Radwin JETDB5X3X Dual Band 3.x and 5.x GHz Base Station Outdoor Radio With Beamforming Antenna User Manual UM 5000 Install Guide

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INSTALLATION GUIDE
RADWIN 5000 HPMP
Release 4.9.30
Cat.No. DQ0193780/0.6
FOR REGULATORY APPROVAL ONLY
Table of Contents
Chapter 1: Introduction
1.1 Scope of This Document...................................................................................................... 1‐1
1.2 Notifications ........................................................................................................................ 1‐1
1.3 RADWIN 5000 Overview ..................................................................................................... 1‐2
1.3.1 Sector .......................................................................................................................... 1‐2
1.3.2 Base Station ................................................................................................................ 1‐2
1.3.3 Subscriber Unit ............................................................................................................ 1‐3
1.3.4 Method of Work .......................................................................................................... 1‐5
1.3.5 Sector Management Tools .......................................................................................... 1‐6
1.4 Key Features of RADWIN 5000............................................................................................ 1‐7
1.4.1 General........................................................................................................................ 1‐7
1.4.2 Beamforming Solutions (optional) .............................................................................. 1‐7
1.5 What’s New in Release 4.9.30............................................................................................. 1‐7
Chapter 2: Installation Steps
2.1 Prepare Laptop.................................................................................................................... 2‐2
2.2 Connect Laptop to Radio Unit ............................................................................................. 2‐2
2.2.1 RADWIN 5000 (LFF and SFF) Units .............................................................................. 2‐3
2.2.2 JET and DUO Units....................................................................................................... 2‐4
2.2.3 SU PRO/AIR Units ........................................................................................................ 2‐5
2.3 Update Connectivity Parameters of Radio Unit .................................................................. 2‐5
2.3.1 HSU: RADWIN 5000 (LFF or SFF radio units) ............................................................... 2‐5
2.3.2 HBS: RADWIN 5000, JET, or DUO radio units .............................................................. 2‐6
2.3.3 SU PRO/AIR Units ........................................................................................................ 2‐7
2.4 Check items to be installed ................................................................................................. 2‐7
2.5 Prepare Tools ...................................................................................................................... 2‐7
2.6 Install Standard Mounting Kit ............................................................................................. 2‐8
2.6.1 Standard Mounting Kit................................................................................................ 2‐8
2.6.2 Vertical Pole ................................................................................................................ 2‐9
2.6.3 Horizontal Pole .......................................................................................................... 2‐12
2.6.4 Wall ........................................................................................................................... 2‐14
2.7 Install Mounting Kit for the SU PRO/AIR Radio Unit.......................................................... 2‐15
2.8 Mounting a Unit with the Standard Mounting Kit ............................................................ 2‐17
2.9 Ground Radio Unit............................................................................................................. 2‐22
2.9.1 LFF Units.................................................................................................................... 2‐23
2.9.2 SFF Units.................................................................................................................... 2‐23
2.9.3 JET Units .................................................................................................................... 2‐23
2.9.4 DUO Units.................................................................................................................. 2‐24
2.9.5 SU PRO/AIR Units ...................................................................................................... 2‐24
2.10 Mounting the SU PRO/AIR Radio Unit............................................................................. 2‐25
2.11 Mounting the Lightning Protection Units........................................................................ 2‐27
2.11.1 Mounting the LPU on a pole.................................................................................... 2‐27
2.11.2 Mounting the LPU on a wall.................................................................................... 2‐29
2.12 Connect External Antenna (if applicable)........................................................................ 2‐30
2.12.1 LFF and SFF Units..................................................................................................... 2‐30
2.12.2 SU PRO/AIR Units .................................................................................................... 2‐31
2.13 Waterproofing................................................................................................................. 2‐32
2.14 Connect Radio (External Connections)............................................................................ 2‐33
2.14.1 LFF, SFF and JET Units.............................................................................................. 2‐33
2.14.2 DUO Units................................................................................................................ 2‐34
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2.14.3 SU PRO/AIR Units .................................................................................................... 2‐38
2.15 Check Connectivity to Radio............................................................................................ 2‐39
2.16 Activate Base Station....................................................................................................... 2‐39
2.17 Align Subscriber Unit....................................................................................................... 2‐40
2.17.1 LFF and SFF Units..................................................................................................... 2‐40
2.17.2 SU PRO/AIR Units .................................................................................................... 2‐41
Chapter 3: Safety Practices and Provisions
3.1 Scope of this Chapter .......................................................................................................... 3‐1
3.1.1 Preventing Overexposure to RF Energy ....................................................................... 3‐1
3.1.2 Grounding ................................................................................................................... 3‐1
3.1.3 Protection against Lightning ....................................................................................... 3‐1
3.1.4 General........................................................................................................................ 3‐2
3.1.5 Internal ESD Protection circuits ................................................................................... 3‐2
Appendix A: Terminology
Appendix B: Wiring Specifications
B.1 Scope of this Appendix........................................................................................................ B‐1
B.1 Radio unit‐PoE Cable (HBS and HSU) .................................................................................. B‐1
B.2 User Port Connectors .......................................................................................................... B‐2
B.3 DC Power Terminals ............................................................................................................ B‐2
B.4 SU2‐AC Power Terminal ...................................................................................................... B‐3
Appendix C: About Antennas
C.1 Scope of this Appendix........................................................................................................ C‐1
C.1 Antenna Issues .................................................................................................................... C‐1
C.2 About Single and Dual Antennas......................................................................................... C‐1
C.3 Considerations for Changing Antenna Parameters............................................................. C‐3
Appendix D: Regional Notice: French Canadian
D.1 Procédures de sécurité .......................................................................................................D‐1
D.2 Installation sur pylône et mur.............................................................................................D‐3
Appendix E: Certified Antennas
E.1 For Deployment in US/Canada ............................................................................................ E‐1
E.2 For Deployment in ETSI Countries....................................................................................... E‐8
Appendix F: Revision History
Regulatory Compliance ...................................................................................................................................... i
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Chapter 1: Introduction
1.1 Scope of This Document
This document shows how to configure RADWIN 5000 radios and sectors. For a detailed
description of how to physically install RADWIN 5000 radios, see the RADWIN 5000
Installation Manual.
This document shows how to install RADWIN 5000 radios.
For a detailed description of how to configure RADWIN 5000 radios and sectors, see the
RADWIN 5000 Configuration Guide.
1.2 Notifications
Notifications consist of Notes, Cautions, and Warnings:
Caution: Risk of damage to equipment or of service degradation
Warning: Risk of danger to persons operating near the equipment
The purpose of a Note is to:
• Draw your attention to something that may not be obvious
• Emphasize a special feature
• Provide additional background
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RADWIN 5000 Overview
Introduction
1.3 RADWIN 5000 Overview
1.3.1 Sector
The RADWIN 5000 system consists of a “sector” that includes a base station, and at least one
subscriber unit. The subscriber units are installed and work opposite the base stations.
Figure 1‐1: A RADWIN 5000 Sector
1.3.2 Base Station
There are twothree types of base stations, all of which are High Capacity Base Stations (HBS):
• Large Form Factor (LFF) ‐ With an integrated or external antenna
Figure 1‐2: LFF base station with inte‐
grated antenna
RADWIN 5000 Installation Guide
Figure 1‐3: LFF base station connector‐
ized for external antenna
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Subscriber Unit
•
Introduction
Beamforming (JET) ‐ With an integrated antenna
Figure 1‐4: RADWIN 5000 JET
•
Beamforming (DUO) ‐ With an integrated antenna
Figure 1‐5: RADWIN JET DUO
1.3.3 Subscriber Unit
There are two types of RADWIN 5000 subscriber units:
•
High Capacity Subscriber Unit (HSU)
•
SU PRO/AIR units
High Capacity Subscriber Unit (HSU)
An HSU can have one of the following resource allocations:
•
•
CIR ‐ Committed Information Rate: receives a guaranteed percentage of
resources
BE ‐ Best Effort: receives resources according to availability
In addition, an HSU can have one of the following form factors:
• Large Form Factor (LFF) ‐ Its external appearance is similar to a Large Form Factor
HBS, and can have an integrated or external antenna.
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Subscriber Unit
Introduction
Figure 1‐6: LFF subscriber unit with
integrated antenna
Figure 1‐7: LFF subscriber unit connec‐
torized for external antenna
• Small Form Factor (SFF) ‐ As its name implies, this unit is smaller than an LFF unit,
but can also have an integrated or external antenna.
Figure 1‐8: SFF subscriber unit with
integrated antenna
Figure 1‐9: SFF subscriber station con‐
nectorized for external antenna
SU PRO/AIR units
•
•
•
•
SU PRO ‐ Can operate using the CIR or BE resource type
SU AIR ‐ Operates using the BE resource type only.
Uses a smaller form‐factor than that of the HBS or HSU.
Can use an integrated antenna, the Turbo Gain antenna or a separate, non‐inte‐
grated, external antenna.
Figure 1‐10: SU PRO/AIR unit
RADWIN 5000 Installation Guide
Figure 1‐11: SU PRO/AIR unit with
Turbo Gain antenna
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Method of Work
Introduction
1.3.4 Method of Work
Both the base stations and the subscriber units communicate respectively, with the service
provider and users through PoE devices. The communication protocol for both the service
provider and the users is Ethernet.
See figure 1‐12, RADWIN 5000 Connection Scheme:
•
•
•
•
A PoE device (or IDU‐H1) is connected to power and the communications network:
• On the base station side, the PoE is connected to the backhaul network
• On the subscriber unit side, the PoE is connected to end‐user equipment: routers,
WiFi devices, etc.
• The RADWIN JET DUO can have traffic and management via either its PoE port, or
its SFP data port, but must still receive voltage via a PoE.
Using CAT‐5e cables, the radio units are connected to power and the communications
network via a Power‐over‐Ethernet (PoE) device.
The radio units and PoE devices are also connected to ground.
The Base Station communicates with the Subscriber Unit or Units via the air interface.
For simplicity, Lightning Protection Units (LPU) are not shown in Figure 1‐12, but
these are recommended. See “Mounting the Lightning Protection Units” on page
2‐27 for directions on how to install the LPUs.
Figure 1‐12: RADWIN 5000 Connection Scheme
1. The IDU‐H does not support beam‐forming radios: JET or DUO
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Sector Management Tools
Introduction
1.3.5 Sector Management Tools
WINTouch
WINTouch is a mobile application that guides you in installing and aligning SU PRO/AIR
devices, as well as base stations that work with them.
RADWIN Web Interface
The Web Interface enables you to carry out basic unit and/or sector management functions
using a Web browser. It is an easy way to rapidly configure and setup a link.
It may be used to ‐
•
•
•
•
•
Set or change basic radio unit parameters in the field
Establish a sector on a minimal basis
Check link parameters and make basic changes
View the link Inventory
Inspect the Recent Events logs
The Web Interface for the SU PRO/AIR and for legacy HBS and HSU radios are
different.
RADWIN Manager
The RADWIN Manager is an SNMP‐based management application which manages a
complete sector over a single IP address.
