OSDR GDC-003/54 Outdoor Software-Defined Radio (OSDR) platform Installation & Cabling Manual Edition 3.
The information contained in this document is subject to change without prior notice. INTRACOM S.A. TELECOM SOLUTIONS, 2018. All rights reserved. All copyright, intellectual and industrial rights in this document and in the technical knowledge it contains are owned by INTRACOM S.A. TELECOM SOLUTIONS and/or their respective owners. This document is made available to the end users only for their internal use.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Document Revision History Previous Edition: 2.2 Current Edition: 3.0 Reasons of Change M = Modified, A = Added, R = Removed Details New materials (M) (A) New installation procedures (A) • Sectoral 26/28/32 GHz antenna • Sectoral 10.5 GHz antenna • Parabolic antenna 10.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Equipment Disposal Disposal of old electrical and electronic equipment (applicable through the European Union and other European countries with separate waste collection systems). This symbol, found on this product and any of its parts or on its operating instructions or on its packaging, indicates that electrical and electronic equipment may not be disposed of as unsorted municipal waste.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Declaration of Conformity Hereby, Intracom S.A. Telecom Solutions declares that the products OmniBASTM & WiBASTM are CE marked in compliance with the essential requirements and other relevant provisions of the Radio Equipment Directive 2014/53/EU, Eco Design Directives 2009/125/EC, 2010/30/EU and with the requirements of the RoHS directive 2011/65/EU.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Table of Contents 1. Introduction ......................................................................................................................... 3 About this Document .......................................................................................................... 3 Safety Precautions ............................................................................................................. 5 2.
Table of Contents Indoor AC POE............................................................................................................... 112 Appendix D: Cables Termination ....................................................................................... 114 Ethernet Cable ............................................................................................................... 115 Grounding Cable ..............................................................................................
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 1. Introduction About this Document Scope of Document The scope of this document is to provide detailed instructions on the installation and cabling of OSDR (Outdoor Software-Defined Radio platform) wireless product. This document applies for installation of all available operation modes: PtMP Hub(1), PtMP TS(2) and PtP Node(3).
1. Introduction About this Document, Continued Conventions This document applies to the following conventions: • Arial Bold blue fonts are used for order codes. • Arial Blue underline fonts are used for document references. • Arial Bold black fonts are used for indicating important information or paragraph header. This symbol means DANGER. The purpose of this symbol is to warn you that any wrong action can cause bodily injury or even death. This symbol means CAUTION.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Safety Precautions RF EXPOSURE Locally applicable national and international RF safety requirements must be adhered to when installing the OSDR / antenna system. Please refer to local regulatory authorities for advice on compliance. As guidance, for an OSDR 10.
1. Introduction Safety Precautions, Continued General • Do not install or operate this system in the presence of flammable gases or fumes. Operating any electrical instrument in such an environment is a safety hazard. • Outdoor units and antennas should be installed ONLY by experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Safety Precautions, Continued Proper Grounding Installation & Equipotential Bonding Never power on OSDR equipment unless you have completed the grounding installation. There is risk of equipment failure and / or electrical shock. Ensure that: • The grounding system measures an appropriate path resistance as specified by local regulations.
1. Introduction Safety Precautions, Continued Proper Connection of Power Injector Never connect the Gigabit Ethernet (S-FTP) cables coming from the OUT receptacle of power injector to network switches / routers / laptops. There is risk of network devices failure due to potential power that is carrying inside the cable. Connect the OUT receptacle of power injectors to electrical GbE port of radio unit as described in current manual.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 2. Materials Scope This chapter describes all the available materials for OSDR installation.
2. Materials OSDR Radio unit Oder Code OSDR-OB-U-DSDS-SB Description Full outdoor software defined radio, 10.5/26/28/32 GHz, FDD, GbE. Operation Modes: PtMP Hub, PtMP TS, PtP Node.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Antennas Antenna types # A Photo Description Antenna, sectoral 900, integrated, 26/28/32 GHz. Includes: • Mounting kit. • Greasing paste. • Installation leaflet. B Antenna, sectoral 900, integrated, 10.5 GHz. Includes: • Mounting kit. • Greasing paste. • Installation leaflet. C Antenna, parabolic, 0.3 m, integrated, 10.5/26/28/32 GHz. Includes: • Mounting kit. • Greasing paste. • Installation leaflet.
2. Materials Mounting Kits Mounting kit for panel antenna Oder Code OSDR-ANT-MNT Pole adaptation bracket for panel antenna Description Pole/Wall mounting kit for panel antenna 10.5 GHz (pole diameter 48 mm up to 60 mm). Oder Code Description INST-ADAPT Pole adaptation bracket for panel antenna 10.5 GHz (pole diameter 61 mm up to 120 mm). OSDR-ANT-MNT is required for mounting panel antenna 10.5 GHz. # Items Description Qty Details A Hose clamp. 2 For pole diameter 101 mm up to 120 mm.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Mounting Kits, Continued Hooks for panel antenna Oder Code OSDR-PL-ANT-KIT Description Hooks for panel antenna 10.5 GHz. Pole mounting bracket for outdoor DC PoNE Oder Code INST-PONE-PL Description Mounting bracket for pole installation of PONE-OD-DC power injector (pole diameter 50 to 120 mm / steel hose clamp diameter 64 to 140 mm).
