Proxim Wireless MB83HP5 802.11 a/b/g/n Mini-PCI module User Manual Hardware Installation Guide
Proxim Wireless Corporation 802.11 a/b/g/n Mini-PCI module Hardware Installation Guide
Contents
users manual-1
Tsunami® 800 and 8000 Series
(Point-to-point and Point-to-multipoint Products)
Hardware Installation Guide
Products Covered
--> Tsunami® Multipoint
- MP-820-BSU-100
- MP-825-BS3-100
- MP-8100-BSU
- MP-8200-BSU; MP-8250-BS9; MP-8250-BS1
- MP-820-SUA-50+
- MP-825-SUR-50+
- MP-825-CPE-50
- MP-825-CPE-100
- MP-8100-SUA
- MP-8150-SUR
- MP-8150-SUR-100
- MP-8150-CPE
- MP-8200-SUA
- MP-8250-SUR
- MP-8160-BSU and MP-8160-BS9
- MP-8160-SUA
- MP-8160-CPE
- MP-826-CPE-50
--> Tsunami Quickbridge®
- QB-8100-EPA / LNK
- QB-8150-EPR / LNK
- QB-8150-LNK-100
- QB-8150-LNK-12/50
- QB-8151-EPR / LNK
- QB-8200-EPA / LNK
- QB-8250-EPR / LNK
- QB-825-EPR / LNK-50
- QB-825-EPR / LNK-50+
Tsunami® 800 and 8000 Series - Hardware Installation Guide 2
Copyright
© 2013 Proxim Wireless Corporation, Milpitas, CA. All rights reserved. Covered by one or more of the following U.S. patents: 5,231,634;
5,875,179; 6,006,090; 5,809,060; 6,075,812; 5,077,753. The content described herein are copyrighted with all rights reserved. No part of this
publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form by any means
without the written permission of Proxim Wireless Corporation.
Trademarks
Tsunami®, Proxim, and Proxim logo are the trademarks of Proxim Wireless Corporation. All other trademarks mentioned herein are the property of
their respective owners.
Disclaimer
Proxim reserves the right to revise this publication and to make changes in content from time-to-time without obligation on the part of Proxim to
provide notification of such revision or change. Proxim may make improvements or changes in the product(s) described in this guide at any time.
When using these device, basic safety precautions should always be followed to reduce the risk of fire, electric shock and injury to persons.
Tsunami® 800 and 8000 Series - Hardware Installation Guide
Documentation Version: 5.1
P/N 765-00132, April 2014
Tsunami® 800 and 8000 Series - Hardware Installation Guide 3
Tsunami® 800 and 8000 Series - Hardware Installation Guide 4
Tsunami® 800 and 8000 Series - Hardware Installation Guide 5
Preface
Tsunami® 800 and 8000 Series - Hardware Installation Guide 6
Preface
This chapter contains the following information:
About this Guide
A comprehensive guide that provides an overview about the Tsunami® 800 and 8000 series products, their installation
methods and hardware specifications.
Products Covered
Product(s) Supported Countries
MP-820-BSU-100 US, WD, EU
MP-825-BS3-100 US, WD, EU
MP-8100-BSU US, WD, EU
MP-8200-BSU US, WD, EU, JP
MP-8250-BS9 US, WD, EU
MP-8250-BS1 US, WD, EU
MP-820-SUA-50+US, WD, EU
MP-825-SUR-50+US, WD, EU
MP-825-CPE-50 US, WD, EU
MP-825-CPE-100 US, WD, EU
MP-8100-SUA US, WD, EU
MP-8150-SUR US, WD, EU
MP-8150-SUR-100 US, WD, EU
MP-8150-CPE US, WD
MP-8200-SUA US, WD, EU, JP
MP-8250-SUR US, WD, EU, JP
MP-8160-BSU WD
MP-8160-BS9 WD
MP-8160-SUA WD
MP-8160-CPE-A100 WD
Preface
Tsunami® 800 and 8000 Series - Hardware Installation Guide 7
Audience
The intended audience for this guide is the network administrator who installs and/or manages the device.
Prerequisites
The reader of this document should have working knowledge of Wireless Networks, Local Area Networking (LAN) concepts,
Network Access Infrastructures and Client-Server Applications.
Related Documents
In addition to this guide, you can refer to the following documents that are available on the Proxim’s support site at
Quick Installation Guide (QIG) - A quick reference guide that provides essential information to install and configure
the device.
Software Management Guide - A guide that provides step-by-step instructions to configure, manage and monitor
the device by using Web Interface.
Reference Guide - A guide that provides step-by-step instructions to configure, manage and monitor the device by
using Command Line Interface (CLI).
Antenna Guides - A guide that gives insight on the recommended antennas for your product and ways to align the
antennas.
Safety and Regulatory Compliance Guide - A guide that provides country specific safety and regulatory norms to
be followed while installing the device.
MP-826-CPE-50 WD
QB-8100-EPA/LNK US, WD, EU
QB-8150-EPR/LNK US, WD, EU
QB-8150-LNK-100 US, WD, EU
QB-8150-LNK-12 WD
QB-8150-LNK-50 US, WD
QB-8151-EPR / LNK US, WD
QB-8200-EPA / LNK US, WD, EU, JP
QB-8250-EPR / LNK US, WD, EU, JP
QB-825-EPR/LNK-50 US, WD
QB-825-EPR/LNK-50+US, WD, EU
Product(s) Supported Countries
Preface
Tsunami® 800 and 8000 Series - Hardware Installation Guide 8
Documentation Conventions
Icon Representation
Name Image Meaning
Note A special instruction that draws attention of a user.
Important A note of significant importance that the user should be aware of.
Caution A warning that cautions the user of a possible danger.
Tsunami® 800 and 8000 Series - Hardware Installation Guide 9
Introduction
This chapter contains information on the following:
1.1 About Tsunami® 800 and 8000 Series Products
Product Description Image
MP-820-BSU-100 The MP-820 Base Station unit, is a flexible wireless outdoor product
that operates in 5.150 – 5.925 GHz frequency band. This
connectorized device comes with 2x2 MIMO radio and two N-Type
connectors to connect external antennas. It provides an aggregate
throughput of 100 Mbps.
MP-825-BS3-100 The MP-825 Base Station unit comes with a 2x2 MIMO radio and 15
dBi integrated dual-polarized panel antenna that operates in 5.150 -
5.925 GHz frequency band. It provides an aggregate throughput of
100 Mbps.
MP-8100-BSU The MP-8100 Base Station unit, is a flexible wireless outdoor product
that operates in 2.3 – 2.5 and 4.9 – 6.0 GHz frequency band. This
connectorized device comes with a 3x3 MIMO radio and three
N-Type connectors to connect external antennas.
MP-8200-BSU The MP-8200 Base Station unit, is a flexible wireless outdoor product
that operates in 4.900 to 5.925 GHz frequency band. This
connectorized device comes with a 3x3 MIMO high power radio and
three N-Type connectors to connect external antennas.
MP-8250-BS9 The MP-8250 Base Station unit comes with a high power 2x2 MIMO
radio and 16 dBi integrated 90° sector antenna that operates in
4.900 – 5.925 GHz frequency band.
MP-8250-BS1 The MP-8250 Base Station unit comes with a high power 2x2 MIMO
radio and 23 dBi integrated 10° panel antenna that operates in 4.900
– 5.925 GHz frequency band.
MP-820-SUA-50+The MP-820 Subscriber unit, is a flexible wireless outdoor product
that operates in 5.150 to 5.925 GHz frequency band. This
connectorized device comes with a 2x2 MIMO radio and two N-Type
connectors to connect external antennas. It provides an aggregate
throughput of 50 Mbps, license upgradable to 100 Mbps.
MP-825-SUR-50+The MP-825 Subscriber unit comes with a 2x2 MIMO radio and 15
dBi integrated dual-polarized panel antenna that operates in 5.150 -
5.925 GHz frequency band. It provides an aggregate throughput of
50 Mbps, license upgradable to 100 Mbps.
Introduction
Tsunami® 800 and 8000 Series - Hardware Installation Guide 10
MP-825-CPE-50 The MP-825 Customer Premises Equipment comes with a 2x2 MIMO
radio and 15 dBi integrated dual-polarized panel antenna that
operates in 5.15 - 5.925 GHz frequency band with aggregate
throughput of 50 Mbps.
MP-825-CPE-100 The MP-825 Customer Premises Equipment comes with a 2x2 MIMO
radio and 15 dBi integrated dual-polarized panel antenna that
operates in 5.150 - 5.925 GHz frequency band with aggregate
throughput of 100 Mbps.
MP-8100-SUA The MP-8100 Subscriber unit, is a flexible wireless outdoor product
that operates in 2.3 – 2.5 and 4.9 – 6.0 GHz frequency band. This
connectorized device comes with a 3x3 MIMO radio and three
N-Type connectors to connect external antennas.
MP-8150-SUR The MP-8150 Subscriber unit comes with a 2x2 MIMO radio and 23
dBi integrated dual-polarized panel antenna that operates in 4.900 –
5.925 GHz frequency band.
MP-8150-SUR-100 The MP-8150 Subscriber unit comes with a 2x2 MIMO radio and 21
dBi integrated dual-polarized panel antenna that operates in 4.900 –
5.875 GHz frequency band. It provides a throughput of up to 50
Mbps (Uplink) and 50 Mbps (Downlink).
MP-8150-CPE The MP-8150 Customer Premises Equipment comes with a high
power 2x2 MIMO radio and 16 dBi integrated dual-polarized panel
antenna that operates in 5.3 – 6.1 GHz frequency band.
MP-8200-SUA The MP-8200 Subscriber unit, is a flexible wireless outdoor product
that operates in 4.900 to 5.925 GHz frequency band. This
connectorized device comes with a 3x3 MIMO high power radio and
three N-Type connectors to connect external antennas.
MP-8250-SUR The MP-8250 Subscriber unit comes with a 2x2 MIMO high power
radio and 23 dBi integrated dual-polarized panel antenna that
operates in 4.900 – 5.925 GHz frequency band.
MP-8160-BSU The MP-8160 Base Station unit, is a flexible outdoor product that
operates in 5.900 – 6.425 GHz frequency band. This connectorized
device comes with a high power 2x2 MIMO radio and two N-Type
connectors to connect external antennas.
MP-8160-BS9 The MP-8160 Base Station unit comes with a 2x2 MIMO radio and 16
dBi integrated 90° sector antenna that operates in 5.900 – 6.425
GHz frequency band.
MP-8160-SUA The MP-8160 Subscriber unit, is a flexible outdoor product that
operates in 5.900 – 6.425 GHz frequency band. This connectorized
device comes with a high power 2x2 MIMO radio and two N-Type
connectors to connect external antennas.
Introduction
Tsunami® 800 and 8000 Series - Hardware Installation Guide 11
MP-8160-CPE-A100 The MP-8160 Customer Premises Equipment comes with a single
high power 2x2 MIMO radio and 15 dBi integrated dual-polarized
panel antenna that operates in 5.900 – 6.425 GHz frequency band.
MP-826-CPE-50 The MP-826 Customer Premises Equipment comes with a 2x2 MIMO
radio, and 15 dBi integrated dual-polarized panel antenna that
operates in 5.900 – 6.425 GHz frequency band with a aggregate
throughput of 50 Mbps.
QB-8100-EPA The QB-8100-EPA QuickBridge operates in 2.3 – 2.5 and 4.9 – 6.0
GHz frequency band. This connectorized device comes with a 3x3
MIMO radio and three N-Type connectors to connect external
antennas.
QB-8100-LNK A pair of QB-8100-EPA devices form a link.
QB-8150-EPR The QB-8150-EPR QuickBridge comes with a 2x2 MIMO radio and 23
dBi integrated dual-polarized panel antenna that operates in 4.900 –
5.925 GHz frequency band.
QB-8150-LNK A pair of QB-8150-EPR devices form a link.
QB-8150-LNK-100 A pair of QB-8150-EPR-100 devices form a link.
The QB-8150-EPR-100 device comes with a 2x2 MIMO radio, 21 dBi
integrated dual-polarized panel antenna that operates in 4.900 –
5.875 GHz frequency band. It provides a throughput of up to 50
Mbps (Uplink) and 50 Mbps (Downlink).