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Key Features of RADWIN 5000
Introduction
1.4 Key Features of RADWIN 5000
1.4.1 General
»
»
»
»
»
»
»
»
»
»
Ethernet connectivity
Advanced OFDM & MIMO 2x2 for nLOS and NLOS performance
Enhanced interference mitigation capability
Inter & intra site sync to reduce self interference
Multiband radios: Different frequencies in the same radio unit
Dedicated Bandwidth ensuring SLA & latency
Regulations supported ‐ FCC/IC/ETSI/WPC/MII/Universal
Up to 64 Subscriber Units per base station
Fully integrated with RADWIN Legacy solutions:
• Base station can coexist with RADWIN 2000 and WinLink 1000 products
• Common RADWIN Manager
Nomadic support (standard in all base station models)
1.4.2 Beamforming Solutions (optional)
RADWIN 5000 JET and RADWIN JET DUO
»
»
»
»
»
Smart beamforming antenna, integrated in dedicated base station
On‐the‐fly beamforming capability reduces interference, increases efficiency
Narrow beam
Support for ethernet‐based synchronization
Integrated GPS synchronization capability
RADWIN JET DUO
»
»
»
»
»
»
Dual‐band platform for 3.x and 5.x GHz bands
• Available configuration offers a single band selection only
• Future upgradeable to concurrent dual‐bands
2 x 750Mbps when operated as a dual‐band solution (software upgradeable by 2018)
Up to QAM 256, 2 x 80MHz
Exceptional interference immunity through 2nd gen. beamforming antenna with
exceptionally small side lobes
Support 64 customers, upgradeable to 2x 64 (software upgradeable by 2018)
Interfaces: Fiber (SFP) and GbE
1.5 What’s New in Release 4.9.30
» New product: the RADWIN JET DUO dual carrier base station: ability to work in
either the 3.x GHz band or 5.x GHz band, user‐configurable
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What’s New in Release 4.9.30
Introduction
For complete and comprehensive characteristics of the specific model you are
working with, refer to its Data Sheet.
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Chapter 2: Installation Steps
To install and establish a basic connection with a radio unit, carry out the steps shown below.
Print out this list, and place a checkmark next to a completed task.
Table 2‐1: Installation Check‐List
Step
Action
Page
Done?
Before deploying at installation site
1.
Prepare Laptop
page 2‐2
2.
Connect Laptop to Radio Unit
page 2‐2
3.
Update Connectivity Parameters of Radio Unit
page 2‐5
4.
Check items to be installed
page 2‐7
5.
Prepare Tools
page 2‐7
Installation
6.
Install Standard Mounting Kit
page 2‐8
7.
Install Mounting Kit for the SU PRO/AIR Radio Unit
page 2‐15
8.
Mounting a Unit with the Standard Mounting Kit
page 2‐17
9.
Ground Radio Unit
page 2‐22
10.
Mounting the SU PRO/AIR Radio Unit
page 2‐25
11.
Mounting the Lightning Protection Units
page 2‐27
12.
Connect External Antenna (if applicable)
page 2‐30
13.
Waterproofing
page 2‐32
Commissioning
14.
Connect Radio (External Connections)
page 2‐33
15.
Check Connectivity to Radio
page 2‐39
16.
Activate Base Station
page 2‐39
17.
Align Subscriber Unit
page 2‐40
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Prepare Laptop
Installation Steps
2.1 Prepare Laptop
Configure IP address and subnet mask of laptop as follows:
•
•
Control Panel ‐> Network and Internet ‐> Network and Sharing Center ‐> Change
Adapter settings ‐> click on Network Interface Card name
Properties ‐> Select Internet Protocol Version 4 (TCP/IPv4) ‐> Properties ‐> set IP address
to 10.0.0.100 and Subnet mask to 255.255.0
2.2 Connect Laptop to Radio Unit
Connect PoE to power, connect the laptop’s ethernet port to the IN (or LAN) socket on the
PoE, then connect the OUT (or PoE) socket on the PoE to the appropriate socket on the radio
unit. Make sure you are using the appropriate PoE for your specific radio unit.
Figure 2‐1: Connecting laptop to a radio unit
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RADWIN 5000 (LFF and SFF) Units
Installation Steps
2.2.1 RADWIN 5000 (LFF and SFF) Units
Connect to socket labeled ‐> “IDU”
Figure 2‐2: Laptop/network port: LFF radio unit (connectorized unit shown)
Figure 2‐3: Laptop/network port: SFF radio unit (connectorized unit shown)
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JET and DUO Units
Installation Steps
2.2.2 JET and DUO Units
Connect to socket labeled ‐> “PoE In”
Figure 2‐4: Laptop/network port: JET radio unit
Figure 2‐5: Laptop/network port: DUO radio unit
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SU PRO/AIR Units
Installation Steps
2.2.3 SU PRO/AIR Units
Connect to ‐> Input socket (not labeled)
Figure 2‐6: Laptop/network port: SU PRO/AIR radio unit
2.3 Update Connectivity Parameters of Radio
Unit
1. In an internet browser, enter http:// 10.0.0.120
2. Enter User Name admin and Password netman.
3. Click Log In.
4. Continue according to the type of radio unit you are using:
2.3.1 HSU: RADWIN 5000 (LFF or SFF radio units)
a. Click Config.
b. Click Management.
c. Enter new IP Address, Subnet Mask, and Default Gateway.
d. Click Save and exit browser.
e. From a command line, ping radio unit using new IP address to verify change.
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HBS: RADWIN 5000, JET, or DUO radio units
Installation Steps
2.3.2 HBS: RADWIN 5000, JET, or DUO radio units
a. Install the RADWIN Manager application from: http://www.radwin.com/
download, or use the QR code:
b. Log on to the RADWIN Manager as
an “Installer” and enter the default
IP address (http://10.0.0.120) and
password: wireless.
c. From the RADWIN Manager, click
Activate, and follow the instructions in
the wizard.
d. During the course of the wizard, enter the
new management IP Address, Subnet
Mask, and Default Gateway, Sector ID,
operating channel, and channel
bandwidth.
e. From a command line, ping radio unit using new IP address to verify change.
f.
Once you are finished with the steps above, disconnect the radio unit and prepare it
for deployment in the field.
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SU PRO/AIR Units
Installation Steps
2.3.3 SU PRO/AIR Units
a. Click Configure
b. Click Network
c. Enter new IP Address, Subnet Mask, and Default Gateway.
d. Click Apply All and exit browser.
e. From a command line, ping radio unit using new IP address to verify change.
f.
Once you are finished with the steps above, disconnect the radio unit and prepare it
for deployment in the field.
Alternatively, you can use the WINTouch smartphone application to change the IP
address. Log on to WINTouch and follow the instructions.
2.4 Check items to be installed
•
•
•
•
•
•
•
•
Radio unit + mounting kit
2 LPUs for each radio (recommended)
PoE (if outdoor, requires mounting kit)
CAT‐5e cables
Grounding cables (10 AWG) for radio unit, LPUs and outdoor PoE (if used)
External antenna + mounting kit (if using an external antenna for LFF or SFF units)
RF cables (if using an external antenna for LFF or SFF units)
Turbo Gain antenna (if using this antenna for the SU PRO/AIR unit)
2.5 Prepare Tools
•
•
•
•
•
Crimping tool
Spanner/wrench 13mm (1/2”)
Cable ties
Sealing material
Waterproofing tape (like Scotch 23)
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Install Standard Mounting Kit
Installation Steps
2.6 Install Standard Mounting Kit
2.6.1 Standard Mounting Kit
Use the standard mounting kit for:
•
•
•
•
•
•
•
LFF (large form‐factor) radio units
SFF (small form‐factor) radio units
JET radio units
DUO radio units
External PoEs
RADWIN GSUs
External antennas (with mounting kit adaptor)
The SU PRO/AIR has its own mounting kit: see Install Mounting Kit for the SU PRO/AIR Radio
Unit on page 2‐15.
Figure 2‐7: Mounting Kit Contents
Tighten all bolts with a torque of 15Nm.
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Vertical Pole
Installation Steps
The mounting kit can be used on a vertical or horizontal pole or on a wall:
Vertical Pole
page 2‐9
Horizontal Pole
page 2‐12
Wall
page 2‐14
2.6.2 Vertical Pole
The mounting kit can be used on a thin, medium, or thick pole.
Thin Pole
Dia. 3/4 ‐1 1/2
page 2‐9
Medium Pole
Dia. 2 ‐ 3
page 2‐10
Thick Pole
Dia. > 3
page 2‐10
Thin Pole
1. Diameter 3/4 to 1 1/2: Position the pole clamp as shown in the following figures.
Do not tighten the bolts all the way.
Figure 2‐8: Connect Pole Clamp to Radio
Holder
Figure 2‐9: Partially tighten bolts
2. Place this “unit” on the pole where you want to mount the device. Once it is in
place, rotate the pole clamp as shown, then tighten both bolts.
Figure 2‐10: Rotate Clamp and tighten bolts
RADWIN 5000 Installation Guide
Figure 2‐11: Completely tighten bolts
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Vertical Pole
Installation Steps
Medium Pole
1. Diameter 2 to 3: Position the pole clamp as shown in the following figures. Do not tighten
the bolts all the way.
Figure 2‐12: Connect Pole Clamp to Radio
Holder
Figure 2‐13: Tighten bolts
2. Place this “unit” on the pole where you want to mount the device. Once it is in
place, rotate the pole clamp as shown, then tighten both bolts.
Figure 2‐14: Rotate Clamp
Figure 2‐15: Completely tighten bolts
Thick Pole
1. Diameter larger than 3: Use worm drive clamps (not supplied), threaded through the holes
as shown:
Figure 2‐16: Mounting kit on a thick pole
The pole clamp is not needed.
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Vertical Pole
Installation Steps
JET and DUO Radio Units
When mounting a JET or DUO radio unit on a vertical pole, use the radio vertical adaptor as
shown:
Figure 2‐17: JET radio unit mounted on a vertical pole
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Horizontal Pole
Installation Steps
Figure 2‐18: DUO radio unit mounted on a vertical pole
2.6.3 Horizontal Pole
Installing the mounting kit on a horizontal pole is done in a similar manner to that on a
vertical pole (thin, medium, or thick sizes):
Figure 2‐19: Mounting Kit on a horizontal pole
When mounting a Large Form‐Factor (LFF) radio unit, Small Form‐Factor (SFF) radio unit, GSU,
PoE, or external antenna on a horizontal pole, use the radio vertical adaptor:
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Horizontal Pole
Installation Steps
Figure 2‐20: Radio unit mounted on a horizontal pole
When mounting a JET or DUO radio unit on a horizontal pole, the vertical adaptor is not
needed:
Figure 2‐21: JET radio unit mounted on a horizontal pole
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Wall
Installation Steps
Figure 2‐22: DUO radio unit mounted on a horizontal pole
2.6.4 Wall
Use two mounting screws (not included) appropriate for the type of wall to install the
mounting kit on a wall. Make sure you use the indicated holes.
The pole clamp is not needed.
Figure 2‐23: Mounting kit on a wall
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Install Mounting Kit for the SU PRO/AIR Radio Unit
Installation Steps
2.7 Install Mounting Kit for the SU PRO/AIR
Radio Unit
The SU PRO/AIR has its own mounting kit. Mount this unit as shown in the steps below:
1. Place the mount on a pole or wall:
2. Secure the mount using the worm drive clamps. These are “quick‐release” clamps,
and work as follows:
a. Open the clamp:
b. Slide the metal band through the mount:
c. Slide the metal band through the clamp:
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Install Mounting Kit for the SU PRO/AIR Radio Unit
Installation Steps
d. Adjust the radius of the band, and lock it with the clamp:
e. Once the band is at the correct radius, close the clamp and tighten with a
screwdriver (make sure the tops of the screws face away from the mount):
3. Alternatively, you can fasten the mount with screws (not included) appropriate for
the surface being used:
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Mounting a Unit with the Standard Mounting Kit
Installation Steps
2.8 Mounting a Unit with the Standard
Mounting Kit
Fasten an LFF (large form‐factor), SFF (small form‐factor) JET radio units, as well as external
PoEs, and RADWIN GSUs, and external antennas to the mounting kit as shown in Figure 2‐24
to Figure 2‐26:
(if mounting a flat‐panel antenna, see page 2‐21).