2. Materials Mounting Kits, Continued Pole hose clamps Stainless steel hose clamp for pole installation of ETH-SRG-OD68 lightning surge protector (one ETH-SRG-OD68 requires 2 clamps). The following table shows the available hose clamps: 14 Item Order Code A ST-CL64-140 B ST-CL102-178 C ST-CL172-248 D ST-CL242-318 Description ∅ 64-140 mm, width = 14.2 mm. For ∅ 48-100 mm pole diameter. ∅ 102-178 mm, width = 14.2 mm. For ∅ 75-149 mm pole diameter. ∅ 172-248 mm, width = 14.2 mm.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Cables RSSI cable Grounding kit Order Code / Photo Description CAB-RSSI-BNC RSSI cable, male BNC to 2 x banana plugs, 75 Ω for measuring OSDR receive signal level in volts (voltmeter is required). Order Code / Photo GND-KIT16-OD Description Grounding kit for OSDR and outdoor AC PoNE. Includes: • 2 x meter yellow/green grounding cable, 16 mm2 stranded • 450 V • Heat shrinkable tube, black, d = 9.5 mm x 4.8 mm.
2. Materials Cables, Continued Power supply cables for outdoor power injectors # A Order Code / Photo AC-PWR-CAB Description AC power bulk cable(1), 3 x 0.75 mm2, 0.6 / 1 kV, stranded, UV-rated, industrial type, outdoor use, per meter. Used for powering of outdoor AC PoNE (PONEOD67-AC). B DC-PWR-CAB-2 DC power cable, 2 x 2.5 mm2, PVC, 1 KV, outdoor use, per meter. Used for powering of outdoor DC PoNE (PONEOD-DC).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Cables, Continued Fiber optic cables Prefabricated connectorized fiber optic cables for outdoor use, DX, 2 x LC/PC-LC/PC, available in multi-mode (MM) & single mode (SM) in different lengths.
2. Materials Cable Glands and Holder M20 and M25 glands and holders # Order Code / Photo A M20-GLAND B OSDR-HOLD-2 C M25-GLAND D OSDR-HOLD-5 Details OSDR M20 gland for Ethernet cable. Cable holder for fastening 2 x M20-GNAND (includes 2 x tie wraps: L = 100 mm, D = 18 mm, W = 2.5 mm). OSDR M25 gland for Fiber optic cable. Cable holder for fastening 4 x M20-GNAND and 1 x M25-GLAND (includes 5 x tie wraps: L = 100 mm, D = 18 mm, W = 2.5 mm).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Power Injectors Indoor power injectors # Order Code / Photo Description A POE-AC75-ID Indoor AC POE – 75 W (Wall installation materials are not included). B POE-ID-AC72 Indoor AC POE – 72 W (Wall installation materials are not included). C POE-AC56-IDH Indoor AC POE – 56 W (Wall installation materials are not included).
2. Materials Power Injectors, Continued Outdoor power injectors # Order Code / Photo A PONE-OD-DC Description Outdoor DC PoNE – 60 W • For wall installation the package includes: − 4 x screws and wall plugs. − 1 x M4 grounding terminal (for terminating 6 mm2 grounding cable (GND-CAB6-ID)). • For pole installation the INSTPONE-PL is required. B PONE-OD67-AC Outdoor AC PONE – 62.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 SFP Electrical SFP module Oder Code / Photo SFP-ELGFE-IN Description Electrical SFP for 10/100/1000 Base-T operation. Optical SFP module # Order Code Description A SFP-MM-500M SFP, multi-mode, up to 500 m, 1.25 Gbit/s, 850 nm. B SFP-SM-10KM SFP, single mode, up to 10 Km, 1.25 Gbit/s, 1310 nm. C SFP-SM-40KM SFP, single mode, up to 40 Km, 1.25 Gbit/s, 1310 nm.
2. Materials Ancillaries Others Item Order Code / Photo A CAB-TIE-UV Description Cable tie, 500 x 12.5 mm, black, UV-resistant. One tie is recommended per cable meter. B ST-RJ45 C ETH-SRG-OD68 RJ-45 connector, shielded for S-FTP cable termination (ETH-CAB-SFTP). Outdoor lightning surge protector with IP68 ingress protection for Ethernet lines (one ETHSRG-OD68 protects one Ethernet line). Grounding An M4 grounding screw is pre-installed on the device for connection with 16 mm2 grounding cable.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Others Tool kit Tools Item Order Code / Photo Description A SEC-ANT-XPOL-KIT Tool kit for adjusting the antenna verticality with respect to the ground. Item Order Code / Photo Description A CRIMP-TOOL-S B TOOL-M20 Hand crimping tool for RJ-45 connector (ST-RJ45). Optional tool for M20 gland.
3. Before Starting the Installation 3. Before Starting the Installation Scope This chapter describes all the prerequisites that must be considered prior to installing the OSDR equipment.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 3.1. Radio Unit View Receptacles # Marking A GbE2 B FE Description Use Gigabit Ethernet, Electrical RJ-45 (100/1000 Base-T). To connect Ethernet (S-FTP) cable for traffic / inband management and power via power injector. Fast Ethernet, RJ-45 (100 Base-T). To connect Ethernet (S-FTP) cable for outband management / power via power injector.
