FCC ID: RWM-BW64 BridgeWave BW64 & BW64E

BW64 & BW64E Configuration Guide P/N58000516 045-57014 Rev A BW64 & BW64EConfiguration Guide Copyright Notice & Disclaimer Copyright 2004 2015 BridgeWave Communications. All rights reserved. Printed in the USA No portion of this publication may be reproduced, copied, or distributed without the written consent of BridgeWave Communications. BridgeWave reserves the right to update or change the material in this publication at any time without notice. BridgeWave has made every effort to ensure that the information and the instructions contained in the publication are adequate and is not responsible for any errors or omissions due to typing, printing, or editing of this document. Purchasers of BridgeWave products should make their own evaluation to determine the suitability of each such product for their specific application. BridgeWaves obligations regarding the use or application of its products shall be limited to those commitments to the purchaser set forth in its Standard Terms and Conditions of Sale for a delivered product. This publication has been prepared for professional and properly trained personnel, and the customer assumes full responsibility when using the information herein. Export Control All BridgeWave radio products are restricted commodities that fall under ECCN 5A002 of the Department of Commerce. These products are "ENC restricted" under section 740.17(b)(2) of the Export Administration Regulations (EAR). BridgeWave products may only be exported, re-exported, transferred, or retransferred in accordance with Export Administration Regulations. Diversion contrary to U.S. law is expressly prohibited. Product Compatibility While every effort has been made to verify operation of this product with many different communications products and networks, BridgeWave makes no claim of compatibility between its products and other vendors equipment. It is assumed that users have thoroughly evaluated this products performance in the communications environment in which it will be used. i 045-57014 Rev A Safety BW64 & BW64EConfiguration Guide CAUTION, WARNING, and DANGER statements have been strategically placed in the text to alert personnel of possible hazards. These statements must be closely observed. The following general safety precautions must be observed during all phases of operation and service of the products covered in this manual. Failure to comply with these precautions or with specific warnings elsewhere in this manual willfully violates standards of design, manufacture, and intended use of the product. BridgeWave assumes no liability for the customers failure to comply with these requirements. These BridgeWave radios meet all applicable FCC safety requirements for general population exposure to radio frequency emissions; however, it is best to avoid prolonged, unnecessary exposure to the front of the radio while it is operating. The outdoor equipment must be properly grounded to provide some protection against voltage surges and built-up static charges. In the event of a short circuit, grounding reduces the risk of electrical shock. For installations in the U.S.A., refer to Articles 810830 of the National Electrical Code, ANSI/NFPA No. 70, for information with respect to proper grounding and applicable lightning protection for DC cables. The installer must also follow any additional local building and electrical code regulations. For installations in all other countries, implement protection in accordance with the safety standards and regulatory requirements of the country where the equipment is to be installed. Do not install or operate this equipment in the presence of flammable gases or fumes. Operation of any electrical instrument in such an environment constitutes a definite safety hazard. Do not install substitute parts or perform any unauthorized modification to the equipment. Changes or modifications not expressly approved by BridgeWave can void the users authority to operate the equipment. ii 045-57014 Rev A Regulatory Information BW64 & BW64EConfiguration Guide This device complies with FCC Part 15.255 and Industry Canada RSS-210. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and,

(2) This device must accept any interference that may cause undesired operation. French Translation:

Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes:

(1)

(2) lappareil ne doit pas produire de brouillage;

lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. iii 045-57014 Rev A Equipment Precautions BW64 & BW64EConfiguration Guide Water and Moisture - These BridgeWave radios are designed to withstand weather conditions typically encountered when installed outdoors. RF Radiation Safety, Maximum Permissible Exposure (MPE) Limits Regarding guidelines for Human exposure limits to Radio Frequency (RF) electromagnetic fields, the BW64E has been evaluated for compliance with FCC OET Bulletin 65 and human exposure limits recommended by the International Commission on Non-Ionizing Radiation Protection (ICNIRP), IEEE, and adopted by ANSI. BW64E devices, utilizing 10inch (25.4cm) integrated antennas and BW64E devices utilizing 2ft(60cm) diameter antennas, are below the General Population/Uncontrolled Exposure limits of 1 mW/cm2, and well below the Occupational/Controlled Exposure limit of 5mW/cm2 at any Near-Field, Transition, or Far-Field distance region including the antenna surface. iv 045-57014 Rev A BW64 & BW64EConfiguration Guide Table of Contents Copyright Notice & Disclaimer .......................... i Export Control .................................................... i Product Compatibility ......................................... i Safety .................................................................. ii Regulatory Information ..................................... iii Equipment Precautions ..................................... iv RF Radiation Safety, Maximum Permissible Exposure (MPE) Limits .................................... iv 1 Introduction .................................................. 3 1.1 Purpose.................................................... 3 1.2 Prior Knowledge ..................................... 3 1.3 Contact Information ................................ 4 2 System Overview .......................................... 5 Internal Switch ........................................ 5 2.1 3 Connecting to the NMS ............................... 7 4 Installation Configuration ......................... 10 4.1 Auto-Calibration ................................... 10 4.2 Rate Setup .............................................. 12 4.3 SFP Interface......................................... 13 4.4 AdaptPath Secondary Path ............... 14 4.5 Synchronous LSP Setup ......................... 16 4.6 AdaptSwitch ....................................... 18 4.7 Access Control ....................................... 20 4.8 IP Setup ................................................. 24 5 Diagnostic Tools ......................................... 26 5.1 Status Page Indications ......................... 26 5.2 Viewing Statistics .................................. 32 5.3 AES Statistics......................................... 35 5.4 TX Mute Function .................................. 36 6 SNMP .......................................................... 37 6.1 Configuring SNMP ................................ 37 6.2 SNMP MIB Information ........................ 39 7 User Accounts & Passwords ...................... 43 7.1 User ....................................................... 44 7.2 Administrator ......................................... 44 7.3 Factory Access....................................... 45 7.4 Communities .......................................... 46 7.5 Enhanced Security ................................. 47 7.6 Logging Out ........................................... 47 8 RADIUS ...................................................... 48 8.1 Configuring RADIUS ............................ 48 9 Configuration File Management ............... 50 9.1 Backing Up a Configuration ................. 50 9.2 Editing a Configuration File ................. 50 9.3 Restoring a Configuration ..................... 51 10 Upgrading Software ................................... 52 Determining Versions ........................ 52 Software Upgrade Procedure ............ 53 10.1 10.2 11 System Restarts .......................................... 56 12 Product Upgrades by Request ................... 57 Introduction ....................................... 57 Request License File Procedure ........ 57 12.1 12.2 13 AES Encryption Feature ........................... 59 AES Setup ........................................... 60 13.1 14 SysLog ......................................................... 63 v 045-57014 Rev A 14.1 14.2 14.3 14.4 BW64 & BW64EConfiguration Guide Syslog Message Format ..................... 63 Local Syslog Message Display .......... 64 Syslog Setup ....................................... 64 NTP Setup for SysLog Time Stamping 65 15 Default Recovery (Hard Reset) ................. 67 2 045-57014 Rev A BW64 & BW64EConfiguration Guide Introduction 1 1.1 Purpose The information in this guide is directed to persons who must perform or coordinate the tasks associated with the process of installing wireless communication devices, and planning communication network applications. 1.2 Prior Knowledge This manual assumes the operator has at least basic experience with and an understanding of wireless technology and some familiarity with configuring and operating networking equipment. Preferably, the person installing this equipment fully understands the information covered in this manual prior to attempting these procedures. DANGER, WARNING and NOTE statements have been placed in various sections throughout this document to alert personnel of possible traffic affecting issues and to provide additional tips and helpful information. These statements should be closely observed. Symbol Description Indicates that personal injury can result if the user does not comply with the given instruction. A DANGER statement will describe the potential hazard, its possible consequences, and the steps to perform to avoid personal injury. Indicates that equipment damage, process failure and/or loss of data can result if the user does not comply with the given instructions. A WARNING statement will describe the potential hazard, its possible consequences, and the steps to perform to avoid serious equipment damage. Provides supplementary information to emphasize a point or procedure, or provides a tip for easier operation. 3 045-57014 Rev A 1.3 Contact Information BW64 & BW64EConfiguration Guide Technical Assistance and Customer Service BridgeWave distributors and resellers are authorized local service providers and are responsible for immediate Tier 1 customer support. If a problem cannot be resolved, contact BridgeWave Customer Service for assistance:

Regional Standard Support Available Monday through Friday from 8:00 AM to 5:00 PM UTC local time, per region. NAM (North America) UTC -8

+1 (408) 567-6906 EMEA (Europe, Middle East, and Africa) UTC +0

+1 (408) 457-6658 APAC (Asia Pacific) UTC +8

+1 (408) 457-6659 The UTC coverage times do not reflect daylight saving time adjustments. E-mail: support@bridgewave.com Return Material Authorization (RMA) Should BridgeWave equipment have to be returned for repair or replacement, an RMA number must be obtained from BridgeWave. When returning equipment, be sure to write the RMA number on the outside of the shipping carton, and follow instructions received from support upon approval of the RMA. BridgeWave Sales For questions pertaining to the purchase of equipment, software licenses, warranties, or services please contact sales at the following:

E-mail:sales@bridgewave.com Inside Sales: +1.866.577.6908 4 045-57014 Rev A 2 System Overview BW64 & BW64EConfiguration Guide This section provides an overview of the system design. A BridgeWave link consists of two radio terminals that transmit to each other on a full duplex channel pair, providing point-to-point 100 Mbps or 1000 Mbps Ethernet connectivity between two locations. The BW64 and BW64E product uses FDD (Frequency Division Duplexing), transmitting on one frequency and receiving on a separate frequency at the same time. One terminal in each link is designated the High-Band unit and one is designated the Low-Band unit. The High Band unit transmits on the higher frequency of the channel pair and receives on the lower frequency, while the Low Band unit transmits on the lower frequency and receives on the higher frequency. Figure 2-1 provides an example. High-Band Unit Low-Band Unit Transmits High Channel Receives High Channel 10/100Base-T Copper Receives Low Channel Transmits Low Channel 10/100Base-T Copper 1000Base-X Fiber 2.1 Internal Switch Figure 2-1 Link Diagram 1000Base-X Fiber Both High-Band and Low-Band units contain an embedded Ethernet switch. The switch has five interfaces and can be configured to allow both user application and management agent Ethernet packets to be delivered to/from the fiber, copper, radio, and or management switch port interfaces. Table 2.1-

1provides a list of the interfaces and a description of each followed by a diagram in Figure 2-2. Interface Loopback ManagementAgent Table 2.1-1 Internal Switch Interface List

#

Description 1

(lo) 2

(eth0) Internalloopbackinterface.Thisinterfaceappears asaninterfaceinSNMPbutisnotuseraccessibleor configurable. InternalinterfacethatprovidesaPINGresponder, anSNMPagentandanHTMLwebserverfor managingtheunit 5 045-57014 Rev A BW64 & BW64EConfiguration Guide 3

(ethCopper) 10/100BaseTcopperinterfaceusedforoutofband management,AdaptPathoperationordropand insertapplications.Configuredforautonegotiation enabledandautocrossovercabledetection. 4

(ethFiber) 1000BaseSX(Standard) or1000BaseLX(Optional) fiberinterface.Configurableforautonegotiation enabledordisabled. Thisinterfaceisinternallyattachedtotheradio transmitandreceivechannelandprovidesthe connectionbetweenthelocalandremoteradio terminals.Theinterfaceoperatesinthefollowing modesdependingonproduct. 5

(ethRadio) 100Mbps(FEProducts) 1000Mbps(GEProducts) 100/1000Mbps(ARProducts) Copper Fiber Radio Figure 2-2 Internal Switch Diagram 6 045-57014 Rev A 3 Connecting to the NMS BW64 & BW64EConfiguration Guide By default the units are configured for In-Band management and the web interface can be accessed through the copper, SFP, or over the link via the radio interface. The units are shipped with the factory default IP address set to 192.168.0.1 for Low-Band units and 192.168.0.2 for High-Band units. Multiple users may concurrently access the radio management agent from different browser windows. If multiple users are logged on as Administrator, they are all permitted to independently modify the units configuration. The following steps should be followed to connect to the units when in their default configuration state:

1. Configure your PCs IP Address to one that falls within the (192.168.0.3 192.168.0.254, Subnet Mask 255.255.255.0) range. 2. Open a web browser and enter http://192.168.0.1 for the Low-Band unit or http://192.168.0.2 for High-Band. 3. Optionally, if the https was enabled under the IP Setup page then enter https://192.168.0.1 for Low-Band units or https://192.168.0.2 for High-Band. The https:// URL is required to establish a Secure Socket Layer (SSL) connection to the units when https is enabled. 7 045-57014 Rev A BW64 & BW64EConfiguration Guide Depending on web browser version used, a certificate acceptance dialog window may be displayed when logging into an -AES enabled product that requires https:// for establishing an SSL connection. Select the option that allows you to continue to the site. Some web browser versions will continue to highlight the address bar in red after choosing to continue. 4. After entering the IP address of the radio unit, the browser should display the logon screen; enter admin as the user and adminpass as the default password. 8 045-57014 Rev A BW64 & BW64EConfiguration Guide After logging on, the Status screen will be displayed. The navigation bar across the top of the screen provides links to the following management functions:

Status Displays status indications and modes of operation for the units interfaces. Setup Configure physical network interface settings and access options for the management agent. IP Setup Configure DHCP or static IP addressing for the management interface. AES Configure and activate 256 key, enable/disable AES. Only visible on units with AES license installed. SNMP Configure MIB-2 system group variables and trap settings. Security Set/change passwords, enable/disable factory access, and configure SNMP read/write community strings. Default username/passwords are:

User Account: user/userpass Administrator Account: admin/adminpass RADIUS Configure RADUIS server IP, shared secret, timeout and authorization. Statistics Display Ethernet traffic statistics for physical port interfaces. Syslog Display, filter and clear local Syslog events. Maintenance Provides an inventory of hardware and software. Perform an auto-calibration and soft/hard restart. Backup and restore configuration files and update software. Logout Terminates the management session from the browser window. 9 045-57014 Rev A BW64 & BW64EConfiguration Guide Installation Configuration 4 The initial installation of the units involves configuring fiber interface speed and duplex settings, selecting In-Band or Out-Band management options and setting IP addresses. The wireless link should be physically installed following the instructions found in the corresponding installation manual provided with the link. BridgeWave has verified operation with current versions of Windows Internet Explorer and Mozilla Firefox. 4.1 Auto-Calibration The Auto-Calibrate function is an important part of the system installation and is normally performed during the physical hardware installation, per the procedures outlined in the hardware Installation and Operations Manual, after the antenna alignment has been completed. While this function is normally performed as part of the hardware installation, it is also possible to initiate the function through the web management interface. The Auto Calibration feature scans the receive signal level across the entire band and flattens the levels, much like the equalizer on your home or car stereo. The radio system is said to be in Alignment Mode when it is first powered up with no fiber connected. Once the alignment is completed; the Auto Calibration mode is triggered ON as soon as the fiber cable is connected. You will know the radio terminal has initialized the Auto Calibration when the Link LED is flashing on/off - this lasts for up to 120 seconds. The fiber interface of the radio terminal needs to detect an optical signal of the appropriate wavelength. This requires the fiber optic cables be connected to a 1000Base-SX port on an Ethernet device (switch, router, media converter, etc.) or this can be accomplished with a fiber optic loopback cable by connecting the fiber output of the radio into the fiber input of the radio. The loopback cable should only be connected long enough for auto-calibration to start and should be removed immediately. Auto-calibration is a required step per installation once antenna alignment is completed. The results are saved to flash for recall upon system hard restart or power-cycle. Use the following steps to perform an Auto-Cal from the web management interface. 1. Connect to the web management interface of the unit, and select the Maintenance tab. 2. Under the Auto-Calibrate section click on the Auto-Cal button. An In-Progress status will be displayed. 10 045-57014 Rev A BW64 & BW64EConfiguration Guide Clicking the Auto-Cal option causes the link to enter an out of service mode and is considered traffic affecting. The link will return to normal operating mode within 120 seconds. 3. Continue to click the Maintenance tab to refresh the page. The calibration results will be displayed upon completion, and are automatically saved to flash. The results are a numeric value that is displayed for Gigabit Ethernet (GE), Fast Ethernet (FE), or both GE and FE are displayed for FE-U and AR products. Listed below is a description of the expected results for each mode. FE = This field displays the calibration results for the Fast Ethernet (FE) mode of operation. A good calibration will result in a value of 10 or higher being displayed. Higher values indicate better calibration results. As values increase, the incremental benefits diminish. GE = This field displays the calibration results for the Gigabit Ethernet (GE) mode of operation. A good calibration will result in a value of 10 or higher being displayed. Higher values indicate better calibration results. As values increase, the incremental benefits diminish. Calibration results that display slightly lower than 10 may be observed on links that are operating near or over the recommended maximum distance. Performing a Get Result from the Maintenance Page will force the unit to pull the current results and display them on the web interface screen. It may be necessary to do this if a calibration is performed using the fiber cable as outlined in the hardware Installation and Operations Manual. 11 045-57014 Rev A 4.2 Rate Setup BW64 & BW64EConfiguration Guide The AdaptRate option is available on FE80U or FE60U (using GigE trial mode or upon AR upgrade) and AR products only. This feature allows for the link to operate in 1000 Mbps (GE) mode and temporarily switch to 100 Mbps (FE) mode to overcome fading conditions caused by severe rain events. This parameter can also be used to disable the AdaptRate feature and manually force the link to operate in FE or GE mode only. For BW products, the rate is set by license key to 125, 250, 500 or 1000 Mbps. Use the following steps to configure the radio Interface (FE-U and AR products only):

1. Connect to the web management interface of the High-Band unit, and select the Setup tab. The Low band radio will follow the settings of the High band radio 2. Under the AdaptRate Setup section select the desired Operation Mode from the following options:

AdapRate (Default) Allows for automatic switching from 1000 Mbps (GE) mode to 100 Mbps (FE) mode when the Receive Signal Level (RSL) drops to 57dBm or below. The link will automatically return to GE mode when the RSL has reached 55dBm or higher. 1000 Mbps Selecting this option fixes the link to operate in Gigabit Ethernet (GE) mode only. 100 Mbps Selecting this option fixes the link to operate in Fast Ethernet (FE) mode only. The AdaptRate Operation Mode parameter is configured on FE-U and AR High-Band units. The option is a display only parameter on Low-Band Units. Low-Band units derive the operational mode from the High-Band units. FE and GE products are fixed to 100Mbps or 1000 Mbps modes only. This step can be skipped for fixed mode FE and GE products. An AR or upgraded FE-U product can be used as a spare for an FE or GE unit of the same frequency and band. However, the Operation Mode must be manually set to the appropriate mode when used as a spare. This will prevent the unit from adaptively changing modes, which will drop the link causing a network outage. 3. If the calibration procedure was performed during the hardware installation make sure the Installation Auto-Calibration option has been disabled. Refer to Section 4.1 to perform a calibration from the web interface. 12 045-57014 Rev A BW64 & BW64EConfiguration Guide 4. Select Submit New Values at the bottom of the Setup page. A red value will be displayed under the Current Effective Values column. Click the Setup tab to refresh the browser window until the Current Effective Value is no longer displayed in red. 4.3 SFP Interface All BridgeWave 60GHz and 80GHz radios are fitted with a Gigabit Ethernet fiber interface, regardless of whether the radio is operating in FE (100 Mbps) or GE (1000 Mbps) mode over the air. Two options are available for the fiber interface of the radio unit. 1000Base-SX option: Designed for 850nm multi-mode fiber. 1000Base-LX option: Designed for 1310nm single-mode fiber. For both options, Auto Negotiation (AN) does not negotiate Speed or Duplex, only flow-control. When auto-negotiation is disabled, Flow-control can also be set to enabled or disabled. The units are set with auto-negotiation and flow control enabled as the factory default. When flow control is enabled on the fiber interface and management access is set to In-Band, the copper interface and the internal management interface will assert Pause frames towards the fiber when broadcast, multicast, and unknown unicast traffic reaches more than 100Mbps. It is important that the BridgeWave radio and the customer network equipment interfaces be configured identically; both interfaces should be configured to auto-negotiate or else both should be configured to not auto-negotiate. For Adapt-Rate (AR) mode, the SFP interface on the radio and the attached switch should be set with flow-control enabled on models. This will allow flow control to assert backpressure on the network, via pause frames, when AR is operating in 100 Mbps Fast Ethernet mode. This will assist with preventing congestion and provide for higher Quality of Service (QoS) when stepping from 1000 Mbps down to 100 Mbps mode. Use the following steps to configure the SFP Interface:

1. Connect to the web management interface of the unit, and select the Setup tab. 2. Under the Fiber Interface (GigE) section, select Enabled (Default), Disabled (flow control off) or Disabled (flow control on) 13 045-57014 Rev A BW64 & BW64EConfiguration Guide 3. Select Submit New Values at the bottom of the Setup page. A red value will be displayed under the Current Effective Values column. Click the Setup tab to refresh the browser window until the Current Effective Value is no longer displayed in red. 4.4 AdaptPath Secondary Path When an AdaptPath link reaches a pre-defined RSL level, the fiber traffic is directed to a secondary path attached to the copper interface such as a 5.4 or 5.8GHz PTP radio link The Fiber remains operational and In-Band management will still be available. The AdaptPath capability should remain disabled except in redundant link configurations or if it is necessary to quickly signal external network equipment when radio link down states are detected. The AdaptPath feature:

Is only available in Adapt-Rate (AR) radios from BridgeWave RSL activation points are configured from the High band radio in the radio link. The Low band radio LSP must be configured as enabled. The AdaptPath function can be setup to allow:

GE to FE and then failover by setting the RSL level to the suggested FE default. GE to failover by setting the RSL level to the suggested GE default. Flexibility to set any RSL level for the AdaptPath failover. The Copper port on the BridgeWave radios is set to Auto-negotiate (AN). The failover radio must also be set to AN. The negotiation between the two devices should settle at 100Base-T Full Duplex. In-Band management is required, Out-Band management is not available with AdaptPath links. Data over the secondary path is NOT encrypted on AES equipped systems 14 045-57014 Rev A BW64 & BW64EConfiguration Guide Fiber RX TX TX RX TX RX RX TX Copper Secondary Radio Path Fiber TX RX RX TX Copper Figure 4-1 AdaptPath Technology Use the following steps to configure the AdaptPath feature:

After the equipment is installed, perform the following suggested steps to setup the LSP function in an AR system:

1. In the Setup page on both Radios, set the Radio LSP to Fiber (Adaptpath) to Enabled 2. In the High band radio, press the FE Default Switch Points button to set the RSL trigger points to achieve GE to FE and then to LSP rate switching. The RSL fields will then be filled in with the default values. (The Low band radio RSL Activation function is grayed out) 3. Set the Access Control to In-Band (Default) at both High and Low band radios 4. Press the Submit New Values button at both radios. 5. When Adaptpath triggers, the High band Radio TX will be muted, the High Band RX will read green RSL but Red Link. The Low Band RX will read Red RSL and Red Link. 15 045-57014 Rev A BW64 & BW64EConfiguration Guide Setting RSL activation point values to zero:

When the RSL Activation point is set to zero, the AdaptPath or LSP function will be continuously forced. When the RSL Deactivation point is set to zero, the function will not return after engagement. 4.5 Synchronous LSP Setup Link State Propagation (LSP) allows external network equipment to handle redundancy by rapidly switching the application traffic, synchronously at both ends of the link, to another available

(redundant) interface in the external network. This functionality generally supported on enterprise and network backbone class switches and routers. LSP should remain disabled unless it is necessary to quickly signal external network equipment when radio link down states are detected. LSP:

Is available in all radios from BridgeWave, AR, GE, FE and FE-U. The functionality can be tested by using a built in test function. LSP can be setup to allow:

AR: GE to FE and then LSP by setting the RSL level to the suggested FE default. GE: GE to LSP by setting the RSL level to the suggested GE default. FE: FE to LSP by setting the RSL level to the suggested FE default. Flexibility to set any RSL level for the LSP activation. In-Band management will be disconnected from Fiber when LSP is activated. In-Band and Out-Band management will still be available from Copper. LSP configuration is only performed on the High band radio On the Low band radio, the grayed out settings are not applicable to LSP operation 16 045-57014 Rev A BW64 & BW64EConfiguration Guide Switch Port Gets Notified That Link Is Down Low-Band Radio High-Band Radio Switch Port Gets Notified That Link Is Down Fiber RX TX TX RX TX RX RX TX Fiber RX TX TX RX Copper

(Management) Copper

(Management) Core Network Redundant Path Figure 4-2 LSP LSP: Access to the web and SNMP management functionality will not be possible if the radio is being managed In-band through the fiber interface and LSP has disabled the fiber interface. Restoration of the radio link will be required in order to regain access to the equipment. If the LSP feature is enabled it is highly recommended to enable copper Out-Band management. This will allow for access to the units if the radio link is in a down state. LSP: LSP recovers faster if auto negotiation is disabled on the fiber interface of the radio. It is recommended to disable auto negotiation on the attached network equipment and disable auto negotiation on the radios fiber interface if using the LSP feature Flow-control can either be disabled or enabled in the radio with auto-negotiation disabled. Use the following steps to configure Synchronous LSP:

After the equipment is installed, perform the following suggested steps to setup the function. 1. In the Setup page, set both High band and Low band radios Radio LSP to Fiber selection to Enabled 2. In the High band radio, and for AR, press the FE Default Switch Points button to set the RSL trigger points to achieve GE to FE and then to LSP rate switching. The RSL fields will then be filled in with the default values. For GE or FE only systems, only one FE or GE default button will be available. 3. Custom RSL activation points can be directly entered into the field. 4. Select Access control to either In-Band (Default) or Out-Band (Copper Management Only) at both Radios 17 045-57014 Rev A BW64 & BW64EConfiguration Guide 5. Press the Submit New Values button at both radios. Testing the LSP function(s):

1. Put test apparatus or computers at each end of the link to ping or run traffic across the link 2. In the High band Radios Maintenance page, set Force LSP and set the duration of the test to 1-99 minutes. The High band radio activates the function for both ends of the link and the Force LSP control will not be seen on the Low band radio 3. Press the Set Value button 4. For an AdaptPath link, observe that the traffic is still flowing in the secondary path 5. For a LSP link, verify that both fiber transmitters are down. 6. Return the system to the Clear LSP state. (Or wait for the function to timeout) 4.6 AdaptSwitch AdaptSwitch is a license controlled software upgrade. Please use the Request License function on the Maintenance page to obtain the license BridgeWaves low-latency radio links operate well with T1, E1, DS3, OC3 and STM-1 external gateways. 18 045-57014 Rev A BW64 & BW64EConfiguration Guide BridgeWaves AdaptRate product solution was developed to increase the Radio link distances and availability by switching between GE and FE modes based on the fading conditions of the link. BridgeWave has developed a combined solution of AdaptRate and AdaptSwitch for use with external gateways. Independent Quality of Service (QoS) provisioning can possibly be used in the external gateway for both GE and FE rates. Refer to the Manufacturers documentation for QoS setup information in the Gateway device When the radio link is set to AdaptSwitch mode and is connected to an external Gateway, all traffic is carried over the Fiber interface in GE mode. The NMS management operates in-band on the Fiber port. When the link switches from GE to FE, the Radio alerts the remote device and both can switch to the Copper port to carry traffic. The NMS management now operates in-band on the Copper port Depending on the model, the external Gateway QoS settings can automatically switch to re-prioritize the traffic based on the AdaptRate mode of GE or FE. GbE FE Wireless GbE FE Figure 4.6: AdaptSwitch Connection Setup FE/GbE FE/GbE PBX NxE1/T1 FE/GbE FE/GbE PBX NxE1/T1 19 045-57014 Rev A Use the following steps to configure the AdaptSwitch feature:

BW64 & BW64EConfiguration Guide After the equipment is installed, perform the following suggested steps to setup the AdaptSwitch function in an AR system:

1. In the Setup page on both AR Radios, set the Radio Link State Propagation selection to Enable

(AdaptSwitch):

2. In the High band radio, it is recommended to press the GE Default Switch Points button to set the RSL trigger points to achieve the factory default AR rate switching between GE and FE. The RSL fields will then be filled in with the default AR values. However, the activation and deactivation points are user programmable by simply filling in the switchover numbers. 3. Press the Submit New Values button at both radios. In AdaptSwitch mode, the NMS Management will only operate in-band on the Fiber interface when the link is in GE mode or on the Copper interface when the link is in FE mode When in the AdaptSwitch mode, a default recovery (hard reset) will require that the system be operating in FE mode. If the system is forced to GE mode, hard reset is not possible 4.7 Access Control The Access Control option performs two functions. One is to specify which interfaces will be allowed access to the internal management agent for web and SNMP access. The second is to specify the configuration of the internal switch with respect to In-Band or Out-Band management. Detailed information about the In-Band and Out-Band options are provided in Section 4.7.1and 4.7.2. 20 045-57014 Rev A 4.7.1 In-Band (Default) BW64 & BW64EConfiguration Guide This option allows for management of each radio terminal through the copper, fiber, and/or radio interface. When the Access Control parameter on the Setup page is configured for In-Band the internal switch places the copper, fiber and radio interfaces onto the same internal VLAN. This effectively places the copper port into the same broadcast domain (LAN segment) as the fiber and radio interfaces. A single MAC learning table is then used for all ports. A user can then select if the management agent can be accessed from the fiber or radio interfaces in addition to the copper interface. Connecting both the copper and fiber interfaces to the same network or switch when In-Band is selected can create network loops, broadcast storms, and other problems that can bring down the core network. When In-Band is selected, broadcast or multicast traffic exceeding 10 Mbps can flood the internal management agent preventing web access to the unit. This does not impact the availability of the link. Figure43providesalogicaldiagramoftheinternalswitchwhenCopperInBandisselected. 4.7.2 Copper Out-Band Figure 4-3In-Band Management This option allows for management of each radio terminal through the copper interface, while keeping the management traffic isolated from the core network traffic. 21 045-57014 Rev A BW64 & BW64EConfiguration Guide When the Access Control parameter on the Setup page is configured for Out-Band (Copper Management Only), the internal switch isolates the copper interface from the fiber and radio interfaces by placing it into a separate port based VLAN. This effectively places the copper port into its own broadcast domain (LAN segment). Figure 4-4 provides a logical diagram of the internal switch when Copper Out-Band is selected. Figure 4-4 Out-Band, Copper Management Only When Out-Band is selected, one way to manage the remote radio from the local side is accomplished through the use of VLAN in the network equipment at both ends of the link. The management traffic is isolated between the copper and fiber ports by VLAN and then transported through a connection over the fiber and radio interface. An example of this is depicted in Figure 4-5 where an 802.1Q VLAN trunk is used to allow the management station to access the remote radios copper port. The switches keep the core network traffic and the management network traffic secure and separate from one another. 22 045-57014 Rev A BW64 & BW64EConfiguration Guide Figure 4-5 Out-Band Management Network Deployment Example 4.7.3 Configuring Management Access Use the following steps to configure the Management Access option:

1. Connect to the web management interface of the unit and select the Setup tab. 2. Under the Access Control section select the desired In-Band (Default), or Out-Band (Copper Management Only) option. When In-Band is selected the internal switch is configured so that the copper, fiber, and radio interfaces are placed onto the same LAN and the option to allow management access on the Fiber and/or the radio interface becomes available. When Out-Band (Cu Mgmt Only) is selected the Copper interface is placed into a separate LAN on the internal switch and becomes physically isolated from the fiber and radio interfaces. When this option is enabled the management interface of the unit can only be accessed through a connection to the copper port. When Out-Band (Cu Mgmt + MAC Learning Disabled) is selected the Copper interface also functions as Out-Band (Cu Mgmt Only) but the MAC learning function in the switch is disabled. This allows NAC authentication security appliances to be attached to the network with BridgeWave 23 045-57014 Rev A BW64 & BW64EConfiguration Guide radios. If a PC is on one end of the link and the NAC is at the other end then the MAC table in the BridgeWave radio sees the same packet on both sides of the network. 3. Click the Submit New Values button at the bottom of the Setup page for the changes to become active. 4.8 IP Setup The network addressing options are configured from the IP Setup page of the web management interface. The network administrator would typically provide these values. Use the following steps to configure IP Setup parameters:

1. Connect to the web management interface of the unit and select the IP Setup tab. 2. Under the Management Agent section configure the parameters listed below:

Dynamic Host Config Checking the DHCP box enables the unit to receive an IP address, subnet mask and default gateway from the networks DHCP server. Un-checking the box disables the DHCP function. IP address Allows for static configuration of the IP address for the management agent. The factory default for the Low-Band radio is 192.168.0.1 and the High-Band radio is 192.168.0.2. Subnet mask The subnet mask can be configured by picking the desired value from the Pull-down menu. Default Gateway Sets the default gateway address for this radio. Leave blank if no default gateway is to be used. 3. Select Submit New Values at the bottom of the IP Setup page. The current values will be displayed in Red under the Current Effective Values column, along with a (Soft Restart Pending) message. 4. Click the Soft Restart option at the bottom of the IP Setup page to make the New Values active. A Soft Restart is required before a change to the Management Agent parameters will become active. 24 045-57014 Rev A BW64 & BW64EConfiguration Guide After a restart it will take approximately 140 seconds for the web management interface to become accessible. The soft restart does not drop the radio link and data traffic will continue to flow. Advanced Security - If secure management is desired for Non-AES units, a license key to upgrade to HTTPS secure management can be purchased. Contact Sales for more information. AES and secure management equipped units, have the option of selecting non-secure HTTP rather than HTTPS in the IP Setup page 25 045-57014 Rev A 5 Diagnostic Tools BW64 & BW64EConfiguration Guide The status of a link can be determined by viewing the information contained on the Status and Statistics pages of the units web interface. The Status page provides a variety of parameters that display Green, Yellow, or Red indications. A detailed description of the Status page parameters are listed in Section 5.1. The Statistics page provides transmit and receive statistics counters for the Copper, Fiber, and Radio interfaces. Section 5.2 provides a detailed description of the statistics counters. 5.1 Status Page Indications The Status page shows basic unit information including product model, band of operation, and MAC address, as well as the current state of the unit and its physical interfaces. Green, yellow, and red status indicators provide a quick visual summary of the units operating condition. Under normal operating conditions, all indicators should be green, unless one of the network interface ports is not in use. Red indicators signify unit failures, unconnected network interfaces, or abnormal operating conditions. Yellow indicators signify marginal operating conditions, which may impact unit operation. The displayed information is updated with every refresh of the Status page and does not automatically update. Not all values are updated in real time and may take several seconds to reflect the units true operating status. The Automatic Refresh checkbox may be enabled to automatically refresh the screen every 10 seconds. An example of the Status page is shown in Figure 5-1 and a definition of each parameter follows. 26 045-57014 Rev A BW64 & BW64EConfiguration Guide Note:BWproducts willshowthelicensed rateof125,250or 500 h USER: Indicates the currently logged-in username STATUS Figure 5-1 Status Page Model: Indicates the type of unit. High-Band or Low Band: Indicates the frequency band of the radios transmitter. A link consists of one low-band and one high-band radio. MAC: Displays the MAC address of the management NMS interface. 27 045-57014 Rev A UNIT BW64 & BW64EConfiguration Guide Up time: Time since last unit power cycle, soft restart, or hard restart. Calibration Results: This parameter displays the results of the calibration performed during installation or via the Auto-Calibration option performed from the maintenance page. Prior to viewing the calibration results a Get Results should be performed from the Maintenance screen of the web interface. This ensures that the displayed results are synchronized with the active values stored in the flash of the MCU. The results of the calibration are provided for 100 Mbps (FE), 1000 Mbps (GE), or both FE and GE modes for FE-U and AR products. FE = This field displays the calibration results for the Fast Ethernet (FE) mode of operation. A good calibration will result in a value of 10 or higher being displayed. Higher values indicate better calibration results. GE = This field displays the calibration results for the Gigabit Ethernet (GE) mode of operation. A good calibration will result in a value of 10 or higher being displayed. Higher values indicate better calibration results. Calibration results that display slightly lower than 10 may be observed on links that are operating near the maximum distance recommendations. Input Voltage: Voltage present at unit power input connector GREEN: 16 volts RED:

< 16 volts Temperature: Temperature within unit enclosure GREEN: Within specification (-20C to 75C) (-4F to 167F) YELLOW: At operating limit Min/Max temperature is also displayed from the last restart of the unit. 28 045-57014 Rev A BW64 & BW64EConfiguration Guide RADIO Link Status: Speed and quality status of the radio interface GREEN: Link is up, error-free This indicates that errors in the transmission are occurring. The system YELLOW:

contains built in Forward Error Correction (FEC) that will correct most errors that occur near the receive signal threshold. If Corrected Errors is displayed then the FEC is correcting all errors and the user traffic is unaffected. If Uncorrected Errors is displayed the FEC is no longer able to correct all errors and some user data packets could be dropped. When Uncorrected Errors is displayed, errors may show up on the receive statistics for the radio interface. When the received radio signal is attenuated due to rain and the radio nears its receive threshold the Forward Error Correction

(FEC) starts correcting errors. A Yellow indication is normal under these conditions. RED:

Link is down Receive Signal Level (RSL): Signal level in dBm and alignment voltage present at unit test point. This value is not updated in real time and can take 20 seconds to reflect current status. 29 045-57014 Rev A BW64 & BW64EConfiguration Guide For 1000 Mbps (GE) link speed:

GREEN:

-55dBm YELLOW:

RED:

Between -55 and -59dBm

< -59dBm For 100 Mbps (FE) link speed:

GREEN:

YELLOW:

RED:

-65dBm Between -65 and -69dBm

< -69dBm Min/Max RSL is also displayed from the last restart of the unit or from the Clear Min/Max Memory Button on the Status page:

Transmitter Temp: Internal temperature of the radio transmitter GREEN:

Within specification (-20oC to 75oC) (-4oF to 167oF) YELLOW:

Min/Max transmitter temperature is also displayed from the last restart of the unit. At operating limit Packets Received: Number of packets received by the radio interface since last refresh of the management interface from any active user session. GREEN:

YELLOW:

No packet errors (dropped packets) since last refresh One or more packet errors since last refresh. The Check AES setup message is displayed, as shown below, if errors are occurring and AES encryption is enabled on only one end of the link, or the key does not match on each end. Link Utilization: Percentage of total link capacity in use. This value is calculated once every minute and displayed until the next calculation period. 30 045-57014 Rev A BW64 & BW64EConfiguration Guide FIBER Link Status: Speed, auto negotiation setting, LSP and Laser on/off status message of fiber interface GREEN:

RED:

Port is up Port is down Packets Received: Number of packets received by the fiber interface since last refresh of the management interface from any active user session. GREEN:

YELLOW:

No packet errors since last refresh One or more packet errors since last refresh Link Utilization: Percentage of total link capacity in use. This value is calculated once every minute and displayed until the next calculation period. LSP Related Information: This example shows that LSP is enabled and active and the Laser is on:

COPPER Link Status: Displays the physical status and copper backup active message for the 10/100Base-

T copper interface. GREEN:

Port is up RED:

Port is down (Normal if copper port is not used) The Copper interface is set for Auto Negotiation only. The negotiated speed and duplex are displayed Packets Received: Number of packets received by the copper interface since last refresh of the management interface from any active user session. GREEN:

YELLOW:

No packet errors since last refresh One or more packet errors since last refresh Link Utilization: Percentage of total link capacity in use. This value is calculated once every minute and displayed until the next calculation period. 31 045-57014 Rev A BW64 & BW64EConfiguration Guide Automatic Refresh: The statistics page will automatically update every 10 seconds when this parameter is enabled. The web interface will not automatically log off inactive users if the Automatic Refresh option is enabled and the browser window is left on the Status page. Select the Log Out option to prevent un-authorized access to the unit. 5.2 Viewing Statistics The Statistics page of the web interface displays received and transmitted Ethernet packet statistics for the copper, fiber, and radio interfaces. These values allow the user to see where packets are dropped due to corrupted or invalid contents, determine the flow of packets between the interfaces, and determine the rate that data is moving through the system. Receive and Transmit are relative to the switch port; e.g., a packet transmitted on the fiber interface is a packet sent from the fiber interface of the unit to the users network equipment. An example of the Statistics page is shown in Figure 5-2 and a definition of each parameter follows. Figure 5-2 Statistics Page 32 045-57014 Rev A 5.2.1 Receive and Transmit BW64 & BW64EConfiguration Guide Good Octets:

Total good packets:

Unicast:

Broadcasts:

Multicasts:

Pauses:

Undersized:

Fragments:

Oversized:

An octet is a sequence of eight bits. Since a byte is not eight bits in all computer systems, octet provides an unambiguous term. When a packet is in error, none of the octets are counted as good. Total number of packets without errors received. For the transmit direction this is expressed as total packets sent, since only good packets are sent. Total number of frames that have a unicast destination MAC address. Unicast frames are addressed to a single host on a LAN. Total number of good frames that have a broadcast destination MAC address. Broadcast frames are addressed to all hosts on a LAN. Total number of good frames that have a multicast destination. Multicast are frames addressed to a subset of hosts on a LAN. Pause frames are sent if flow control is enabled and a port needs to temporarily stop the flow of incoming packets. Total number of frames received with a length less than 64 octets but with a valid FCS. Total number of frames received with a length less than 64 octets and an invalid FCS. Total number of frames received with a length that exceeds 1632 bytes but with a valid FCS. These errors are caused either by damaged packets or by user network equipment being configured to transmit jumbo frames. Jabber errors:

Total number of frames received with a length that exceeds 1632bytes but with an invalid FCS. PHY errors:

Receive errors on the physical interface. 33 045-57014 Rev A CRC errors:

Collisions:

BW64 & BW64EConfiguration Guide Short for Cyclic Redundancy Check, CRC is a method of detecting errors in data transmission. A CRC is control information sent with a block of data that when received can be used to verify that all data was received correctly. CRC errors typically indicate physical defects in fiber or copper cabling, or poor receive signal quality on a radio link. One or less CRC errors every 16 minutes on a fully-loaded 1000 Mbps link would equal a bit error rate of under 10-12 and is considered excellent performance for fiber or radio connections. One CRC error every 90 seconds would equal a bit error rate of 10-10 on a 100 Mbps copper connection, which complies with 100Base-TX specifications. While higher error rates should normally only be seen during short periods of heavy rain downpours, most LAN applications can easily tolerate 10-8 bit error rates without noticeable degradation. Total number of collisions detected. Collisions indicate that more than one device is transmitting packets to an Ethernet hub at the same time, and will normally be detected by the device itself and be re-transmitted. Collisions should not occur when devices are connected through Ethernet switches in full duplex mode. Automatic Refresh:

The statistics page will automatically update every 10 seconds when this parameter is enabled. Clear:

The web interface will not automatically log off inactive users if the Automatic Refresh option is enabled and the browser window is left on the Statistics page. Select the Log Out option to prevent un-authorized access to the unit. Resets all statistics counters to zero. 34 045-57014 Rev A 5.3 AES Statistics BW64 & BW64EConfiguration Guide In AES systems transmitting encrypted data, the statistics screen will appear slightly different as shown in Figure 5-3, Statistics screen for AES encrypted traffic, indicating that the Radio traffic is encrypted Figure 5-3, Statistics screen for AES encrypted traffic 35 045-57014 Rev A 5.4 TX Mute Function BW64 & BW64EConfiguration Guide The Transmitter (TX) mute function can be useful for investigating and diagnosing interference related problems. Use the following steps to mute the Transmitter 1. Connect to the web management interface of the unit and select the Maintenance tab. 2. Under the Transmitter section, select TX Mute. 3. Select the amount of time required for the TX Mute operation. The range is 1-99 minutes. A value of zero is always applied, no matter what value is entered for TX ON and sets continuous operation. The value of zero and continuous operation of TX Mute is not allowed. 4. Press the Set Value button and OK for the pop-up Confirm Operation window. 5. The elapsed time of the operation is shown upon refresh of the browser window The TX Mute function will not operate until the Fiber or Software activated Auto-Calibration function has been performed 36 045-57014 Rev A 6 SNMP BW64 & BW64EConfiguration Guide Simple Network Management Protocol (SNMP) is a standardized protocol used for monitoring and controlling various elements within a network. All BridgeWave products that are network management enabled provide SNMP V2 support for GET and SET commands on MIB-2 and BridgeWave enterprise MIB objects. Traps are sent in SNMP V1 format. SNMP V1 and V2 MIBS are included in .zip file for each software release. The .zip software release packages can be downloaded from the BridgeWave Support web site at the following url:

http://www.bridgewave.com/support/downloads.cfm 6.1 Configuring SNMP A majority of the SNMP related configuration parameters are located on the SNMP tab of the web interface. Use the following steps to configure SNMP. 1. Select the SNMP tab from the web browser interface of the unit. 2. Enter the MIB-2 system group variables. These fields may be populated with any desired name(s), descriptions, locations and appropriate system contact for identification purposes. A definition of each parameter is listed below:

System OID: 1.3.6.1.4.1.6080.3.1.9 Identification of the network management subsystem contained in this entity. System Name: Typically an administratively assigned name for this managed node. By convention, this is the node's fully qualified domain name. System Descr: Enter a brief description of the system. This information will be displayed at the top of all web pages once filled out. 37 045-57014 Rev A BW64 & BW64EConfiguration Guide System Location: Enter a value that describes the physical location of the unit such as address or building name. System Contact: Identification of the contact person for this managed node, together with information on how to contact this person. 3. Next, enter the IP address, Host Name, and trap Community of the management station(s) that will be monitoring this unit. All SNMP alarms (traps) will be sent to the host specified in this section. A maximum of three trap destinations can be configured. IP Address: The IP address destination of the host to receive traps Host Name: The host name assigned to the management station receiving the traps. Community: Value required by SNMP management station to authenticate incoming traps. 4. Enable or Disable the Auth Failure Trap. When enabled a trap will be sent to the management agent if a SNMP read or read/write access to the unit is attempted using an invalid community string. 5. Select the Passwords page from the web interface of the unit. 6. Under the Communities section, enter in the Read Only and Read Write community strings and SNMP Access capabilities. Refer to Section 7.4 for a detailed description of these parameters. 38 045-57014 Rev A BW64 & BW64EConfiguration Guide 6.2 SNMP MIB Information BridgeWave supplies an enterprise MIB file that provides definitions of objects beyond the standard MIB-2 objects. This MIB file can be found on the CD that is included with the product and on BridgeWaves website: http://www.bridgewave.com/support/downloads.cfm. To install the BridgeWave MIB file on your network management station, follow the instructions provided with your network management station software. Standard MIB-2 objects can be accessed without installing the BridgeWave MIB file. Supported MIB-2 Groups Table 6.2-1 MIB-2 Groups Name system interfaces at ip icmp tcp udp egp transmission snmp OID 1.3.6.1.2.1.1 1.3.6.1.4.1.2 1.3.6.1.4.1.3 1.3.6.1.4.1.4 1.3.6.1.4.1.5 1.3.6.1.4.1.6 1.3.6.1.4.1.7 1.3.6.1.4.1.8 1.3.6.1.4.1.10 1.3.6.1.4.1.11 Equipment Interfaces The MIB-2 interface table is always populated with the following five entries. 1 (Lo) = Loop-back, 2

(eth0) = Management port, 3 (ethCopper) = Copper port, 4 (ethFiber) = Fiber port, and 5 (ethRadio)

= Radio port BridgeWave Enterprise MIB Objects 39 045-57014 Rev A BW64 & BW64EConfiguration Guide Table 6.2-2 BridgeWave Enterprise MIB Objects Name brwaveRadioSn brwaveUnitModel brwaveBbSn brwaveIfSn brwaveMmwSn brwaveTrapCount brwaveRadioTxBand brwaveRadioFactoryRate OID 1.3.6.1.4.1.6080.2.1 brwaveCommon1 1.3.6.1.4.1.6080.2.2 brwaveCommon2 1.3.6.1.4.1.6080.2.3 brwaveCommon3 1.3.6.1.4.1.6080.2.4 brwaveCommon4 1.3.6.1.4.1.6080.2.5 brwaveCommon5 Description Unit serial number UnitModelNumber BaseBandhardwareserialnumber IFhardwareserialnumber Millimeterwavehardwareserialnumber 1.3.6.1.4.1.6080.2.6 brwaveCommon6 Numberoftrapsgeneratedbyunitsincestartup. Rollsbacktozerooncereachedtomaximumvalue. 1.3.6.1.4.1.6080.3.1.2.1 brwaveFactorySetup1 1.3.6.1.4.1.6080.3.1.2.3 brwaveFactorySetup3 Radiostransmittingfrequencyband Radiosoperatingdatarate brwaveRadioClearStats 1.3.6.1.4.1.6080.3.1.2.4 brwaveFactorySetup4 ClearStatistics,Setvalueof1toclear.Returns always0whenread brwaveRadioInVoltage 1.3.6.1.4.1.6080.3.1.3.1 brwaveRadioStatus1 RadiosvoltagelevelafterDCDCconversionfrom the48VDCto24VDCinsidetheradio. brwaveRadioUnitTemperature 1.3.6.1.4.1.6080.3.1.3.2 brwaveRadioStatus2 RadiosinternalunittemperatureindegreesCx 100. brRadioTxTemperature 1.3.6.1.4.1.6080.3.1.3.3 brwaveRadioStatus3 Radiostransmittertemperature.Thereadingof theradiotemperaturesensorindegreesCx100. BrwaveRadioRSL 1.3.6.1.4.1.6080.3.1.3.4 brwaveRadioStatus4 ReceivedSignalLevel(dBm)presentedasa negativenumericalvalueindBmx100 brwaveRadioRSLVoltage 1.3.6.1.4.1.6080.3.1.3.5 brwaveRadioStatus5 ReceivedSignalLevel(Voltage)presentedasa Stringvalue. brwaveRadioAbsRSL 1.3.6.1.4.1.6080.3.1.3.6 brwaveRadioStatus6 ReceivedSignalLevel(dBm)presentedasa positivenumericalvalueindBmx100 40 045-57014 Rev A BW64 & BW64EConfiguration Guide BrwaveRadioRSLVoltageInt 1.3.6.1.4.1.6080.3.1.3.7 brwaveRadioStatus7 ReceivedSignalLevel(Voltage)presentedasan Integervalueinvoltsx10. brwaveCopperUtilization brwaveFiberUtilization brwaveRadioUtilization 1.3.6.1.4.1.6080.3.1.3.8 brwaveRadioStatus8 1.3.6.1.4.1.6080.3.1.3.9 brwaveRadioStatus8 1.3.6.1.4.1.6080.3.1.3.10 brwaveRadioStatus10 Linkutilizationcalculatedeverypollinginterval. Linkutilizationcalculatedeverypollinginterval. Linkutilizationcalculatedeverypollinginterval. PercentageisbasedonRadiorate. brwaveRadioFecError 1.3.6.1.4.1.6080.3.1.3.11 brwaveRadioStatus11 PostandPreFECerrorcalculatedeverypolling interval0NoError,1PreFEC,2PostFECError brwaveRadioPreFecFlag brwaveRadioPostFecFlag brwaveRadioRate 1.3.6.1.4.1.6080.3.1.3.12 brwaveRadioStatus12 1.3.6.1.4.1.6080.3.1.3.13 brwaveRadioStatus13 1.3.6.1.4.1.6080.3.1.3.14 brwaveRadioStatus14 BridgeWaveEnterpriseMIBTraps PreFECerrorsflagcountedeverypollinginterval PostFECerrorsflagcountedeverypollinginterval IndicatorforBWproductrate Name brwaveErrorsOverThreshold brwaveErrorsUnderThreshold brwaveUnitTemperatureAbnormal brwaveUnitTemperatureNormal brwaveTxTemperatureAbnormal brwaveTxTemperatureNormal brwaveInputVoltageAbnormal BrwaveInputVoltageNormal Table 6.2-3 Bridgewave Enterprise MIB Traps OID Description 1.3.6.1.4.1.6080.3.1.9.0.1 brwaveRadioEventsV2 1 1.3.6.1.4.1.6080.3.1.9.0.2 brwaveRadioEventsV2 2 1.3.6.1.4.1.6080.3.1.9.0.3 brwaveRadioEventsV2 3 1.3.6.1.4.1.6080.3.1.9.0.4 brwaveRadioEventsV2 4 1.3.6.1.4.1.6080.3.1.9.0.5 brwaveRadioEventsV2 5 1.3.6.1.4.1.6080.3.1.9.0.6 brwaveRadioEventsV2 6 1.3.6.1.4.1.6080.3.1.9.0.7 brwaveRadioEventsV2 7 1.3.6.1.4.1.6080.3.1.9.0.8 brwaveRadioEventsV2 8 Switch port has error rate over threshold with more than 1000 errors in 4 seconds. Switch port error rate changed from over to under threshold, an error-free state for at least 4 seconds. Radio unit temperature not in normal operating range. Normal range is: -20C to +80C Unit temperature restores from abnormal to normal range Transmitter temperature is not in normal operating range. Normal range is: -20C to +80C Transmitter temperature is restored to normal range Units input voltage is not in normal range. Normal input voltage > 16 Volts. Units input voltage is restored to normal range 41 045-57014 Rev A brwaveRslNormal brwaveRslMinor brwaveRslMajor brwaveConfigChange BW64 & BW64EConfiguration Guide 1.3.6.1.4.1.6080.3.1.9.0.10 brwaveRadioEventsV2 10 1.3.6.1.4.1.6080.3.1.9.0.11 brwaveRadioEventsV2 11 1.3.6.1.4.1.6080.3.1.9.0.13 brwaveRadioEventsV2 13 1.3.6.1.4.1.6080.3.1.9.0.26 brwaveRadioEventsV226 Received Signal Level is normal. Normal signal level