Figure 2‐24: Mounted LFF radio unit
Figure 2‐25: Mounted SFF radio unit or GSU
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Mounting a Unit with the Standard Mounting Kit
Installation Steps
Figure 2‐26: Mounted PoE
For JET radio units, mount as shown in Figure 2‐27 and Figure 2‐29:
•
Use the radio vertical adaptor when mounting a JET or DUO unit on a vertical pole
Figure 2‐27: JET radio unit mounted on a vertical pole
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Mounting a Unit with the Standard Mounting Kit
Installation Steps
Figure 2‐28: DUO radio unit mounted on a vertical pole
•
When mounting a JET or DUO unit on a horizontal pole, the radio vertical adaptor is not
needed:
Figure 2‐29: JET radio unit mounted on a horizontal pole
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Mounting a Unit with the Standard Mounting Kit
Installation Steps
Figure 2‐30: DUO radio unit mounted on a horizontal pole
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Mounting a Unit with the Standard Mounting Kit
Installation Steps
Flat panel antenna
If mounting a flat panel antenna, a mounting kit adapter is required (see Figure 2‐31):
Figure 2‐31: Flat panel antenna mounting kit adapter
Attach the mounting kit adaptor to the rear of the external antenna as shown:
Figure 2‐32: Flat Panel antenna ‐ rear with mounting kit adapter
Mount the antenna with the adaptor to a vertical or horizontal pole (as shown in Figure 2‐24
to Figure 2‐25).
Figure 2‐33 shows a mounted antenna. Attach the mounting bolt to the side of the adaptor
with the recess, as shown.
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Ground Radio Unit
Installation Steps
Figure 2‐33: Flat Panel antenna ‐ mounted on a pole
2.9 Ground Radio Unit
Connect a ground cable to the indicated ground connection on the radio unit as shown in the
sections below:
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LFF Units
Installation Steps
2.9.1 LFF Units
Figure 2‐34: Ground: LFF radio unit
2.9.2 SFF Units
Figure 2‐35: Ground: SFF radio unit
2.9.3 JET Units
Figure 2‐36: Ground: JET radio unit
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DUO Units
Installation Steps
2.9.4 DUO Units
Figure 2‐37: Ground: DUO radio unit
2.9.5 SU PRO/AIR Units
Since the SU PRO/AIR is grounded via its mounting kit, it must be grounded before being
mounted.
Figure 2‐38: Ground: SU PRO/AIR radio unit
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Mounting the SU PRO/AIR Radio Unit
Installation Steps
2.10 Mounting the SU PRO/AIR Radio Unit
1. Open the clamp (for radio unit):
2. Position the radio unit so that the knobs on the mounting ball on the rear are
opposite the slots on the mount:
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Mounting the SU PRO/AIR Radio Unit
Installation Steps
3. Firmly place the radio unit into the mount until you hear a click:
4. Close the clamp half‐way:
5. Keep the clamp half‐closed until the alignment procedure is complete.
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Mounting the Lightning Protection Units
Installation Steps
2.11 Mounting the Lightning Protection Units
•
•
•
•
We recommend using two lightning protection units (LPUs) for each radio unit installa‐
tion: One near the radio unit and one near the PoE.
The LPU can be mounted on a pole or on a wall.
Make sure the LPU is oriented with the cable glands oriented towards the bottom.
Mount one LPU near the radio unit, and the second near the PoE:
2.11.1 Mounting the LPU on a pole
1. Insert the metal band through the slots on the LPU as shown:
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Mounting the LPU on a pole
Installation Steps
2. Tighten the metal band.
3. Connect the grounding lug to a ground source.
4. Remove the cable glands, and thread the CAT‐5e cables through them:
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Mounting the LPU on a wall
Installation Steps
5. Connect the cables to the LPU’s sockets, and the glands around the cables as
shown:
6. Route one CAT‐5e cable up to the radio unit, and the other down to the PoE (via
the lower LPU). An LPU installed on a pole is shown below:
2.11.2 Mounting the LPU on a wall
1. Remove the grounding lug.
2. Fasten the LPU to the wall using screws appropriate for the wall (screws not
included).
3. Connect the left screw (where the grounding lug was located) to a grounding
source via a grounding cable.
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Connect External Antenna (if applicable)
Installation Steps
4. Attach the CAT‐5e cables as shown in Steps 4. and 5. above.
2.12 Connect External Antenna (if applicable)
An external or supplemental antenna can be used for these units:
•
•
•
Connectorized LFF (large form‐factor) radio units
Connectorized SFF (small form‐factor) radio units
SU PRO/AIR radio units
2.12.1 LFF and SFF Units
Connect the external antenna to the antenna connections on the radio as shown.
To antenna
To antenna
Mount the radio unit using a standard mounting kit (see Mounting a Unit with the Standard
Mounting Kit on page 2‐17), as well as the external antenna (needs its own mounting kit).
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SU PRO/AIR Units
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It does not matter if the V or H connection of the antenna is connected to either the ANT 1 or
ANT 2 connection of the radio, but what is important is that you preserve the same
connection scheme throughout the sector (eg: V is always connected to ANT 1, H is always
connected to ANT 2).
2.12.2 SU PRO/AIR Units
Turbo Gain antenna
Fasten the Turbo Gain antenna on the SU PRO/AIR unit using these steps::
a. Connect the cables to the radio
b. Seal the cables (see Waterproofing on page 2‐32)
c. Connect the Turbo Gain antenna
d. Close the screws of the Turbo Gain antenna
e. Seal the connectors on the Turbo Gain antenna using the sealing tape.
Connect cables
Prepare sealing tape
Apply sealing tape ‐ 1
Apply sealing tape ‐ 2
Sealing tape applied
Connect Turbo Gain antenna
Connect cables to Turbo Gain
Sealing tape for Turbo Gain
Tape applied on Turbo Gain ‐ 2
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Waterproofing
Installation Steps
You may need to re‐align the unit.
External, non‐integrated antenna
Follow these steps to connect an external, non‐integrated to the SU PRO/AIR unit:
a. Connect the cables to the radio
b. Seal the cables using ScotchTM 23 splicing tape or similar.
c. Mount an external, non‐integrated antenna using the standard mounting kit (see
Mounting a Unit with the Standard Mounting Kit on page 2‐17).
d. Connect the cables to the external, non‐integrated antenna
e. Seal the connectors on the external, non‐integrated antenna (see Waterproofing on
page 2‐32)
Re‐configure the unit as having an external antenna (see the RADWIN 5000
Configuration Guide).
You may need to re‐align the antenna.
To antenna
It does not matter if the V or H connection of the antenna is connected to either the ANT 1 or
ANT 2 connection of the radio, but what is important is that you preserve the same
connection scheme throughout the sector (eg: V is always connected to ANT 1, H is always
connected to ANT 2).
2.13 Waterproofing
Protect all outdoor connections1 from rain, dust, moisture and salt by taping the cable/gland
connection with an appropriate sealant tape. We recommend using ScotchTM 23 splicing tape
or similar.
1. This is not required for the SU PRO/AIR unit
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Connect Radio (External Connections)
Installation Steps
Figure 2‐39: Sealant tape
Add tape as shown below.
Figure 2‐40: Applying sealant tape to an external connection
2.14 Connect Radio (External Connections)
2.14.1 LFF, SFF and JET Units
1. Connect a CAT‐5e cable to the input port of the radio as shown:
Figure 2‐41: Input port: LFF unit (connection label: “IDU”)
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DUO Units
Installation Steps
Figure 2‐42: Input port: SFF unit (connection label: “IDU”)
Figure 2‐43: Input port: JET unit (connection label: “PoE In”)
2.14.2 DUO Units
1. Connect a CAT‐5e cable to the “PoE IN” port of the radio as shown. This connection
provides power to the unit and can also serve as a management and data connection. It is
referred to as “LAN1” in the RADWIN Manager application :
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DUO Units
Installation Steps
“LAN1”
Figure 2‐44: Input power and data port: DUO unit (“PoE IN” = LAN1)
2. Alternatively, you can use the SFP connection (labeled “LAN”), which
provides management and data connection only (no power). This
connection is referred to as “LAN2” in the RADWIN Manager
application. Note that you must still connect a CAT‐5e cable to “PoE In”
to provide power:
“LAN2”
Figure 2‐45: Input data port: DUO unit (LAN = “LAN2”)
3. Add sealant tape to the connections (see "Waterproofing" on page 2‐32.)
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DUO Units
Installation Steps
If you use the “LAN” port for management or data, it must configured properly.
See the RADWIN 5000 Configuration Guide for more details.
4. Route the CAT‐5e and ground cables down from the radio to a PoE via 2 LPUs: one
near the radio, one near the PoE. Fasten CAT‐5e cable connections with a cable
gland, add sealant tape.
5. Connect ground cable to ground.
6. Perform final connections via a PoE, depending on the type of PoE you are using,
as follows:
Indoor PoE
a. Connect CAT‐5e cable from lower LPU to “Out” port
b. Connect LAN cable to “In” port.
c. Connect power cable
Outdoor PoE
Connect CAT‐5e cable from lower LPU to “PoE” port, fasten with gland, add tape.
a. Connect LAN cable to “ETH” port, fasten with cable gland, add tape.
b. Connect ground cable.
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DUO Units
Installation Steps
c. Connect power cable
IDU‐H
(The IDU‐H does not support the beam‐forming HBS (JET or DUO).
The IDU‐H is an aggregation switch with the functionality of six PoE devices. It is ideal for use
at a base station having several collocated radios.
Figure 2‐46: IDU‐H
The IDU‐H has the following connections:
•
•
SFP ports
LAN ports: Ethernet, supporting GbE.
•
•
•
•
WAN ports: Function identically to the LAN‐Out port on a PoE device.
DC Inputs
Grounding lug
LED colors: Green = link/activity, Yellow = Duplex/two‐way communication
Installing the IDU‐H:
•
•
•
•
The IDU‐H can sit on a table top, but is best installed in a rack.
Connect the HBS IDU port to any of the six PoE ports of the IDU‐H.
The IDU‐H has two LAN ports, either of which may be used for network connection.
The IDU‐H has redundant power connection circuits. A view of the power connectors is
shown below. In this case, only the primary circuit has a power connector:
Figure 2‐47: IDU‐H power connectors and grounding lug.
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SU PRO/AIR Units
Installation Steps
•
For direct DC connection: The connectors are 3 pin in line female, with polarities (left to
right) minus, ground, plus, as shown:
•
For AC connection: To avoid damage to the IDU‐H, always use an AC/DC adapter and
power plug supplied by RADWIN.
Ground the unit with a 10 AWG wire before applying power.
2.14.3 SU PRO/AIR Units
1. Connect a CAT‐5e cable to the input port of the radio as shown:
Figure 2‐48: Input port: SU PRO/AIR unit
Connection label: None
2. Route the CAT‐5e and ground cables down from the radio to a PoE.
• Recommended, although not required: route the CAT‐5e cable via 2 LPUs: one near
the radio, one near the PoE. Fasten CAT‐5e cable connections with gland, add seal‐
ant tape.
3. Connect ground cable to ground.
4. Perform final connections via the SU PRO/AIR PoE:
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Check Connectivity to Radio
Installation Steps
5. Connect CAT‐5e cable from lower LPU to the “PoE” port.
6. Connect LAN cable to “LAN” port.
7. Connect power cable.
2.15 Check Connectivity to Radio
1. Connect to radio unit:
• From a laptop in the field: Disconnect the PoE from the communications network
(LAN connection), and connect the laptop.