3. Before Starting the Installation Radio Unit View, Continued Label # Description 1 Product description. 2 Frequency band. 3 OSDR determination as Low or High in the link pair. 4 Duplex spacing (MHz). 5 Sub-band (01 up to 18). 6 Transmit frequencies. 7 Receive frequencies.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit View, Continued Other points # Marking Description Use A - Anchor point To carry OSDR unit. B - Wave guide To install antenna feeder. C - Clamps To mount antenna. D - Female threads for M5 screws. To install mounting kit for panel antenna. E GND Enclosure grounding terminal. To connect 16 mm2 grounding cable. F RSSI Receive signal level indication.
3. Before Starting the Installation 3.2. Radio Unit Cabling Introduction This topic describes the cabling overview, as follows: Description Gigabit ETH cable for service Traffic, Inband Management and Powering 29 Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering 37 The following instructions refers to cabling overview without using any additional device for lightning surge protection.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Gigabit ETH cable for service Traffic, Inband Management and Powering Cable length restriction The Gigabit Ethernet (S-FTP) cable for service traffic, inband management and external powering applies to the following restriction: The maximum length of Gigabit Ethernet (S-FTP) cable (Cat5E or Cat6), between OSDR receptacle (GbE2) and customer network receptacle cannot exceed 100 meters.
3. Before Starting the Installation Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using AC POE The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor AC POE (75W): Marking GbE#2 and OUT IN AC INPUT GND Cable Type Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power. Gigabit Ethernet (S-FTP) cable for traffic and inband management. AC power supply cord.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using AC POE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor AC POE (72W): Marking GbE#2 and POE LAN AC INPUT GND Cable Type Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power.
3. Before Starting the Installation Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using AC POE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor AC POE (56W): Marking GbE#2 and OUT IN AC INPUT GND Cable Type Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power. Gigabit Ethernet (S-FTP) cable for traffic and inband management. AC power supply cord.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using DC PoNE The following schematic shows a cabling overview of OSDR radio unit when powering is through an outdoor DC PoNE: Marking GbE#2 and Gbe#OUT Cable Type Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power.
3. Before Starting the Installation Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using DC PoNE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an outdoor AC PoNE: Marking Cable Type GbE#2 and GbE#OUT Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power. GbE#IN, Gigabit Ethernet (S-FTP) cable for traffic and inband management. AC-IN AC power supply cable.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using DC PoNE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor OmniBASTM 4W/8W: Marking Cable Type GbE#2 and GbE/DC OUT Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power.
3. Before Starting the Installation Gigabit ETH cable for service Traffic, Inband Management and Powering, Continued Cabling overview using DC PoNE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor OmniBASTM 4P: Marking GbE#1 (OmniBASTM-4P) and GbE#2 GbE#5, 6 36 Cable Type Gigabit Ethernet (S-FTP) cable for traffic, inband management and superimposed DC power.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering Fiber optic cable length restrictions The following tables shows the maximum length of optical fiber cables in combination with the SFP type: Optical Fiber Cable Lengths combined with Gigabit Ethernet SFP: Optical Fiber Cable Type Single mode OM1 (62.
3.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering, Continued Cabling overview using AC POE The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor AC POE (75W): Marking FE and OUT GbE#1 AC INPUT GND Cable Type Gigabit Ethernet (S-FTP) cable for superimposed DC power.
3. Before Starting the Installation Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering, Continued Cabling overview using AC POE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor AC POE (72W): Marking FE and POE GbE#1 AC INPUT GND Cable Type Gigabit Ethernet (S-FTP) cable for superimposed DC power. Fiber Optic cable with Optical SFP module for traffic and inband management.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering, Continued Cabling overview using AC POE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor AC POE (56W): Marking FE and OUT GbE#1 AC INPUT GND Cable Type Gigabit Ethernet (S-FTP) cable for superimposed DC power.
3. Before Starting the Installation Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering, Continued Cabling overview using DC PoNE The following schematic shows a cabling overview of OSDR radio unit when powering is through an outdoor DC PoNE: Marking GbE#2, FE, NMS#OUT and Gbe OUT Cable Type Gigabit Ethernet (S-FTP) cable for superimposed DC power. GbE#1 Fiber Optic cable with Optical SFP module for traffic and inband management.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.
3. Before Starting the Installation Fiber Optic cable for service Traffic and Inband Management / Gigabit Ethernet (S-FTP) cable for service Powering, Continued Cabling overview using DC PoNE, continued The following schematic shows a cabling overview of OSDR radio unit when powering is through an indoor OmniBASTM 4P: Marking (OmniBASTM-4P) GbE#1 - GbE#2 GbE#2 - FE (OSDR) GbE#1 (OSDR) GND -48VDC 44 Cable Type & Gigabit Ethernet (S-FTP) cable for superimposed DC power.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 3.3. Installation Tools Prerequisites Equipment installation It is installer responsibility to provide the tools for equipment installation. Item 1 Tool / Photo Description Adjustable torque U-wrench tool (up to 29 mm opening and supporting max tightening torque 40 Nm). Used for tightening screws and nuts. 2 Adjustable torque wrench tool with bits (supporting max tightening torque 20 Nm).