> -55.00 dBm (GE mode) and > -65.00 dBm (FE mode) Received Signal Level dropped to the level of minor event. When RSL between -55.00 to -59 dBm

(GE mode) OR -65.00 to -69.00 dBm (FE mode) RSL dropped to the level of major event. RSL < -59.00 dBm (GE mode) or RSL <

-69 dBm (FE mode). Whenwebclienthasperformed configurationchangesorclearingof statistics. brwaveLoginSuccessful brwaveGeToFeSwitch brwaveFeToGeSwitch 1.3.6.1.4.1.6080.3.1.9.0.27 brwaveRadioEventsV2 27 1.3.6.1.4.1.6080.3.1.9.0.28 brwaveRadioEventsV2 28 1.3.6.1.4.1.6080.3.1.9.0.29 brwaveRadioEventsV2 29 Upon successful user log in to the web interface. (Obsolete) AR rate switch from GE to FE mode. Current RSL value is included AR rate switch from FE to GE mode. Current RSL value is included 42 045-57014 Rev A 7 User Accounts & Passwords BW64 & BW64EConfiguration Guide The management agent supports two types of users, with varying capabilities. The Administrator

(username=admin) may view status and statistics, view/modify unit configuration, and perform maintenance functions (including software update). The User (username=user) may view status, configuration, and statistics, but is prevented from modifying unit configuration or performing maintenance functions. Multiple users may concurrently access the radio management agent from different browser windows. If multiple users are logged on as Administrator, they are all permitted to independently modify the units configuration. The Security page of the web management interface allows the Administrator to set the User, Administrator and Factory Access passwords and SNMP community names. These changes take effect immediately upon clicking the Submit buttons. It is important to remember the passwords that have been assigned to the unit. If a password is forgotten, it cannot be recovered; if this happens please refer to the Default Recovery (Hard Reset) section of this manual. Remote Authentication Dial In User Service (RADIUS) may also be used to manage the user access of BridgeWave radios that are embedded in a network environment. 43 045-57014 Rev A BW64 & BW64EConfiguration Guide 7.1 User Permits read only capability such as viewing of unit status, configuration parameters and statistics. Does not permit modification of any parameter, setting passwords or performing maintenance functions. A history of the last 15 passwords is maintained to prevent password reuse. The user password can be set or reset by the administrator. The factory default user account name/password combination is:

user/userpass Password:

The password is case-sensitive, may contain letters, numbers, and special characters, and can have a maximum of 15 alphanumeric characters. If the Minimum Password Length option is enabled under the Enhanced Security section then the password must contain 10 or more characters. Confirm Password: Repeat the same password to validate. Time to Expire:

If a value other than 0 has been set in the Password Expires field of the Enhanced Security section this field will display the amount of time remaining until the password expires. If the password has expired, it will show how long since expiration and will be displayed in red. Only the Admin user account has permissions to change the Password Expires field. 7.2 Administrator Permits full access to unit, including configuration and maintenance functions. A history of the last 15 passwords is maintained to prevent password reuse. In order to recover a lost administrator password a hard reset is required. This will reset the unit to factory default values and requires a complete reconfiguration of the unit. The factory default admin account user name/password combination is:

admin/adminpass 44 045-57014 Rev A Password:

BW64 & BW64EConfiguration Guide The password is case-sensitive, may contain letters, numbers, and special characters, and can have a maximum of 15 alphanumeric characters. If the Minimum Password Length option is enabled under the Enhanced Security section then the password must contain 10 or more characters. Confirm Password:

Repeat the same password to validate. Time to Expire:

If a value other than 0 has been set in the Password Expires field of the Enhanced Security section this field will display the amount of time remaining until the password expires. If the password has expired, it will show how long since expiration and will be displayed in red. Once the password has expired, the admin user will be forced to change the value of the password at the next login, before any other operations will be permitted. Only the admin user account has permissions to change the Password Expires field. 7.3 Factory Access Permits BridgeWave factory service personnel to access the unit, including factory-only internal settings. In order for service personnel to access unit, this feature must be enabled and the administrator needs to set and provide an assigned password. Password:

The password is case-sensitive, may contain letters, numbers, and special characters, and can have a maximum of 15 alphanumeric characters. If the Minimum Password Length option is enabled under the Enhanced Security section then the password must contain 10 or more characters. Confirm Password:

Factory Access:

Repeat the same password to validate. Scroll menu to choose between Enabled and Disabled. The default is for the access to be disabled. 45 045-57014 Rev A BW64 & BW64EConfiguration Guide For security reasons, the administrator should only enable factory access for the time of active access by BridgeWave factory service personnel. A power cycle or Hard Restart will automatically change the factory access to disabled. 7.4 Communities Read and write community strings are used for permitting SNMP management access. The Community strings are case-sensitive and can have 0-12 characters comprised of numbers, letters, or special characters. Read Only:

Read/Write:

SNMP Access: This parameter allows for SNMP to be Disabled, Enabled Read/Write, or Used for authentication of SNMP GET request. Default value is public. Used for authentication of SNMP SET request. Default value is private. Enabled Read Only (Default). As part of the initial setup, if you do not intend to utilize the SNMP function, it is good practice to change the SNMP Access to Disabled. This will prevent users from accessing the SNMP agent. 46 045-57014 Rev A 7.5 Enhanced Security BW64 & BW64EConfiguration Guide Permits password security configuration option to expire the password in the range of 0-9999 hours. If the value is set to zero, the password is maintained indefinitely. Permits password security configuration option to set the minimum password length to 10 characters minimum. Disabled allows any length password. The maximum password length allowed is 15 characters. Permits password security configuration option to allow or not allow password reuse. Permits the extension of the time between automatic session timeouts to a value of 1-99 minutes. 7.6 Logging Out User connections to the web management agent will automatically log out after 5 minutes (default) of inactivity unless re-configured in the Enhanced Security function. The Log Out option can be used to manually close the Users connection to the management agent. The user will be required to re-enter username and password to regain access to the management agent. The automatic log out function will not log out a user connection when the Status or Statistics page is the active page and the Automatic Refresh option is enabled. 1. Select the Log Out option from the upper right hand corner of the web interface. 2. Select Yes when prompted. This will close the browser window for increased security. Figure 7-1 User Log Out 47 045-57014 Rev A 8 RADIUS BW64 & BW64EConfiguration Guide Remote Authentication Dial In User Service (RADIUS) standard (RFC 2865) allows for remote and centralized user administration, authentication and authorization of the BridgeWave Radio user names and passwords when the radios are embedded in a network environment. When RADIUS is enabled in the BridgeWave radio and a user attempts to login to the radio, the radio will send the authentication request to the specified RADIUS server. The communication between the radio and the RADIUS server is authenticated and encrypted through the use of a shared secret. The shared secret is not transmitted over the network. The radio has three RADIUS configuration options:

Disable (Default) Enable while allowing locally configured (admin, user) login access Enable while disallowing locally configured (admin, user) login access If the RADIUS server is not available and RADIUS is enabled with local access disallowed, a hard reset will be needed to regain login access to the radio. 8.1 Configuring RADIUS The RADIUS related configuration parameters are located in the RADIUS tab of the web interface. Use the following steps to configure RADIUS 1. Select the RADIUS tab from the web browser interface of the unit. 2. Enter the Primary RADIUS server IP address in the field provided. The Secondary server address is optional. 3. Enter the server port in the field provided 4. Enter the shared secret in the field provided 5. Re-enter the shared secret in the verify field provided 6. Enter the Timeout and Retries values if other than default is required 7. Select the configuration mode of Disable (Default), Enable (allow Local Users) or Enable

(Disallow Local Users) from the drop down menu 8. Push the Submit button 48 045-57014 Rev A BW64 & BW64EConfiguration Guide Figure 8-1: RADIUS Setup Page One possible safe approach to take is to first enable RADIUS and allow local user login access. Now open a new browser window and login with a username and password provided by the RADIUS server. When the login through the RADIUS server is successful, it is safe to re-enable RADIUS in the radio, disallowing local user access. 49 045-57014 Rev A 9 Configuration File Management BW64 & BW64EConfiguration Guide A copy of the units configuration can be saved to an external file. The file is saved in an .ini format and can be viewed with a text editor. 9.1 Backing Up a Configuration Use the following steps to perform a backup of the unit configuration. 1. Select the Maintenance tab from the web browser interface of the unit. 2. Select the Backup option from the Config section of the Maintenance screen. 3. A File Download window will be displayed. Select the Save option and choose the location and name for the file and then click the Save button. The file will then be stored the chosen location. 9.2 Editing a Configuration File The configuration radioconf.ini file is text based and various parameters can be edited by using a basic text editor such as Notepad on a windows based PC. The editable parameters in the file are enclosed by quotations . The filename is editable but must remain an .ini file type. The file is divided into sections with the sections named as follows:

[Header] Do not edit this value; it is used as a file control parameter

[System] The SNMP system name, system description, system contact, system location, session timeout

(in seconds), password reuse (yes=1/no=0), and authentication trap (yes=1/no=0) can be edited.

[Trap1], [Trap2] and [Trap3] The three Trap/Syslog IP destinations, names and community information can be edited

[Radauth] The RADIUS Primary and secondary server IP, server port, timeout and retry values can be edited. RADIUS authorization can be disabled (0, default), Enabled and allow local users (1) or Enabled and disallow local users (2)

[Management] The IP address, IP Mask, Gateway, Time-zone, Timeserver The LSP RSL value for RSL activation (lowest RSL) The LSP RSL value for RSL Deactivation (highest RSL), IP address, Access control: In-band (0), Copper Secondary path (1) Copper Out-band (2), AR alignment mode disable on reset (Yes=1/No-0), AR operation mode (1), Fiber auto-negotiation (Yes=1/No=0), AdaptPath/LSP

(Enable=1/Disable=0), AES Bypass (1) 50 045-57014 Rev A BW64 & BW64EConfiguration Guide Care should be taken during the editing process to not disturb any other characters other than what is typed between the quotation marks Care should also be taken when saving the file to keep the .ini extension intact. This is done by selecting all files as the save type and making sure that the filename has .ini at the end of the filename. 9.3 Restoring a Configuration Use the following steps to restore the unit configuration from a backup .ini file. 1. Select the Maintenance tab from the web browser interface of the unit. 2. Select the Browseoption from the Update Software Restore Config section of the Maintenance screen and select the file from its saved location, then select Upload. The following message will be displayed if successful:

If IP related parameters were modified in the configuration file it will require a Soft Restart before the changes will become active. 51 045-57014 Rev A 10 Upgrading Software BW64 & BW64EConfiguration Guide 10.1 Determining Versions The Versions section on the Maintenance page of the web interface, shown in Figure 10-1, displays a detailed inventory of a units hardware and software components. The information may be needed when contacting factory personnel to help resolve issues or when updating a units software. The HW-

RADIO, SW-NMS, and SW-MCU values can be used to identify the equipment serial number and the two field-upgradeable software components. Prior to performing a software upgrade these three items should be confirmed in order to determine compatibility. A detailed description of each component is listed below:

Figure 10-1 Hardware and Software Versions HW-Radio: This field displays the serial number of the unit and indicates if it is a High-Band or Low-Band unit. HW-FE: Displays the serial number of the internal Front End module. *

HW-BB: Displays the serial number of the internal Base Band module. *

HW-IF: Displays the serial number of the internal IF module. *

SW-NMS: Displays the current NMS software version. SW-DLM: Displays the current DLMsoftware version. *

SW-MCU: Displays the current MCUsoftware version. FW-FPGA: Displays the current firmware version of the internal FPGA. *

* Only used by factory personnel 52 045-57014 Rev A 10.2 Software Upgrade Procedure BW64 & BW64EConfiguration Guide To obtain the latest version of software, go to the download section of the BridgeWave website at http://www.bridgewave.com/support/downloads.cfm. You will find a list of software updates available for your product. The download consists of a dated .zip file that includes the product software, MIB files and the release notes for the package. Use the following steps to upgrade a units software:

1. Confirm compatibility of your equipment, and current software releases with the available software releases listed on the BridgeWave download site. 2. Download the upgrade package and unzip the files to a known location on your hard drive. Several files will be unzipped into the directory. Some software releases will contain a BwNmsSSL-xx-xx-xx.cat file, a MCU_AES-xx-xx-xx.cat file, or both files, where xx-xx-xx is the version number. When both files are present they must both be upgraded independently starting with the BwNmsSSL-xx-xx-xx.cat file. Do not change the .cat extension name, or use the . character if renaming the file. This will cause the upgrade process to fail. 3. Next, browse into the unit that is being upgraded and select the Maintenance tab from the web interface. 4. Select the Browseoption from the Update Software Restore Config section and select the new BwNmsSSL-xx-xx-xx.cat file software image from the unzipped file location. Then select Upload. 5. The upload can take several minutes to complete. Upon successful completion a File Upload Success message will be displayed:

53 045-57014 Rev A BW64 & BW64EConfiguration Guide Figure 10-2 File Upload Success Page If no indication or a failure message is received after ten minutes, please verify the file name and retry the upload. If the failure repeats, please re-upload the file from the BridgeWave website and retry. If the failure still repeats, please contact customer service. 6. After receiving a File Upload Success perform a Soft Restart from the Maintenance page of the web interface. The management agent will not be accessible for 140 sec after rebooting or Hard Restarting the unit, even though data traffic will flow over the link immediately. 7. Repeat Steps 3 6 for the MCU_AES-xx-xx-xx.cat file if it is contained in the .zip release package. Do not interrupt the upload process when upgrading the MCU_AES-xx-xx-xx.cat file. An interruption could cause the unit to become inoperable. 54 045-57014 Rev A BW64 & BW64EConfiguration Guide When upgrading the MCU_AES-xx-xx-xx.cat file of a remote radio over the wireless interface, the link traffic may drop while the file is being burned to flash. This can cause the File Upload Success message to not be received by the upgrade PC at the local end. If a success message is not received after waiting 15 minutes reconnect to the remote radios web interface and verify the new MCU version is displayed before proceeding with the remaining steps. 8. After successfully uploading the above file(s) perform a Hard Restart from the Maintenance Page of the web interface, or power cycle the unit. The updated software will become active upon completion of the Hard Restart process. The management agent will not be accessible for 140 sec after rebooting or Hard Restarting the unit, even though data traffic will flow over the link immediately. 9. When the web interface becomes available browse into the unit and select the Maintenance tab. Verify that the xx.xx.xx portion of the SW-NMS, and SW-MCU revisions match the xx-xx-xx portion of the BwNmsSSL-xx-xx-xx.cat and MCU_AES-xx-xx-xx.cat files respectively. 10. Next, select the Setup tab. Verify all settings on the Setup page, and select Submit Changes, even if no changes were made. This will bind the configuration settings using the logic and functionality contained within the new software. The unit should now be operational with the new software. 55 045-57014 Rev A 11 System Restarts BW64 & BW64EConfiguration Guide The following types of restarts can be performed on the unit from the Maintenance page of the web management interface:

Soft Restart Performs a soft restart of the unit. This will activate the latest changes submitted from the Setup page. If no changes have been made it will maintain the current configuration settings. A restart will not stop data transfer, but will make the management agent inaccessible for approximately 140 seconds. Hard Restart Performs a hard restart of the unit. This will activate the latest changes submitted from the Setup page. If no changes have been made it will maintain the current configuration settings. Performing a Hard Restart will momentarily interrupt user data traffic flow across the link. Soft Restart is NOT traffic affecting. 56 045-57014 Rev A 12 Product Upgrades by Request BW64 & BW64EConfiguration Guide 12.1 Introduction Currently, end customers may request license upgrades for the following:

- Upgrade the rate in BW systems

- Upgrade FE60U or FE80U to full AR System.

- Upgrade 60 and 80, non-AES version to NMS SSL security.

- Upgrade SLE100 to AES encryption.

- Upgrade AR60 or AR80 to AdaptSwitch functionality.