QB-8150-LNK-12 A pair of QB-8150-EPR-12 devices form a link.
The QB-8150-EPR-12 device comes with a high power 2x2 MIMO
radio, 12 Mbps speed and 16 dBi integrated dual-polarized panel
antenna that operates in 5.3 - 6.1 GHz frequency band.
QB-8150-LNK-50 A pair of QB-8150-EPR-50 devices form a link.
The QB-8150-EPR-50 device comes with a high power 2x2 MIMO
radio, 50 Mbps speed and 16 dBi integrated dual-polarized panel
antenna that operates in 5.3 – 6.1 GHz frequency band.
QB-8151-EPR The QB-8151-EPR QuickBridge comes with a 2x2 MIMO radio and 21
dBi integrated dual-polarized panel antenna that operates in 4.900 –
5.875 GHz frequency band.
Introduction
Tsunami® 800 and 8000 Series - Hardware Installation Guide 12
QB-8151-LNK A pair of QB-8151-EPR devices form a link.
QB-8200-EPA The QB-8200-EPA QuickBridge operates in 4.900 – 5.925 GHz
frequency band. This connectorized device comes with a 3x3 MIMO
high power radio and three N-Type connectors to connect external
antennas.
QB-8200-LNK A pair of QB-8200-EPA devices form a link.
QB-8250-EPR The QB-8250-EPR QuickBridge comes with a 2x2 MIMO high power
radio and 23 dBi integrated dual-polarized panel antenna that
operates in 4.900 – 5.925 GHz frequency band.
QB-8250-LNK A pair of QB-8250-EPR devices form a link.
QB-825-EPR-50 The QB-825-EPR-50 device comes with a 2x2 MIMO radio and 15 dBi
integrated dual-polarized panel antenna that operates in 5.15 -
5.925 GHz frequency band with aggregate throughput of 50 Mbps.
QB-825-LNK-50 A pair of QB-825-EPR-50 devices form a link.
QB-825-EPR-50+The QB-825-EPR-50+ device comes with a 2x2 MIMO high power
radio and 15 dBi integrated dual-polarized panel antenna that
operates in 5.150 – 5.925 GHz frequency band. It provides an
aggregate throughput of 50 Mbps, license upgradable to 100 Mbps.
QB-825-LNK-50+A pair of QB-825-EPR-50+ devices form a link.
Introduction
Tsunami® 800 and 8000 Series - Hardware Installation Guide 13
1.2 Multiple-Input-Multiple-Output (MIMO)
Proxim’s Point-to-point and Point-to-multipoint devices support Multiple-Input-Multiple-Output (MIMO) antenna technology
that uses multiple antennas at both the transmitter and receiver to improve communication performance. The underlying
technology of Proxim’s product radios are based on a combination of MIMO and OFDM (Orthogonal Frequency Division
Multiplexing). MIMO-OFDM combination radios solve interference, fading and multi-path problems. On the receiver side,
having multiple receivers increases the amount of received power and also reduces multi-path problems by combining the
received signals for each frequency component separately. Hence, MIMO significantly improves the overall gain.
MIMO also uses Spatial multiplexing transmission technique to transmit independent and separately encoded data signals
from each of the multiple transmit antennas while reusing or multiplexing in the space dimension. These independent data
signals are called Spatial streams. The transmitting antenna uses multiple radio Tx chains and signal paths to simultaneously
transmit different data streams, whereas the receiver combines the Rx signals resulting in higher throughput.
By increasing the number of receiving and transmitting antennas, the throughput of the channel increases linearly resulting in
high spectral efficiency.
Tsunami® 800 and 8000 Series - Hardware Installation Guide 14
800 Series - Hardware Overview and
Installation
This chapter provides hardware overview, and step-by-step procedure to install and mount the following Tsunami® 800
series products.
2.1 MP-820-BSU-100 / MP-820-SUA-50+ / MP-820-SUA-100/ MP-825-SUR-50+
/ MP-825-BS3-100 / QB-825-EPR/LNK-50+
This section provides the hardware overview and installation procedure for the following products:
MP-820-BSU-100
MP-820-SUA-50+
MP-825-SUR-50+
MP-825-BS3-100
QB-825-EPR/LNK-50+
2.1.1 Hardware Overview
Figure 2-1 MP-820-BSU-100 / MP-820-SUA-50+
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 15
Figure 2-2 MP-825-SUR-50+ / MP-825-BS3-100/ QB-825-EPR-50+
A detailed description about the various components of the device are explained in the following sections.
2.1.1.1 Gigabit Ethernet Port
The device comes with one auto-sensing 10/100/1000 BASE-T Ethernet port with configurable Tx modes and speeds.
The Gigabit Ethernet port (PoE IN and Data) of the device allows the user to connect to the LAN by using Cat5e/Cat6 Ethernet
cable, and also power ON the device by using the Power over Ethernet (PoE) Injector supplied with the product package.
The device receives 48 VDC via a a standard Cat5e/Cat6 cable connected between the PoE and the device.
Maximum power supplied to the device is 32 Watts and the device typically draws 10 Watts.
Above 0° Celsius internal temperature, the device need not regulate its temperature, so the power drawn is generally lower in
this temperature range. When the internal temperature gets close to the limits, the device starts to heat itself and the power
draw increases. Powering the device when it is cold, triggers a special self-heat mode where the device is inoperable until the
internal temperature is above -20° Celsius. This is signaled by a solid yellow LED on the Ethernet connector. Once the internal
temperature is above -20° Celsius, the device boots normally.
2.1.1.2 Serial Port
The Serial Port is used for debugging and management and GPS Sync (Only for BSU).
The serial connection is established with an RJ11 to DB9 connector (also referred to as a “dongle”) by connecting the RJ11
end of the dongle connector to the device and the other end to your Personal Computer.
Recommended Ethernet Cable Specifications
Type Cat5e/Cat6, STP, 24 AWG, UL rated, UV-shielded and outdoor-rated
Impedance 100 ohms
Cable Length 330 feet / 100 meters
: The total length of cabling between the Personal Computer and the device
cannot exceed 100 meters (includes cable from the Personal Computer to
the PoE, and the cable from the PoE to the device. Due to DC power
requirements, the maximum cable length between the PoE Injector and the
device is 75 meters.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 16
Figure 2-3 Serial Components
Product can be powered either by using 12V supply or through RJ11(Serial port) interface. Pin 6 of RJ11 is used to
supply 12V DC to the device.
– Product shall be supplied with 12V (+/-10%)/2A DC supply when Serial port power option is used.
– It is recommended to use cable length of less than 5M to reduce power dissipation/voltage drop in the cable.
– While using the Serial port power option, PoE power on Ethernet port shall not be used.
– Serial port cable gland shall be used with Serial power cable to make the product IP67 compliant.
2.1.1.3 Antenna Ports
: Applicable only to MP-820-BSU-100 and MP-820-SUA-50+
The Antenna Ports A1 and A2 are used to connect external antenna(s). These antenna connectors are of N-Type female with
built-in surge protection.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 17
2.1.1.4 Grounding Point
To protect the device against lighting or ESD events, you must ground the device properly. To ensure proper grounding, use
either of the ground points that are situated at the bottom corner of the device and the grounding screw (M4 thread size)
provided to attach a ground wire of at least 12 AWG stranded to the device.
2.1.2 Product Package
Each shipment includes the items listed in the following table. Please verify that you have received all the parts in this
shipment, prior to installation.
What’s in the Kit Image
MP-820-BSU-100/
MP-820-SUA-50+/
MP-825-SUR-50+/
MP-825-BS3-100/
QB-825-EPR-50+
32 W PoE Injector with reload
button and country specific
Power Cord
WD - US, UK, and EU power cords
US - US power cord
EU - UK and EU power cords
RJ11 to DB9 Serial Connector
Connector Weather Proofing
Kit
Grounding Kit
Quick Installation Guide
MP-820-BSU-100 / MP-820-SUA-50+ MP-825-SUR-50+ / MP-825-BS3-100/
QB-825-EPR-50+
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 18
: QB-825-LNK-50+ contains two sets of all the above accessories.
Mounting Kit and Hardware
The mounting kit includes the following:
Mounting clamp for wall/pole
Extension arm
Mounting plate to enclosure
Mounting clamp for pole mounting
The following table lists and describes some of the items included with
the mounting kit:
What’s in the Kit Image
Quantity Description Image
6 each Plain washer #5/16
2 each Hex Cap Screw NC 5/16-18 x 35
2 each Nut NC 5/16-18
4 each Helical Spring Lock Washer #1/4
4 each Helical Spring Lock Washer #5/16
2 each Hex Cap Screw NC 5/16-18 x 80
4 each 68764, Screw, Machine, Pan,
Philips, 1/4"-20, 5/8"L
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 19
2.1.3 Installation Procedure
: Please note that we have taken MP-820-BSU-100 as an example to explain the steps to install and mount the device.
Please correlate the same with your device.
: The device must be installed by a trained professional who is familiar with radio frequency planning and
regulatory limits.
Perform the following steps to install and mount the device.
Step 1: Plan for Installation
There are several planning factors to be considered before installing the device. In addition to selecting the installation site,
you should do the following:
Calculate:
Required RSL and fade margin to achieve link availability objectives. For more details on how to calculate RSL and fade
margin, please refer to the ‘Antenna Installation Guide’ and ‘Proxim Link Calculator’ that are available on the support
site at .
Required path availability
Anticipated multi-path reflection points
Determine:
System frequency plan
Required antenna mounting height to obtain proper path clearance
Required transmission line types (like cable, waveguides) and lengths
Plan for:
Device’s continuous power consumption needs
Lightning protection and system grounding
Hardware mounting
Cable installation including egress
Pre-testing equipment (back-to-back test procedure)
Step 2: Choose a Location
To make optimal use of the device, you must find a suitable location to install the hardware. The range of the radio device
largely depends upon the position of the antenna. Proxim recommends you do a site survey, observing the following
requirements, before mounting the hardware.
The location must allow easy disconnection of power to the radio, if necessary.
Ensure free flow of air around the hardware.
The radio device must be kept away from vibration and excessive heat.
The installation must conform to local regulations at all times.
The devices are designed to directly mount to a pole. By using the supplied brackets and hardware, you can mount them to a
1.25 inch to 3-inch pole (outside diameter). Longer bolts (not supplied) are required to mount the device to a larger diameter
pole. By using just one of the pole mounting brackets, you can mount the device to a wall or other flat surface.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 20
Step 3: Gather Required Tools
You should have the following tools available before installing the device:
Cross-tip screwdrivers
Small blade standard screwdriver
Large blade standard screwdriver
Wire crimpers (if using connectors that are not pre-made)
Adjustable 6” wrench
Weatherproofing material for sealing external connectors (such as butyl tape)
Straight-through UV-protected STP-rated Cat5e/Cat6 Ethernet cable for connecting to PC, or cable for connecting to a
hub or a switch.
Step 4: Unpack the Product Package
Unpack the device and its accessories from the shipping box.
Please make a note of the Ethernet addresses, the MAC addresses and the serial number. These addresses may be
used when configuring the device. Note that the serial number helps you to seek support from the Proxim’s Customer
support team.
Step 5: Weatherproofing RJ45 Connectors
The following steps explain how to weatherproof the RJ45 connectors:
1. Use a straight-through cable (Cat5e/Cat6) with one end bare.
2. Connect the crimped RJ45 connector end of the cable into the RJ45 Ethernet port inside the enclosure. The cable
connector should latch into the Ethernet port.
3. Slide the Flat Washer (A) into the Connector Body (B) to make it waterproof and onto the bare end of the cable. Next,
fasten the Connector Body into the Ethernet connector hole on the device.
4. Slide the tube-shaped Compression Washer (C) into the Compression Ring (D) and onto the cable from the bare end,
and insert into the fixed Connector Body.
5. Slide the Sealing Nut (E) over the bare end of the cable and fasten it on the fixed Connector Body.
6. Crimp the bare end of the cable with RJ45 connector and connect it to the PWR LAN-OUT port on the PoE Injector.
Figure 2-4 Weatherproofing RJ45 Connector
Additional Weatherproofing Steps
To add an additional layer of protection to the connectors against the environment, see
.