• From the NOC: Keep the PoE connected to the LAN.
• You can use the SFP connection of the RADWIN JET DUO (labeled “LAN”) for com‐
munications and management purposes only.
2. From a command line, ping radio using radio’s IP address.
2.16 Activate Base Station
Applicable only if you are installing a base station.
1. Connect to radio unit:
• From a laptop in the field: Disconnect the PoE from the communications network
(LAN connection), and connect the laptop.
• From the NOC: Keep the PoE connected to the LAN.
• You can use the SFP connection of the RADWIN JET DUO (labeled “LAN”) for com‐
munications and management purposes only.
2. Log on to the RADWIN Manager application as “Installer”.
3. Enter IP address of Base Station (HBS).
4. From main window of the RADWIN Manager application, click Activate.
5. Follow wizard instructions to activate radio.
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Align Subscriber Unit
Installation Steps
2.17 Align Subscriber Unit
•
•
•
Make sure the subscriber unit’s base station is activated (check with the NOC).
Point the subscriber unit (or its external antenna) in the general direction of its base sta‐
tion.
Continue according to the type of unit you are using:
2.17.1 LFF and SFF Units
1. Align the unit horizontally (in azimuth):
a. Swivel the unit 90o to the left slowly, 180o to the right, and then 90o back towards
the base station.
Figure 2‐49: Swivel horizontally (SFF unit shown)
b. While swiveling the unit, listen to the buzzer beep sequence until optimal
alignment is achieved (3 beeps and a pause, as shown below).
2. Repeat the above in elevation.
Figure 2‐50: Swivel vertically (LFF unit shown)
3. Once alignment is complete, tighten the bolt holding the radio on the mounting
kit.
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SU PRO/AIR Units
•
•
Installation Steps
The subscriber unit will stop beeping when it is aligned with the base station, and con‐
figured.
You can manually cease the beeping via the RADWIN Manager application.
2.17.2 SU PRO/AIR Units
1. Connect to the unit via WiFi using a smartphone.
2. Using WINTouch:
•
Operate the WINTouch application, and follow its instructions.
3. Using the Web Interface:
a. Using a PC or laptop: access the web interface (enter the unit’s IP address in a web
browser)
b. Log in using username admin and password netman.
c. Activate the device by clicking Tools ‐> Operations ‐> Functions ‐> Device
Activation.
d. You can continue with a PC or a smartphone: Click Tools ‐> Antenna Alignment.
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SU PRO/AIR Units
Installation Steps
e. A graph will appear showing the real‐time RSS value and the best RSS value for the
test period. While referring to the real‐time RSS value, do the following:
f.
Swivel the unit or its external antenna 90o to the right slowly, 180o to the left, and
then 90o back towards the base station. Note at which point the RSS value is
maximum.
g. Repeat the above in elevation.
Figure 2‐51: Swivel horizontally
Figure 2‐52: Swivel vertically
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SU PRO/AIR Units
Installation Steps
4. Once alignment is complete, tighten the arm on the mounting kit (see Figure 2‐53
for the SU PRO/AIR, see Figure 2‐33 for an external antenna).
5. If the unit requires more tightening, use the hex screw with a 5mm hex key as
shown in Figure 2‐54.
Figure 2‐53: Tighten arm on mount: SU PRO/AIR radio unit
Figure 2‐54: Use hex screw to further tighten arm on mount: SU PRO/AIR radio unit
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Chapter 3: Safety Practices and
Provisions
3.1 Scope of this Chapter
This chapter describes various safety practices.
3.1.1 Preventing Overexposure to RF Energy
To protect against overexposure to RF energy, install the radio units so as to provide and
maintain minimal separation distances from all persons.
When the system is operational, avoid standing directly in front of the antenna. Strong RF
fields are present when the transmitter is on. The radio unit must not be deployed in a
location where it is possible for people to stand or walk inadvertently in front of the antenna.
3.1.2 Grounding
All RADWIN products should be grounded during operation. In addition:
•
•
•
All ODUs should be grounded by a wire with diameter of at least 10 AWG.
The ground lug on an IDU‐H should be connected to the protective earth at all times, by
a wire with a diameter of 18 AWG or wider.
Rack‐mounted equipment should be mounted only in grounded racks and cabinets.
Further, you should ‐
•
•
•
Always make the ground connection first and disconnect it last
Never connect telecommunication cables to ungrounded equipment
Ensure that all other cables are disconnected before disconnecting the ground
3.1.3 Protection against Lightning
The use of lightning protection is dependent on regulatory and end user requirements. All
RADWIN outdoor units are designed with surge limiting circuits to minimize the risk of
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General
Safety Practices and Provisions
damage due to lightning strikes. RADWIN recommends the use of additional surge arrestor
devices to protect the equipment from nearby lightning strikes.
3.1.4 General
•
•
•
•
•
•
•
It is recommended that installation of outdoor units be contracted to a professional
installer
Before working on equipment connected to power lines or telecommunication lines,
remove jewelry or any other metallic object that may come into contact with energized
parts
Use extreme care when installing antennas near power lines
Use extreme care when working at heights
When using an AC power source for RADWIN devices, always use the AC power adapter
supplied by RADWIN
Use the right tools!
Do not mount an radio unit upside down or horizontally. Doing this may void you prod‐
uct warranty.
3.1.5 Internal ESD Protection circuits
RADWIN equipment is designed to meet the ETSI/FCC/Aus/NZ/CSA EMC and Safety
requirements. To fulfill these requirements, the system's Telecom lines at the radio unit/PoE
are Transformer‐isolated and include internal ESD (Electro‐Static‐Discharge) Protection
circuits.
When installing an AC powered HSU: To maintain Overvoltage
(Installation) Category II, install a suitable surge suppressor device in the
branch circuit to limit expected transients to Overvoltage Category II
values.
The limits are based on IEC60664 and are also located in Table 2H of
UL60950 (for mains <= 150V, the transient rating is 1500V; for 150V <
mains <= 300V, the transient rating is 2500V; and for 300V < mains <=
600V, the transient rating is 4000V).
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Appendix A: Terminology
Table A‐1: Terminology (Sheet 1 of 3)
Term
Description
Assured throughput
Actual number of timeslots allocated to a radio unit.
ACS
Automatic Channel Selection. Option that instructs the radio to
choose which frequency to use. Enabling or disabling this option
has various ramifications as shown in the documentation.
ATPC
Automatic Transmit Power Control
BE
Best Effort: A level of priority for traffic in which users receive
dynamic resource allocation according to overall demand. They
are not guaranteed resources. See also CIR.
BS
Base Station: a radio that can transmit and receive to more than
one point. See also HBS
CIR
Committed Information Rate: A level of priority for traffic in which
users receive a guaranteed percentage of resources in addition to
dynamic resources if available. See also BE.
CPE
Customer Premises Equipment
DBA
Dynamic Bandwidth Allocation: a method that allocates
bandwidth between the various users of that same bandwidth in
the network.
DHCP
Dynamic Host Configuration Protocol: a protocol that
automatically assigns IP addresses and other network
configuration parameters.
Diversity
A technique by which the reliability of a radio link is increased
using multiple transmitting and receiving antennas, transmitting
the same signal on all antennas.
Downlink
Data traffic from an HBS to an HSU, or
Data traffic from an RT‐A to an RT‐B
DUO
Dual Band base station
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Table A‐1: Terminology (Sheet 2 of 3)
Term
Description
EIRP
Equivalent (or Effective) Isotropically Radiated Power: The power
that an antenna must emit to produce the peak power density in
the direction of maximum antenna gain. In our cases, this is
usually: System Tx Power + Antenna
Gain ‐ Cable Loss.
FAA
Federal Aviation Administration. A U.S. federal office that manages
aviation regulations throughout the United States.
Fixed (HSU)
A “fixed” HSU remains in one location, as contrasted with a
nomadic or mobile HSU, which does not remain in one location.
GHSS
GPS Hub Site Synchronization
HBS
High capacity Base Station. Same as a BS
HMU
High capacity Mobility (subscriber) Unit. Similar to an HSU, but can
be mobile.
HSC
Hub Sync Client: When using Hub Site Synchronization, one unit is
a master (generates the sync pulses), and the other units are
clients.
HSM
Hub Sync Master: When using Hub Site Synchronization, one unit
is a master (generates the sync pulses), and the other units are
clients.
HSU
High capacity Subscriber Unit. Same as an SU
ISU
Integrated Synchronization Unit: a network device that provides a
synchronization signal to underground HBSs.
ITHO
Intra‐train handover mechanism
LFF
Large Form‐Factor
MIMO
Multiple In, Multiple Out. A technique by which the capacity of a
radio link is increased using multiple transmitting and receiving
antennas, transmitting a different signal on all antennas.
MIR
Maximum Information Rate
Mobile (HSU)
A “mobile” HSU can move from location to location and provide
service while it moves or when it is stationary.
Nomadic (HSU)
A “nomadic” HSU move from location to location but can only
provide service when it is stationary.
ODU
Outdoor Unit: a generic term for any radio, and can usually be
exchanged for HBS or HSU.
PtMP
Point to Multi‐Point: link from an HBS to several HSUs
PtP
Point to Point
RADIUS
Remote Authentication Dial‐In User Service
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Table A‐1: Terminology (Sheet 3 of 3)
Term
Description
QoS
Quality of Service
SBM
Smart Bandwidth Management
Sector
A group of radios that consists of one HBS and several HSUs that
communicate with the HBS.
SFF
Small Form‐Factor
SLA
Service Level Agreement
SSM
Synchronization Status Message: Provides traceability of
synchronization signals, and is used in the Synchronous Ethernet
standard of communication.
SU
Subscriber Unit: a radio that can transmit and receive to one point.
See also HSU
Sync E or SyncE
Synchronous Ethernet: A standard of communication for ethernet
that provides a synchronization signal to network elements that
need such a signal.
TBS
Transportation Base Station. Similar to an HBS or BS, but used with
high‐speed transportation applications.
TDWR
Terminal Doppler Weather Radar: a type of radar station used in
the U.S. and other countries for weather reporting. If a radio unit is
installed close enough to one of these stations, the FCC requires
that certain actions must be taken on the part of the customer.
Regulations in other countries varies.
TMU
Transportation Mobile Unit. Similar to an SU
Track Side
Items or subject matter that relates to the environment not on or
inside the train. It is not limited to precisely next to the track.
Train Side
Items or subject matter that relates to the environment on or
inside the train itself.
Uplink
Data traffic from an HSU to an HBS, or
Data traffic from an RT‐B to an RT‐A
VMU
Vehicular Mobile Unit
WI
Web Interface: web‐based application that provides simple
configuration capabilities for the radio units.
WISPA
Wireless Internet Service Provider Association. An organization
that manages registration of wireless devices that operate close to
TDWR facilities run by the FAA.
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Appendix B: Wiring
Specifications
B.1 Scope of this Appendix
This appendix shows wiring specifications for the HBS and HSU.
B.1 Radio unit‐PoE Cable (HBS and HSU)
The radio unit‐PoE cable is shielded/outdoor class CAT‐5e, 4 twisted‐pair 24 AWG terminated
with RJ‐45 connectors on both ends. A cable gland on the radio unit side provides hermetic
sealing.