3. Before Starting the Installation Installation Tools, Continued Cables Termination Type of cables to be terminated: • Ethernet (S-FTP) cable. • AC & DC power supply cables for outdoor power injectors. • 6mm2 and 16 mm2 outdoor yellow/green grounding cables. Item Specific works 46 Tool / Photo Description 1 Blade. 2 Cable cutter. 3 Pliers (long nose). 4 See order code CRIMP-TOOL-S on page 23. 5 Ethernet cable tester. 6 7 Crimping tool for 6 mm2 and 16 mm2 grounding cable. Hot air gun.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 3.4. Site Prerequisites Site survey Site survey should be done before start the installation taking in consideration the following: Premises information • Site details (address, contact persons, GPS and/or map co-ordinates, etc.). • Site access and storage information (means of transport, equipment storage and lifting information, etc.). • Site location maps. Network planning • Site Coordinates.
3. Before Starting the Installation Site Prerequisites, Continued Preparation of the installation premises • Access to the installation premises must be facilitated during the installation period. • Entrances must be large enough to enable the easy transportation of the new equipment. • The floor must be level, smooth and able to bear the load of the equipment. • The roof must be engineered to bear the weight of the service personnel and the outdoor equipment.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Site Prerequisites, Continued Lightning & Surge protection A: For Ethernet (S-FTP) Cables: Lighting surge protection device (LSP) is required to minimize possibility of equipment damage to any equipment connected to the unit from lighting induced surges. For LSP device installation refer to Reference manuals item 4 on page 3.
3. Before Starting the Installation Site Prerequisites, Continued Pole installation • The pole construction should be rust free and strong enough to handle the weight and restrict movement due to air pressure. • Should be perfectly perpendicular to allow correct alignment of the antenna. • The antenna mounting kit should roughly point to the direction of the opposite unit (based on the site survey data).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 4. Installation Procedures Installation procedure overview This chapter describes the mechanical installation and cabling of the OSDR equipment.
4. Installation Procedures 4.1. Radio Unit and Antenna Sectoral and Parabolic Antenna Introduction Apply this procedure for installing the OSDR to sectoral/parabolic antenna. For sectoral antennas the procedure includes the alignment steps, also. The antenna is capable to be installed in both side of the pole. The following photos are indicative of the installation in the left orientation of the sectoral/parabolic models.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Sectoral and Parabolic Antenna, Continued Procedure Step 1 To install the OSDR onto the sectoral/parabolic antenna and to perform antenna alignment, proceed as follows: Action The antenna installation should look as follows.
4. Installation Procedures Sectoral and Parabolic Antenna, Continued Procedure, continued Step 2 Action Remove antenna protection label from the feeder, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Sectoral and Parabolic Antenna, Continued Procedure, continued Step 3 Action Radio unit and antenna should be adjusted for common polarization, as shown below.
4. Installation Procedures Sectoral and Parabolic Antenna, Continued Procedure, continued Step 4 Action Lubricate the O-ring with silicone grease, as shown below. • For parabolic antenna continue to step 5. • For sectoral antenna 26/28/32 GHz go to step 8. • For sectoral antenna 10.5 GHz go to step 19. 5 Unlock the four clamps of the radio unit,, as shown below. 6 Mount the OSDR onto the antenna, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Sectoral and Parabolic Antenna, Continued Procedure, continued Step 7 Action Lock and secure all four clamps according to the pattern below. Details of Clamps closing End of procedure for parabolic antenna. For parabolic antenna alignment refer to item 6 of Reference manuals on page 3.
4. Installation Procedures Sectoral and Parabolic Antenna, Continued Procedure, continued Step 8 Action Perform the following actions: A: Mount the tool onto the antenna radio wave feeder, as shown below. B: Use the cross screwdriver to screw the bolts and then fully tighten. Do not over tighten. Make sure no any gap between tool and antenna, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Sectoral and Parabolic Antenna, Continued Procedure, continued Step Action 9 Use the U-wrench key (13 mm) to loosen the 3 nuts, as shown below (do not remove the nuts). 10 Install the OSDR onto the antenna as described to steps 5, 6 and 7.
4. Installation Procedures Sectoral and Parabolic Antenna, Continued Procedure, continued Step 11 Action To correct the antenna verticality with respect to the ground, perform the following actions: A: B: Place the inclinometer, as shown below: Rotate (left-right) the radio unit till the inclinometer digital indicator reaches 0 degrees. 12 Remove the OSDR. 13 Tighten the three M10 nuts (see step 9). DO NOT remove the XPOL tool. • Do not over tighten.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Sectoral and Parabolic Antenna, Continued Procedure, continued Step 14 15 Action Install the OSDR onto the antenna as described to steps 5, 6 and 7. To correct the elevation angle for matching with the RF planning data, perform the following actions: A: Place the inclinometer, as shown below. B: Use the U-wrench tool to perform elevation adjustment, as shown below.
4. Installation Procedures Sectoral and Parabolic Antenna, Continued Procedure, continued Step 16 Action Remove the OSDR and the XPOL tool. 17 Install the OSDR onto the antenna as described to steps 5, 6 and 7. 18 Use the U-wrench tool to perform azimuth adjustment(1), as shown below. • Do not over tighten. • For maximum tightening torque please follow the antenna installation leaflet (available in package). End of procedure for sectoral 26/28/32 GHz.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Sectoral and Parabolic Antenna, Continued Procedure, continued Step 19 20 Action Install the OSDR onto the antenna as described to steps 5, 6 and 7. To correct the elevation angle for matching with the RF planning data, perform the following actions: A: Place the inclinometer, as shown below. B: Use the U-wrench tool to perform elevation adjustment, as shown below.