For detailed explanation to weatherproof RF connections, refer to Antenna Installation Guide, which is available at
.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 21
Step 6: Assemble Mounting Hardware
1. Fix the mounting plate (A) by using the provided screws and washers (Torque 9 N.m/75 in-lbs).
2. Fix the extension arm (B) to the fixed mounting plate with the provided screw, nut and washers. The extension arm
gives the device more possible tilt, letting you adjust for azimuth or elevation over a larger angle.
3. Fix the mounting bracket (C) to fixed extension arm with the provided screw, nut and washers.
Mounting Plate
Mounting Plate fixed to the device
Extension Arm
Mounting Plate fixed to the
device Extension Arm fixed to
Mounting Plate
Mounting Bracket
Extension Arm fixed to
Mounting Plate Mounting Bracket fixed to
Extension Arm
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 22
4. Tighten the assembled parts (Torque 15 N.m/130 in-lbs).
The following figure shows the full assembled mounting hardware fixed to the device.
Figure 2-5 Assembled Device
Step 7: Mount the Device
1. To pole-mount the device, insert the provided screws and washers through bracket (F). Fasten around the pole to
bracket (C) and secure (Torque 11 N.m/100 in-lbs).
Figure 2-6 Pole Mounting
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 23
2. To wall-mount the device, mount the bracket (C) to a wall using 4 screws (not provided), as shown:
Figure 2-7 Wall Mounting
Step 8: Plug in the Cables
: Unscrew the sealing cap for installation of the cable.
1. Plug one end of the straight-through Cat5e/Cat6 cable into the Ethernet Port of the device by following the
Weatherproofing steps as explained in Step 5. Connect the other end of the cable into the PWR LAN-OUT port on
the PoE Injector.
: Always use a straight cable from PoE to the device.
Figure 2-8 Cable Plugged In
2. Optionally, connect a RJ11 to DB9 Serial Connector to device’s Serial Port for debugging and management, and GPS
Sync.
Figure 2-9 PoE Injector
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 24
3. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the
network interface card in the Personal Computer and the hub, and between the hub and the RJ45 “LAN-IN” port on
the PoE Injector.
4. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card
in the Personal Computer and the RJ45 “LAN IN” port on the PoE Injector.
Step 9: Connect the Antenna
:Applicable only to MP-820-BSU-100 and MP-820-SUA-50+
Connect the antenna to the device antenna port by connecting the straight N-male end of the cable to the device antenna
port and the right angle N-male end of the cable at the antenna.
:
Record which port each antenna polarization is associated with to ensure that each side matches and aid in
configuration.
Ensure to use antenna ports A1 and A2 for dual polarization antennas
Step 10: Install Surge Protector
Proxim recommends two approved lightning surge protectors to be installed, one near to the device and the other at the
building ingress point.
: For an additional Surge Protector, place an order separately with your distributor.
Perform the following steps to ensure proper surge protection:
1. Mount the provided surge protector near the outdoor device and use 10 AWG or a better gauge wire to connect the
protector’s ground lug to the appropriate mounting ground point. The outdoor device and co-located surge protector
should have a common grounding point by using the shortest possible grounding cable.
2. Mount a second surge protector near the building ingress and use 10 AWG or a better gauge wire to connect the
surge protector’s ground lug to earth ground as shown in the figure below.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 25
Figure 2-10 Surge Protector
: Use Outdoor-rated, UV protected, shielded Cat5e/Cat6 cable for the following:
3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building
ingress.
4. Connect a short RJ45 terminated cable between the outdoor device and the port on the co-located surge protector.
5. Connect an RJ45 terminated cable between the two surge protectors on their remaining ports.
: Ensure to loop the cable before entering the premise to prevent water ingress.
Step 11: Ground the Unit
To ensure proper grounding, use either of the ground points which are situated at the bottom corners of the device and the
grounding screw(M24 thread size) provided to attach a ground wire of at least 12 AWG stranded to the device. It is important
that the following ground guidelines are followed during installations to protect the device against lighting or ESD events:
1. Connect one end of the grounding cable to the device and the other end to the closest earthing system point at the
installation.
2. Cut any extra ground wire length when finished connecting it to the single point earth ground.
3. Avoid sharp bends and never loop or coil up the ground wire, always connect it straight to ground.
4. A good earth ground impedance is less than 1.0 ohm.
5. Measure ground impedance at the point where the protector ground wire is connected and not at the ground rod.
6. Connect the surge protector ground wire and equipment ground (both power ground and telecomm ground) to a
single common ground.
7. Make sure all connections are fastened securely and are tight.
8. Never install during a storm and always follow your local safety codes.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 26
Connect the grounding wire, which is supplied with the product package, to the device as shown below:
Figure 2-11 Ground the device
Step 12: Power ON the Device
Plug in the power cord into a power outlet after having connected the PoE Injector and the device using Cat5e/Cat6 cable.
There is no ON/OFF switch on the device. To disconnect power, unplug the RJ45 connector from the “PWR LAN-OUT” port
on the PoE injector.
:
When you power ON the device, LEDs on the scaling mask glow. The more LEDs on the scaling mask glow, better is
the signal. For better signal strength, try adjusting the position of the device.
Device can also be powered via serial port(12VDC).Refer for more details.
The number of LEDs glowing and their corresponding SNR ranges are as follows:
Step 13: View LEDs
When the device is powered on, it performs startup diagnostics. When startup is complete, the LEDs show the device’s
operational state. The LEDs are available at the device’s Ethernet connector inside the enclosure. You can see the LEDs
through the Ethernet connector. The LEDs will not be visible if the RJ45 connector is weatherproofed.
Number of LEDs Glowing SNR Ranges
1 1-12
2 13-18
3 19-24
4 25-30
5 SNR > 30
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 27
Figure 2-12 View LEDs
The following table describes the status of LEDs:
: The 'Wireless LED' on the Ethernet port will glow amber during initialization of the board, if device is powered ON
through device serial port using an external 12V power-supply.
Step 14: Align the Antenna
Antenna alignment is the process of physically aligning the antenna of the radio receiver and transmitter to have the best
possible link established between them. The antenna alignment process is usually performed during installation and after
major repairs. If you are installing external antennas, refer to the documentation that accompanies the antenna for
installation instructions.
When the link is established, align the antenna using RSSI LEDs. The more LEDs on the scaling mask glow, better is the signal.
For better signal strength, try adjusting the position of the device.
: For detailed RSSI LED behavior, refer Tsunami ® 800 & 8000 Series Software Management Guide v5.2.
LED State Ethernet Interface
Power/Ethernet LED Wireless LED
Off No Power Radio is not present or failed to detect
Amber No Application Image detected (ScanTool
mode)
Power is ON and device detects reload
signal
Blinking Green Power is ON and the Ethernet link is
DOWN
Radio is detected but wireless link has
not been established yet
Solid Green Power is ON and the Ethernet link is UP Radio is detected and wireless link has
been established
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 28
2.2 MP-825-CPE-100/ MP-825-CPE-50 / QB-825-EPR&LNK-50
This section provides the hardware overview and installation method for MP-825-CPE-100, MP-825-CPE-50 and
QB-825-EPR-50.
2.2.1 Hardware Overview
Figure 2-13 MP-825-CPE-100/ MP-825-CPE-50 / QB-825-EPR-50
The device contains the following features:
2.2.1.1 Ethernet Port (PoE IN and Data)
The device comes with auto-sensing 10/100 BASE-T Ethernet port with configurable Tx modes and speed.
The Ethernet port of the device allows the user to connect to LAN by using Cat5/Cat5e or a better cable, and also power ON
the device by using Power over Ethernet (PoE) Injector supplied with the product package.
The device receives 48 VDC via a standard Cat5/Cat5e or better cable connected to the Ethernet port.
Maximum power supplied to the device is 19.2 Watts. The device typically draws 6 Watts.
: You should use a straight through Ethernet cable between the PoE and the device. When you use a 4-pair cross over
Ethernet cable, the reload functionality gets activated and forcibly deletes the operating image.
Features Description
Ethernet Port (100 Mbps) PoE IN and data
RSSI (Received Signal Strength Indicator) Scaling mask LEDs indicating signal strength
Grounding Point A provision to ground the device
Recommended Ethernet Cable Specifications
Type Cat5/5e or better, STP, 24 AWG, UL rated, UV-shielded and outdoor-rated
Impedance 100 ohms
Cable Length 330 feet / 100 meters
: The total length of cabling between the Personal Computer and the device
cannot exceed 100 meters (includes cable from the Personal Computer to
the PoE, and the cable from the PoE to the device. Due to DC power
requirements, the maximum cable length between the PoE Injector and the
device is 75 meters.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 29
2.2.1.2 Grounding Point
To protect the device against lightning or ESD events, you must ground the device properly. To ensure proper grounding, use
the grounding point situated at the bottom corner of the device and the grounding screw (M4 thread size) provided to attach
a ground wire of atleast 12 AWG stranded to the device.
2.2.2 Product Package
Each shipment includes the items listed in the following table. Please verify that you have received all the parts in the
shipment prior to the installation.
: QB-825-LNK-50 contains two sets of all the above accessories.
What’s in the Kit Image
MP-825-CPE-100/
MP-825-CPE-50/
QB-825-EPR-50
PoE Injector with Country
specific Power Cord
WD - US, UK, and EU power cords
US - US power cord
Connector Weather Proofing
Kit
Pole Mounting Kit
Grounding Kit
Quick Installation Guide
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 30
2.2.3 Installation Procedure
This section describes the steps to install and mount the device.
: The device must be installed by a trained professional who is familiar with radio frequency planning and
regulatory limits.
Perform the following steps to install and mount the device.
Step 1: Plan for Installation
There are several planning factors to be considered before installing the device. In addition to selecting the installation site,
you should do the following:
Calculate:
Required RSL and fade margin to achieve link availability objectives. For details on how to calculate RSL and fade
margin, please refer to the ‘Antenna Installation Guide’ and ‘Proxim Link Calculator’ which are available at
.
Required path availability
Anticipated multi-path reflection points
Determine:
System frequency plan
Required transmission line types (like cable, waveguides) and lengths
Plan for:
Continuous power consumption needs of the device
Lightning protection and system grounding
Hardware mounting
Cable installation including egress
Pre-testing equipment (back-to-back test procedure)
Step 2: Choose a Location
To make optimal use of the device, you must find a suitable location to install the hardware. Proxim recommends you do a site
survey, observing the following requirements, before mounting the hardware.
The location must allow easy disconnection of power to the radio, if necessary.
Ensure free flow of air around the hardware.
The radio device must be kept away from vibration and excessive heat.
The installation must conform to local regulations at all times.
Step 3: Gather Required Tools
You should have the following tools available before installing the device:
Cross-tip screwdrivers
Large blade standard screwdriver
Spanner 13
Wire crimpers (if using connectors that are not pre-made)
Step 4: Unpack the Product Package
Unpack the device and its accessories from the shipping box.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 31
Please make a note of the Ethernet addresses, the MAC addresses and the serial number. These addresses may be
used when configuring the device. Note that the serial number helps you to seek support from the Proxim’s Customer
support team.
Step 5: Pole Mount the Device
9. To pole-mount the device to a 1 inch diameter pole, place the mounting bracket with its small V-Groove facing the
pole (See option (1) in Figure 2).
10. To pole-mount the device to a 2.5 inch diameter pole, place the mounting bracket with its large V-Groove facing the
pole (See option (2) in Figure 2).
11. Place the device with its rear side facing the pole, and fasten the M8x80mm long screws along with the spring and
plain washers through the mounting bracket into the mounting holes of the device and tighten it to torque of 11
N.m/100 in-lbs.
Figure 2-14 Pole-Mounting
Step 6: Plug in the Cables
: Unscrew the sealing cap for installation of the cable.
1. Weatherproofing RJ45 Connector:
a. Use a straight-through cable (Cat5/Cat5e or better) with one end bare.
b. Connect the crimped RJ45 connector end of the cable into the RJ45 Ethernet port inside the enclosure. The cable
connector should latch into the Ethernet port.
c. Slide the Flat Washer (A) into the Connector Body (B) to make it waterproof and onto the bare end of the cable.