The following table shows the connector pinout:
Table B‐1: Radio unit‐PoE RJ‐45 Connector Pinout
Function
Color
PoE
ODU
Rx N
White/Green
Rx T
Green
Tx T
White/Orange
Tx N
Orange
Power (+)
Blue
Power (+)
White/Blue
Power ()
White/Brown
Power ()
Brown
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Scope of this Appendix
Table B‐2: LAN‐GbE PoE RJ‐45 Connector Pinout
Function
Color
PoE
LAN
TxRx A
White/Green
TxRx A
Green
TxRx B
White/Orange
TxRx B
Orange
TxRx C & Power(+)
Blue
TxRx C & Power(+)
White/Blue
TxRx D & Power(‐)
White/Brown
TxRx D & Power(‐)
Brown
B.2 User Port Connectors
B.2.1 LAN Port
The LAN 10/100BaseT interface terminates in an 8‐pin RJ‐45 connector, wired in accordance
to Table B‐3.
Table B‐3: Fast Ethernet Connector Pinout
Function
Signal
Pin
Transmit Data (positive)
TD (+)
Transmit Data (negative)
TD (–)
Receive Data (positive)
RD (+)
Receive Data (negative)
RD (–)
B.3 DC Power Terminals
B.3.1 DC PoE
DC power terminals are as follows:
Table B‐4: Terminal Block 2‐pin ‐48VDC
Function
Pin
Right
–
Left
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Scope of this Appendix
B.4 SU2‐AC Power Terminal
The SU2‐AC power port is a four pin male socket with pin assignments as follows:
Table B‐5: SU2‐AC power pin assignments
Pin
Wire Color
Function
Red
Line
Not used
Black
Neutral
Green or Green‐
Yellow
Ground
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Appendix C: About Antennas
C.1 Scope of this Appendix
This appendix provides some basic information and considerations regarding antennas and
what you need to take into account when configuring antenna parameters.
C.1 Antenna Issues
The choice of Tx Power, antenna gain and cable loss (between the radio and the a ntenna)
determines the EIRP and is affected by such considerations as radio limitations and regulatory
restrictions.
Before proceeding to antenna installation details, the following background information
should be considered:
C.2 About Single and Dual Antennas
Each RADWIN 5000 HPMP ODU is made of two radio transceivers (radios). The radios make
use of algorithms that utilize both Spatial Multiplexing (also called MIMO) and Diversity
resulting in enhanced capacity, range and link availability. The number of antennas (i.e.
radios) used is determined by user configuration and by automatic system decisions,
explained below.
C.2.1 Dual Antennas at the HBS and an HSU
When using dual antennas at both sites (single bipolar antenna or two mo‐unipolar antennas)
you can choose between Spatial Multiplexing Mode and Diversity Mode.
Spatial Multiplexing Mode
Under this mode, the system doubles the link capacity. At the same time, it keeps the same
rate and modulation per radio as was used with single antenna, thus increasing capacity,
range and availability.
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Scope of this Appendix
For example with a dual antenna RADWIN 5000 HPMP can transmit at modulation of 64QAM
and FEC of 5/6 and get an air rate of 130 Mbps, compared to 65 Mbps with single antenna.
To work in this mode, each antenna port must be connected to an antenna, the RSS level in
both receivers should be balanced and a minimal separation between the antennas must be
maintained. (For example, by using dual polarization antennas a cross polarization separation
is attained).
Upon selecting Ante nna Type as Dual, RADWIN 5000 HPMP automatically selects this mode
and doubles the air rates.
RADWIN Manager indicates a case of unbalanced RSS between the two antennas in the HBS
panels.
Diversity Mode
Diversity Mode uses two antennas to improve the quality and reliability of t he link. Often,
there is not a clear line‐of‐sight (LOS) between transmitter and receiver. Instead the signal is
reflected along multiple paths before finally being received.
Each such “bounce” can introduce phase shifts, time delays, attenuations, and even
distortions that can destructively interfere with one another at the aperture of the receiving
antenna. Antenna diversity is especially effective at mitigating these multi‐path situations.
This is because multiple antennas afford a receiver several recordings of the same signal. Each
antenna will be exposed to a different interference environment. Thus, if one antenna is
undergoing a deep fade, it is likely that another has a sufficient signal. Collectively such a
system can provide a robust link.
Antenna diversity requires antenna separation which is possible by using a dual‐polarization
antenna or by two spatially separated antennas.
Use Diversity instead of Spatial Multiplexing in the following situations:
•
•
•
•
When the system cannot operate in Spatial Multiplexing Mode
When one of the receivers has high interference compared to the second receiver (i.e.
the system is “unbalanced”)
When you achieve higher capacity in Diversity Mode than in Spatial Multiplexing Mode
When high robustness is of importance and the capacity of Diversity Mode is sufficient
(up to 25 Mbps full duplex)
C.2.2 Single Antennas at Both Sites
By selecting a single antenna at the HBS and HSU, the ODUs operate with a single radio that is
connected to the ANT 1 connector. The second radio is automatically shut down.
C.2.3 Single at One Site, Dual Antennas at the Other
In this mode one of the sites uses the ODU with a single antenna while the other site uses the
ODU with a dual antenna.
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Scope of this Appendix
The advantages in this mode in comparison to using a single antenna in both sites are
doubled total Tx Power and additional polarization and/or space diversity (depending on the
polarization of installed antennas).
The air rates used in this mode are same as when using single antennas in both sites.
Table C‐1 summarizes the situation: (SM =Spatial Multiplexing)
Table C‐1: Spatial Multiplexing ‐ Diversity settings
Number of
Antennas
Site A
Mode
Site B
Site A
Site B
Max Full
Duplex
Capacity
Spatial
Multiplexing
Spatial
Multiplexing
50 Mbps
Diversity
Diversity
25 Mbps
Diversity
Single
25 Mbps
Single
Diversity
25 Mbps
Single
Single
25 Mbps
Site A and B may be HBS or HSU.
C.3 Considerations for Changing Antenna
Parameters
Let:
max Available Tx Power denote the maximum Tx Power practically available from an ODU. (It
appears as Tx Power per Radio.)
maxRegEIRP denote the maximum EIRP available by regulation. It will be determined by
three factors:
•
•
•
per band/regulation
per channel bandwidth
antenna gain
maxRegTxPower denote the maximum regulatory Tx Power for the equipment, also having
regard the above three points.
Then, the following relationship must be satisfied:
maxAvailableTxPower  min(maxRegEIRP
– AntennaGain + CableLoss maxRegTxPower)
... (*)
The Tx Power (per radio) indicates the power of each radio inside the ODU and is used for Link
Budget Calculations. The Tx Power (System) shows the total transmission power of the ODU
and is used to calculate the EIRP according to regulations.
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Scope of this Appendix
•
The Max EIRP level will be automatically set according to the
selected band and regulation.
The inequality (*) above is always satisfied by the system in accordance with the relevant
regulation.
The precise relationship between the items in inequality (*) is as follo ws:
•
•
•
•
Required Tx Power (per radio) will be adjusted down to the lesser of the value entered
and maxAvailableTxPower
Tx Power (system) is maxAvailableTxPower + 3 (for 2 radios)
Max EIRP is maxRegEIRP.
EIRP is maxAvailableTx Power + Antenna Gain ‐ Cable Loss
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Appendix D: Regional Notice:
French Canadian
D.1 Procédures de sécurité
D.1.1 Généralités
Avant de manipuler du matériel connecté à des lignes électriques ou de télécommunications,
il est conseillé de se défaire de bijoux ou de tout autre objet métallique qui pourrait entrer en
contact avec les éléments sous tension.
D.1.2 Mise à la terre
Tous les produits RADWIN doivent être mis à la terre pendant l'usage courant. La mise à la
terre est assurée en reliant la fiche d'alimentation à une prise de courant avec une protection
de terre. En outre:
•
•
•
La cosse de masse sur l'IDU‐C doit être constamment connectée à la protection de
terre, par un câble de diamètre de 18 AWG ou plus. Le matériel monté sur rack doit être
installé seulement sur des racks ou armoires reliés à la terre
Une ODU doit mise à la terre par un câble de diamètre de 10 AWG ou plus
Il ne doit pas y avoir de fusibles ou d'interrupteurs sur la connection à la terre
De plus:
•
•
•
Il faut toujours connecter la terre en premier et la déconnecter en dernier
Il ne faut jamais connecter les câbles de télécommunication à du matériel non à la terre
Il faut s'assurer que tous les autres câbles sont déconnectés avant de déconnecter la
terre
D.1.3 Protection contre la foudre
L'utilisation de dispositifs de protection contre la foudre dépend des exigences
réglementaires et de l'utilisateur final. Toutes les unités extérieures RADWIN sont conçues
avec des circuits de limitation de surtension afin de minimiser les risques de dommages dus à
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la foudre. RADWIN conseille l'utilisation d'un dispositif de parafoudre supplémentaire afin de
protéger le matériel de coups de foudre proches.
Matériel supplémentaire requis
L'équipement requis pour l'installation du matériel est le suivant:
•
•
•
•
•
•
•
Pince à sertir RJ‐45 (si un câble pré‐assemblé ODU/IDU n'est pas utilisé)
Perceuse (pour le montage sur mur seulement)
Câbles de terre IDU et ODU
Clef 13 mm (½)
Câble ODU ‐ IDU si non commandé (type extérieur, CAT‐5e, 4 paires torsadées, 24 AWG)
Colliers de serrage
Ordinateur portable avec Windows 2000 ou Windows XP.
D.1.4 Précautions de sécurité pendant le montage de ODU
Avant de connecter un câble à l'ODU, la borne protectrice de masse (visse) de l'ODU doit être
connectée à un conducteur externe protecteur ou à un pylône relié à la terre. Il ne doit pas y
avoir de fusibles ou d'interrupteurs sur la connection à la terre.
Seulement un personnel qualifié utilisant l'équipement de sécurité approprié doit pouvoir
monter sur le pylône d'antenne. De même, l'installation ou le démontage de ODU ou de
pylônes doit être effectuée seulement par des professionnels ayant suivi une formation.

Pour monter l'ODU:
1. Vérifier que les supports de fixation de l'ODU sont correctement mis à la terre.
2. Monter l'unité ODU sur le pylône ou sur le mur; se référer à la Installation sur
pylône et mur au dessous.
3. Connecter la câble de terre au point de châssis sur l'ODU.
4. Relier le câble ODU‐IDU au connecteur ODU RJ‐45.
5. Visser les presses‐étoupe de câbles pour assurer le scellement hermétique des
unités ODU.
6. Attacher le câble au pylône ou aux supports en utilisant des colliers classés UV.
7. Répéter la procédure sur le site distant.
Ne pas se placer en face d'une ODU sous tension.
D.1.5 Connecter la terre à IDU‐C
Connecter un câble de terre de 18 AWG à la borne de masse de l'appareil. L'appareil doit être
constamment connecté à la terre.
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D‐2
• Les appareils sont prévus pour être installés par un personnel de ser‐
vice.
• Les appareils doivent être connectés à une prise de courant avec une
protection de terre.
• Le courant CC du IDU‐C doit être fourni par l'intermédiaire d'un disjonc‐
teur bipolaire et le diamètre du câble doit être de 14 mm avec un con‐
duit de 16 mm.
D.2 Installation sur pylône et mur
L' ODU ou l'O‐PoE peuvent être montés sur un pylône ou un mur.
D.2.1 Contenu du kit de montage ODU
Le kit de montage ODU comprend les pièces suivantes:
Figure D‐1: Contenu du kit de montage ODU
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D‐3
D.2.2 Montage sur un pylône
Figure D‐2: Montage sur un pylône (1)
Figure D‐3: Montage sur un pylône (2)
D.2.3 Montage sur un mur
Figure D‐4: Montage sur un mur (1)
Figure D‐5: Montage sur un mur (2)
D.2.4 Montage d'une antenne externe
L'antenne externe optionnelle peut être montée sur un pylône.