- Extend the Upgrade/Downgrade time periods It is highly recommended that the customer upgrade to at least 3.0.2 NMS

(and appropriate MCU) or newer before requesting license upgrades The customer has the option of generating a request file in the NMS and emailing the file to BridgeWave or the customer can just supply the following information:

Radio Unit serial number Radio unit MAC address NMS software version License type requested 12.2 Request License File Procedure The following procedure should be used to request and Install license upgrades to the product. 1. Using a web browser connect to the web management interface of the High-Band unit and click on the Maintenance tab. For BW product upgrade/dupgrades and , follow this both radios must request licenses 2. Under the License section push the Request License button. A File Download dialog box will be shown. 3. Select the Save option from the File Download dialog box, shown in Figure 12-1 Request License Upgrade File, and save the .ini file to a known location. 57 045-57014 Rev A BW64 & BW64EConfiguration Guide Figure 12-1 Request License Upgrade File 4. This file must then be emailed to BridgeWave after purchasing an upgrade. 5. Once the upgrade has been purchased, BridgeWave will email a license file that must be uploaded to both radios or just the High-Band unit. Save this file to a known location. It is highly recommended that the software is upgraded to the latest version before requesting license upgrades Otherwise, the units software should not be upgraded until after the license file has been received and properly installed. 6. From the web interface of the High-Band or both units, select the Maintenance tab. Under the Update Software Restore Config section select Browse and locate the license file received from BridgeWave, then select upload. A confirmation message will be displayed upon successful upload and the unit can then be configured to operate in AR mode from the Setup page. ContactSalesformoreinformationregardingthepurchaseoflicenseupgrades. 58 045-57014 Rev A 13 AES Encryption Feature BW64 & BW64EConfiguration Guide The Advanced Encryption Standard (AES) feature provides a method for securing the data traffic traveling across the radio link by encrypting the information. The AES feature and the associated procedures in this section only apply to BridgeWave products that include the -AES designator in the model number. Example: AR80X-AES In cryptography, AES is a block cipher adopted as an encryption standard by the U.S. government. AES is one of the most popular algorithms used in symmetric key cryptography. The design and strength of all key lengths of the AES algorithm (i.e., 128, 192 and 256) are sufficient to protect classified information up to the SECRET level. TOP SECRET information requires use of either the 192 or 256 key lengths. The BridgeWave AES solution uses the 256 key length. For the 256 Key, 64, 4-bit HEX characters or 32, 8-bit ASCII keyboard text characters are used for the key. AES product models also support Secure Socket Layer (SSL) connections for enhanced security when accessing the web management interface. The SSL feature requires the https:// designation be placed in front of the units IP address when trying to access the web management interface. By default the AES capable units are shipped with AES encryption enabled, with a matching key active on both ends of the link. When encryption is enabled the key must be identically configured on each unit for connectivity across the link to be established. The Link Quality voltage reading, which is used to determine the performance of the link, is fully functional independent of AES configuration. 59 045-57014 Rev A 13.1 AES Setup BW64 & BW64EConfiguration Guide Use the following procedure to configure and enable AES encryption:

AES setup requires secure management to be enabled. This can be verified in the IP Setup page as shown:

1. AES should only be configured after proper installation has been completed and an unencrypted link has been established and validated. Confirm you are working with a fully operational link. 2. Using a web browser connect to the web management interface of the Local (Near End) unit and click on the AES tab. The AES configuration page shown below will be displayed:

3. Under the Key Setup section enter up to 32 ASCII text characters into the Key (ASCII) field, and then select the Set Key button. The ASCII characters will automatically be converted to Hex. Alternatively Hex characters can be entered directly into the Key (Hex) field. After Set Key the buttons will become grayed out while the key is being saved to flash. This process can take up to 4 minutes. Check the key closely before performing the Set Key operation. The key contents will not be displayed after performing the Set Key operation. 60 045-57014 Rev A BW64 & BW64EConfiguration Guide Click on the AES tab to refresh the page until the buttons are no longer grayed out. Do not hit the browser Refresh option to update the page. This will cause the key to resave and the buttons will continue to be grayed out. Please be patient. It may take up to 4 minutes for the 256 key data to be written to the radio memory. The buttons on the AES page will be grayed out during this process. 4. Log into the Remote (Far End) unit and perform the Set Key operation outlined in Step 3. Again, it can take up to 4 minutes for the key to be written to the flash memory. 5. Next select the Activate Key option on the Remote (Far End) unit first, and then the Local

(Near End) unit. This applies the key to the internal encryption hardware but does not enable encryption. 6. The Encryption field is used to Enable or Disable encryption and is set to Enable by default. Verify that both the Local (Near End) and Remote (Far End) unit Encryption fields are set to Enable. If Disable is selected, toggle the Encryption field of the Remote (Far end) to Enable and then click the Set Encryption button, then perform the same on the Local (Near End) unit. 61 045-57014 Rev A BW64 & BW64EConfiguration Guide If connectivity across the link cannot be established after enabling encryption, check the Packets Received field under the Radio Interface section of the Status tab. If errors are displayed followed by the Check AES setup message, shown below, the keys are most likely mismatched and should be reentered into both local and remote units. 62 045-57014 Rev A 14 SysLog BW64 & BW64EConfiguration Guide SysLog is a communications protocol as well as program applications used for forwarding, storing and processing log messages in a heterogeneous IP network SysLog is based on standards RFC 3164 and RFC 3195 The Syslog protocol is a client-server type protocol. The Syslog sender, in this case, the BridgeWave radio, may be enabled to send small textual messages to the Syslog server program. SysLog is supported across multiple platforms and can be used to integrate data from different types of systems into a central repository. The BridgeWave radio additionally stores the Syslog messages locally in a circular buffer of up to 256 messages. 14.1 Syslog Message Format The messages sent to the Syslog server have two fields known as the TAG field and the CONTENTS field. The values of the TAG field describing the event are SOURCE-SEVERITY-MNEMONIC. The SOURCE field will contain one of the following: Radio, Fiber, Copper, Equipment, Configuration or Maintenance. The SEVERITY field will contain one of the following: Emergency (0), Alert (1), Critical (2), Error (3), Warning, (4), Notice (5), Informational (6) or Debug (7) The MNEMONICS field will contain one or more of the following: RSL, Temp, Input Voltage, Error, LSP, TX, Calibration, Upload, Laser, Status or Start The CONTENT is delimited by a colon and contains the details of the message. Some sample Syslog messages to the Syslog server are as follows:

FIBER-2-STATUS:Link Down FIBER-6-STATUS:Link Up Radio-2-STATUS:Link Down RSL=-46 dBm, TX Temp=39C (Indicates a critical status, the RF in the link is down, the RSL and transmitter temperature when it went down)

(indicates critical status that fiber link is down)

(indicates informational status that fiber link is up) 63 045-57014 Rev A 14.2 Local Syslog Message Display BW64 & BW64EConfiguration Guide As shown in Figure 14-1, Local Syslog Message display, Up Time, Severity, Source and Message information is presented for the operator. The Save Into File button transfers the SysLog data to an Excel file Figure141,LocalSyslogMessagedisplay 14.3 Syslog Setup The Syslog server destination is setup on the SNMP page as follows:

1. Select the SNMP tab from the web browser interface of the unit 2. Enter the IP address of the Syslog message destination in the IP address field of Host 1, Host 2 or Host 3 fields. The Host name and Community are not needed. 64 045-57014 Rev A 14.4 NTP Setup for SysLog Time Stamping BW64 & BW64EConfiguration Guide SNTP stands for Simple Network Time Protocol which is a client/server based protocol that allows a network device (client) to obtain time and date information from an SNTP server over an IP based network. By default the Syslog events are stamped with the system uptime of the unit. To mark the SysLog events with a time and date value the SNTP capability must be configured and enabled. Figure 14-2 shows the SysLog time stamping before and after configuration of the SNTP functionality. The steps below outline the process to configure the SNTP functionality:

Figure 14-2 SNTP Event Time Stamping 1. Select the IP Setup tab from the web browser interface of the unit. 2. In the SNTP Server section of the page set the SNTP Access parameter to Enable. 3. Enter a valid IP address of the primary SNTP time server into the SNTP Primary IP field. 4. Optionally, a secondary SNTP IP server can be entered. This is recommended for redundancy purposes but is not required. 5. Select the desired Timezone from the drop down menu. 6. Press the Submit New Values button at the bottom of the screen. 7. Press the Soft Restart button for the new values to become active. 65 045-57014 Rev A BW64 & BW64EConfiguration Guide 8. The management access will be lost for approximately 3 minutes. Upon regaining access, confirm that the Current Date/Time parameter is reading the correct value. 66 045-57014 Rev A 15 Default Recovery (Hard Reset) BW64 & BW64EConfiguration Guide If the units Administrator password or IP configuration is forgotten, it will be necessary to perform a hard reset to return these parameters to the factory default values. Only the Administrator/User/Factory passwords, IP configuration, and Management Access parameters will be reset to default values. All other parameters will remain in their currently configured state. Each BridgeWave unit is shipped with a hard reset box that can be used to return the unit to its default factory configuration. In order to reset the Administrator password and IP configuration, it is required to have physical access to the units copper data port (RJ-45 jack) or cable and the units power cable. User data traversing the radio link will be briefly interrupted during the hard restart process. Procedure 1. First power down the unit, 2. Connect the hard reset box via a straight-through (standard) Ethernet cable at least 3 meters long to the copper (RJ45) port on the unit. If a cable is already running to the RJ-45 port of the unit, the reset box can simply be connected to the other end of this cable. 3. Reconnect power to the unit and wait a minimum of 90 seconds, before disconnecting the hard reset box. The unit will then begin its normal restart cycle, and the management agent will normally become accessible within approximately 3 minutes using the default IP configuration, usernames, passwords and community strings. This may take longer than the normal 140 seconds for the restart operation to complete and the management agent to become available. Making your own hard reset cable:

If you do not have access to the hard reset box supplied with the unit, you can create your own hard reset cable using the following procedure:

1. Obtain a standard Ethernet patch cable at least 3m in length. 67 045-57014 Rev A BW64 & BW64EConfiguration Guide 2. Cut off one end of the Ethernet patch cable and then strip the jacket from the two wires that belong to pins 3 and 6. These are typically the wires from either the orange/white-orange or green/white-green pairs, but this is not guaranteed to be the case. 3. Connect the two wires from pins 3 and 6 together to make a short. All other wires must be left un-terminated. 4. Use this hard reset cable as a substitute for the hard reset box and Ethernet cable. Instead of disconnecting the hard reset box (as in the previous procedure), disconnect the wires going to pins 3 and 6 from each other and leave the cable in place for the additional 2 minutes; it is important not to remove the cable from the unit until the process is complete. 68 045-57014 Rev A BW64 & BW64EConfiguration Guide

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BW64 Installation Guide P/N 580-00516 BW64 045-57012 Rev A B BW64 Installation Guide Copyright Notice & Disclaimer Copyright 2004 20156 BridgeWave Communications. All rights reserved. Printed in the USA No portion of this publication may be reproduced, copied, or distributed without the written consent of BridgeWave Communications. BridgeWave reserves the right to update or change the material in this publication at any time without notice. BridgeWave has made every effort to ensure that the information and the instructions contained in the publication are adequate and is not responsible for any errors or omissions due to typing, printing, or editing of this document. Purchasers of BridgeWave products should make their own evaluation to determine the suitability of each such product for their specific application. BridgeWaves obligations regarding the use or application of its products shall be limited to those commitments to the purchaser set forth in its Standard Terms and Conditions of Sale for a delivered product. This publication has been prepared for professional and properly trained personnel, and the customer assumes full responsibility when using the information herein. Export Control All BridgeWave radio products are restricted commodities that fall under ECCN 5A002 of the Department of Commerce. These products are "ENC restricted" under section 740.17(b)(2) of the Export Administration Regulations (EAR). BridgeWave products may only be exported, re-exported, transferred, or retransferred in accordance with Export Administration Regulations. Diversion contrary to U.S. law is expressly prohibited. Product Compatibility While every effort has been made to verify operation of this product with many different communications products and networks, BridgeWave makes no claim of compatibility between its products and other vendors equipment. It is assumed that users have thoroughly evaluated this products performance in the communications environment in which it will be used. BridgeWave Confidential & Proprietary i 045-57012 Rev BA Safety BW64 Installation Guide CAUTION, WARNING, and DANGER statements have been strategically placed in the text to alert personnel of possible hazards. These statements must be closely observed. The following general safety precautions must be observed during all phases of operation and service of the products covered in this manual. Failure to comply with these precautions or with specific warnings elsewhere in this manual willfully violates standards of design, manufacture, and intended use of the product. BridgeWave assumes no liability for the customers failure to comply with these requirements. These BridgeWave radios meet all applicable FCC and Industry Canada (IC) safety requirements for general population exposure to radio frequency emissions; however, it is best to avoid prolonged, unnecessary exposure to the front of the radio while it is operating. The outdoor equipment must be properly grounded to provide some protection against voltage surges and built-up static charges. In the event of a short circuit, grounding reduces the risk of electrical shock. For installations in the U.S.A., refer to Articles 810830 of the National Electrical Code, ANSI/NFPA No. 70, for information with respect to proper grounding and applicable lightning protection for DC cables. The installer must also follow any additional local building and electrical code regulations. For installations in all other countries, implement protection in accordance with the safety standards and regulatory requirements of the country where the equipment is to be installed. Do not install or operate this equipment in the presence of flammable gases or fumes. Operation of any electrical instrument in such an environment constitutes a definite safety hazard. Do not install substitute parts or perform any unauthorized modification to the equipment. Changes or modifications not expressly approved by BridgeWave can void the users authority to operate the equipment. BridgeWave Confidential & Proprietary ii 045-57012 Rev BA Regulatory Information BW64 Installation Guide This device complies with FCC Part 15.255 and Industry Canada RSS-210. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and,

(2) This device must accept any interference that may cause undesired operation. French Translation:

Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes:

(1) lappareil ne doit pas produire de brouillage;

(2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. BridgeWave Confidential & Proprietary iii 045-57012 Rev BA Equipment Precautions BW64 Installation Guide Water and Moisture - These BridgeWave radios are designed to withstand weather conditions typically encountered when installed outdoors. Power information A suitable transient voltage suppressor shall be installed if the length of the DC supply cable exceeds 140 feet. The power supply for the equipment shall be a listed ITE power supply of Listed Class II power unit rated at +/-37.5 to 60VDC, minimum 60Watts. When used with the optional POE64 kit, the PoE Extractor accepts a 37.5 to 60VDC, minimum 60Watts input from an external Power Supply Equipment (PSE) source. RF Radiation Safety, Maximum Permissible Exposure (MPE) Limits Regarding guidelines for Human exposure limits to Radio Frequency (RF) electromagnetic fields, the BW64 product has been evaluated for compliance with FCC OET Bulletin 65 and human exposure limits recommended by the International Commission on Non-Ionizing Radiation Protection (ICNIRP), IEEE, and adopted by ANSI. BW64 devices, utilizing 10inch (25.4cm) integrated antennas and BW64E devices utilizing 2ft (60cm) diameter antennas, are below the General Population/Uncontrolled Exposure limits of 1 mW/cm2, and well below the Occupational/Controlled Exposure limit of 5mW/cm2 at a distance of 82.02 centimeters for the BW64 and 206 centimeters for the BW64E. Product Changes or Modifications Users of this equipment are hereby cautioned that changes or modifications not expressly approved by the party responsible for the compliance could void the users authority to operate the equipment The BW64unit, utilizing internal 10 diameter antenna is below the General Population/Uncontrolled Exposure limits of 1 mW/cm2, and well below the Occupational/Controlled Exposure limit of 5mW/cm2 at any Near-Field, Transition, or Far-Field distance region including the antenna surface. BridgeWave Confidential & Proprietary iv 045-57012 Rev BA Restricted Access BW64 Installation Guide This product is for installation in a restricted-access location, where there will be no access to the equipment, except by trained service persons. BridgeWave Confidential & Proprietary v 045-57012 Rev BA BW64 Installation Guide Table of Contents Copyright Notice & Disclaimer .................... i 3.4 Installation Tools ............................. 13 Export Control .............................................. i 3.5 Radio Mount Installation ................. 14 Product Compatibility ................................... i 3.6 Radio Installation ............................ 16 Safety ............................................................ ii 3.7 Installing Optional POE64 Kit ........ 18 Regulatory Information ............................... iii 3.8 Attach Grounding ............................ 20 Equipment Precautions ............................... iv 3.9 Cable & Conduit Installation .......... 21 3.10 3.11 3.12 Pre-Antenna Alignment Concepts 24 Antenna Alignment ....................... 27 Ice Shield Installation (Optional) 29 Appendix A: Troubleshooting ..................... 30 Appendix B: RSL Voltage vs. Distance ...... 32 Standard Limited Warranty & Software License ........................................................... 33 Power information ...................................... iv RF Radiation Safety, Maximum Permissible Exposure (MPE) Limits .............................. iv Restricted Access ...................................... viv 1 Introduction ............................................ 2 1.1 Purpose.............................................. 2 1.2 Prior Knowledge ............................... 2 1.3 Contact Information .......................... 3 2 Site Planning ........................................... 4 2.1 General .............................................. 4 2.2 Equipment Checklist .......................... 4 2.3 2.4 Line of Sight ...................................... 4 Link Distance Limits.......................... 4 2.5 Antenna Location .............................. 5 2.6 Cabling & Power Requirements ....... 5 2.7 Example Cabling Diagrams .............. 8 2.8 Grounding & Lightning ................... 10 2.9 Conduit ............................................ 10 3 Installation ............................................. 11 3.1 Overview.......................................... 11 3.2 Equipment Unpacking ..................... 11 3.3 Equipment Inventory ....................... 12 BridgeWave Confidential & Proprietary vi 045-57012 Rev BA BW64 Installation Guide 1 Introduction 1.1 Purpose The information in this guide is directed to persons who must perform or coordinate the tasks associated with the process of installing wireless communication devices, and planning communication network applications. 1.2 Prior Knowledge This manual assumes the operator has at least basic experience with and an understanding of wireless technology and some familiarity with configuring and operating networking equipment. Preferably, the person installing this equipment fully understands the information covered in this manual prior to attempting these procedures. DANGER, WARNING and NOTE statements have been placed in various sections throughout this document to alert personnel of possible traffic affecting issues and to provide additional tips and helpful information. These statements should be closely observed. Symbol Description Indicates that personal injury can result if the user does not comply with the given instruction. A DANGER statement will describe the potential hazard, its possible consequences, and the steps to perform to avoid personal injury. Indicates that equipment damage, process failure and/or loss of data can result if the user does not comply with the given instructions. A WARNING statement will describe the potential hazard, its possible consequences, and the steps to perform to avoid serious equipment damage. Provides supplementary information to emphasize a point or procedure, or provides a tip for easier operation. BridgeWave Confidential & Proprietary 2 045-57012 Rev BA BW64 Installation Guide 1.3 Contact Information Technical Assistance and Customer Service BridgeWave distributors and resellers are authorized local service providers and are responsible for immediate Tier 1 customer support. If a problem cannot be resolved, contact BridgeWave Customer Service for assistance:

Regional Standard Support Available Monday through Friday from 8:00 AM to 5:00 PM UTC local time, per region. NAM (North America) UTC -8

+1 (408) 567-6906 EMEA (Europe, Middle East, and Africa) UTC +0

+1 (408) 457-6658 APAC (Asia Pacific) UTC +8

+1 (408) 457-6659 The UTC coverage times do not reflect daylight saving time adjustments. E-mail: support@bridgewave.com Return Material Authorization (RMA) Should BridgeWave equipment have to be returned for repair or replacement, an RMA number must be obtained from BridgeWave. When returning equipment, be sure to write the RMA number on the outside of the shipping carton, and follow instructions received from support upon approval of the RMA. BridgeWave Sales For questions pertaining to the purchase of equipment, software licenses, warranties, or services please contact sales at the following:

E-mail: sales@bridgewave.com Inside Sales: +1.866.577.6908 BridgeWave Confidential & Proprietary 3 045-57012 Rev BA BW64 Installation Guide 2 Site Planning 2.1 General Before the start of an installation, a survey should be conducted of the proposed area of the site(s). The survey personnel should be familiar with the details required to install the BridgeWave radio system. 2.2 Equipment Checklist The person performing the survey will need the following equipment:

Binoculars GPS Navigation Device Tape Measure Site Survey Report Form 2.3 Line of Sight Clear line of sight (LOS) is required for proper operation. Planning should include an investigation into future building plans that could block the LOS path, and other long-term incremental obstructions, such as trees. Intermittent obstructions, such as aircraft at a nearby airport, should also be considered. The following table details the minimum clearance needed from obstacles near the path in order to ensure the radios will operate properly. Path Length Minimum Clearance

(meters)

(meters) 250 500 750 1000 0.56 0.79 0.97 1.12 Table 2-1: Minimum Clearance at Mid Path for Various Path Lengths 2.4 Link Distance Limits Measurement of the link distance is important in estimating the link availability and calculating the expected Receive Signal Level (RSL). This measurement can be performed using the Latitude and Longitude readings from a Global Positioning System (GPS) device, which is placed near the proposed locations of the antennas. The minimum link distance of the BW64 is 65 feet (20 meters). BridgeWave Confidential & Proprietary 4 045-57012 Rev BA BW64 Installation Guide The maximum distance of the BW64 is dependent on the desired level of availability and the rain rate associated with the region where the product will be installed. BridgeWave provides an Availability Calculator which uses industry standard formulas for determining regional rain rates and estimating availability percentages for a given distance. To obtain the latest version of BridgeWaves Availability Calculator, contact BridgeWaves Customer Service or search the eService center knowledgebase at www.bridgewave.com/support/kbrma.htm 2.5 Antenna Location The optimum location for the antennas must be determined. The ideal location should provide for ease of erecting and mounting the antenna, as well as unimpeded LOS to the other site. The following factors should be taken into account:

Type of mountingwall or pole Location where the cabling will enter/exit the building Length of cable runs Grounding connection points Potential path obstructions Accessibility There is a finite incline and decline range of the elevation adjustment when installing the radio link. The mount can only accomplish +/- 30 degrees from the mechanical elevation adjustment. 2.6 Cabling & Power Requirements Inspect the installation site to determine the cable run paths from the radio equipment to the termination point. Locations for roof penetration should be identified. The routing and securing of all cables should conform to all applicable codes and requirements. Cabling and power requirements depend on whether the optional POE64 kit is installed or not, and whether the 10/100BaseT port will be used for out of band management or AdaptPath features. When the POE64 kit is not installed the GigE SFP port allows for selection of various SFP types. Formatted: Font: 10 pt, Italic Figure 2-1Figure 2-1 and Error! Reference source not found.Figure 2-2 provide diagrams for installations with and without the optional POE64 kit and outline the power requirements, SFP options, cable types and lengths accordingly. BridgeWave Confidential & Proprietary 5 045-57012 Rev BA BW64 Installation Guide Figure 2-1 Cable & Power Specification 1 2 3 1 - GigE SFP Part #

Part #/Type 171-00511 1000Base-SX GigE, multi mode, 850nm LC Connector 171-00512 1000Base-LX GigE, single mode, 1310nm LC Connector 171-00513 1000Base-T GigE RJ45 Connector Cable Type/Length 62.5/125m MMF 270m 50/125m MMF 500m 9/125m SMF 10km Cat5e/Cat6 100m 2 10/100BaseT

(Optional for Out of Band Management) Cable Length Cable Type 100 meters Cat5 6 BridgeWave Confidential & Proprietary 045-57012 Rev BA BW64 Installation Guide 3 Power +/-48V Power Requirements Cable Type

+/-37.5 to 60VDC 45W Max Power Dissipation

(Recommend Min 60W Power Source) 12 AWG - Stranded

(4mm2)

-or-

14 AWG - Stranded

(2.5mm2) BridgeWave Confidential & Proprietary 7 045-57012 Rev BA BW64 Installation Guide Figure 2-2 Cable & Power Specification (With POE64 Kit Option) 1 2 3 1 - GigE SFP Part #

Cable Type/Length Part #/Type 171-00513 1000Base-T GigE RJ45 Connector

(Supplied with POE64 Kit) Cat5e Jumper

(Supplied with POE64 Kit) 2 10/100BaseT

(Optional for Out of Band Management) Cable Length Cable Type 100 meters Cat5 3 Power & Ethernet

(Surge port of POE64 Extractor) Power Requirements Cable Type/Length 56 VDC 45W Max Power Dissipation

(Recommend Min 60W PoE Power Source) Cat5E or Cat6 100m BridgeWave Confidential & Proprietary 8 045-57012 Rev BA 2.7 Example Cabling Diagrams BW64 Installation Guide Figure 2-3Figure 2-3 and Figure 2-4Figure 2-4 depict example diagrams for typical terminal installations for scenarios with and without the use of the optional POE64 kit. Figure 2-3 Example Terminal Diagram (Without Optional POE64 Kit) BridgeWave Confidential & Proprietary 9 045-57012 Rev BA BW64*Cat5 Cable(Optional for Out of Band Management)Building Entry*Network Switch/Router*Power Leads(12 or 14 AWG)** 48 VDC Power SourceOptional BridgeWave Accessory Part # 020-57069-0001 - +* 3rd party parts not supplied by BridgeWave** Optional accessories sold by BridgeWave* Conduit*Ethernet Surge Arrestor(Optional for Out of Band Management)*DC Surge Arrestor*Copper or Fiber(Depending on SFP Type)Radio Link UpConnections Inside UnitABCB+ -ACDC Voltage Input Range37.5 to 60VDC45W max power dissipationGigE SFPRx TxPower+/-48VTest10/100BaseTLink ActPoE BW64 Installation Guide Figure 2-4 Example Terminal Diagram (With Optional POE64 Kit) BridgeWave Confidential & Proprietary 10 045-57012 Rev BA BW64*Cat5 Cable(Optional for Out of Band Management)Building Entry*Network Switch/Router* 3rd party parts not supplied by BridgeWave** Optional accessories sold by BridgeWave* Conduit*Ethernet Surge Arrestor(Optional for Out of Band Management)*Ethernet Surge ArrestorGigE SFPRx TxPower+/-48VTest10/100BaseTLink ActPoERadio Link UpConnections Inside Unit**POE ExtractorPart #: POE64 Data-Output+ -Power + Data-InputCat5E Jumper- +*PoE Power InjectorMin 60W*Cat5e/6 Cable(Data & Power)*Cat5e/6 Cable(Data)BABAPoE Voltage Input Range37.5 to 60VDC 2.8 Grounding & Lightning BW64 Installation Guide Proper grounding of the outdoor equipment reduces electromagnetic interference, provides lightning protection, and protects against electrical discharge. Using improper techniques in lightning-prone geographic areas may pose a danger to local personnel. The source and connection points for the building-to-earth ground in the vicinity of the antenna location should be determined. It is recommended to integrate the radio ground into the building ground utilizing the pole-mount hardware. For wall or ungrounded pole mounts, connect a grounding wire to the grounding point on the radio. Select the size of the ground wire based on the National Electrical Code. In addition to grounding the equipment, BridgeWave strongly recommends, and local building codes may require, that the DC electrical cable, and or copper Ethernet cables are protected from lightning strikes by the use of surge suppressors. The surge suppressor must be installed at the point where the cables exit/enter the building, however, use of a surge suppressors at the radio unit are optional because surge suppression is built into the unit. For more information on recommended accessory devices and kits, contact BridgeWave Sales. 2.9 Conduit Conduit is recommended for enclosure of the cables as they enter the radio. The conduit provides a water-tight entry to the radio, as well as weather or physical protection required by the cables. The conduit should be flexible, waterproof, and non-metallic. An example of this is LIQUID-TUFF UL Liquid tight Flexible Non-Metallic Conduit (Type LFNC-B) or equivalent. Conduit should be 3/4 inches (19 mm) in diameter to match the radio's opening. A drip loop should be created to ensure sufficient length to enable the radio to be moved during servicing and to prevent water from following the conduit down to any junction box or building entrance. A suggested length is 24 inches (60 cm) from the radio to the bottom of the loop. The opposite end of the conduit is inserted into the cable tray if on a tower or attached to a NEMA or junction box. BridgeWave Confidential & Proprietary 11 045-57012 Rev BA BW64 Installation Guide 3 Installation 3.1 Overview It is recommended that installation personnel read this section in its entirety prior to installing the system. 3.2 Equipment Unpacking Inside the main packaging box there will be a box containing a low-band unit and another box containing the high-band unit. Check the site plans to determine which band will be installed at each location and then locate the desired box (low-band or high-band) accordingly before beginning installation. It is recommended that the shipping cartons and packing materials be retained in the event that it is necessary to return any equipment. Unpacked radios can be identified by the color of their labels found on their front faces or inside the unit after removing the plastic back weather cover. The blue color label indicates a high-

band radio and the red color label indicates a low-band radio. Avoid applying force to the antenna radome as this may damage the internal feed horn. Never rest the unit on a surface with the radome facing down. BridgeWave Confidential & Proprietary 12 045-57012 Rev BA BW64 Installation Guide 3.3 Equipment Inventory The following is a typical inventory lists for each site. Table 3-1 Equipment Inventory List Qty Description Part Number BW64-L or BW64-H 1047-410-00614 1047-410-00615 1047-410-00616 1047-411-00600 1047-420-00549 1047-425-00526 1047-515-00790 1047-651-00507 1047-370-00600 1047-370-00601 1047-370-00604 1047-370-00605 1047-370-00608 1047-370-00613 1047-370-00693

(Per Site) 1 1 1 4 1 1 1 1 1 10 18 4 12 1 1 18 BW64 Low Band or BW64 High Band unit YOKE, MOUNTING BRACKET BRACKET, WALL MOUNTING BRACKET, POLE-MOUNT SHIM,BRACKET,TEFLON CBL ASSY, TEST, PROD

(RSL and Quality Test Cable HARD RESET BOX ASSY, PWR, CONN, POLARIZATION

(Green DC Connector) TOOL, 9/16 INCH COMBINATION WRENCH BOLT, 3/8-16 UNC X 3/4, SS WASHER, 3/8, SPLIT,SS 3/8-16 UNC X 9,ROD,ALL-THREAD,SS NUT, 3/8-16 UNC,HEX,SS WASHER,#8,FLAT,SS SCR,#8-32 UNC X 3/8,PHIL,PAN,SS WASHER,FLT,3/8,0.81 OD,0.06 THK,SST Additionally, the following accessories are available as optional parts for use with the BW64:

Part Number 020-57069-0001 POE64 515-00913 Table 3-2 Optional Equipment List Qty Description

(Per Site) 1 1 1 PWR SUPPLY,48V AC/DC,90W,BRK PWR SUPPLY

- Isolated and Connectorized -

(Optional for non Power over Ethernet applications) BW64 POE EXTRACTOR KIT

(Required only for Power over Ethernet applications) ICE SHIELD FOR INTEGRATED ANTENNA The radio is sealed at the factory warranty stickers on the inner

(metal) cover of the radio. There is no need to open this cover in the field. Tampering with these seals will void the warranty. BridgeWave Confidential & Proprietary 13 045-57012 Rev BA 3.4 Installation Tools BW64 Installation Guide The following tools, not provided by BridgeWave, should be used for installing the radio:

Screwdriver, slotted 0.1 inch (2.5mm) wide Ratchet with 6 inch (15cm) extension and 9/16 inch (14mm) deep socket Wire stripper/cutter/crimp tool (10-16 gauge) Electrical tape Fish tape for pulling cable Cable tie wraps Hand-held DVM (digital voltmeter) with standard banana plug receptacles BridgeWave Confidential & Proprietary 14 045-57012 Rev BA BW64 Installation Guide 3.5 Radio Mount Installation 3.5.1 Wall Mounting Option 1 Attach wall mounting bracket to wall

(see note) 2 Insert Teflon Shim between yoke and wall mount brackets 3 Attach Yoke to Wall Mounting Bracket Figure 3-1 Wall Mount Installation Steps The bolts (normally -16) should extend 0.8 to 3.0 inches (2cm to 7.5cm) from the wall and be strong enough to secure the radio to the wall under foreseeable environmental conditions. The environmental conditions may include, but not limited to, wind, rain, ice, etc. Depending on the wall material the mount is being attached to, a different size bolt may be appropriate. In this case, bolts up to inch in diameter may be used. BridgeWave Confidential & Proprietary 15 045-57012 Rev BA 3.5.2 Pole Mounting Option BW64 Installation Guide The pole mount kit can be used to secure the mount to a pole with diameter from 2.0 to 4.5 inches (5 to 11.5 cm). 1 Assemble Pole Mount Brackets

(see note) 2 Attach Pole Mount Brackets to Wall Mount Bracket 3 Attach Yoke Mounting Bracket to Wall Mount Bracket 4 Attach assembled mount to mast Figure 3-2: Pole Mount Installation Steps The nuts on the inside of the pole mount brackets do not require any washers since they are only holding the threaded rods in place and to not bear any load. BridgeWave Confidential & Proprietary 16 045-57012 Rev BA 3.6 Radio Installation BW64 Installation Guide 1 Select vertical or horizontal polarity (Default is vertical) a. Locate polarity sticker b. Orient unit so that line is left to right for horizontal or up and down for vertical. c. Polarity Must match at both ends of the link. d. Remove Ears and relocate if polarity needs to be changed. 3 Install the lower elevation lock bolt Place the unit into the yoke mount 2 BridgeWave Confidential & Proprietary 17 045-57012 Rev BA BW64 Installation Guide It is critically important during installation to ensure the radios on each side of the link are in the same polarization

(horizontal-horizontal or vertical-vertical). A link that has a radio on one side of the link set in the horizontal polarization and the other side of the link set in the vertical polarization will not operate properly. It is also critically important that a high-band radio is paired with a low-band radio to ensure the system will operate properly. Prior to installation, check each radio to verify one is a high-band and the other is a low-band version. The label on the radio will indicate the band (blue for high or red for low). BridgeWave Confidential & Proprietary 18 045-57012 Rev BA 3.7 Installing Optional POE64 Kit BW64 Installation Guide 3.7.1 Required Parts GiGE Copper SFP

(Qty. 1) 3.7.2 Installation Steps PoE Extractor w/Bracket

(Qty. 1) CAT5E Jumper

(Qty. 1) 4-40x1/4 Screw & Washer

(Qty. 3) 1 Remove protective cap from SFP cage 2 Insert GiGE Copper SFP into SFP cage with SFP label facing down Protective Cap SFP Inserted 3 Attach PoE Injector Bracket to chassis using the (3) supplied screws and washers SFP Label 4 Connect DC Connector to port labeled Power and install CAT5E Jumper between Data-Output port of Injector and SFP 4-40 Screws & Washers

(Torque to 5-7 in-oz) Power BridgeWave Confidential & Proprietary 19 Port labeled Data-Output Port Labeled GigE SFP 045-57012 Rev BA BW64 Installation Guide 5 PoE Wiring Pinouts 6 PSE Recommendations 7 Connect External PoE Power A) Run Cat5e or Cat6 cable from external PoE power source through the conduit and fitting into the unit and attach to the port labeled Power + Data-Input on the Poe Extractor Port labeled Power + Data-Input Cat5e/Cat6 Cable 100m Max Distance To Network & PoE Power Source PSE Do not connect PoE power directly to the SFP or built in 10/100 copper port. These ports do not support PoE and damage may occur. BridgeWave Confidential & Proprietary 20 045-57012 Rev BA 3.8 Attach Grounding BW64 Installation Guide The preferred method for grounding the radio unit is to ground the mast (or wall-mount bracket) to a ground source, since this provides the largest grounding surface contact possible. If this is not possible, then use the following procedure:

1. Attach the lug of a 10 AWG ground cable to the radio at one of the two #8 holes at the bottom of the enclosure using a #8-32 bolt, #8 lock washer and #8 flat washers (not provided). 2. Connect other end of the ground cable to a nearby building exterior ground location. BridgeWave Confidential & Proprietary 21 045-57012 Rev BA BW64 Installation Guide 3.9 Cable & Conduit Installation Conduit is recommended for enclosure of the cables as they enter the radio. The conduit provides a water-tight entry to the radio, as well as any weather or physical protection required by the cables. The conduit should be flexible, waterproof, and non-metallic. An example of this is LIQUID-TUFF UL Liquidtight Flexible Non-Metallic Conduit (Type LFNC-B) or equivalent. Conduit should be 3/4 inches (19 mm) in diameter to match the radio's opening. 3.9.1 Pull Cables Through Conduit BridgeWave Confidential & Proprietary 22 045-57012 Rev BA BW64 Installation Guide 3.9.2 Attach Conduit to Units Conduit Fitting The conduit fitting comes preinstalled on the unit chassis. The fitting is comprised of the parts depicted below:

Lock Nut O Ring Fitting Body Ferrule Sealing Ring Compression Nut Assembled Fitting The following instructions describe attaching the conduit to the conduit fitting. 1. Unscrew the Compression Nut and remove the Sealing ring and Ferrule, leaving the Fitting Body, O-Ring, and Lock Nut attached to the units housing. 2. Insert the cables through the Compression Nut and slide the Compression Nut onto the conduit. 3. Pass the cables through the Sealing Ring and slide the Sealing Ring over the conduit so that the tapered end of the Sealing Ring faces away from the Compression Nut. 4. Next, pass the cables through the Ferrule and screw the Ferrule onto the end of the conduit. Depending on quantity and type of cables being used it may require inserting only a single cable at a time through the Ferrule. When using a fiber SFP, the simplex LC connectors on the fiber cabling must be inserted individually through the components of the fitting as there is not sufficient room for both to fit through at the same time. If you have a duplex hood joining the LC connections, it should be temporarily removed during this process. 5. Pass the cables, one at a time if needed, through the Fitting Body, O Ring, and Lock Nut and into the chassis of the unit. BridgeWave Confidential & Proprietary 23 045-57012 Rev BA BW64 Installation Guide 6. Push the conduit and Ferrule up against the Fitting Body, making sure the hex head of the Ferrule seats properly in the Fitting Body, and then screw the Compression Nut onto the Fitting Body and hand tighten. 7. Loop the cables around the inside of the enclosure: This minimizes tension on the cables when connected and maintains a proper bend-radius of cabling. 8. A drip loop should be created with the conduit to ensure sufficient length to enable the radio to be moved during servicing and to prevent water from following the conduit down to any junction box or building entrance. A suggested length is 24 inches (60 cm) from the radio to the bottom of the loop. The opposite end of the conduit is inserted into the cable tray if on a tower or onto the NEMA or junction box. 3.9.3 Attach DC Wires to DC Connector (not required when using POE64 kit) 1. Ensure that the DC wire used is either 12 or 14-gauge and the center conductor is comprised of stranded wiring and ensure that a grounded surge suppressor is located at the buildings indoor/outdoor entry point. 2. Confirm that the power source is turned off before proceeding to attach the connector. 3. Connect the provided DC connector onto the wire by inserting the stranded conductors into the

+ or - terminal and then using a small flat screw driver to secure the terminals on the connector. 4. Turn on the external power and confirm that the Power LED on the unit turns green. 3.9.4 Attach Optional Cat5 cable to 10/100BaseT Interface For applications that require a dedicated out of band management connection to the unit, or for applications using the AdaptPath feature, a CAT5 Ethernet cable can be connected to the 10/100BaseT interface of the unit. If the cable is run to a point of entry into the building then it is recommended to install an Ethernet surge arrestor at the point of entry into the building. BridgeWave Confidential & Proprietary 24 045-57012 Rev BA 3.10 Pre-Antenna Alignment Concepts BW64 Installation Guide Prior to performing the antenna alignment it is important to understand the fundamentals of the signal being transmitted out of the antenna so that the alignment process can be visualized. It is equally important to understand proper user of the supplied test cable and how it is to be used with a voltmeter. The following sections describe this in detail. 3.10.1 Antenna Lobes The Main Beam, Side Lobes, and Nulls are terms used to describe the common components of a signal being radiated from a parabolic antenna. An antenna focuses, or shapes the radiated energy into a specific direction. As a result of this focusing a majority of the energy directed into the main beam. However, as a byproduct side lobes are also formed. These side lobes are weaker in amplitude than the main beam and radiate out of the antenna at a different angle. A similar concept is the act of squeezing a water balloon. If you squeeze the balloon in the middle it will bulge out in different directions. Between the main beam and the lobes are nulls where the signal drops off. The first side lobe is the next highest peak in relationship to the main lobe and is typically around 20dB lower than the main lobe. When aligning the antennas the goal is to peak the signal on the main lobe. The diagram in Figure 3-3Figure 3-3 depicts the concept of a main beam vs. side lobes and nulls. Figure 3-3Antenna Lobe Concepts BridgeWave Confidential & Proprietary 25 045-57012 Rev BA 3.10.2 Using the RSL/QUAL Test Cable BW64 Installation Guide The antenna alignment is achieved by using the supplied RSL/QUAL Test Cable and a DC voltmeter to peak a received signal level voltage at each end of the link until the maximum voltage is reached. One end of the RSL/QUAL Test Cable contains a plug that connects to the jack labeled Test on the unit chassis. The other end contains three banana plugs for connecting to a voltmeter. The voltmeter should be set to measure DC voltage and set to the x20 scale. For alignment, only the lead labeled GND and the lead labeled RSL are needed. The RSL voltage will be dependent on the link distance but will max out at just over 3VDC. Refer to the graph in Appendix B to determine the target RSL voltage for the path distance. Connect GND to COM on voltmeter Connect to Test port on unit To V on voltmeter Figure 3-4 RSL Test Cable The RSL/QUAL Test Cable can also be used to check the quality of the received signal level. The QUAL lead of the test cable out puts a value (between 0 and 3.3V) to indicate the error performance of the link. The quality voltage should be disregarded until the target receive signal level has been reached and a calibration of the unit has been performed from the Maintenance page of the web interface Refer to Figure 3-5Figure 3-5 BridgeWave Confidential & Proprietary 26 045-57012 Rev BA BW64 Installation Guide Quality Voltages between 3.0V and 3.3V indicate an error-free wireless link. Figure 3-5 Qual Voltage Graph Quality Voltages between 1.5V and 3.0V indicate a low rate of errors, and that the forward error correction will correct. The lower the voltage, the more errors are being corrected. Quality Voltages between 0.5V and 1.0V indicate excessive errors in the wireless link that cannot be corrected by the FEC. To indicate this change in error performance, the quality voltage will drop from 1.5V to 1.0V in a single step. Quality Voltages below 0.5V indicate an unlocked deframer condition. This will be recognized as a link-down condition. BridgeWave Confidential & Proprietary 27 045-57012 Rev BA 3.33.02.01.70.3NOERRORSCORRECTEDERRORSUNCORRECTEDERRORSCorrectable Errors DetectedUncorrectable Errors DetectedDeframer Unlocked (Link Down)00ErrorsQUAL Voltage (VDC)0.0 3.11 Antenna Alignment BW64 Installation Guide The following procedure assumes that both ends of the link have been installed and power has been applied to the units per the instructions listed in the previous sections. 1. Confirm your target Received Signal Level (RSL) voltage from the chart in the RSL Voltage vs. Distance graph in Figure 3-6 RSL Voltage vs. DistanceFigure 6 of Appendix B, or by using the BridgeWave Availability Calculator. 2. Connect a PC to the 10/100BaseT copper port and web browse into the unit. The default IP address is 192.168.0.1 for the low band unit and 192.168.0.2 for the high band. The default subnet mask is 255.255.255.0, and the default user name is admin and default password is adminpass 3. Go to the Setup page and set the Alignment Mode parameter to Enabled. Alignment Mode is Enabled by default. For new installations steps 2 and 3 can be skipped. 4. Slightly loosen the azimuth and elevation bolts and course align the unit so that it roughly points towards the other end of the link and then lock down the bolts to prevent movement. Azimuth Bolts Elevation Bolts 5. Perform Steps 1 4 at both ends of the link. 6. Connect the provided RSL/QUAL Test Cable to port labeled Test and connect the RSL and COM lead to a DC voltmeter per section 3.10.2 7. Slightly loosen only the Azimuth Bolts and slowly move the unit from left to right and back to find the maximum RSL voltage reading. Note how the signal may go up and down as you sweep through the azimuth. This is a result of the side lobes and nulls. Tighten down the Azimuth Bolts before proceeding to the next step. 8. Slightly loosen only the Elevation Bolts and slowly move the unit up and down to find the maximum RSL voltage reading. Again, the voltage may go up and down as you pass through the side lobes and nulls. Tighten the Elevation Bolts once the maximum RSL voltage is observed. BridgeWave Confidential & Proprietary 28 045-57012 Rev BA 9. Perform steps 6 -8 on both ends of the link. Only align one end of the link at a time. BW64 Installation Guide 10. Once the target RSL is achieved, log into the web interface and go to the Maintenance page. Press the Auto Cal button to calibrate the receiver. The process takes approximately two minutes per end, during which time the link will go down and the Link LED on the unit will flash on and off. Perform the calibration at both ends of the link but only calibrate one end of the link at a time. 11. Confirm that the Radio Link light is Green and verify that the Quality voltage is 3.3VDC to indicate an error free link. 12. Remove the test cable from the radio, replace the back plastic cover and hand tighten the back cover nut to the point where the back cover stops (that is, when it hits the metal ring on the back metal plate). The installation is now complete. BridgeWave Confidential & Proprietary 29 045-57012 Rev BA 3.12 Ice Shield Installation (Optional) BW64 Installation Guide The Ice Shield assembly (part number 515-00913) is an optional item and can be ordered through a BridgeWave distributor. 3.12.1 Required Parts The Ice Shield kit contains the following parts for installation at one site. Two kits are required if installing at each end of the link. Ice Shield

(Qty. 1) 8-32 x 1/2 Screw

(Qty. 2) 3.12.2 Installation Instructions 1. Remove the protective liner from the Ice Shield. 2. Remove the eye bolt from the unit chassis, if equipped, using a 9/16inch wrench. Eye Bolt 3. Use the supplied screws to attach the Ice Shield to the radio. 8-32 Screws

(Torque to 5-7 in-Oz) 4. Re-install the eye bolt. BridgeWave Confidential & Proprietary 30 045-57012 Rev BA BW64 Installation Guide Appendix A: Troubleshooting The following table provides a summary of possible problems you might encounter while installing, along with possible solutions. Extensive troubleshooting support and knowledgebase articles are available at the BridgeWave eService Center online at:

http://bridgewave.com/support Contact support@bridgewave.com to obtain a login account. Problem Possible Cause Resolution No power to radio Power source is not rated to supply proper wattage requirement The supply voltage is outside of operating range. Fiber light lit at radio but not on network equipment LSP is enabled and radio link is down. TX and RX fibers are swapped. Error in the configuration of the networking equipment One or both of the fibers have been damaged or is not connected at both ends. Check the specifications of the attached DC supply to confirm it meets the 60Watt minimum recommendation. Check the output of the power supply with the DC cabling disconnected from the supply. If within range, then the cable run is too long or the cable gauge is too small. Shorten the length of the cable or use larger gauge cable. This is normal behavior if LSP is enabled. Check LSP configuration on setup page of web interface. Try swapping the TX and RX fibers at one/both ends of the connection. Verify the configuration of the network equipment is consistent with radio units fiber port settings

(auto-negotiation and flow control). Try swapping the TX and RX fibers at one/both ends of the connection. Visually inspect the fiber cable. BridgeWave Confidential & Proprietary 31 045-57012 Rev BA BW64 Installation Guide Problem Cannot establish the wireless link Possible Cause Obstacle in link RSL voltage lower than expected Incorrect calculation of link distance Resolution Verify the line of sight conditions and check for required clearance.

(See Section 2.3 for clearance distances). Verify that the calculation tool used and the GPS used both use the same annotation system

(degree hours minutes seconds or degree with a decimal value). Antennas aligned on side lobes Realign antenna to main lobe. Antennas set to different polarizations Installed two high or low band radios in one link Link exceeds maximum specified range. Verify that both radios are set to the same polarization (see Section Error! Reference source not found.3.6). Verify that one end of the link is high and the other end is a low band radio (see Section Error!

Reference source not found.3.6). Verify that maximum path length has not been exceeded. Low link quality voltage Antennas are not aligned for maximum RSL. Verify antenna alignment (see Section 3.103.9). Auto-calibration not completed Force an auto calibration Interference Minimum distance exceeded Wireless link established, but no data transfer over the link Network equipment configuration and radio configuration incompatible operation (see Section 3.103.9). Check for possible interference by turning off the radio at the other end of the link and verify the RSL voltage on the local site drops below 0.5V. Install on a path that exceeds the minimum distance. Verify settings on network equipment to be consistent with radio units fiber port settings. Verify network equipment port configured not to enter error-

disable state due to link up/down transitions (see Section Error!

Reference source not found.4). BridgeWave Confidential & Proprietary 32 045-57012 Rev BA BW64 Installation Guide BridgeWave Confidential & Proprietary 33 045-57012 Rev BA BW64 Installation Guide Appendix B: RSL Voltage vs. Distance Figure 3-6 RSL Voltage vs. Distance BridgeWave Confidential & Proprietary 34 045-57012 Rev BA BW64 Installation Guide Standard Limited Warranty & Software License THE FOLLOWING WARRANTY AND SOFTWARE LICENSE GRANT APPLY ONLY FOR BRIDGEWAVE COMMUNICATIONS (BRIDGEWAVE) PRODUCTS PURCHASED THROUGH BRIDGEWAVE AUTHORIZED CHANNEL PARTNERS WITHIN THE UNITED STATES OR CANADA BY THE ORIGINAL END PURCHASER (BUYER). IF BRIDGEWAVE PRODUCTS WERE OBTAINED THROUGH OTHER CHANNELS, THE FOLLOWING PROVISIONS DO NOT APPLY AND THE SELLING PARTY SHOULD BE CONTACTED FOR INFORMATION ON ANY PRODUCT WARRANTIES AVAILABLE. The following terms apply to the Buyers use of BridgeWave hardware products (Products) and software products (Software), except to the extent otherwise provided in (a) a separate written agreement between Buyer and BridgeWave or (b) a click-on license agreement as part of the installation and/or downloading process for a particular Software. To the extent of a conflict between the provisions of these documents, the order of precedence shall be (1) the written agreement, (2) the click-on license agreement, and (3) this Limited Warranty and Software License. LIMITED HARDWARE WARRANTY Limited Hardware Warranty. Subject to limitations below, for a period of twelve (12) months (the Warranty Period) after shipment to Buyer of the Hardware by BridgeWave or an authorized distributor of BridgeWave products, BridgeWave warrants that the Products, under normal use and service, shall be free in all material respects from defective design, material and faulty workmanship and shall operate in all material respects in compliance with the functional specifications, designs, installation instructions, Product descriptions or technical requirements published by BridgeWave in its Product Manual (Specifications). The foregoing warranty includes Basic Support Services (as defined at www.BridgeWave.com) from BridgeWave during the Warranty Period. These warranties are provided for the benefit of the original Buyer only. Except for the foregoing warranties, the Products are supplied AS IS. Remedies for Breach of BridgeWave Warranty. If a Product is in breach of BridgeWaves warranty during the Warranty Period, BridgeWave shall, as the sole and exclusive remedy, within thirty (30) calendar days after BridgeWaves receipt of the returned Product, repair, replace (with new or refurbished units) or modify, as BridgeWave may solely elect, the Product as necessary so that the Product complies with the applicable Warranty, or at BridgeWaves option, refund to the Buyer the Buyers purchase price paid for the Product. Before returning any Products to BridgeWave, Buyer must follow the steps set forth in the Trouble Shooting and Return Merchandise Procedure explained at www.BridgeWave.com. Any Product returned to BridgeWave must be shipped according to BridgeWaves instructions with a properly issued RMA number clearly visible on the outside of the packaging. All Products returned to BridgeWave shall be shipped DDP (Delivery and Duties Paid) by Buyer to BridgeWaves designated service facility. BridgeWave shall prepay return freight charges on repaired or replaced Products when BridgeWave determines, in its sole judgment that a breach of warranty occurred. BridgeWave may charge its standard rates for any repair or replacement work performed on returned Product that was not in breach of the warranties herein. Replacement Product Warranty. The Warranty Period of replacement Product (whether new or refurbished) shall commence upon the shipment of the replacement Product to Buyer and shall expire on the later of ninety (90) days after shipment date or the last day of the original Warranty Period with respect to the replaced Product. All replaced parts or Product shall become the property of BridgeWave. Limitation on Warranty. Except where they are embedded in the Products, non-BridgeWave manufactured products provided to Buyer are excluded from any BridgeWave warranty, but may be subject to a warranty provided by the original manufacturer. BridgeWave shall supply a copy of any such warranty to Buyer on specific written request. BridgeWave warranties are void if: (a) Buyer integrates or assembles the Product with other products unless integrated or assembled in accordance with applicable Specifications; (b) the Product is wired, repaired or altered by anyone other than BridgeWave or an authorized representative of BridgeWave in strict accordance with the applicable Specifications; (c) the Product is improperly handled, stored, installed or maintained; (d) the Product is used in violation of the applicable Specifications or BridgeWaves instructions or subjected to misuse, neglect, accident, abuse or suffers damage due to acts of nature; or (e) the Product is disassembled or its housings are removed by any person other than a BridgeWave-