Next, fasten the Connector Body into the Ethernet connector hole on the device.
d. Slide the tube-shaped Compression Washer (C) into the Compression Ring (D) and onto the cable from the bare
end, and insert into the fixed Connector Body.
e. Slide the Sealing Nut (E) over the bare end of the cable and fasten it on the fixed Connector Body.
f. Crimp the bare end of the cable with RJ45 connector and connect it to the LAN+DC port on the PoE Injector.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 32
Figure 2-15 Weatherproofing RJ45 Connector
2. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the
network interface card in the Personal Computer and the hub/switch, and between the hub/switch and the RJ45 LAN
port on the PoE Injector.
3. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card
in the Personal Computer and the RJ45 LAN port on the PoE Injector.
:
Use only the PoE supplied with the product.
You should use a straight through Ethernet cable between the PoE and the device. When you use a 4-pair cross over
Ethernet cable, the reload functionality gets activated and forcibly deletes the operating image.
The following figure is the pictorial representation of the cabling setup.
Figure 2-16 Cabling Setup
Additional Weatherproofing Steps
To add an additional layer of protection to the connectors against the environment, see
.
Step 8: Install Surge Protector
Proxim recommends two approved lightning surge protectors to be installed, one near to the device and the other at the
building ingress point.
: To buy a suitable Surge Protector, place an order separately with your distributor.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 33
Perform the following steps to ensure proper surge protection:
1. Mount the surge protector near the outdoor device and use 10 AWG or larger wire to connect the protector’s ground
lug to the appropriate mounting ground point. The outdoor device and co-located surge protector should have a
common grounding point using the shortest possible grounding cable.
2. Mount a second surge protector near the building ingress and use 10 AWG or larger wire to connect the surge
protector’s ground lug to earth ground as shown in the following figure.
Figure 2-17 Surge Protector
: Use Outdoor-rated, UV protected, shielded Cat5/Cat5e or better cable for the following:
3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building
ingress.
4. Connect a short RJ45 terminated cable between the outdoor equipment and the port on the co-located surge
protector.
5. Connect an RJ45 terminated cable between the two surge protectors on their remaining ports.
: Ensure to loop the cable before entering the premise to prevent water ingress.
Step 9: Ground the Device
To ensure proper grounding, use the grounding point situated at the bottom corner of the device and the grounding screw
provided to attach a ground wire of atleast 12 AWG stranded to the device. It is important that the following grounding
guidelines are followed to protect the device against lightning or ESD events:
1. Connect one end of the grounding cable to the device and the other end to the closest earthing system point at the
installation.
2. Cut any extra ground wire length when finished connecting it to the single point earth ground.
3. Avoid sharp bends and never loop or coil up the ground wire, always connect it straight to ground.
4. A good earth ground impedance is less than 1.0 ohm.
5. Make sure all connections are fastened securely and are tight.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 34
6. Never install during a storm and always follow your local safety codes.
Connect the grounding wire, which is supplied with the product package, to the grounding lug as shown below:
Figure 2-18 Ground the Device
Step 10: Power ON the Device
Plug in the power cord into a power outlet after having connected the PoE Injector and the device using Cat5/5e or better
cable. There is no ON/OFF switch on the device. To disconnect power, unplug the RJ45 connector from the LAN+DC port on
the PoE injector.
: When you power ON the device, LEDs on the scaling mask glow. The more LEDs on the scaling mask glow, better is
the signal. For better signal strength, try adjusting the position of the device.
The number of LEDs glowing and their corresponding SNR ranges are as follows:
Step 11: View LEDs
When the device is powered on, it performs startup diagnostics. When startup is complete, the LEDs show the device’s
operational status. The LEDs are available at the device’s Ethernet connector inside the enclosure. You can see the LED
through the Ethernet connector. The LEDs will not be visible if the RJ45 connector is weatherproofed.
Number of LEDs Glowing SNR Ranges
1 1-12
2 13-18
3 19-24
4 25-30
5 SNR > 30
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 35
Figure 2-19 LED Indicators
The following table describes the status of LED:
LED State Ethernet Interface
Power/Ethernet LED Wireless LED
Off No Power Radio is not present or failed to detect
Amber No Application Image detected (ScanTool
mode)
Power is ON and device detects Reload signal
Blinking Green Power is ON and the Ethernet link is DOWN Radio is detected but wireless link has not
been established yet
Solid Green Power is ON and the Ethernet link is up Radio is detected and wireless link has been
established
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 36
2.3 MP-826-CPE-50
This section provides the hardware overview and installation procedure for the MP-826-CPE-50
2.3.1 Hardware Overview
Figure 2-20 MP-826-CPE-50
The device contains the following features:
2.3.1.1 Ethernet Port (PoE IN and Data)
The device comes with auto-sensing 10/100 BASE-T Ethernet port with configurable Tx modes and speed.
The Ethernet port of the device allows the user to connect to LAN by using Cat5/Cat5e or a better cable, and also power ON
the device by using Power over Ethernet (PoE) Injector supplied with the product package.
The device receives 48 VDC via a standard Cat5/Cat5e or better cable connected to the Ethernet port.
Maximum power supplied to the device is 19.2 Watts. The device typically draws 6 Watts.
Features Description
Ethernet Port (100 Mbps) PoE IN and data
RSSI (Received Signal Strength Indicator) Scaling mask LEDs indicating signal strength
Grounding Point A provision to ground the device
Recommended Ethernet Cable Specifications
Type Cat5/5e or better, STP, 24 AWG, UL rated, UV-shielded and outdoor-rated
Impedance 100 ohms
Cable Length 330 feet / 100 meters
: The total length of cabling between the Personal Computer and the device
cannot exceed 100 meters (includes cable from the Personal Computer to
the PoE, and the cable from the PoE to the device. Due to DC power
requirements, the maximum cable length between the PoE Injector and the
device is 75 meters.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 37
: You should use a straight through Ethernet cable between the PoE and the device. When you use a 4-pair cross
over Ethernet cable, the reload functionality gets activated and forcibly deletes the operating image.
2.3.1.2 Grounding Point
To protect the device against lightning or ESD events, you must ground the device properly. To ensure proper grounding, use
the grounding point situated at the bottom corner of the device and the grounding screw (M4 thread size) provided to attach
a ground wire of atleast 12 AWG stranded to the device.
2.3.2 Product Package
Each shipment includes the items listed in the following table. Please verify that you have received all the parts in the
shipment prior to the installation.
What’s in the Kit Image
MP-826-CPE-50
PoE Injector with Country specific Power Cord
WD - US, UK, and EU power cords
US - US power cord
Connector Weather Proofing Kit
Pole Mounting Kit
The mounting kit which is supplied
with 8xx / 8xxx series can also be used
with this device. Please refer to the
Step:6 Assemble Mounting Hardware
of the for
the step-by-step mounting procedure.
Grounding Kit
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 38
2.3.3 Installation Procedure
This section describes the steps to install and mount the device.
: The device must be installed by a trained professional who is familiar with radio frequency planning and
regulatory limits.
Perform the following steps to install and mount the device.
Step 1: Plan for Installation
There are several planning factors to be considered before installing the device. In addition to selecting the installation site,
you should do the following:
Calculate:
Required RSL and fade margin to achieve link availability objectives. For details on how to calculate RSL and fade
margin, please refer to the ‘Antenna Installation Guide’ and ‘Proxim Link Calculator’ which are available at
.
Required path availability
Anticipated multi-path reflection points
Determine:
System frequency plan
Required transmission line types (like cable, waveguides) and lengths
Plan for:
Continuous power consumption needs of the device
Lightning protection and system grounding
Hardware mounting
Cable installation including egress
Pre-testing equipment (back-to-back test procedure)
Step 2: Choose a Location
To make optimal use of the device, you must find a suitable location to install the hardware. Proxim recommends you do a site
survey, observing the following requirements, before mounting the hardware.
The location must allow easy disconnection of power to the radio, if necessary.
Ensure free flow of air around the hardware.
The radio device must be kept away from vibration and excessive heat.
The installation must conform to local regulations at all times.
Quick Installation Guide
What’s in the Kit Image
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 39
Step 3: Gather Required Tools
You should have the following tools available before installing the device:
Cross-tip screwdrivers
Large blade standard screwdriver
Spanner 13
Wire crimpers (if using connectors that are not pre-made)
Step 4: Unpack the Product Package
Unpack the device and its accessories from the shipping box.
Please make a note of the Ethernet addresses, the MAC addresses and the serial number. These addresses may be
used when configuring the device. Note that the serial number helps you to seek support from the Proxim’s Customer
support team.
Step 5: Pole Mount the Device
7. To pole-mount the device to a 1 inch diameter pole, place the mounting bracket with its small V-Groove facing the
pole (See option (1) in Figure 2).
8. To pole-mount the device to a 2.5 inch diameter pole, place the mounting bracket with its large V-Groove facing the
pole (See option (2) in Figure 2).
9. Place the device with its rear side facing the pole, and fasten the M8x80mm long screws along with the spring and
plain washers through the mounting bracket into the mounting holes of the device and tighten it to torque of 11
N.m/100 in-lbs.
Figure 2-21 Pole-Mounting
Step 6: Plug in the Cables
: Unscrew the sealing cap for installation of the cable.
1. Weatherproofing RJ45 Connector:
a. Use a straight-through cable (Cat5/Cat5e or better) with one end bare.
b. Connect the crimped RJ45 connector end of the cable into the RJ45 Ethernet port inside the enclosure. The cable
connector should latch into the Ethernet port.
c. Slide the Flat Washer (A) into the Connector Body (B) to make it waterproof and onto the bare end of the cable.
Next, fasten the Connector Body into the Ethernet connector hole on the device.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 40
d. Slide the tube-shaped Compression Washer (C) into the Compression Ring (D) and onto the cable from the bare
end, and insert into the fixed Connector Body.
e. Slide the Sealing Nut (E) over the bare end of the cable and fasten it on the fixed Connector Body.
f. Crimp the bare end of the cable with RJ45 connector and connect it to the LAN+DC port on the PoE Injector.
Figure 2-22 Weatherproofing RJ45 Connector
2. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the
network interface card in the Personal Computer and the hub/switch, and between the hub/switch and the RJ45 LAN
port on the PoE Injector.
3. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card
in the Personal Computer and the RJ45 LAN port on the PoE Injector.
:
Use only the PoE supplied with the product.
You should use a straight through Ethernet cable between the PoE and the device. When you use a 4-pair cross over
Ethernet cable, the reload functionality gets activated and forcibly deletes the operating image.
The following figure is the pictorial representation of the cabling setup.
Figure 2-23 Cabling Setup
Additional Weatherproofing Steps
To add an additional layer of protection to the connectors against the environment, see
.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 41
Step 8: Install Surge Protector
Proxim recommends two approved lightning surge protectors to be installed, one near to the device and the other at the
building ingress point.
: To buy a suitable Surge Protector, place an order separately with your distributor.
Perform the following steps to ensure proper surge protection:
1. Mount the surge protector near the outdoor device and use 10 AWG or larger wire to connect the protector’s ground
lug to the appropriate mounting ground point. The outdoor device and co-located surge protector should have a
common grounding point using the shortest possible grounding cable.
2. Mount a second surge protector near the building ingress and use 10 AWG or larger wire to connect the surge
protector’s ground lug to earth ground as shown in the following figure.
Figure 2-24 Surge Protector
: Use Outdoor-rated, UV protected, shielded Cat5/Cat5e or better cable for the following:
3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building
ingress.
4. Connect a short RJ45 terminated cable between the outdoor equipment and the port on the co-located surge
protector.
5. Connect an RJ45 terminated cable between the two surge protectors on their remaining ports.
: Ensure to loop the cable before entering the premise to prevent water ingress.
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 42
Step 9: Ground the Device
To ensure proper grounding, use the grounding point situated at the bottom corner of the device and the grounding screw
provided to attach a ground wire of atleast 12 AWG stranded to the device. It is important that the following grounding
guidelines are followed to protect the device against lightning or ESD events:
1. Connect one end of the grounding cable to the device and the other end to the closest earthing system point at the
installation.