4. Installation Procedures Sectoral and Parabolic Antenna, Continued Procedure, continued Step 21 Action Use the U-wrench tool to perform azimuth adjustment(1), as shown below. • Do not over tighten. • For maximum tightening torque please follow the antenna installation leaflet (available in package). End of procedure for sectoral 10.5 GHz. End of procedure. (1) The values must be taken from RF planning team.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Panel Antenna Introduction This topic describes the following procedures: Description Tools and materials See Page Mounting kit installation procedure 66 Panel antenna installation procedure 71 # Description Tools • Adjustable torque U-wrench. • Adjustable torque wrench with bit (hexagon male and cross). • Allen key. Materials • • • • • OSDR-ANT-MNT. OSDR-PL-ANT-KIT. GRS-PST. OSDR. Panel antenna.
4. Installation Procedures Panel Antenna, Continued Mounting kit installation procedure To install the mounting kit, proceed as follows: Step 1 2 Action Perform the following actions: A: Unscrew the azimuth adjuster screw. B: Release the u-bolts. Place the arm bracket to the pole and install the two U-bolts, as shown below. Use the U-wrench to tighten (washer, lock washer and nut). Do not over tighten. Adjust the tool for max tightening torque 15 Nm.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Panel Antenna, Continued Mounting kit installation procedure, continued Step 3 Action Perform the following actions: A: Unscrew the four screws. B: Place the radio mounting adapter onto the OSDR, as shown below. C: Install and screw the four screws. Do not over tighten. Adjust the tool for max tightening torque 4.2 Nm.
4. Installation Procedures Panel Antenna, Continued Mounting kit installation procedure, continued Step 4 Action Insert arm into the arm bracket, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Panel Antenna, Continued Mounting kit installation procedure, continued Step 5 Action Perform the following actions: A: Install the azimuth adjuster (taking into account the caution), as shown below. B: Install the azimuth adjuster bolt, as shown below (washer, lock washer and bolt).
4. Installation Procedures Panel Antenna, Continued Mounting kit installation procedure, continued Step 6 Action Use the adjustable wrench to fully tighten the adjuster bolt. Do not over tighten. Adjust the tool for max tightening torque 20 Nm. The installation should look as follows. End of procedure.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Panel Antenna, Continued Panel antenna installation procedure To install the panel antenna to OSDR, proceed as follows: Step 1 Action Install the antenna hooks (x 4), as shown below.
4. Installation Procedures Panel Antenna, Continued Panel antenna installation procedure, continued Step 2 Action Radio unit and antenna should be adjusted for common polarization. If the LINK polarization is HORIZONTAL then the feeders should be remained, as shown below: If the LINK polarization is VERTICAL, use the allen key to loosen the four screws at the waveguide port of the radio (do not remove the screws) and then TURN the polarizer, as shown below: The terminal station polarization at 10.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Panel Antenna, Continued Panel antenna installation procedure, continued Step 3 4 Action Perform the following actions: A: Lubricate the O-ring with silicone grease. B: Remove antenna protection plastic sticker from the feeder. Unlock the four radio unit clamps, as shown below.
4. Installation Procedures Panel Antenna, Continued Panel antenna installation procedure, continued Step 5 Action Mount the panel antenna onto the OSDR, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Panel Antenna, Continued Panel antenna installation procedure, continued Step 6 Action Lock and secure all four clamps according to the pattern below.
4. Installation Procedures 4.2. Radio Unit Grounding Cable Introduction Apply this procedure for installing the grounding cable to OSDR grounding terminal. Prerequisites How to terminate a grounding cable please refer to Appendix D: Cables Termination. Tools and materials Procedure # Description Tools Adjustable torque U-wrench. Materials GND-KIT16-OD To install the grounding cable to OSDR, proceed as follows: Step 1 Action Use the tool to remove the M5 nut and one spring washer.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 4.3. Radio Unit Ethernet (S-FTP) Cable Introduction Apply this procedure for installing the Ethernet (S-FTP) cable with M20 gland to OSDR receptacle (GbE2 or FE). Prerequisites How to terminate an Ethernet (S-FTP) cable please refer to Appendix D: Cables Termination. Tools and materials # Description Tools Adjustable torque U-wrench. Materials • M20-GLAND. • Terminated Ethernet (S-FTP) cable to RJ-45 jack.
4. Installation Procedures Radio Unit Ethernet (S-FTP) Cable, Continued Procedure To install the Ethernet cable with M20 gland to OSDR receptacle (GbE2 or FE), proceed as follows: Step Action 1 Remove the protective cap (plastic for GbE2 or metallic for FE). 2 Disassemble the M20-GLAND parts, as shown below. 3 Pass the cable through the parts of gland, as shown below. The seal shown below is split-type for easy installation and removal.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit Ethernet (S-FTP) Cable, Continued Procedure, continued Step 4 Action Plug the RJ-45 jack into the GbE2 port of the OSDR. Listen for a “click” when inserting. This verifies that the jack has been inserted properly. 5 Perform the following actions: A: Screw the body into the OSDR thread. Do not over tighten. Adjust the tool for max tightening torque 7 Nm.