D.2.5 Contenu du kit de montage d'une antenne externe
Le kit de montage d'une antenne externe comprend les pièces suivantes
•
•
•
Douze rondelles plates
Huit rondelles élastiques
Huit écrous hex
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•
•
•
•

Quatre boulons
Un support en U
Un support à pivotement
Deux courroies de fixation en métal
Pour installer une antenne externe sur un pylône:
1. Attacher le support en U à l'arrière de l'antenne en utilisant quatre rondelles plates,
quatre rondelles élastiques et quatre écrous hex.
2. Attacher le support à pivotement au support en U en utilisant huit rondelles plates,
quatre rondelles élastiques, quatre écrous hex et quatre boulons.
3. Passer les deux courroies de fixation par les fentes verticales dans le support à
pivotement.
4. Attacher l'antenne au pylône en utilisant les deux courroies de fixation .
Ajuster l'inclinaison nécessaire en utilisant l'échelle angulaire et serrer tous les boulons et
écrous à la position requise.
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Appendix E: Certified Antennas
E.1 For Deployment in US/Canada
Radio devices that bear the following FCC/IC IDs refer to Table E‐1 to Table E‐4 below:
Contains FCC ID: Q3K‐ 5XACMOLD
Contains IC: 5100A‐ 5XACMOD
Only the antennas shown in the tables below or antennas of the same type with lower gain
are approved for use in this system. The antennas must be installed so as to provide a
minimum separation distance from bystanders as specified in the tables below:
Table E‐1: Frequency Band 5725‐5850 MHz
Cat. No.
Type
Gain (dBi)
Dir
BW
Tx Power
per chain
(dBm)
Min. Safe
Distance (cm)
Integrated
Flat DP BS
11.0
120°
25
26
RW‐9061‐5004
Flat DP BS
11.0
120°
25
26
Integrated
Flat DP BS
12.0
95°
25
29
Integrated
Flat DP BS
13.0
90°
25
32
RW‐9061‐5001
Flat DP BS
14.0
90°
25
36
RW‐9061‐5002
Flat DP BS
15.5
60°
25
43
Integrated
Flat DP
16.0
35°
25
45
Integrated
Flat DP
16.5
35°
25
48
RW‐9613‐4960
Flat DP
23.0
8°
25
100
Integrated
Flat DP
23.5
8°
25
107
RW‐9622‐5001
Flat DP
29.0
5°
25
200
RW‐9401‐5002
Shark Fin SP
12.5
50°
25
30
RW‐9721‐5158
Dish DP
28.0
5.5°
25
178
RW‐9732‐4958
Dish DP
32.0
4°
25
314
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Table E‐2: Frequency Bands 5250‐5350 MHz and 5470‐5725 MHz
Cat. No.
Type
Gain (dBi)
Tx Power
per chain
(dBm)
Dir
BW
Min. Safe
Distance (cm)
Integrated
Flat DP BS
11.0
120°
16
20
RW‐9061‐5004
Flat DP BS
11.0
120°
16
20
Integrated
Flat DP BS
12.0
95°
15
20
Integrated
Flat DP BS
13.0
90°
14
20
RW‐9061‐5001
Flat DP BS
14.0
90°
13
20
RW‐9061‐5002
Flat DP BS
15.5
60°
11.5
20
Integrated
Flat DP
16.0
35°
11
20
Integrated
Flat DP
16.5
35°
10.5
20
RW‐9613‐4960
Flat DP
23.0
8°
20
Integrated
Flat DP
23.5
8°
3.5
20
RW‐9622‐5001
Flat DP
29.0
5°
‐2
20
RW‐9401‐5002
Shark Fin SP
12.5
50°
14.5
20
RW‐9721‐5158
Dish DP
28.0
5.5°
‐1
20
RW‐9732‐4958
Dish DP
32.0
4°
‐5
20
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E‐2
Table E‐3: Frequency Bands 5150‐5250 MHz
Cat. No.
Type
Gain (dBi)
Dir
BW
Tx Power
per chain
(dBm)
Min. Safe
Distance (cm)
Integrated
Flat DP BS
11.0
120°
22
20
RW‐9061‐5004
Flat DP BS
11.0
120°
22
20
Integrated
Flat DP BS
12.0
95°
21
20
Integrated
Flat DP BS
13.0
90°
18
20
RW‐9061‐5001
Flat DP BS
14.0
90°
18
20
RW‐9061‐5002
Flat DP BS
15.5
60°
18
20
Integrated
Flat DP
16.0
35°
24
40
Integrated
Flat DP
16.0
35°
24
40
RW‐9613‐4960
Flat DP
23.0
8°
25
100
Integrated
Flat DP
23.5
8°
25
107
RW‐9622‐5001
Flat DP
29.0
5°
22
142
RW‐9401‐5002
Shark Fin SP
12.5
50°
21
20
RW‐9721‐5158
Dish DP
28.0
5.5°
19
90
RW‐9732‐4958
Dish DP
32.0
4°
19
142
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E‐3
Table E‐4: Frequency Bands 4940‐4990 MHz
Cat. No.
Type
Gain (dBi)
Dir
BW
Tx Power
per chain
(dBm)
Min. Safe
Distance (cm)
Integrated
Flat DP BS
11.0
120°
25
26
RW‐9061‐5004
Flat DP BS
11.0
120°
25
26
Integrated
Flat DP BS
12.0
95°
25
29
Integrated
Flat DP BS
13.0
90°
25
32
RW‐9061‐5001
Flat DP BS
14.0
90°
25
36
RW‐9061‐5002
Flat DP BS
15.0
60°
25
40
Integrated
Flat DP
14.0
35°
25
36
Integrated
Flat DP
16.0
35°
25
45
RW‐9613‐4960
Flat DP
23.0
8°
25
100
Integrated
Flat DP
21.0
8°
25
80
RW‐9622‐5001
Flat DP
29.0
5°
25
200
RW‐9401‐5002
Shark Fin SP
12.5
50°
25
30
RW‐9721‐5158
Dish DP
28.0
5.5°
25
178
RW‐9732‐4958
Dish DP
30.0
4°
25
225
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E‐4
The RADWIN SU PRO/AIR bears the following FCC/IC IDs on the label. Refer to Table E‐5 to
Table E‐9 below:
FCC ID: Q3K‐5XACULC‐X
IC: 5100A‐5XACULC‐X
The RADWIN SU PRO/AIR must be installed so as to provide a minimum separation distance
from bystanders as specified in the tables below:
Table E‐5: Frequency Band 5725‐5850 MHz
Cat. No.
Type
Gain (dBi)
Dir BW
Min. Safe
Tx Power per
chain (dBm) Distance (cm)
Embedded
Flat DB
16.0
17.5° Hor
29.1° Ver
27
110
RW‐9614‐5359
Flat DB
23.0
10.0°
27
110
Table E‐6: Frequency Bands 5250‐5350 MHz and 5470‐5725 MHz
Cat. No.
Type
Gain (dBi)
Dir BW
Min. Safe
Tx Power per
chain (dBm) Distance (cm)
Embedded
Flat DB
16.0
17.5° Hor
29.1° Ver
10
20
RW‐9614‐5359
Flat DB
23.0
10.0°
20
Table E‐7: Frequency Band 5150‐5250 MHz
Cat. No.
Type
Gain (dBi)
Dir BW
Min. Safe
Tx Power per
chain (dBm) Distance (cm)
Embedded
Flat DB
16.0
17.5° Hor
29.1° Ver
11
107
RW‐9614‐5359
Flat DB
23.0
10.0°
107
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E‐5
Table E‐8: Frequency Band 4940‐4990 MHz
Cat. No.
Type
Gain (dBi)
Dir BW
Min. Safe
Tx Power per
chain (dBm) Distance (cm)
Embedded
Flat DB
14.0
17.5° Hor
29.1° Ver
17
43
RW‐9614‐5359
Flat DB
23.0
10.0°
17
43
Tx Power per
chain (dBm)
Min. Safe
Distance (cm)
26
110
Table E‐9: Frequency Band 2400‐2483.5 MHz WiFi
Cat. No.
On Board
Type
Printed
Gain (dBi)
Dir BW
3.0
360°
The RADWIN 5000 JET bears the following FCC/IC IDs on the label, and refer to Table E‐10 to
Table E‐13 below:
FCC ID: Q3K‐BFJET5X
IC: 5100A‐BFJET5X
The RADWIN 5000 JET must be installed so as to provide a minimum separation distance from
bystanders as specified in the tables below:
Table E‐10: Frequency Band 5725‐5850 MHz
Operating Form
Gain (dBi)
Dir BW
Tx Power per
chain (dBm)
Min. Safe Distance
(cm)
Uniform
20.0
9.4°
13
96
Floodlight
11.0
60°
22
96
Table E‐11: Frequency Bands 5250‐5350 MHz and 5470‐5725 MHz
Operating Form
Gain (dBi)
Dir BW
Tx Power per
chain (dBm)
Min. Safe Distance
(cm)
Uniform
20.0
9.4°
20
Floodlight
11.0
60°
16
20
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E‐6
Table E‐12: Frequency Bands 5150‐5250 MHz
Operating Form
Gain (dBi)
Tx Power per
chain (dBm)
Dir BW
Min. Safe Distance
(cm)
Uniform
20.0
9.4°
13
20
Floodlight
11.0
60°
13
20
Table E‐13: Frequency Bands 4940‐4990 MHz
Operating Form
Gain (dBi)
Tx Power per
chain (dBm)
Dir BW
Min. Safe Distance
(cm)
Uniform
17.0
9.4°
21
55
Floodlight
8.0
60°
21
55
The RADWIN JET DUO bears the following FCC/IC IDs on the label, and refer to Table E‐14 to
Table E‐16 below:
FCC ID: Q3K‐JETDB5X3X
IC: 5100A‐JETDB5X3X
The RADWIN JET DUO must be installed so as to provide a minimum separation distance from
bystanders as specified in the tables below:
Table E‐14: Frequency Band 5725‐5850 MHz
Operating Form
Gain (dBi)
Dir BW
Tx Power per
chain (dBm)
Min. Safe
Distance (cm)
Uniform
20.0
12°
13
32
Sharp
19.0
16°
14
32
Floodlight
11.0
85°
22
32
Table E‐15: Frequency Band 5150‐5250 MHz
Operating Form
Gain (dBi)
Dir BW
Tx Power per
chain (dBm)
Min. Safe
Distance (cm)
Uniform
20.0
12°
13
30
Sharp
19.0
16°
14
30
Floodlight
11.0
85°
22
30
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E‐7
Table E‐16: Frequency Band 3650‐3700 MHz
Operating Form
Gain (dBi)
Dir BW
Tx Power per
chain (dBm)
Min. Safe
Distance (cm)
Uniform
17.0
17°
27
55
Floodlight
11.0
70°
27
55
E.2 For Deployment in ETSI Countries
Table E‐17: Safety Distances for RADWIN 5000 ETSI Products
Frequency Band
[GHz]
5.8/5.3/5.4/2.4
Antenna gain
[dBi]
Min. Safety
Distance
[cm]
All gains
20
The RADWIN 5000 JET must be installed so as to provide a minimum separation distance from
bystanders as specified in the tables below:
Table E‐18: Frequency Band 5725‐5875 MHz
Operating Form
Gain (dBi)
Tx Power per
chain (dBm)
Dir BW
Min. Safe
Distance (cm)
Uniform
20.0
9.4
20
Floodlight
11.0
60
16
20
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E‐8
Appendix F: Revision History
Table F‐1: Revision History: RADWIN 5000 HPMP Installation Guide: DQ0193780/0.6
Cat.No.