2. Cut any extra ground wire length when finished connecting it to the single point earth ground.
3. Avoid sharp bends and never loop or coil up the ground wire, always connect it straight to ground.
4. A good earth ground impedance is less than 1.0 ohm.
5. Make sure all connections are fastened securely and are tight.
6. Never install during a storm and always follow your local safety codes.
Connect the grounding wire, which is supplied with the product package, to the grounding lug as shown below:
Figure 2-25 Ground the Device
Step 10: Power ON the Device
Plug in the power cord into a power outlet after having connected the PoE Injector and the device using Cat5/5e or better
cable. There is no ON/OFF switch on the device. To disconnect power, unplug the RJ45 connector from the LAN+DC port on
the PoE injector.
: When you power ON the device, LEDs on the scaling mask glow. The more LEDs on the scaling mask glow, better is
the signal. For better signal strength, try adjusting the position of the device.
The number of LEDs glowing and their corresponding SNR ranges are as follows:
Number of LEDs Glowing SNR Ranges
1 1-12
2 13-18
3 19-24
4 25-30
5 SNR > 30
800 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 43
Step 11: View LEDs
When the device is powered on, it performs startup diagnostics. When startup is complete, the LEDs show the device’s
operational status. The LEDs are available at the device’s Ethernet connector inside the enclosure. You can see the LED
through the Ethernet connector. The LEDs will not be visible if the RJ45 connector is weatherproofed.
Figure 2-26 LED Indicators
The following table describes the status of LED:
LED State Ethernet Interface
Power/Ethernet LED Wireless LED
Off No Power Radio is not present or failed to detect
Amber No Application Image detected (ScanTool
mode)
Power is ON and device detects Reload signal
Blinking Green Power is ON and the Ethernet link is DOWN Radio is detected but wireless link has not
been established yet
Solid Green Power is ON and the Ethernet link is up Radio is detected and wireless link has been
established
Tsunami® 800 and 8000 Series - Hardware Installation Guide 44
8000 Series - Hardware Overview and
Installation
This chapter provides hardware overview, and step-by-step procedure to install and mount the following Tsunami® 8000
series products.
3.1 MP-8100-BSU&SUA / MP-8150-SUR / QB-8100-EPA&LNK / QB-8150-
EPR&LNK / QB-8151-EPR&LNK
This section provides the hardware overview and installation procedure for the following product(s):
MP-8100-BSU
MP-8100-SUA
MP-8150-SUR
QB-8100-EPA / LNK
QB-8150-EPR / LNK
QB-8151-EPR / LNK
3.1.1 Hardware Overview
Figure 3-1 MP-8100-BSU /MP-8100-SUA /QB-8100-EPA
8000 Series - Hardware Overview and Installation
Tsunami® 800 and 8000 Series - Hardware Installation Guide 45
Figure 3-2 MP-8150-SUR / QB-8150-EPR / QB-8151-EPR
A detailed description about the various components of the device are explained in the following sections.
3.1.1.1 Gigabit Ethernet Ports
The device comes with two auto-sensing 10/100/1000 BASE-T Ethernet ports with configurable Tx modes and speeds.
3.1.1.1.1 a) Ethernet Port 1
The Gigabit Ethernet port 1 (PoE IN and Data) of the device allows the user to connect to the LAN by using Cat5e/Cat6
Ethernet cable, and also power ON the device by using the Power over Ethernet (PoE) Injector supplied with the product
package.
The device receives 48 VDC via a a standard Cat5e/Cat6 cable connected between the PoE and the device.
Maximum power supplied to the device is 32 Watts and the device typically draws 6 Watts.
Above 0° Celsius internal temperature, the device need not regulate its temperature, so the power drawn is generally lower in
this temperature range. When the internal temperature gets close to the limits, the device starts to heat itself and the power
draw increases. Powering the device when it is cold, triggers a special self-heat mode where the device is inoperable until the
internal temperature is above -20° Celsius. This is signaled by a solid yellow LED on the Ethernet connector. Once the internal
temperature is above -20° Celsius, the device boots normally.
: Always use a straight cable from PoE to the device. When you use a 4-pair cross over ethernet cable, the reload
functionality gets activated and forcibly deletes the operating image.
Recommended Ethernet Cable Specifications
Type Cat5e/Cat6, STP, 24 AWG, UL rated, UV-shielded and outdoor-rated
Impedance 100 ohms
Cable Length 330 feet / 100 meters
: The total length of cabling between the Personal Computer and the device
cannot exceed 100 meters (includes cable from the Personal Computer to the
PoE, and the cable from the PoE to the device). Due to DC power requirements,
the maximum cable length between the PoE Injector and the device is 75
meters.
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3.1.1.1.2 b) Ethernet Port 2
The Gigabit Ethernet Port 2 is used for PoE OUT and data.
While using this port, the following points should be considered:
48 VDC (15 W average) is present on the second Ethernet port. Make sure the connected device can support this
voltage.
If power from the second Ethernet Port is desired, then Proxim recommends you to use 60W PoE (not supplied).
If a device is connected to the second Ethernet port for data only, then use a PoE Splitter (not supplied).
3.1.1.2 Serial Port
The Serial Port is used for debugging and management, and Audible Antenna Alignment through Command Line Interface
(CLI).
The serial connection is established with an RJ11 to DB9 connector (also referred to as a “dongle”) by connecting the RJ1 end
of the dongle connector to the device and the other end to your Personal Computer.
Figure 3-3 Serial Components
The pin assignments for DB9 connector are as follows:
: The pin6 on RJ11 connector is used as input for 12V DC IN for diagnostic purpose. Supplying power on this pin, when
the device is powered by POE injector, might damage the device.
D-Shell RJ11
1 NC
2 2
3 4
4 NC
5 1 + 3 + 5
6 6
7 NC
8 NC
9 NC
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3.1.1.3 Antenna Ports
: Applicable only to MP-8100-BSU, MP-8100-SUA and QB-8100-EPA/LNK.
The Antenna Ports A1, A2 and A3 are used to connect external antenna (s). These antenna connectors are of N-Type female
with built-in surge protection.
: Use antenna port A1 for single polarization antennas, and antenna ports A1 and A3 for dual polarization antennas. By
default, A1 and A3 ports are enabled. Enable A2 port, in case you are using 3*3 antennas.
3.1.1.4 Grounding Points
To protect the device against lighting or ESD events, you must ground the device properly. To ensure proper grounding, use
either of the ground points that are situated at the bottom corner of the device and the grounding screw (#8-32 thread size)
provided to attach a ground wire of at least 10 AWG stranded to the device.
3.1.2 Product Package
Each shipment includes the items listed in the following table. Please verify that you have received all the parts in this
shipment, prior to installation.
What’s in the Kit Image
MP-8100-BSU/
MP-8100-SUA/
MP-8150-SUR/
QB-8100-EPA/
QB-8150-EPR/
QB-8151-EPR
PoE Injector with Country
specific Power Cord
WD - US, UK and EU power cords
US - US power cord
EU - UK and EU power cords
RJ11 to DB9 Serial Connector
Connector Weather Proofing
Kit (2 sets)
EMI Toroids
MP-8100-BSU/SUA
QB-8100-EPA
MP-8150-SUR
QB-8150-EPR / QB-8151-EPR
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PoE Surge Arrestor
Grounding Kit
Quick Installation Guide
Mounting Kit and Hardware The mounting kit includes the following:
Mounting clamp for wall/pole
Extension arm
Mounting plate to enclosure
Mounting clamp for pole mounting
The following table lists the items included with the mounting kit:
What’s in the Kit Image
Quantity Description Image
6 each Plain washer #5/16
2 each Hex Cap Screw NC 5/16-18 x 35
2 each Nut NC 5/16-18
4 each Helical Spring Lock Washer #1/4
4 each Helical Spring Lock Washer #5/16
2 each Hex Cap Screw NC 5/16-18 x 80
4 each 68764, Screw, Machine, Pan,
Philips, 1/4"-20, 5/8"L
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: QB-8100-LNK, QB-8150-LNK, and QB-8151-LNK contains two sets of all the above accessories.
3.1.3 Installation Procedure
This section describes the steps to install and mount the device(s).
: Please note that we have taken MP-8100-BSU as an example to explain the steps to install and mount the device.
Please correlate the same with your device.
: The device must be installed by a trained professional who is familiar with radio frequency planning and
regulatory limits.
Perform the following steps to install and mount the device.
Step 1: Plan for Installation
There are several planning factors to be considered before installing the device. In addition to selecting the installation site,
you should do the following:
Calculate:
Required RSL and fade margin to achieve link availability objectives. For more details on how to calculate RSL and fade
margin, please refer to the ‘Antenna Installation Guide’ and ‘Proxim Link Calculator’ that are available on the support
site at .
Required path availability
Anticipated multi-path reflection points
Determine:
System frequency plan
Required antenna mounting height to obtain proper path clearance
Required transmission line types (like cable, waveguides) and lengths
Plan for:
Device’s continuous power consumption needs
Lightning protection and system grounding
Hardware mounting
Cable installation including egress
Pre-testing equipment (back-to-back test procedure)
Step 2: Choose a Location
To make optimal use of the device, you must find a suitable location to install the hardware. The range of the radio device
largely depends upon the position of the antenna. Proxim recommends you do a site survey, observing the following
requirements, before mounting the hardware.
The location must allow easy disconnection of power to the radio, if necessary.
Ensure free flow of air around the hardware.
The radio device must be kept away from vibration and excessive heat.
The installation must conform to local regulations at all times.
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The devices are designed to directly mount to a pole. By using the supplied brackets and hardware, you can mount them to a
1.25 inch to 3-inch pole (outside diameter). Longer bolts (not supplied) are required to mount the device to a larger diameter
pole. By using the same pole mounting bracket, you can mount the device to a wall or other flat surface.
Step 3: Gather Required Tools
You should have the following tools available before installing the device:
Cross-tip screwdrivers
Small blade standard screwdriver
Large blade standard screwdriver
Wire crimpers (if using connectors that are not pre-made)
Adjustable 6” wrench
Weatherproofing material for sealing external connectors (such as butyl tape)
Straight-through UV-protected STP-rated Cat5e/Cat6 Ethernet cable for connecting to PC, or cable for connecting to a
hub or a switch.
Step 4: Unpack the Product Package
1. Unpack the device and its accessories from the shipping box.
2. Please make a note of the Ethernet addresses, the MAC addresses and the serial number. These addresses may be
used when configuring the device. Note that the serial number helps you to seek support from the Proxim’s Customer
support team.
Step 5: Weatherproofing RJ45 Connectors
The following steps explain how to weatherproof the RJ45 connectors:
1. Use a straight-through cable (Cat5e/Cat6) with one end bare.
2. Connect the crimped RJ45 connector end of the cable into the RJ45 Ethernet port inside the enclosure. The cable
connector should latch into the Ethernet port.
3. Slide the Flat Washer (A) into the Connector Body (B) to make it waterproof and onto the bare end of the cable. Next,
fasten the Connector Body into the Ethernet connector hole on the device.
4. Slide the tube-shaped Compression Washer (C) into the Compression Ring (D) and onto the cable from the bare end,
and insert into the fixed Connector Body.
5. Slide the Sealing Nut (E) over the bare end of the cable and fasten it on the fixed Connector Body.
6. Crimp the bare end of the cable with RJ45 connector and connect it to the PWR LAN-OUT port on the PoE Injector.
7. Open the notch on both sides of the toroid and fix it on Ethernet Cat5e/Cat6 cable. Then, lock the notch of the Toroid
by pressing it.
: Please ensure to fix toroids to the Ethernet cables.
Figure 3-4 Weatherproofing RJ45 Connector
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Additional Weatherproofing Steps
To add an additional layer of protection to the connectors against the environment, see
.
For detailed explanation to weatherproof RF connections, refer to Antenna Installation Guide, which is available at
.
Step 6: Assemble Mounting Hardware
1. Fix the Mounting Plate (A) by using the provided screws and washers (Torque 9 N.m/75 in-lbs).
2. Fix the Extension Arm (B) to the fixed Mounting Plate with the provided screw, nut and washers. The Extension Arm
gives the device more possible tilt, letting you adjust for azimuth or elevation over a larger angle.
