manual for its connector and physical Pin locations.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers • • • • • • Active Low GPIO Pin number 4 - CSQ Detect or PL/ Talk group Detect - Active Low GPIO Pin number 24 - Monitor - Active Low GPIO Pin number 8, 25 - Channel Select 1 - Active Low GPIO Pin number 10, 12 - Channel Select 2 - Active Low GPIO Pin number 15 - Channel Select 3 - Active Low GPIO Pin number 21 - Channel Select 4 - Active Low Figure 94: CPS Configuration for L3276 Tone Remote Adapter (For a 15
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Tone Remote Adapter Settings The input and output levels should be adjusted per the Tone Remote Adapter’s instructions. The summary below gives a brief overview of the high level characteristics and typical Tone Remote Adapter settings for configuration with the SLR 5000 Series Repeater. Radio Rx The Receiver audio yields 330 mV rms into 50 kΩ with an RF input signal deviating at 60% RSD.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Figure 96: Model Trident’s Raider Figure 97: Model Trident’s NTS Compatibility Trident Model Raider, Marauder and NTS are compatible for all versions of SLR 5000 Series Repeater software and hardware.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers connector and physical Pin locations. The part number for a pre-fabricated cable is provided in the respective Trident manuals.
MN001436A01-AD Appendix D: SLR 5000 Series Third-Party Controllers Figure 99: CPS Configuration for Trident Model Raider, Marauder and NTS Trunking Controller Settings The input and output levels should be adjusted per the trunking controller’s instructions. The summary below gives a brief overview of the high level characteristics and trunking controller settings for configuration with the SLR 5000 Series Repeater.
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT Appendix F: MOTOTRBO Repeater – EME ASSESSMENT NOTICE: The example given in this Appendix applies for a UHF band system. For different frequency bands, applicable band-specific parameters should be employed to carry out the computations yielding band-specific compliance boundaries.
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT Indoor Exposure Prediction Model This section describes how to determine the indoor exposure model prediction of an antenna or at ground level. Exposure in Front of the Antenna The cylindrical-wave model defined in Clause 8.3.4 of the EN50383:2010 standard is applied to determine the compliance boundaries for workers and general public for a typical system configuration of the SLR 5000 Series Repeater.
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT (1) where available power at the antenna port (W); physical antenna length (metres); peak antenna directivity (unit-less), assumed equal to the peak gain ; electrical down-tilt angle of the antenna main beam (radians), and is the distance from the antenna center (metres). Spatial power density averaging may be required by some regulations.
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT where is the free-space wavenumber and L is the effective antenna length yielding the appropriate vertical beamwidth, while H is the antenna height above ground and d is the point of interest (POI) distance from the vertical antenna projection to ground (see the following figure). The multiplicative factor 2.56 is introduced to enforce near-perfect, in-phase ground reflection as recommended in [2].
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT EME Exposure Evaluation This section describes how to evaluate the EME exposure of an antenna or at ground level. Exposure in Front of the Antenna The assessment is based on the following characteristics of the Andrew DB408 antenna: GA = 10 6.6+2.15 10 = 7.5 P = 200 W γ=0 L = 2.7 m The parameter is thus .
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT Figure 102: Compliance Boundary for General Public (GP) and Ocupational (OCC) Exposure 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 (such as, electromagnetic scatterers) and other antennas.
MN001436A01-AD Appendix F: MOTOTRBO Repeater – EME ASSESSMENT (110 MHz–40 GHz). Occupational. CENELEC (European Committee for Electrotechnical Standardization). 6 EN 50385:2002. Product standard to demonstrate the compliance of radio base stations and fixed terminal stations for wireless telecommunication systems with the basic restrictions or the reference levels related to human exposure to radio frequency electromagnetic fields (110 MHz–40 GHz). General public.
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MN001436A01-AD 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. Alert tone Audio signal produced by the station, providing feedback to the user. Analog Refers to a continuously variable signal or a circuit or device designed to handle such signals.
MN001436A01-AD Glossary of Terms and Acronyms DSP Digital Signal Processor, microprocessor specifically designed to perform digital signal processing algorithms. EIA Electronic Industries Association. ESD Electro Static Discharge. EU European Union. FCC Federal Communications Commission. FM Frequency Modulation. Frequency Number of times a complete electromagnetic-wave cycle occurs in a fixed unit of time (usually one second). FRU Field Replaceable Unit. FSK Frequency Shift Keying.
MN001436A01-AD Glossary of Terms and Acronyms LCD Liquid-Crystal Display: An LCD uses two sheets of polarizing material with a liquid-crystal solution between them. An electric current passed through the liquid causes the crystals to align so that light cannot pass through them. LED Light Emitting Diode: An electronic device that lights up when electricity is passed through it. MDC Motorola Data Communications. 1200 or 4800 baud data signalling scheme. MHz Megahertz: One million cycles per second.
MN001436A01-AD 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). RSSI Received Signal Strength Indicator; a dc voltage proportional to the received RF signal strength. Rx Receive. SCM Station Control Module; station controller. SELV Separated Extra Low Voltage. Signal An electrically transmitted electromagnetic wave.
MN001436A01-AD Glossary of Terms and Acronyms Transmitter Electronic equipment that generates and amplifies an RF carrier signal, modulates the signal, and then radiates it into space. Trunking Radio control system which permits efficient frequency utilization and enhanced control features. Tx Transmit. UHF Ultra High Frequency. USB Universal Serial Bus: An external bus standard that supports data transfer rates of 12 Mbps.
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