4. Installation Procedures Radio Unit Ethernet (S-FTP) Cable, Continued Procedure, continued Step 6 Action Perform the following actions: A: Insert the seal into “pressure fingers” of claw. B: Insert the O-ring. C: Screw the sealing nut. Use the adjustable torque Uwrench to fully tighten. The ring protects from overtightening.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit Ethernet (S-FTP) Cable, Continued Procedure, continued Step Action 7 Install the cable holder, as described to Radio Unit Cable Holder on page 88. End of procedure. Take care when you unplug the RJ-45 jack. The latter is locked into the mating receptacle.
4. Installation Procedures 4.4. Power Injector For power injectors installation refer to Appendix C: Power Injector Installation on page 96.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 4.5. Radio Unit Optical Cable (Optional) Introduction Tools and materials Procedure Apply this procedure for installing the Fiber Optic cable with M25 gland to OSDR receptacle (GbE1). # Description Tools Adjustable torque U-wrench. Materials • M25-GLAND. • Fiber Optic cable. • SFP module.
4. Installation Procedures Radio Unit Optical Cable (Optional), Continued Procedure, continued Step Action 3 Pass the cable through the parts of gland, as shown below. The seal shown below is split-type for easy installation and removal. 4 Perform the following actions: A: Install the fiber optic cable into the SFP module. B: Plug the SFP module into the OSDR SFP cage. Install the body extension. C: Do not over tighten. Adjust the tool for max tightening torque 10 Nm.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit Optical Cable (Optional), Continued Procedure, continued Step 5 Action Perform the following actions: A: Screw the body into the body extension thread. Do not over tighten. Adjust the tool for max tightening torque 10 Nm. B: Insert claw into the body (taking into account the caution). Align the designated points. Misaligning of parts will cause damage.
4. Installation Procedures Radio Unit Optical Cable (Optional), Continued Procedure, continued Step 6 Action Perform the following actions: A: Insert the seal into “pressure fingers” of claw. B: Insert the O-ring. C: Screw the sealing nut. Use the adjustable torque U-wrench to fully tighten. The ring protects from overtightening.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit Optical Cable (Optional), Continued Procedure, continued Step Action 7 Install the cable holder, as described to Radio Unit Cable Holder on page 88. End of procedure. Take care when you unplug the fiber optic connector. The latter is locked into the SFP and must be extracted first (with the tip of a flat-headed screwdriver) after removing the gland parts from the lower part of OSDR.
4. Installation Procedures 4.6. Radio Unit Cable Holder Introduction Tools and materials Procedure Apply this procedure for installing the cable holder to OSDR. # Description Tools Adjustable torque wrench with hexagon male bit Materials OSDR-HOLD-2 or OSDR-HOLD-5 To install the cable holder, proceed as follows: Step 1 Action Use the tool to remove the three screws with lock washers, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit Cable Holder, Continued Procedure, continued Step 2 Action Perform the following: A: Attach the holder to radio. B: Use the tool to install the three lock washers and screws, as shown below. Do not over tighten. Adjust the tool for max tightening torque 2 Nm. 3 Install cables and glands. How to install refer to the following: • Radio Unit Ethernet (S-FTP) Cable on page 77.
4. Installation Procedures Radio Unit Cable Holder, Continued Procedure, continued Step 4 Action Use the tie wraps to tighten the cable, as shown below. End of procedure. Do not forget to install the OSDR grounding cable.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Appendix A: Adaptation Kit Installation Pole Installation Introduction Tools and materials Apply this procedure for installing the adaptation kit onto the pole. # Description Tools • Adjustable torque U-wrench. • Adjustable torque wrench with hexagon female bit. Materials INST-ADAPT.
Appendix A: Adaptation Kit Installation Pole Installation, Continued Procedure To install adaptation kit onto the pole, proceed as follows: Step Action 1 Choose the proper hose clamps based on the pole diameter. 2 Pass through the clamps to bracket, as shown below: 3 Choose the correct position onto the pole to install the adaptation bracket. 4 Use the tool to tighten. Do not over tighten. Adjust the tool for tightening torque, as follows: • min 5.5 Nm. • max 7.0 Nm.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Pole Installation, Continued Procedure, continued Step 5 Action Install the arm bracket onto the adaptation bracket, as shown below. Do not over tighten. Adjust the tool for max tightening torque 15 Nm.
Appendix B: Mounting Kit Wall Installation Appendix B: Mounting Kit Wall Installation Wall Installation Introduction Tools and materials Procedure Apply this procedure for installing the mounting kit onto the wall. # Description Tools Adjustable torque U-wrench. Materials OSDR-ANT-MNT.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Wall Installation, Continued Procedure, continued Step 2 Action Insert items (W, A, J, I X) with order, as shown below: The items X, W listed below are not provided: 3 Item Description Qty X Wood screw 5 x 50 mm, hex-headed, DIN571 4 I Lock washer M5, stainless 4 J Washer M5, stainless. 4 A Arm Bracket 1 W Wood plug 8 mm, plastic, type B.
Appendix C: Power Injector Installation Appendix C: Power Injector Installation Topics The chapter includes the following topics: Description 96 See Page Outdoor DC PoNE 97 Outdoor AC PoNE 105 Indoor AC POE 112
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor DC PoNE Introduction Apply this procedure for installing the outdoor DC PoNE onto the pole and wall. Precautions Before staring the installation make sure all the following precautions: • The power at the input of PoNE box must be measured in the range of -40.5 V DC to -57.5 V DC. • Refer to Safety Precautions on page 5.