3. Fix the Mounting Bracket (C) to fixed Extension Arm with the provided screw, nut and washers.
4. Tighten the assembled parts (Torque 15 N.m/130 in-lbs).
Mounting Plate Mounting Plate fixed to the device
Extension Arm Mounting Plate fixed to the device Extension Arm fixed to
Mounting Plate
Mounting Bracket Extension Arm fixed to
Mounting Plate
Mounting Bracket fixed to
Extension Arm
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The following figure shows the fully assembled mounting hardware fixed to the device.
Figure 3-5 Assembled Device
Step 7: Mount the Device
1. To pole-mount the device, insert the provided screws and washers through bracket (F). Fasten around the pole to
bracket (C) and secure (Torque 11 N.m/100 in-lbs).
Figure 3-6 Pole Mounting
2. To wall-mount the device, mount the bracket (C) to a wall by using 4 screws (not supplied), as shown:
Figure 3-7 Wall Mounting
Step 8: Plug in the Cables
: Unscrew the sealing cap for installation of the cable.
1. Plug one end of the straight-through Cat5e/Cat6 cable into the Ethernet Port 1 of the device by following the
Weatherproofing steps as explained in Step 5. Connect the other end of the cable into the PWR LAN-OUT port on
the PoE Injector.
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: Always use a straight cable from PoE to the device. When you use a 4-pair cross over ethernet cable, the reload
functionality gets activated and forcibly deletes the operating image.
Figure 3-8 Cable Plugged In
2. Plugging in the second Cat5e/Cat6 cable into the Ethernet Port 2 interface of the device is optional. While using the
second Ethernet Port for PoE OUT and data, the following should be considered:
48 VDC (15 W average) is present on the second Ethernet port. Make sure the connected device can support this
voltage.
If power from the second Ethernet Port is desired, then Proxim recommends to use 60W PoE (not supplied).
If the device is connected to the second Ethernet port for data, then use a PoE Splitter (not supplied)
3. Optionally, connect a RJ11 to DB9 Serial Connector to device’s Serial Port for debugging and management, and
audible antenna alignment.
Figure 3-9 PoE Injector
4. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the
network interface card in the Personal Computer and the hub, and between the hub and the RJ45 LAN-IN port on the
PoE Injector.
5. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card
in the Personal Computer and the RJ45 LAN-IN port on the PoE Injector.
Step 9: Connect the Antenna
: Applicable only to MP-8100-BSU, MP-8100-SUA and QB-8100-EPA/LNK.
Connect the antenna to the device antenna port by connecting the straight N-male end of the cable to the device antenna
port and the right angle N-male end of the cable at the antenna.
: Record which port each antenna polarization is associated with to ensure that each side matches and aid in
configuration.
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Step 10: Install Surge Protector
Proxim recommends two approved lightning surge protectors to be installed, one near to the device and the other at the
building ingress point.
: For an additional Surge Protector, place an order separately with your distributor.
Perform the following steps to ensure proper surge protection:
1. Mount the provided surge protector near the outdoor device and use 10 AWG or a better gauge wire to connect the
protector’s ground lug to the appropriate mounting ground point. The outdoor device and co-located surge protector
should have a common grounding point using the shortest possible grounding cable.
2. Mount a second surge protector near the building ingress and use 10 AWG or a better gauge wire to connect the
surge protector’s ground lug to earth ground as shown in the figure below.
Figure 3-10 Surge Protector
: Use Outdoor-rated, UV protected, shielded Cat5e/Cat6 cable for the following:
3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building
ingress.
4. Connect a short RJ45 terminated cable between the outdoor device and the port on the co-located surge protector.
5. Connect an RJ45 terminated cable between the two surge protectors on their remaining ports.
: Ensure to loop the cable before entering the premise to prevent water ingress.
Step 11: Ground the Unit
To ensure proper grounding, use either of the ground points which are situated at the bottom corners of the device and the
grounding screw(#8-32 thread size) provided to attach a ground wire of at least 10 AWG stranded to the device. It is
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important that the following ground guidelines are followed during installations to protect the device against lighting or ESD
events:
1. Connect one end of the grounding cable to the device and the other end to the closest earthing system point at the
installation.
2. Cut any extra ground wire length when finished connecting it to the single point earth ground.
3. Avoid sharp bends and never loop or coil up the ground wire, always connect it straight to ground.
4. A good earth ground impedance is less than 1.0 ohm.
5. Measure ground impedance at the point where the protector ground wire is connected and not at the ground rod.
6. Connect the surge protector ground wire and equipment ground (both power ground and telecomm ground) to a
single common ground.
7. Make sure all connections are fastened securely and are tight.
8. Never install during a storm and always follow your local safety codes.
Connect the grounding wire, which is supplied with the product package, to the device as shown below:
Figure 3-11 Ground the Device
Step 12: Power ON the Device
Plug in the power cord into a power outlet after having connected the Power Injector and the radio device by using
straight-through Cat5e/Cat6 cable. There is no ON/OFF switch on the device. To disconnect power, unplug the RJ45
connector from the PWR LAN-OUT port on the power injector.
Step 13: View LEDs
When the device is powered on, it performs startup diagnostics. When startup is complete, the LEDs show the device’s
operational state. The LEDs are available at the device’s Ethernet connector inside the enclosure. You can see the LEDs
through the ethernet connector. The LEDs will not be visible if the RJ45 connector is weatherproofed.
Figure 3-12 View LEDs
The following table states the status of LEDs and the corresponding operational state of the device:
LED State Ethernet 1
Power/Ethernet LED Wireless LED
Yellow Device is self heating (Cold Start) Power is ON and the device detects
Reload signal
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Step 14: Align the Antennas
Antenna alignment is the process of physically aligning the antenna of the radio receiver and transmitter to have the best
possible link established between them. The antenna alignment process is usually performed during installation and after
major repairs. If you are installing external antennas, refer to the documentation that accompanies the antenna for
installation instructions.
The device has an audible antenna alignment tool that can be activated by plugging in the supplied RJ11 serial dongle. It is
audible upto 30 minutes. The CLI command enables both audible and numerical feedback as the CLI shows the running
Signal-to-Noise Ratio (SNR) values twice a second.
The output from the beeper for antenna alignment consists of short beeps with a variable interval. The interval changes with
the SNR level to assist in correctly aligning the antenna. An increase in signal level is indicated by a shorter interval between
beeps and a reduction in signal level results in beeps longer apart.
The alignment process averages the SNR, which is represented by an average length beep. When a higher SNR is received, the
beep period becomes shorter. A lower SNR results in a longer period between beeps.
Figure 3-13 Beep Interval
When the antenna is aimed, the beep intuitively represents whether the SNR is rising or falling. The higher the SNR rises, the
shorter the period of the beep is heard and the higher the frequency of the beep. When you change the position of the
Off No Power Radio is not present or failed to detect
Blinking Green-Fast Power is ON and the Ethernet link on
Ethernet 1 is down
Radio is ON and wireless link has not
been established yet
Blinking Green
(5 times) and turns off
Bootloader detected no image Not Applicable
Green Power is ON and the Ethernet link on
Ethernet 1 is UP
Wireless link has been established
LED State Ethernet 2
Power/Ethernet LED Wireless LED
Yellow Not Applicable Not Applicable
Off No Power Normal Operation
Blinking Green-Fast Power is ON and the Ethernet link on
Ethernet 2 is down
Not Applicable
Blinking Green
(5 times) and turns off
Bootloader detected no image Not Applicable
Green Power is ON and the Ethernet link on
Ethernet 2 is UP
Not Applicable
LED State Ethernet 1
Power/Ethernet LED Wireless LED
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antenna, SNR averaging settles at the new value and the beeping returns to the average length so the antenna can again be
aimed for rising SNR.
Aiming is complete if moving in any direction results in a falling SNR value (which can be heard as longer periods between
beeps).
:
The range of the average SNR has been limited to values from 5 to 43; therefore, anything over 43 always results in a
short period between beeps and values below 5 always have a long period.
The Antenna Alignment Display (AAD) CLI output is disabled automatically 30 minutes after it is enabled to remove
the load of extra messages on the wireless interface. The default telnet time-out is 300 seconds (5 minutes).
Antenna Alignment Commands
To enable the antenna alignment display from the CLI prompt, enter the following commands:
: Enables display of the local signal, noise and SNR.
: Enables display of the remote signal, noise and SNR.
: Enables display of local and remote signal, noise and SNR.
: Use a flat blade screw driver to disconnect and pull out the Serial cable from the enclosure after the antenna
alignment is done. After withdrawing the cables, seal the serial port carefully to avoid water seepage.
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3.2 MP-8160-BSU / MP-8160-SUA / MP-8160-BS9
This section provides the hardware overview and installation procedure for the following products:
MP-8160-BSU
MP-8160-BS9
MP-8160-SUA
3.2.1 Hardware Overview
Figure 3-14 MP-8160-BSU / MP-8160-SUA
Figure 3-15 MP-8160-BS9
A detailed description about the various components of the device are explained in the following sections.
3.2.1.1 Gigabit Ethernet Ports
The device comes with two auto-sensing 10/100/1000 BASE-T Ethernet ports with configurable Tx modes and speeds.
a) Ethernet Port 1 (PoE IN and Data)
The Gigabit Ethernet port 1 (PoE IN and Data) of the device allows the user to connect to the LAN by using Cat5e/Cat6
Ethernet cable, and also power ON the device by using the Power over Ethernet (PoE) Injector supplied with the product
package.
The device receives 48 VDC via a a standard Cat5e/Cat6 cable connected between the PoE and the device.
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Maximum power supplied to the device is 32 Watts and the device typically draws 10 Watts.
Above 0° Celsius internal temperature, the device need not regulate its temperature, so the power drawn is generally lower in
this temperature range. When the internal temperature gets close to the limits, the device starts to heat itself and the power
draw increases. Powering the device when it is cold, triggers a special self-heat mode where the device is inoperable until the
internal temperature is above -20° Celsius. This is signaled by a solid yellow LED on the Ethernet connector. Once the internal
temperature is above -20° Celsius, the device boots normally.
: Always use a straight cable from PoE to the device. When you use a 4-pair cross over ethernet cable, the reload
functionality gets activated and forcibly deletes the operating image.
3.2.1.1.1 b) Ethernet Port 2 (PoE OUT and Data)
The Gigabit Ethernet Port 2 is used for PoE OUT and Data.
While using this port, the following points should be considered:
48 VDC (15 W average) is present on the second Ethernet port. Make sure the connected device can support this
voltage.
If power from the second Ethernet Port is desired, then Proxim recommends you to use 60W PoE (not supplied).
If a device is connected to the second Ethernet port for data only, then use a PoE Splitter (not supplied).
3.2.1.2 Serial Port
The Serial Port is used for debugging and management, and Audible Antenna Alignment through Command Line Interface
(CLI).
The serial connection is established with an RJ11 to DB9 connector (also referred to as a “dongle”) by connecting the RJ11
end of the dongle connector to the device and the other end to your Personal Computer.
Recommended Ethernet Cable Specifications
Type Cat5e/Cat6, STP, 24 AWG, UL rated, UV-shielded and outdoor-rated
Impedance 100 ohms
Cable Length 330 feet / 100 meters
: The total length of cabling between the Personal Computer and the device
cannot exceed 100 meters (includes cable from the Personal Computer to
the PoE, and the cable from the PoE to the device. Due to DC power
requirements, the maximum cable length between the PoE Injector and the
device is 75 meters.
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Figure 3-16 Serial Components
The pin assignments for DB9 connector are as follows:
: The pin6 on RJ11 connector is used as input for 12V DC IN for diagnostic purpose. Supplying power on this pin, when
the device is powered by POE injector, might damage the device.
3.2.1.3 Antenna Ports
: Applicable only to MP-8160-BSU and MP-8160-SUA.
The Antenna Ports A1 and A2 are used to connect external antenna(s). These antenna connectors are of N-Type female.
3.2.1.4 Grounding Point
To protect the device against lighting or ESD events, you must ground the device properly. To ensure proper grounding, use
either of the ground points that are situated at the bottom corner of the device and the grounding screw (#8-32 thread size)
provided to attach a ground wire of at least 10 AWG stranded to the device.