Date
DQ0193780/0.1
Description
Feb,
System Release 4.9 2017
•
Initial release
DQ0193770/0.2
•
Turbo Gain antenna description added (see SU PRO/AIR
Units on page 2‐31
Regulatory comment added (see Regulatory Compliance:
General Note)
System Release
4.9.15
DQ0193770/0.3
System Release
4.9.17
DQ0193770/0.4
System Release
4.9.20
DQ0193770/0.6
System Release
4.9.30
Jun,
2017
•
Sep,
2017
•
•
Nov,
2017
Dec,
2017
•
External antenna added for SU/PRO Air (see SU PRO/AIR
Units on page 2‐31 and see External, non‐integrated
antenna on page 2‐32)
Description for attaching cables for the Turbo Gain
antenna modified (see SU PRO/AIR Units on page 2‐31)
Description added for sealing tape when installing Turbo
Gain antenna on SU/PRO Air units (see SU PRO/AIR Units
on page 2‐31)
New product: RADWIN JET DUO:
•
•
•
RADWIN 5000 Installation Guide
Has two frequency bands (3.x and 5.x)
Uses a larger, integrated antenna than that of the JET plat‐
form (see JET and DUO Units on page 2‐4)
Uses the second input port on the JET platform as an SFP port
(see DUO Units on page 2‐34)
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Regulatory Compliance
General Note
This system has achieved Type Approval in various countries around the world. This means
that the system has been tested against various local technical regulations and found to
comply. The frequency bands in which the system operates may be “unlicensed” and in these
bands, the system can be used provided it does not cause interference.
For information on the restrictions on putting the device into service please contact your
national telecommunication authorities.
FCC/ISED ‐ Compliance
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment
generates, uses and can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television reception, which can
be determined by turning the equipment off and on, the user is encouraged to try to correct
the interference by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
Changes or modifications to this equipment not expressly approved by the party responsible
for compliance could void the user's authority to operate the equipment.
RF Exposure
For the safety of the general public it is recommended to keep a minimum safe distance from
radiating antennas according to the table below:
Pour la sécurité du grand public, il est recommandé de respecter une distance de sécurité
minimale par rapport aux antennes rayonnantes, conformément au tableau ci‐dessous:
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FCC Identifier
IC Identifier
Safe Distance
(cm)
Band (GHz)
U.S.
Canada
Contains FCC ID: Q3K‐5XACMOLD
Contains IC: 5100A‐5XACMOD
4.9‐5.8
310
314
FCC ID: Q3K‐BFJET5X
IC: 5100A‐ BFJET5X
4.9‐5.8
94.38
96
FCC ID: Q3K‐JETDB5X3X
IC: 5100A‐JETDB5X3X
3.6; 5.1; 5.8
55
66
FCC ID: Q3K‐5XACULC‐X
IC: 5100A‐5XACULC‐X
2.4; 4.9‐5.8
110
115
It is the responsibility of the installer to ensure that when using the
outdoor antenna kits in the United States (or where FCC rules apply), only
those antennas certified with the product are used. The use of any
antenna other than those certified with the product is expressly forbidden
by FCC rules 47 CFR part 15.204.
It is the responsibility of the installer to ensure that when configuring the
radio in the United States (or where FCC rules apply), the Tx power is set
according to the values for which the product is certified. The use of Tx
power values other than those, for which the product is certified, is
expressly forbidden by FCC rules 47 CFR part 15.204.
Indoor Units comply with part 15 of the FCC rules. Operation is subject to the following two
conditions:
(1) These devices may not cause harmful interference.
(2) These devices must accept any interference received, including interference that may
cause undesired operation.
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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. Failure to do so may void the product
warranty and may expose the end user or the service provider to legal and
financial liabilities. Resellers or distributors of this equipment are not
liable for injury, damage or violation of regulations associated with the
installation of outdoor units or antennas. The installer should configure
the output power level of antennas according to country regulations and
antenna type.
Les unités extérieures et les antennes doivent être installées
UNIQUEMENT par des les professionnels de l'installation qui connaissent
le bâtiment et la sécurité locaux codes et, le cas échéant, sont autorisés
par les autorités compétentes autorités de réglementation
gouvernementales. Ne pas le faire peut annuler le produit garantie et peut
exposer l'utilisateur final ou le fournisseur de services à des passifs
financiers. Les revendeurs ou distributeurs de cet équipement ne sont pas
responsable des blessures, des dommages ou de la violation de la
réglementation installation d'unités extérieures ou d'antennes.
L'installateur doit configurer le niveau de puissance de sortie des antennes
selon les réglementations du pays et type d'antenne.
•
•
Where Outdoor units are configurable by software to Tx power val‐
ues other than those for which the product is certified, it is the
responsibility of the Professional Installer to restrict the Tx power to
the certified limits.
This product was tested with special accessories ‐ indoor unit (IDU or
PoE), FTP CAT‐5e shielded cable with sealing gasket, 10 AWG ground‐
ing cable ‐ which must be used with the unit to insure compliance.
The system must be professionally installed to ensure compliance with the
Part 15 certification. It is the responsibility of the operator and
professional installer to ensure that only certified systems are deployed in
the United States. The use of the system in any other combination (such as
co‐located antennas transmitting the same information) is expressly
forbidden. The radio must be installed and used in strict accordance with
the manufacturer's instructions as described in this guide. Any other
installation or use of the product violates FCC Part 15 regulations.
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Le système doit être professionnellement installé pour assurer la
conformité avec Certification de la partie 15 Il est de la responsabilité de
l'opérateur et de l'installateur professionnel que seuls les systèmes
certifiés sont déployés aux États‐Unis. L'utilisation du système dans toute
autre combinaison (p.antennes transmettant la même information) est
expressément interdite. La radio doit être installée et utilisée en stricte
conformité avec les instructions du fabricant décrites dans ce guide. Toute
autre installation ou utilisation du produit enfreint les règlements de
l'ISDE règlements.
It is the responsibility of the installer to ensure that when using the
outdoor antenna kits in the United States (or where FCC rules apply), only
those antennas certified with the product are used. The use of any
antenna other than those certified with the product is expressly forbidden
by FCC rules 47 CFR part 15.204. A list of approved external antennas can
be found in Appendix E: Certified Antennas.
Le système doit être professionnellement installé pour assurer la
conformité avec Certification de la partie 15 Il est de la responsabilité de
l'opérateur et de l'installateur professionnel que seuls les systèmes
certifiés sont déployés aux États‐Unis. L'utilisation du système dans toute
autre combinaison (p. antennes transmettant la même information) est
expressément interdite. Il est de la responsabilité de l'installateur de
s'assurer que lors de l'utilisation du kits d'antenne extérieure aux États‐
Unis (ou lorsque les règles de la FCC s'appliquent), seulement les antennes
certifiées avec le produit sont utilisées. L'utilisation de tout l'antenne
autre que celles certifiées avec le produit est expressément interdite par
les règlements ISED. Une liste d'antennes externes approuvées peut se
trouve à l'annexe Antennes Certifiées (Appendix E: Certified Antennas)
It is the responsibility of the operator and professional installer to ensure
that when configuring the radio in the United States (or where FCC rules
apply), the Tx power is set according to the values for which the product is
certified. The use of Tx power values other than those, for which the
product is certified, is expressly forbidden by FCC rules 47 CFR part 15.204
Il est de la responsabilité de l'opérateur et de l'installateur
professionnel que lors de la configuration de la radio au Canada
(ou lorsque les règles canadiennes appliquer), la puissance Tx est
définie en fonction des valeurs pour lesquelles le produit est
agréé. L'utilisation de valeurs de puissance Tx autres que celles
pour lesquelles le produit est certifié, est expressément interdit
par les règlements de l'ISDE
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It is the responsibility of the installer to ensure that Sector and
Base Station radios operating in the band 5150‐5250 MHz are
installed so that the antennas do not exceed 21 dBm EIRP at any
elevation angle above 30 degrees as measured from the horizon,
as required by FCC rule 47 CFR Part 15.407 (a)(1)(i).
In Canada Radio Local Area Network Devices Operating in the
5150‐5250 MHz Frequency Band may only be allowed following
licensing process.
Au Canada, les appareils du réseau local radio fonctionnant dans
la bande de fréquences 5150‐5250 MHz ne peuvent être autorisés
qu'après un processus d'attribution de licence.
Under regulatory environments supporting other than FCC/ISED
rules: Where Outdoor units are configurable by software to Tx
power values other than those for which the product is certified, it
is the responsibility of the Professional Installer to restrict the Tx
power to the certified limits.
This product was tested with special accessories ? indoor unit (IDU
or PoE), FTP CAT?5e shielded cable with sealing gasket, 10 AWG
grounding cable ‐ which must be used with the unit to insure
compliance.
Dans des environnements réglementaires prenant en charge
d'autres règles que celles de la FCC / ISED: Où les unités
extérieures sont configurables par logiciel aux valeurs de puissance
Tx autres que ceux pour lesquels le produit est certifié, c'est le la
responsabilité de l'installateur professionnel de restreindre la
puissance Tx à les limites certifiées.
Ce produit a été testé avec des accessoires spéciaux ‐ unité
intérieure (UDI ou PoE), câble blindé FTP CAT‐5e avec joint
d'étanchéité, mise à la terre 10 AWG câble ‐ qui doit être utilisé
avec l'unité pour assurer la conformité.
Radio devices using external antennas operating in the 5250‐5350 MHz
and 5470‐5725 MHz bands must comply with the EIRP limits as specified in
Appendix E:
Appareils radio utilisant des antennes externes fonctionnant dans les
bandes 5250‐5350 MHz et 5470‐5725 MHz seront conformes ala EIRP
limites iniquees a l’Appendix E:
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Radio devices using external antennas operating in the 5725‐5850 MHz
band must comply with the EIRP limits as specified in Appendix E: for
point‐to‐point and point‐to‐multipoint operation.
Appareils radio utilisant des antennes externes fonctionnant dans la
bande 5725‐5850 MHz seront conformes ala EIRP limites iniquees a
l’Appendix E: pour un fonctionnement point a point et non point a point.
Radio devices shall be so installed to have worst‐case tilt angle to remain
compliant with the EIRP elevation mask requirement set forth in RSS‐247
Section 6.2.2(3).
Appareils de radio doivent etre installes de maniere a avoir l’angle
d’inclinaison du pire poir rester conforme a la EIRP exigence de masque
d’elevation selon la RSS‐247 Sec tion 6.2.2(3)
Installers are advised to consider high‐power radars allocation as priority users of
the bands 5250‐5350 MHz and 5470‐5725 MHz and that these radars could cause
interference and/or damage to the radio devices.
Les installateurs sont invites a envisager de radars a haute puissance allocation
que les utilisateurs prioritaires des bandes 5250‐5350 MHz ‐ 5470‐5725 MHz et
que ces radars pourraient causer interferences et /ou endommager les appareils
de radio.
The radio devices in this manual have been approved by Industry Canada
to operate with the antenna types listed in Appendix E: with the maximum
permissible gain and required antenna impedance for each antenna type
indicated.
Antenna types not included in this list, having a gain greater than the
maximum gain indicate for that type, are strictly prohibited for use with
this device.
Les appareils de radio dans ce manuel ont ete approuves par Industrie
Canada pour fonctionner avec les types d’antenne enumeries a Appendix
E: avec le gain maximal admissible et l’impedance d’antenne requise pour
chaque type d’antenne indique.