Appendix C: Power Injector Installation Outdoor DC PoNE, Continued Connection diagram No Description 1 DC power supply cable. 2 Single pole Circuit. 3 Local DC power distributor.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor DC PoNE, Continued Equipment overview # Marking Details Use A Gbe IN / Gbe OUT Gigabit Ethernet 100/1000 Base-T, Electrical (RJ-45). Gbe IN: To connect the Gigabit Ethernet (S-FTP) cable for carrying: • traffic • inband management towards to customer network.
Appendix C: Power Injector Installation Outdoor DC PoNE, Continued Tools and materials # Description Tools Adjustable torque wrench with all bits. Materials • • • • INST-PONE-PL. PONE-OD-DC. Ethernet (S-FTP) cable terminated to RJ-45 jack. Grounding cable terminated to 6 mm2 lug.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor DC PoNE, Continued Pole and wall installation procedure For mechanical installation and cabling of outdoor DC PonE, proceed as follows: Step 1 Action Pole installation: A Attach the plate onto rear side of PonE, as shown below. B: C: Install lock washer and screw. Then use the cross headed screwdriver to fully tighten. Pass the hose clamp through the plate holes. D: Install the PonE onto pole.
Appendix C: Power Injector Installation Outdoor DC PoNE, Continued Pole and wall installation procedure, continued Step Action 2 Prepare and terminate the Ethernet cables (x 2) as instructed to Appendix D: Cables Termination on page 114. Install the Ethernet cables, as follows: A: Use the tool with TORX T10 bit to remove the clamp screw. Be careful not to drop the screw while removing. B: Plug the Ethernet cables to the Gbe receptacles (OUT: goes to radio unit and IN: goes to customer network).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor DC PoNE, Continued Pole and wall installation procedure, continued Step 3 Action Prepare and terminate the grounding cable as instructed to Appendix D: Cables Termination. Use the tool with TORX T10 bit to install the grounding cable, as shown below. Do not over tighten. Adjust the tool for max tightening torque 0.9 Nm.
Appendix C: Power Injector Installation Outdoor DC PoNE, Continued Pole and wall installation procedure, continued Step Action Switch-off the local DC power source & the circuit breaker (between PoNE and the local DC power source). 4 Install the power supply cable, as follows: A: Connect the power cable to the local DC power source (Brown wire: +V, blue wire: -V). B: At the other end of the cable, use a blade to strip the wires of the cable, as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor AC PoNE Introduction Apply this procedure for installing the outdoor AC PoNE onto the pole and wall. Equipment overview # Marking Details Use A GRD Grounding point. To connect the grounding cable. B AC-IN 3-pins AC receptacle. To connect the AC power supply cable (with AC connector). C GbE OUT Gigabit Ethernet 10/100/1000 Base-T, Electrical (RJ-45).
Appendix C: Power Injector Installation Outdoor AC PoNE, Continued Tools and materials # Description Tools • Adjustable torque U-wrench. • TOOL-M20. Materials • • • • INST-PONE-PL2. PONE-OD67-AC. Ethernet (S-FTP) cable terminated to RJ-45 jack. Grounding cable terminated to 16 mm2 lug.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor AC PoNE, Continued Pole and wall installation procedure For mechanical installation and cabling of outdoor AC PoNE, proceed as follows: Step Action 1 Prepare and terminate the Ethernet cables (x 2) as instructed to Appendix D: Cables Termination on page 114. For pole installation follow this step. For wall installation go to last step.
Appendix C: Power Injector Installation Outdoor AC PoNE, Continued Pole and wall installation procedure, continued Step 3 Action Perform the following: A: Insert the claw to body taking in consideration the caution below. B: Insert the seal to claw. C: Use the adjustable torque U-wrench to screw the sealing nut to body. Do not over tighten. Adjust the tool for tightening torque 2 Nm (the final torque will be applied to the next step).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor AC PoNE, Continued Pole and wall installation procedure, continued Step 4 Action Perform the following: A: Set both keys over the sealing nut as shown below. Use the hexagon 24 mm tool to prevent the body receptacle from rotating and loosening. B: Use the adjustable torque U-wrench to screw the sealing nut to body. Do not over tighten. Adjust the tool for maximum tightening torque 6 Nm.
Appendix C: Power Injector Installation Outdoor AC PoNE, Continued Pole and wall installation procedure, continued Step 5 Action Prepare and terminate the grounding cable as instructed to Appendix D: Cables Termination. Install the grounding cable as shown below. Do not over tighten. Adjust the tool with M5 deep socket for maximum tightening torque 3 Nm. 6 Prepare and terminate the power supply cable as instructed to Appendix D: Cables Termination. Install the power cable as shown below.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor AC PoNE, Continued Pole and wall installation procedure, continued Step 7 Action Wall installation: Perform the following actions: • Position the device on the wall surface and using a pencil mark the drill points. With the drill machine (fitted with 5 mm bit), drill four holes on the wall surface, at a depth of 45 mm.