D-Shell RJ11
1 NC
2 2
3 4
4 NC
5 1 + 3 + 5
6 6
7 NC
8 NC
9 NC
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3.2.2 Product Package
Each shipment includes the items listed in the following table. Please verify that you have received all the parts in this
shipment, prior to installation.
What’s in the Kit Image
MP-8160-BSU/
MP-8160-SUA/
MP-8160-BS9
Gigabit PoE Injector and Power
Cord
WD - US, UK and EU power cords
RJ11 to DB9 Serial Connector
Connector Weather Proofing
Kit (2 sets)
Gigabit PoE Surge Arrestor
Grounding Kit
Quick Installation Guide
MP-8160-BSU/
MP-8160-SUA
MP-8160-BS9
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3.2.3 Installation Procedure
: Please note that we have taken MP-8160-BSU as an example to explain the steps to install and mount the device.
Please correlate the same with your device.
: The device must be installed by a trained professional who is familiar with radio frequency planning and
regulatory limits.
Mounting Kit and Hardware
The mounting kit includes the following:
Mounting clamp for wall/pole
Extension arm
Mounting plate to enclosure
Mounting clamp for pole mounting
The following table lists and describes some of the items included with
the mounting kit:
What’s in the Kit Image
Quantity Description Image
6 each Plain washer #5/16
2 each Hex Cap Screw NC 5/16-18 x 35
2 each Nut NC 5/16-18
4 each Helical Spring Lock Washer #1/4
4 each Helical Spring Lock Washer #5/16
2 each Hex Cap Screw NC 5/16-18 x 80
4 each 68764, Screw, Machine, Pan,
Philips, 1/4"-20, 5/8"L
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Perform the following steps to install and mount the device.
Step 1: Plan for Installation
There are several planning factors to be considered before installing the device. In addition to selecting the installation site,
you should do the following:
Calculate:
Required RSL and fade margin to achieve link availability objectives. For more details on how to calculate RSL and fade
margin, please refer to the ‘Antenna Installation Guide’ and ‘Proxim Link Calculator’ that are available on the support
site at .
Required path availability
Anticipated multi-path reflection points
Determine:
System frequency plan
Required antenna mounting height to obtain proper path clearance
Required transmission line types (like cable, waveguides) and lengths
Plan for:
Device’s continuous power consumption needs
Lightning protection and system grounding
Hardware mounting
Cable installation including egress
Pre-testing equipment (back-to-back test procedure)
Step 2: Choose a Location
To make optimal use of the device, you must find a suitable location to install the hardware. The range of the radio device
largely depends upon the position of the antenna. Proxim recommends you do a site survey, observing the following
requirements, before mounting the hardware.
The location must allow easy disconnection of power to the radio, if necessary.
Ensure free flow of air around the hardware.
The radio device must be kept away from vibration and excessive heat.
The installation must conform to local regulations at all times.
The devices are designed to directly mount to a pole. By using the supplied brackets and hardware, you can mount them to a
1.25 inch to 3-inch pole (outside diameter). Longer bolts (not supplied) are required to mount the device to a larger diameter
pole. By using just one of the pole mounting brackets, you can mount the device to a wall or other flat surface.
Step 3: Gather Required Tools
You should have the following tools available before installing the device:
Cross-tip screwdrivers
Small blade standard screwdriver
Large blade standard screwdriver
Wire crimpers (if using connectors that are not pre-made)
Adjustable 6” wrench
Weatherproofing material for sealing external connectors (such as butyl tape)
Straight-through UV-protected STP-rated Cat5e/Cat6 Ethernet cable for connecting to PC, or cable for connecting to a
hub or a switch.
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Step 4: Unpack the Product Package
Unpack the device and its accessories from the shipping box.
Please make a note of the Ethernet addresses, the MAC addresses and the serial number. These addresses may be
used when configuring the device. Note that the serial number helps you to seek support from the Proxim’s Customer
support team.
Step 5: Weatherproofing RJ45 Connectors
The following steps explain how to weatherproof the RJ45 connectors:
1. Use a straight-through cable (Cat5e/Cat6) with one end bare.
2. Connect the crimped RJ45 connector end of the cable into the RJ45 Ethernet port inside the enclosure. The cable
connector should latch into the Ethernet port.
3. Slide the Flat Washer (A) into the Connector Body (B) to make it waterproof and onto the bare end of the cable. Next,
fasten the Connector Body into the Ethernet connector hole on the device.
4. Slide the tube-shaped Compression Washer (C) into the Compression Ring (D) and onto the cable from the bare end,
and insert into the fixed Connector Body.
5. Slide the Sealing Nut (E) over the bare end of the cable and fasten it on the fixed Connector Body.
6. Crimp the bare end of the cable with RJ45 connector and connect it to the PWR LAN-OUT port on the PoE Injector.
Figure 3-17 Weatherproofing RJ45 Connector
Additional Weatherproofing Steps
To add an additional layer of protection to the connectors against the environment, see
.
For detailed explanation to weatherproof RF connections, refer to Antenna Installation Guide, which is available at
.
Step 6: Assemble Mounting Hardware
1. Fix the mounting plate (A) by using the provided screws and washers (Torque 9 N.m/75 in-lbs).
2. Fix the extension arm (B) to the fixed mounting plate with the provided screw, nut and washers. The extension arm
gives the device more possible tilt, letting you adjust for azimuth or elevation over a larger angle.
Mounting Plate Mounting Plate fixed to the device
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3. Fix the mounting bracket (C) to fixed extension arm with the provided screw, nut and washers.
4. Tighten the assembled parts (Torque 15 N.m/130 in-lbs).
The following figure shows the full assembled mounting hardware fixed to the device.
Figure 3-18 Assembled Device
Extension Arm Mounting Plate fixed to the
device
Extension Arm fixed to
Mounting Plate
Mounting Bracket Extension Arm fixed to
Mounting Plate
Mounting Bracket fixed to
Extension Arm
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Step 7: Mount the Device
1. To pole-mount the device, insert the provided screws and washers through bracket (F). Fasten around the pole to
bracket (C) and secure (Torque 11 N.m/100 in-lbs).
Figure 3-19 Pole Mounting
2. To wall-mount the device, mount the bracket (C) to a wall using 4 screws (not provided), as shown:
Figure 3-20 Wall Mounting
Step 8: Plug in the Cables
: Unscrew the sealing cap for installation of the cable.
1. Plug one end of the straight-through Cat5e/Cat6 cable into the Ethernet Port 1 of the device by following the
Weatherproofing steps as explained in Step 5. Connect the other end of the cable into the PWR LAN-OUT port on
the PoE Injector.
: Always use a straight cable from PoE to the device. When you use a 4-pair cross over ethernet cable, the reload
functionality gets activated and forcibly deletes the operating image.
Figure 3-21 Cable Plugged In
2. Plugging in the second Cat5e/Cat6 cable into the Ethernet Port 2 interface of the device is optional. While using the
second Ethernet Port for PoE OUT and data, the following should be considered:
48 VDC (15 W average) is present on the second Ethernet port. Make sure the connected device can support this
voltage.
If power from the second Ethernet Port is desired, then Proxim recommends to use 60W PoE (not supplied).
If the device is connected to the second Ethernet port for data, then use a PoE Splitter (not supplied).
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3. Optionally, connect a RJ11 to DB9 Serial Connector to device’s Serial Port for debugging and management, and
audible antenna alignment.
Figure 3-22 PoE Injector
4. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the
network interface card in the Personal Computer and the hub, and between the hub and the RJ45 “LAN-IN” port on
the PoE Injector.
5. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card
in the Personal Computer and the RJ45 “LAN IN” port on the PoE Injector.
Step 9: Connect the Antenna
:Applicable only to MP-8160-BSU and MP-8160-SUA.
Connect the antenna to the device antenna port by connecting the straight N-male end of the cable to the device antenna
port and the right angle N-male end of the cable at the antenna.
: Record which port each antenna polarization is associated with to ensure that each side matches and aid in
configuration.
Step 10: Install Surge Protector
Proxim recommends two approved lightning surge protectors to be installed, one near to the device and the other at the
building ingress point.
: For an additional Surge Protector, place an order separately with your distributor.
Perform the following steps to ensure proper surge protection:
1. Mount the provided surge protector near the outdoor device and use 10 AWG or a better gauge wire to connect the
protector’s ground lug to the appropriate mounting ground point. The outdoor device and co-located surge protector
should have a common grounding point by using the shortest possible grounding cable.
2. Mount a second surge protector near the building ingress and use 10 AWG or a better gauge wire to connect the
surge protector’s ground lug to earth ground as shown in the figure below.
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Figure 3-23 Surge Protector
: Use Outdoor-rated, UV protected, shielded Cat5e/Cat6 cable for the following:
3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building
ingress.
4. Connect a short RJ45 terminated cable between the outdoor device and the port on the co-located surge protector.
5. Connect an RJ45 terminated cable between the two surge protectors on their remaining ports.
: Ensure to loop the cable before entering the premise to prevent water ingress.
Step 11: Ground the Unit
To ensure proper grounding, use either of the ground points which are situated at the bottom corners of the device and the
grounding screw(#8-32 thread size) provided to attach a ground wire of at least 10 AWG stranded to the device. It is
important that the following ground guidelines are followed during installations to protect the device against lighting or ESD
events:
1. Connect one end of the grounding cable to the device and the other end to the closest earthing system point at the
installation.
2. Cut any extra ground wire length when finished connecting it to the single point earth ground.
3. Avoid sharp bends and never loop or coil up the ground wire, always connect it straight to ground.
4. A good earth ground impedance is less than 1.0 ohm.
5. Measure ground impedance at the point where the protector ground wire is connected and not at the ground rod.
6. Connect the surge protector ground wire and equipment ground (both power ground and telecomm ground) to a
single common ground.
7. Make sure all connections are fastened securely and are tight.
8. Never install during a storm and always follow your local safety codes.
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Connect the grounding wire, which is supplied with the product package, to the device as shown below:
Figure 3-24 Ground the device
Step 12: Power ON the Device
Plug in the power cord into a power outlet after having connected the PoE Injector and the device using Cat5e/Cat6 cable.
There is no ON/OFF switch on the device. To disconnect power, unplug the RJ45 connector from the “PWR LAN-OUT” port
on the PoE injector.
Step 13: View LEDs
When the device is powered on, it performs startup diagnostics. When startup is complete, the LEDs show the device’s
operational state. The LEDs are available at the device’s Ethernet connector inside the enclosure. You can see the LEDs
through the ethernet connector. The LEDs will not be visible if the RJ45 connector is weatherproofed.
Figure 3-25 View LEDs
The following table describes the status of LEDs:
LED State Ethernet 1
Power/Ethernet LED Wireless LED
Yellow Device is self heating (Cold Start) Power is ON and the device detects
Reload signal
Off No Power Radio is not present or failed to detect
Blinking Green-Fast Power is ON and the Ethernet link on
Ethernet 1 is DOWN
Radio is ON and wireless link has not
been established yet
Blinking Green
(5 times) and turns off
Bootloader detected no image Not Applicable
Green Power is ON and the Ethernet link on
Ethernet 1 is UP
Wireless link has been established
LED State Ethernet 2
Power/Ethernet LED Wireless LED
Yellow Not Applicable Not Applicable
Off No Power Normal Operation
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Step 14: Align the Antenna
Antenna alignment is the process of physically aligning the antenna of the radio receiver and transmitter to have the best
possible link established between them. The antenna alignment process is usually performed during installation and after
major repairs. If you are installing external antennas, refer to the documentation that accompanies the antenna for
installation instructions.
The device has an audible antenna alignment tool that can be activated by plugging in the supplied RJ11 serial dongle. It is
audible upto 30 minutes. The CLI command enables both audible and numerical feedback as the CLI shows the running
Signal-to-Noise Ratio (SNR) values twice a second.
The output from the beeper for antenna alignment consists of short beeps with a variable interval. The interval changes with
the SNR level to assist in correctly aligning the antenna. An increase in signal level is indicated by a shorter interval between
beeps and a reduction in signal level results in beeps longer apart.
The alignment process averages the SNR, which is represented by an average length beep. When a higher SNR is received, the
beep period becomes shorter, A lower SNR results in a longer period between beeps.