Types d’antennes non inclus dans cette liste, ayant un gain superieur au
gain maximum indique pour ce type, sont strictement interdics pur une
utilisation avec cet appareil.
Radio devices subject to RSS‐247 issue 2 shall not be capable of
transmitting in the band 5600‐5650 MHz.
Dispositifs radio soumis a la delivrance RS‐247 2 ne sont pas capables de
transmettre dans la bande 5600‐5650 MHz.
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Radio devices subject to RSS‐247 issue 2 shall not be capable of
transmitting in the band 5600‐5650 MHz.
Dispositifs radio soumis a la delivrance RSS‐247 2 ne sont pas capables de
transmettre dans la bande 5600‐5650 MHz.
Radio devices operating in the 3650‐3700 MHz band must comply with the output power
limits as specified in Appendix E
Base stations operating in the 3650‐3700 MHz band may not be located within 150 km of any
grandfathered satellite earth station operating in the 3650‐3700 MHz band. The coordinates
of these stations are available at http://www.fcc.gov/ib/sd/3650/.
Base stations operating in the 3650‐3700 MHz band may not be located within 80 km of the
following Federal Government radio location facilities:
‐ St. Inigoes, MD ‐ 38° 10′ N., 76°, 23′ W
‐ Pensacola, FL ‐ 30° 21′ 28″ N., 87°, 16′ 26″ W
‐ Pascagoula, MS ‐ 30° 22′ N, 88° 29′
Licensees installing equipment in the 3650‐3700 MHz band should determine if there are any
nearby U.S. Federal Government radar systems that could affect their operations. Information
regarding the location and operational characteristics of the radar systems operating adjacent
to this band are provided in NTIA TR‐99‐361.
Requests for base station locations closer than 80 km to the U.S. Federal Government radio
location facilities listed above will only be approved upon successful coordination by the
Commission with NTIA through the Frequency Assignment Subcommittee of the
Interdepartmental Radio Advisory Committee.
Fixed devices operating in the 3650‐3700 MHz band generally must be located at least 8
kilometers from the U.S./Canada or U.S./Mexico border if the antenna of that device looks
within the 160° sector away from the border. Fixed devices must be located at least 56
kilometers from each border if the antenna looks within the 200° sector towards the border.
Fixed devices may be located nearer to the U.S./Canada or U.S./Mexico border than specified
above only if the Commission is able to coordinate such use with Canada or Mexico, as
appropriate.
Licensees in the 3650‐3700 MHz band must comply with the requirements of current and
future agreements with Canada and Mexico regarding operation in U.S./Canada and U.S./
Mexico border areas.
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Canadian Emission Requirements for Indoor Units
This Class B digital apparatus complies with Canadian ISED‐003.
Cet appareil numẻrique de la classe B est conforme ả la norme NMB‐003 du Canada.
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viii
EU – Compliance
Radio transmitters operating in the EU need to comply the RE‐DIRECTIVE
2014/53/EU, EMC Directive 2014/30/EU, Low Voltage Directive 2014/35/EU.
The 5.8 GHz products are suitable for use in, and comply with the
Broadband Wireless Access System (WAS). It is a Class 2 device and uses
operating frequencies that are not harmonized throughout the EU
member states. The operator is responsible for obtaining any national
licenses required to operate this product and these must be obtained
before using the product in any particular country.
The RADWIN 5000 JET 5.8 GHz product complies with the requirements of
the harmonized standard ETSI EN 302 502 and the ECC
RECOMMENDATION (06)04
Restrictions on the use of 5.8 GHz Band in EU member states
BE
LU
DK
NL
PL
EL
RO
HR
CY
LT
CZ
SK
AT
PT
FR
DE
SE
BG
HU
IT
IE
ES
SI
UL
LV
China MII
Operation of the equipment is only allowed under China MII 5.8GHz band regulation
configuration with EIRP limited to 33 dBm (2 Watt).
India WPC
Operation of the equipment is only allowed under India WPC GSR‐38 for 5.8GHz band
regulation configuration.
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Brazil
The equipment will operate only in the frequency bands 5470 ‐ 5725 MHz and 5725 ‐ 5850
MHz. The software version to be sold in Brazil with blocking is from version 4.6.
The power supplies presented in this user manual are not sold with this product.
O equipamento irá operar apenas nas faixas de frequências 5470 ‐ 5725 MHz e 5725 ‐ 5850
MHz. A versão do software a ser comercializado no Brasil com bloqueio é a partir da versão
4.6.
As fontes de alimentação apresentadas neste manual não serão comercizliadas junto com
este produto.
For Norway and Sweden only
Equipment connected to the protective earthing of the building installation through the
mains connection or through other equipment with a connection to protective earthing ‐ and
to a cable distribution system using coaxial cable, may in some circumstances create a fire
hazard. Connection to a cable distribution system has therefore to be provided through a
device providing electrical isolation below a certain frequency range (galvanic isolator, see EN
60728‐11).
Norway
Utstyr som er koplet til beskyttelsesjord via nettplugg og/eller via annet jordtilkoplet
utstyr ‐ og er tilkoplet et kabel‐TV nett, kan forårsake brannfare. For å unngå dette skal det
ved tilkopling av utstyret til kabel‐TV nettet installeres en galvanisk isolator mellom
utstyret og kabel‐ TV nettet
Sweden
Utrustning som är kopplad till skyddsjord via jordat vägguttag och/eller via annan utrust‐
ning och samtidigt är kopplad till kabel‐TV nät kan i vissa fall medföra risk för brand. För
att undvika detta skall vid anslutning av utrustningen till kabel‐TV ät galvanisk isolator
finnas mellan utrustningen och kabel‐TV nätet.
Unregulated
In countries where the radio is not regulated the equipment can be operated in any
regulation configuration, best results will be obtained using Universal regulation
configuration.
Safety Practices
Applicable requirements of National Electrical Code (NEC), NFPA 70; and the National
Electrical Safety Code, ANSI/IEEE C2, must be considered during installation.
NOTES:
1. A Primary Protector is not required to protect the exposed wiring as long as the exposed
wiring length is limited to less than or equal to 140 feet, and instructions are provided to
avoid exposure of wiring to accidental contact with lightning and power conductors in
accordance with NEC Sections 725‐54 (c) and 800‐30.
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In all other cases, an appropriate Listed Primary Protector must be provided. Refer to Articles
800 and 810 of the NEC for details.
2. For protection of ODU against direct lightning strikes, appropriate requirements of NFPA
780 should be considered in addition to NEC.
3. For Canada, appropriate requirements of the CEC 22.1 including Section 60 and additional
requirements of CAN/CSA‐B72 must be considered as applicable.
4. Only UL Listed parts and components will be used for installation. Use UL Listed devices
having an environmental rating equal to or better than the enclosure rating to close all
unfilled openings.
5. Use min. 10AWG external protective earthing conductor.
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RADWIN 5000 HPMP
User Handbook
Notice
This handbook contains information that is proprietary to RADWIN Ltd (RADWIN hereafter).
No part of this publication may be reproduced in any form whatsoever without prior written
approval by RADWIN.
Right, title and interest, all information, copyrights, patents, know‐how, trade secrets and
other intellectual property or other proprietary rights relating to this handbook and to the
RADWIN products and any software components contained therein are proprietary products
of RADWIN protected under international copyright law and shall be and remain solely with
RADWIN.
The RADWIN name is a registered trademark of RADWIN. No right, license, or interest to such
trademark is granted hereunder, and you agree that no such right, license, or interest shall be
asserted by you with respect to such trademark.
You shall not copy, reverse compile or reverse assemble all or any portion of the Installation
Guide or any other RADWIN documentation or products. You are prohibited from, and shall
not, directly or indirectly, develop, market, distribute, license, or sell any product that
supports substantially similar functionality based or derived in any way from RADWIN
products.Your undertaking in this paragraph shall survive the termination of this Agreement.
This Agreement is effective upon your opening of a RADWIN product package and shall
continue until terminated. RADWIN may terminate this Agreement upon the breach by you of
any term thereof. Upon such termination by RADWIN, you agree to return to RADWIN any
RADWIN products and documentation and all copies and portions thereof.
For further information contact RADWIN at one of the addresses under Worldwide Contacts
below or contact your local distributor.
Disclaimer
The parameters quoted in this document must be specifically confirmed in writing before
they become applicable to any particular order or contract. RADWIN reserves the right to
make alterations or amendments to the detail specification at its discretion. The publication
of information in this document does not imply freedom from patent or other rights of
RADWIN, or others.
Trademarks
WinLink 1000, RADWIN 2000, RADWIN 5000, RADWIN 6000, RADWIN 600 and
FiberinMotion are trademarks of RADWIN Ltd.
Windows 2000, XP Pro, Vista, Windows 7 and Internet Explorer are trademarks of
Microsoft Inc.
Mozilla and Firefox are trademarks of the Mozilla Foundation.
RADWIN 5000 Installation Guide
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1‐v
Other product names are trademarks of their respective manufacturers.
RADWIN 5000 Installation Guide
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RADWIN Worldwide Offices
Corporate and EMEA Regional Headquarters
Corporate and EMEA Headquarters
27 Habarzel Street
Tel Aviv,6971039
Israel
Tel: +972.3.766.2900
Fax: +972.3.766.2902
Email:
sales@radwin.com
North America Regional
Headquarters
900 Corporate Drive
Mahwah, NJ, 07430
USA
Tel: +1-877-RADWIN US
(+1-877 723-9468)
Tel: +1-201-252-4224
Fax: +1-201-621-8911
Email: salesna@radwin.com
Customer Support - North America:
Hours: 9 am - 6 pm EST (Mon - Fri)
Email:
supportusa@radwin.com
RADWIN Regional Offices
RADWIN Brazil
RADWIN Mexico
Av. Chucri Zaidan, 920 – 9º
São Paulo, 04583-904
Brazil
Tel: +55.11.3048-4110
Quinto #20 Col El Centinela
Mexico, DF, O4450
Mexico
Tel: +52 (55) 5689 8970
Email:
salesbr@radwin.com
Email:
salesmx@radwin.com
RADWIN Peru
RADWIN India
Av. Antares 213
Lima, 33
Peru
Tel: +511.6285105
Fax: +511-990304095
E-13,B-1 Extn., Mohan Co-operative Industrial Estate
New Delhi, 110 044
India
Tel: +91-11-40539178
Email:
salespe@radwin.com
Email:
salesin@radwin.com
RADWIN Philippines
RADWIN South Africa
5 Bur Bank St.
Laguna, Belair, Santa Rosa
Laguna Philippines
Tel: +63 928 7668230
P.O. Box 3554, Rivonia
Johannesburg ,2128
South Africa
Tel: +27 (0)82 551 5600
Email:
salesph@radwin.com
Email:
sales@radwin.com
RADWIN Italy and Spain
RADWIN Central America
Piazza Arenella 7/H
Napoli ,80128
Italy
Tel:+390815564116
Fax: +39335433620
Calle La Cañada # 108-E
Jardines de la Hacienda
Ciudad Merliot El Salvador
Tel: +503 2278-5628
Email:
salesit@radwin.com
RADWIN 5000 Installation Guide
Email:
sales@radwin.com
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1‐vii
RADWIN Worldwide Offices (Continued)
RADWIN South East Asia
All Season Mansion
87/38 Wireless Road Lumpinee
Bangkok ,10330
Thailand
Tel: +66811707503
Email:
sales@radwin.com
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1‐viii
Last page of EndPage files
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