Appendix C: Power Injector Installation Indoor AC POE Introduction Apply this procedure for installing the indoor AC POE onto the wall. Overview # Marking Details Use A INPUT 3-pins AC socket (EU). To connect the AC power supply cord. B LED Multi-functioning LED. To provide radio unit status during operation. C IN/LAN OUT/POE Gigabit Ethernet 10/100/1000 Base-T, Electrical (RJ-45).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Indoor AC POE, Continued Wall installation procedure PoE is an indoor device only and can be installed as desktop or in a wall surface, as shown below: Materials for wall mount installation are not included on the packing list of the product ((requires wood plugs (5 mm X 25 mm) and wood screws crossheaded (4 mm x 30 mm)).
Appendix D: Cables Termination Appendix D: Cables Termination Topics The chapter includes the following topics: Description Tools and materials See Page Ethernet Cable 115 Grounding Cable 120 AC Power Supply Cable 123 # Description Tools Cables Termination on page 46. Materials ETH-CAB-SFTP terminated to ST-RJ45. GND-KIT16-OD terminated to M5 terminal lug for 16 mm2 cable. GND-CAB6-ID terminated to M4 terminal lug for 6 mm2 cable. AC-PWR-CAB terminated to AC power connector.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Ethernet Cable Introduction Apply this procedure for terminating an Ethernet (S-FTP) cable to RJ-45 connector (ST-RJ45). S-FTP cable overview The equipment to which you connect the cable requires a different way of cable termination. Mainly there are two types of cable termination, as shown below: Termination Type Details / Photo Equipment to Connect No shield wires exposed All, except DC PoNE.
Appendix D: Cables Termination Ethernet Cable, Continued Ethernet cable termination procedure To terminate the cable, proceed as follows: Step 1 Action Perform the following: A: For termination type A: Strip 40 mm of outer jacket. B: C: D: For termination type B: Strip 80 mm of outer jacket. Fold shield back (over the jacket). For termination type A: Twist shield wires together and allow 10 mm of shield to surround jacket’s end.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Ethernet Cable, Continued Ethernet cable termination procedure, continued 2 Untwist wire pairs and arrange according to the T-568 standard straight-through cable, as shown below: 3 Carefully insert the eight wires into the cavity of the wire guide so that its numbering is visible from the top. 4 Measure 16 mm from the jacket’s end and cut all wires protruding from the guide.
Appendix D: Cables Termination Ethernet Cable, Continued Ethernet cable termination procedure, continued Step 5 Action Perform the following: A: Fold back the crimping terminal of the connector. B: Fully insert wire guide and cable into the connector’s body until the shield (overlapping the jacket’s end) reaches the crimping position. For termination type A: For termination type B: 6 Terminate the wires onto the RJ-45 jack.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Ethernet Cable, Continued Ethernet cable termination procedure (continued) Step Action 7 With the pliers, bring the terminal of the connector back, over the exposed shield, and press gently around the terminal to form. This will achieve good contact with the shield.
Appendix D: Cables Termination Grounding Cable Introduction Apply the procedures for terminating grounding cable to grounding lug of the following equipment: GROUNDING CABLE 6 mm2 16 mm2 outdoor DC PoNE OSDR radio unit indoor AC POE 72 W outdoor AC PoNE Continued on next page 120
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Grounding Cable, Continued To terminate the 16 mm2 grounding cable, proceed as follows: Step Action 1 Cut the grounding cable (for 16 mm2) according to the distance between equipment and grounding bar.
Appendix D: Cables Termination Grounding Cable, Continued Grounding cable (6 mm2) termination procedure To terminate the 6 mm2 grounding cable, proceed as follows: Step Action 1 Cut the grounding cable (for 6 mm2) according to the distance between equipment and grounding bar.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 AC Power Supply Cable Introduction Apply this procedure for terminating AC power supply cable to AC power connector for outdoor AC PoNE.
Appendix D: Cables Termination AC Power Supply Cable, Continued Procedure To terminate the AC power supply cable to AC power connector of outdoor AC PoNE, proceed as follows: Step 1 Action Perform the following actions: A: Strip approx. 10 mm from the cable’s outer sheath. B: Strip approx. 4 mm from each wire insulation. C: Pass the cable through the parts of gland.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 AC Power Supply Cable, Continued Procedure, continued Step 2 Action Assemble the connector by tightening the parts together, as shown below: End of procedure.
Appendix E: Sectoral Antenna Pole Space Requirements Appendix E: Sectoral Antenna Pole Space Requirements 10.
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 10.
Appendix E: Sectoral Antenna Pole Space Requirements 26/28/32 GHz Antenna Elevation axis (in mm) Continued on next page 128
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.
Appendix F: Receptacles Pin Out Appendix F: Receptacles Pin Out Radio Unit GbE Scope For Traffic / Power. Type RJ-45 Female (100/1000 Base-T electrical).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Radio Unit, Continued SFP Scope For GbE optical data traffic connection. Type SFP cage (1000 Base-X fiber).
Appendix F: Receptacles Pin Out Outdoor DC PoNE Gbe IN Scope For connection of GbE electrical data traffic. Type RJ-45 Female (10/100/1000 Base-T electrical).
Outdoor Software Defined Radio (OSDR) platform Installation & Cabling Manual - Edition 3.0 Outdoor DC PoNE, Continued NMS IN Scope For connection of outband management input. Type RJ-45 Female (10/100 Base-T electrical).
Appendix F: Receptacles Pin Out Outdoor DC PoNE, Continued INPUT Scope For connection of –48 V dc power supply voltage. Type Three poles power receptacle.
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