Figure 3-26 Beep Interval
When the antenna is aimed, the beep intuitively represents whether the SNR is rising or falling. The higher the SNR rises, the
shorter the period of the beep is heard and the higher the frequency of the beep.
When you change the position of the antenna, SNR averaging settles at the new value and the beeping returns to the
average length so the antenna can again be aimed for rising SNR.
Aiming is complete if moving in any direction results in a falling SNR value (which can be heard as longer periods between
beeps).
:
The range of the average SNR has been limited to values from 5 to 43; therefore, anything over 43 always results in a
short period between beeps and values below 5 always have a long period.
The Antenna Alignment Display (AAD) CLI output is disabled automatically 30 minutes after it is enabled to remove
the load of extra messages on the wireless interface. The default telnet time-out is 300 seconds (5 minutes).
Blinking Green-Fast Power is ON and the Ethernet link on
Ethernet 2 is DOWN
Not Applicable
Blinking Green
(5 times) and turns off
Bootloader detected no image Not Applicable
Green Power is ON and the Ethernet link on
Ethernet 2 is UP
Not Applicable
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Antenna Alignment Commands
To enable the antenna alignment display from the CLI prompt, enter the following commands:
: Enables display of the local signal, noise and SNR.
: Enables display of the remote signal, noise and SNR.
: Enables display of local and remote signal, noise and SNR.
: Use a flat blade screw driver to disconnect and pull out the Serial cable from the enclosure after the antenna
alignment is done. After withdrawing the cables, seal the serial port carefully to avoid water seepage.
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3.3 MP-8150-CPE / QB-8150-LNK-12/50
This section provides the hardware overview and installation method for the following products:
MP-8150-CPE
QB-8150-LNK-12/50
3.3.1 Hardware Overview
Figure 3-27 MP-8150-CPE / QB-8150-EPR-12 / QB-8150-EPR-50
A detailed description about the various components of the device are explained in the following sections.
3.3.1.1 Ethernet Port (PoE IN and Data)
The device comes with auto-sensing 10/100 BASE-T Ethernet port with configurable Tx modes and speeds.
The Ethernet port of the device allows the user to connect to the LAN by using Cat5/5e or better Ethernet cable, and also
power ON the device by using the Power over Ethernet (PoE) Injector supplied with the product package.
The device receives 48 VDC via a standard Cat5/5e or better cable connected to the Ethernet port.
Maximum power supplied to the device is 19 Watts. The device typically draws 7 Watts.
: Always use a straight cable from PoE to the device. When you use a 4-pair cross over ethernet cable, the reload
functionality gets activated and forcibly deletes the operating image.
3.3.1.2 Serial Port
The Serial Port is used for debugging and management of the device through Command Line Interface (CLI).
Recommended Ethernet Cable Specifications
Type Cat5/5e or better cable, STP, 24 AWG, UL rated, UV-shielded and outdoor-rated
Impedance 100 ohms
Cable Length 330 feet / 100 meters
: The total length of cabling between the Personal Computer and the device
cannot exceed 100 meters (includes cable from the PC to the PoE, and the
cable from the PoE to the device. Due to DC power requirements, the
maximum cable length between the PoE Injector and the device is 75 meters.
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The serial connection is established with an RJ11 to DB9 connector (also referred to as a “dongle”) by connecting the RJ11
end of the dongle connector to the device and the other end to your Personal Computer.
Figure 3-28 Serial Components
The pin assignments for DB9 connector are as follows:
: The pin6 on RJ11 connector is used as input for 12V DC IN for diagnostic purpose. Supplying power on this pin, when
the device is powered by POE injector, might damage the device.
3.3.1.3 Grounding Point
To protect the device against lighting or ESD events, you must ground the device properly. To ensure proper grounding,
ground a wire of atleast 12 AWG stranded to the grounding screw (M3 thread size) which is fixed to the bottom corner of the
device.
D-Shell RJ11
1 NC
2 2
3 4
4 NC
5 1 + 3 + 5
6 6
7 NC
8 NC
9 NC
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3.3.2 Product Package
Each shipment includes the items listed in the following table. Please verify that you have received all the parts in this
shipment, prior to installation.
: The QuickBridge Links (QB-8150-LNK-12 and QB-8150-LNK-50) contains two sets of all the above listed items.
What’s in the Kit Image
MP-8150-CPE/
QB-8150-EPR-12/
QB-8150-EPR-50
PoE Injector with Country
specific Power Cord
WD - US, UK and EU power cords
US - US power cord
Connector Weatherproofing
Kit
Grounding Kit
Pole Mounting Kit The mounting kit includes the following:
Quick Installation Guide
Component Name Image Quantity
M6-16 Screw 2
M6 Spring Washer 2
M6 Plain Washer 2
Hose Clamp 2
Mounting Bracket 1
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3.3.3 Installation Procedure
This section describes the steps to install and mount the device(s).
: The device must be installed by a trained professional who is familiar with radio frequency planning and
regulatory limits.
Perform the following steps to install and mount the device.
Step 1: Plan for Installation
There are several planning factors to be considered before installing the device. In addition to selecting the installation site,
you should do the following:
Calculate:
Required RSL and fade margin to achieve link availability objectives. For more details on how to calculate RSL and fade
margin, please refer to the ‘Antenna Installation Guide’ and ‘Proxim Link Calculator’ that are available on the support
site at .
Required path availability
Anticipated multi-path reflection points
Determine:
System frequency plan
Required transmission line types (like cable, waveguides) and lengths
Plan for:
Device’s continuous power consumption needs
Lightning protection and system grounding
Hardware mounting
Cable installation including egress
Pre-testing equipment (back-to-back test procedure)
Step 2: Choose a Location
To make optimal use of the device, you must find a suitable location to install the hardware. Proxim recommends you do a site
survey, observing the following requirements, before mounting the hardware.
The location must allow easy disconnection of power to the radio, if necessary.
Ensure free flow of air around the hardware.
The radio device must be kept away from vibration and excessive heat.
The installation must conform to local regulations at all times.
Step 3: Gather Required Tools
You should have the following tools available before installing the device:
Cross-tip screwdrivers
Large blade standard screwdriver
Spanner 10
Wire crimpers (if using RJ45 connector that is not pre-made)
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Step 4: Unpack the Product Package
Unpack the device and its accessories from the shipping box.
Please make a note of the Ethernet addresses, the MAC addresses and the serial number. These addresses may be
used when configuring the device. Note that the serial number helps you to seek support from the Proxim’s Customer
support team.
Step 5: Assemble the Cable
To assemble the Ethernet cable and weatherproof the RJ45 connector, do the following
1. Slide the Lock Nut (3) and Sealing Cap (2) over the bare end of an Ethernet cable (1) (Cat5/Cat5e or better) as shown
in figure below:
2. Terminate the cable and crimp it with a standard RJ45 connector (4).
3. Insert the assembled cable into the POWER + DATA port of the device. Tighten the sealing cap and lock the nut.
Additional Weatherproofing Steps
To add an additional layer of protection to the connectors against the environment, see
.
Step 6: Mount the Device
The device is designed to directly mount to a pole. By using the supplied brackets and hardware, you can mount them to a
1.25 inch to 3-inch pole (outside diameter). Longer bolts (not supplied) are required for mounting the device to a larger
diameter pole. By using just one of the pole mounting brackets, you can mount the device to a wall or other flat surface. The
device must always be mounted with all access ports of the integrated antenna pointed straight down to achieve horizontal
and vertical polarization.
To pole mount the device, perform the following steps:
1. Ensure that the pole intended for installation is securely attached to a solid base.
2. Attach the mounting bracket (1) to the device with the provided screws and washers.
Lock Nut and Sealing Cap Lock Nut and Sealing Cap onto the
Cat 5/Cat5e cable
Cat 5/Cat5e cable with bare end
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: Slide the M6-16 screw through the M6 Spring Washer first and then through M6 Plain Washer. Misplacement
of the washers may cause damage to the device.
3. Slide the Hose Clamps (2) through the Mounting Bracket and place the Hose Clamps around the pole.
4. Insert the end of the hose clamps into the fastening clip and tighten the screw.
: Do not over tighten the screws at this stage, as the device may need adjustment to obtain good signal strength.
Proxim also provides an optional universal wall mounting kit bracket (P/N 1087-UMK); this kit is designed to mount the device
directly to a flat surface such as a roof, wall, or under an eave.
Figure 3-29 Universal Mounting Bracket
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Step 7: Plug in the Cables
1. Plug one end of the Cat5/Cat5e or better Ethernet cable (5.5 mm/.217 in OD maximum) into the Ethernet (RJ45) jack
of the device. Ensure that the cable connector is latched securely. You can hear a click sound when the cable
connector latches into the jack, then tighten the sealing nut by hand.
: Always use a straight cable from PoE to the device. When you use a 4-pair cross over ethernet cable, the reload
functionality gets activated and forcibly deletes the operating image.
2. Connect the other end of the Cat5/Cat5e or better cable to the LAN+DC port on the PoE Injector.
Figure 3-30 PoE Injector
3. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card
in the Personal Computer and the RJ45 LAN port on the PoE Injector.
4. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the
network interface card in the Personal Computer and the hub. Connect another Ethernet cable between the hub and
the RJ45 LAN port on the PoE Injector.
Step 8: Install Surge Protector
Proxim recommends two approved lightning surge protectors to be installed, one near to the device and the other at the
building ingress point.
: To buy a suitable Surge Protector, place an order separately with your distributor.
Perform the following steps to ensure proper surge protection:
1. Mount the provided surge protector near the outdoor device and use 10 AWG or a better gauge wire to connect the
protector’s ground lug to the appropriate mounting ground point. The outdoor device and co-located surge protector
should have a common grounding point by using the shortest possible grounding cable.
2. Mount a second surge protector near the building ingress and use 10 AWG or a better gauge wire to connect the
surge protector’s ground lug to earth ground as shown in the figure below.
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Figure 3-31 Surge Protector
: Use Outdoor-rated, UV protected, shielded Cat5/Cat5e or better cable for the following:
3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building
ingress.
4. Connect a short RJ45 terminated cable between the outdoor device and the port on the co-located surge protector.
5. Connect an RJ45 terminated cable between the two surge protectors on their remaining ports.
: Ensure to loop the cable before entering the premise to prevent water ingress.
Step 9: Ground the Device
To ensure proper grounding, ground a wire of atleast 12 AWG stranded to the grounding screw (M3 thread size) which is
fixed to the bottom corner of the device. It is important to note that the following ground guidelines are followed during
installations:
1. Connect one end of the grounding cable to the device and the other end to the closest earthing system point at the
installation.
2. Cut any extra ground wire length when finished connecting it to the single point earth ground.
3. Avoid sharp bends and never loop or coil up the ground wire, always connect it straight to ground.
4. A good earth ground impedance is less than 1.0 ohm.
5. Measure ground impedance at the point where the protector ground wire is connected and not at the ground rod.
6. Connect the protector ground wire and equipment ground (both power ground and telecomm ground) to a single
common ground.
7. Make sure all connections are fastened securely and are tight.
8. Never install during a storm and always follow your local safety codes.
Connect the grounding wire, which is supplied with the product package, to the grounding lug as shown below:
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Figure 3-32 Grounding the Device
Step 10: Power ON the Device
Plug in the power cord into a power outlet after connecting the PoE Injector to the device by using Cat5/Cat5e or better
cable. There is no ON/OFF switch on the device. To disconnect power, unplug the RJ45 connector from the LAN+DC port on
the PoE Injector.
Step 11: View LEDs
When the device is powered on, it performs startup diagnostics. When startup is complete, the LEDs show the device’s
operational state. The LEDs are available at the device Ethernet connector inside the enclosure. You can see the LEDs through
the ethernet connector. The LEDs will not be visible if the RJ45 connector is weatherproofed.
Figure 3-33 LEDs
The following table states the status of LEDs and the corresponding operational state of the device:
LED State Ethernet interface
Power/Ethernet LED Wireless LED
Off No Power Radio is not present or failed to detect
Amber No Application Image detected (In
Bootloader CLI / ScanTool mode)
Power is ON and device detects Reload
signal
Blinking Green Power is ON and the Ethernet link is down Radio is detected but wireless link has
not been established yet
Solid Green Power is ON and the Ethernet link is up. Radio is detected and wireless link has
been established