authorized technician. EXCLUSION OF CERTAIN WARRANTIES. THE FOREGOING WARRANTIES ARE IN LIEU OF AND EXCLUDE ALL OTHER EXPRESS AND IMPLIED REPRESENTATION OR WARRANTIES, INCLUDING BUT NOT LIMITED TO, PRODUCT NON-INFRINGEMENT, OR WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR BridgeWave Confidential & Proprietary 35 045-57012 Rev BA BW64 Installation Guide PURPOSE, SATISFACTORY QUALITY, ERROR FREE NON-INTERRUPTED OPERATIONS, PROTECTION FROM UNAUTHORIZED INTRUSION OR ATTACK OR OPERATION AT A SPECIFIED RANGE OR SIGNAL AVAILABILITY OR ARISING FROM A COURSE OF DEALING, LAW, USAGE OR TRADE PRACTICE. AS EACH PRODUCT IS UNIQUE, BRIDGEWAVE DISCLAIMS LIABILITY FOR OPERATION OF THE END USER NETWORK AS A WHOLE UNDER ANY WARRANTY PROVIDED HEREIN. TO THE EXTENT A WARRANTY CANNOT BE EXCLUDED BY LAW, SUCH WARRANTY IS LIMITED IN DURATION TO THE WARRANTY PERIOD. BECAUSE SOME STATES OR JURISDICTIONS DO NOT ALLOW LIMITATIONS ON WARRANTY DURATION, THE ABOVE LIMITATION MAY NOT APPLY. THIS WARRANTY GIVES SPECIFIC LEGAL RIGHTS WHICH MAY BE IN ADDITION TO OTHER RIGHTS WHICH VARY FROM JURISDICTION TO JURISDICTION. THIS DISCLAIMER AND EXCLUSION SHALL APPLY EVEN IF THE EXPRESS WARRANTY SET FORTH ABOVE FAILS OF ITS ESSENTIAL PURPOSE. SOFTWARE LICENSE Software License. BridgeWave provides Buyer a non-exclusive, non-transferable limited license (License) to use, solely as embedded in, for execution on or for communication with the Products, the object code (and not the source code) of its Software. For purposes of this License, Software shall include any BridgeWave provided documentation, component parts, user interfaces, modifications, upgrades, updates, bug fixes, corrections, backup copies and new releases. Buyers use of the Software shall also be limited by any other restrictions set forth in BridgeWaves quotation or in BridgeWaves product catalog, user documentation or web site. Title to Software. Title to the Software, and to any source code for the Software, shall at all times remain solely and exclusively with BridgeWave. Buyer agrees not to take any action inconsistent with such title. Buyer agrees that the Software, including the design and structure of individual programs, constitutes the trade secrets or copyrighted material of BridgeWave. Buyer agrees not to disclose such material in any form to any third party and to implement reasonable security measures to protect such material. License Restrictions. BridgeWave reserves all other rights to the Software not specifically licensed hereunder. Buyer has no right to, and agrees not to sell, transfer, rent, copy, reverse engineer, reverse compile, decrypt, or reduce to human readable form to gain access to trade secrets or confidential information, modify or create derivative works of, or grant to any third party any rights in the Software, or permit any third party to do any of these prohibited acts, without BridgeWaves prior written consent. Buyer agrees to protect the Software licensed hereunder in a manner consistent with the maintenance of BridgeWaves ownership and proprietary rights therein, including displaying of any copyright and trademark notices in all Software as incorporated by BridgeWave. Term and Termination. This License is effective until terminated. Buyer may terminate this License at any time, provided that Buyers termination does not entitle Buyer to any refund of purchase or license fees. BridgeWave may terminate Buyers rights under this License immediately upon written notice if Buyer fails to comply with any provision of this License. Upon termination, Buyer must destroy all copies of Software in its possession or control. Export. Software and Products, including technical data, may be subject to U.S. export control laws, including the U.S. Export Administration Act and its associated regulations, and may be subject to export or import regulations in other countries. Buyer agrees to comply strictly with all such regulations and acknowledges that Buyer has the responsibility to obtain licenses to export, re-export, or import Software and Products. Restricted Rights. BridgeWaves commercial software and commercial computer software documentation is provided to United States Government agencies in accordance with the terms of this Limited Hardware Warranty and Software License, and per subparagraph of the Commercial Computer Software Restricted Rights clause at FAR 52.227-19 (June 1987). For DOD agencies, the restrictions set forth in the technical Data-Commercial Items clause at DFARS 252.227-7015 (Nov 1995) shall also apply. LIMITATION OF REMEDY AND LIABILITY PROVISIONS EXCLUSIVE REMEDIES. THE REMEDIES SET FORTH IN THIS LIMITED WARRANTY AND SOFTWARE LICENSE ESTABLISH THE ENTIRE OBLIGATION OF BRIDGEWAVE AND BUYERS SOLE REMEDY IN REGARD TO CLAIMS RELATING TO BREACH OF WARRANTY OR INTELLECTUAL PROPERTY RIGHTS INCLUDING BUT NOT LIMITED TO CLAIMS DIRECTED TO THE INFRINGEMENT OR MISAPPROPRIATION OF PATENTS, COPYRIGHTS, TRADE SECRETS AND OTHER PROPRIETARY RIGHTS FOR THE PRODUCTS. NO CONSEQUENTIAL DAMAGES. IN NO EVENT SHALL EITHER PARTY, OR EITHER PARTYS SUPPLIERS, OFFICERS, DIRECTORS, EMPLOYEES, AGENTS, SHAREHOLDERS OR CONTRACTORS (RELATED PARTIES), BE LIABLE TO THE OTHER PARTY OR ITS RELATED PARTIES FOR CONSEQUENTIAL, INDIRECT, INCIDENTAL, SPECIAL, PUNITIVE OR EXEMPLARY DAMAGES OR FOR COST OF COVER, LOST REVENUES, LOST PROFITS OR LOST DATA OR OTHER ECONOMIC LOSS ARISING FROM ANY CAUSE INCLUDING BUT NOT LIMITED TO BREACH OF WARRANTY, BREACH OF CONTRACT, TORT, STRICT LIABILITY, OR FAILURE OF ESSENTIAL PURPOSE EVEN IF BRIDGEWAVE HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. THE FOREGOING LIMITATIONS SHALL APPLY EVEN IF THE ABOVE-STATED WARRANTY FAILS OF ITS ESSENTIAL PURPOSE. BECAUSE SOME STATES OR JURISDICTIONS DO NOT ALLOW LIMITATIONS OR EXCLUSIONS OF CONSEQUENTIAL OR INCIDENTAL DAMAGES, THE ABOVE LIMITATION MAY NOT APPLY TO BUYER. LIMIT ON LIABILITY. THE MAXIMUM LIABILITY OF BRIDGEWAVE, AND ITS RELATED PARTIES, TAKEN AS A WHOLE, FOR ANY AND ALL CLAIMS IN CONNECTION WITH THE PRODUCTS AND SOFTWARE, INCLUDING BUT NOT LIMITED TO CLAIMS FOR BREACH OF WARRANTY, BREACH OF CONTRACT, TORT, STRICT LIABILITY, FAILURE OF ESSENTIAL PURPOSE OR OTHERWISE, SHALL IN NO CIRCUMSTANCE EXCEED THE PURCHASE PRICE PAID BY BUYER TO BRIDGEWAVE OR BRIDGEWAVES AUTHORIZED CHANNEL PARTNERS FOR THE PRODUCTS AND SOFTWARE. BridgeWave Confidential & Proprietary 36 045-57012 Rev BA BW64 Installation Guide Statute of Limitations. Any action for breach of or to enforce any right under this Limited Hardware Warranty or Software License shall be commenced within one (1) year after the cause of action accrues, or reasonably could have been discovered, or it shall be deemed waived and barred. Administrative Provisions. This Limited Hardware Warranty and Software License shall be governed by and construed in accordance with the laws of the State of California, without reference to principles of conflict of laws, provided that for customers located in a member state of the European Union, Norway or Switzerland, English law shall apply. The United Nations Convention on the International Sale of Goods shall not apply. If any portion hereof is found to be void or unenforceable, the remaining provisions of the Limited Hardware Warranty and Software License shall remain in full force and effect. Except as expressly provided herein, the Limited Hardware Warranty and Software License constitutes the entire agreement between the parties with respect to warranties on the Hardware and Licensing of the Software, and supersedes any conflicting or additional terms contained in any prior or contemporaneous discussion, negotiation or agreement, including those in any purchase order or order acknowledgment. BridgeWave Confidential & Proprietary 37 045-57012 Rev BA

BW64E Installation Guide P/N 580-00516 BW64E 045-57013 Rev B BW64E Installation Guide Copyright Notice & Disclaimer Copyright 2004 2016 BridgeWave Communications. All rights reserved. Printed in the USA No portion of this publication may be reproduced, copied, or distributed without the written consent of BridgeWave Communications. BridgeWave reserves the right to update or change the material in this publication at any time without notice. BridgeWave has made every effort to ensure that the information and the instructions contained in the publication are adequate and is not responsible for any errors or omissions due to typing, printing, or editing of this document. Purchasers of BridgeWave products should make their own evaluation to determine the suitability of each such product for their specific application. BridgeWaves obligations regarding the use or application of its products shall be limited to those commitments to the purchaser set forth in its Standard Terms and Conditions of Sale for a delivered product. This publication has been prepared for professional and properly trained personnel, and the customer assumes full responsibility when using the information herein. Export Control All BridgeWave radio products are restricted commodities that fall under ECCN 5A002 of the Department of Commerce. These products are "ENC restricted" under section 740.17(b)(2) of the Export Administration Regulations (EAR). BridgeWave products may only be exported, re-exported, transferred, or retransferred in accordance with Export Administration Regulations. Diversion contrary to U.S. law is expressly prohibited. Product Compatibility While every effort has been made to verify operation of this product with many different communications products and networks, BridgeWave makes no claim of compatibility between its products and other vendors equipment. It is assumed that users have thoroughly evaluated this products performance in the communications environment in which it will be used. BridgeWave Confidential & Proprietary i 045-57013 Rev B Safety BW64E Installation Guide CAUTION, WARNING, and DANGER statements have been strategically placed in the text to alert personnel of possible hazards. These statements must be closely observed. The following general safety precautions must be observed during all phases of operation and service of the products covered in this manual. Failure to comply with these precautions or with specific warnings elsewhere in this manual willfully violates standards of design, manufacture, and intended use of the product. BridgeWave assumes no liability for the customers failure to comply with these requirements. These BridgeWave radios meet all applicable FCC and Industry Canada (IC)safety requirements for general population exposure to radio frequency emissions; however, it is best to avoid prolonged, unnecessary exposure to the front of the radio while it is operating. The outdoor equipment must be properly grounded to provide some protection against voltage surges and built-up static charges. In the event of a short circuit, grounding reduces the risk of electrical shock. For installations in the U.S.A., refer to Articles 810830 of the National Electrical Code, ANSI/NFPA No. 70, for information with respect to proper grounding and applicable lightning protection for DC cables. The installer must also follow any additional local building and electrical code regulations. For installations in all other countries, implement protection in accordance with the safety standards and regulatory requirements of the country where the equipment is to be installed. Do not install or operate this equipment in the presence of flammable gases or fumes. Operation of any electrical instrument in such an environment constitutes a definite safety hazard. Do not install substitute parts or perform any unauthorized modification to the equipment. Changes or modifications not expressly approved by BridgeWave can void the users authority to operate the equipment. BridgeWave Confidential & Proprietary ii 045-57013 Rev B Regulatory Information BW64E Installation Guide This device complies with FCC Part 15.255 and Industry Canada RSS-210. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and,

(2) This device must accept any interference that may cause undesired operation. French Translation:

Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes:

(1) lappareil ne doit pas produire de brouillage;

(2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. BridgeWave Confidential & Proprietary iii 045-57013 Rev B Equipment Precautions BW64E Installation Guide Water and Moisture - These BridgeWave radios are designed to withstand weather conditions typically encountered when installed outdoors. Power information A suitable transient voltage suppressor shall be installed if the length of the DC supply cable exceeds 140 feet. The power supply for the equipment shall be a listed ITE power supply of Listed Class II power unit rated at 37.5 to 60VDC, minimum 60Watts. When used with the optional POE64 kit, the PoE Extractor accepts a 37.5 to 60VDC, minimum 60Watts input from an external Power Supply Equipment (PSE) source. RF Radiation Safety, Maximum Permissible Exposure (MPE) Limits Regarding guidelines for Human exposure limits to Radio Frequency (RF) electromagnetic fields, the BW64E has been evaluated for compliance with FCC OET Bulletin 65 and human exposure limits recommended by the International Commission on Non-Ionizing Radiation Protection (ICNIRP), IEEE, and adopted by ANSI. BW64 devices, utilizing 10inch (25.4cm) integrated antennas and BW64E devices utilizing 2ft (60cm) diameter antennas, are below the General Population/Uncontrolled Exposure limits of 1 mW/cm2, and well below the Occupational/Controlled Exposure limit of 5mW/cm2 at a distance of 82.02 centimeters for the BW64 and 206 centimeters for the BW64E. Product Changes or Modifications Users of this equipment are hereby cautioned that changes or modifications not expressly approved by the party responsible for the compliance could void the users authority to operate the equipment Restricted Access This product is for installation in a restricted-access location, where there will be no access to the equipment, except by trained service persons. BridgeWave Confidential & Proprietary iv 045-57013 Rev B BW64E Installation Guide Table of Contents Copyright Notice & Disclaimer .................... i Export Control .............................................. i Product Compatibility ................................... i Safety ............................................................ ii Regulatory Information ............................... iii Equipment Precautions ............................... iv Power information ...................................... iv RF Radiation Safety, Maximum Permissible Exposure (MPE) Limits .............................. iv Restricted Access ........................................ iv Additionally, the following accessories are available as optional parts for use with the BW64E: ...................................................12 3.4 Installation Tools ..........................13 3.5 Antenna Installation .....................14 3.6 Radio Installation .........................15 3.7 Installing Optional POE64 Kit .....17 3.8 Grounding the Equipment ............19 3.9 Cable & Conduit Installation .......20 3.10 Concepts ..................................................23 Pre-Antenna Alignment 1 Introduction ............................................ 2 3.11 Antenna Alignment ....................26 1.1 Purpose.............................................. 2 1.2 Prior Knowledge ............................... 2 3.12

(Optional) ................................................28 Ice Shield Installation 1.3 Contact Information .......................... 3 Appendix A: Troubleshooting ..................29 2 Site Planning ........................................... 4 Appendix B: RSL Voltage vs. Distance ...31 Standard Limited Warranty & Software License ........................................................32 2.1 General .............................................. 4 2.2 Equipment Checklist .......................... 4 2.3 2.4 Line of Sight ...................................... 4 Link Distance Limits.......................... 4 2.5 Antenna Location .............................. 5 2.6 Cabling & Power Requirements ....... 5 2.7 Example Cabling Diagrams .............. 8 2.8 Grounding & Lightning ................... 10 2.9 Conduit ............................................ 10 3 Installation ............................................. 11 3.1 Overview.......................................... 11 3.2 Equipment Unpacking ..................... 11 3.3 Equipment Inventory ....................... 12 BridgeWave Confidential & Proprietary v 045-57013 Rev B BW64E Installation Guide 1 Introduction 1.1 Purpose The information in this guide is directed to persons who must perform or coordinate the tasks associated with the process of installing wireless communication devices, and planning communication network applications. 1.2 Prior Knowledge This manual assumes the operator has at least basic experience with and an understanding of wireless technology and some familiarity with configuring and operating networking equipment. Preferably, the person installing this equipment fully understands the information covered in this manual prior to attempting these procedures. DANGER, WARNING and NOTE statements have been placed in various sections throughout this document to alert personnel of possible traffic affecting issues and to provide additional tips and helpful information. These statements should be closely observed. Symbol Description Indicates that personal injury can result if the user does not comply with the given instruction. A DANGER statement will describe the potential hazard, its possible consequences, and the steps to perform to avoid personal injury. Indicates that equipment damage, process failure and/or loss of data can result if the user does not comply with the given instructions. A WARNING statement will describe the potential hazard, its possible consequences, and the steps to perform to avoid serious equipment damage. Provides supplementary information to emphasize a point or procedure, or provides a tip for easier operation. BridgeWave Confidential & Proprietary 2 045-57013 Rev B BW64E Installation Guide 1.3 Contact Information Technical Assistance and Customer Service To obtain assistance with a product related issue contact BridgeWave Customer Service using the following information:

Regional Standard Support Available Monday through Friday from 8:00 AM to 5:00 PM UTC local time, per region. NAM (North America) UTC -8

+1 (408) 567-6906 EMEA (Europe, Middle East, and Africa) UTC +0

+1 (408) 457-6658 APAC (Asia Pacific) UTC +8

+1 (408) 457-6659 The UTC coverage times do not reflect daylight saving time adjustments. E-mail: support@bridgewave.com Return Material Authorization (RMA) Should BridgeWave equipment have to be returned for repair or replacement, an RMA number must be obtained from BridgeWave. When returning equipment, be sure to write the RMA number on the outside of the shipping carton, and follow instructions received from support upon approval of the RMA. BridgeWave Sales For questions pertaining to the purchase of equipment, software licenses, warranties, or services please contact sales at the following:

E-mail: sales@bridgewave.com Inside Sales: +1.866.577.6908 BridgeWave Confidential & Proprietary 3 045-57013 Rev B BW64E Installation Guide 2 Site Planning 2.1 General Before the start of an installation, a survey should be conducted of the proposed area of the site(s). The survey personnel should be familiar with the details required to install the BridgeWave radio system. 2.2 Equipment Checklist The person performing the survey will need the following equipment:

Binoculars GPS Navigation Device Tape Measure Site Survey Report Form 2.3 Line of Sight Clear line of sight (LOS) is required for proper operation. Planning should include an investigation into future building plans that could block the LOS path, and other long-term incremental obstructions, such as trees. Intermittent obstructions, such as aircraft at a nearby airport, should also be considered. The following table details the minimum clearance needed from obstacles near the path in order to ensure the radios will operate properly. Path Length Minimum Clearance

(meters)

(meters) 250 500 750 1000 0.56 0.79 0.97 1.12 Table 2-1: Minimum Clearance at Mid Path for Various Path Lengths 2.4 Link Distance Limits Measurement of the link distance is important in estimating the link availability and calculating the expected Receive Signal Level (RSL). This measurement can be performed using the Latitude and Longitude readings from a Global Positioning System (GPS) device, which is placed near the proposed locations of the antennas. The minimum link distance of the BW64E using 2ft(60cm) antennas is 328ft(100m). BridgeWave Confidential & Proprietary 4 045-57013 Rev B BW64E Installation Guide The maximum distance of the BW64E is dependent on the desired level of availability and the rain rate associated with the region where the product will be installed. BridgeWave provides an Availability Calculator which uses industry standard formulas for determining regional rain rates and estimating availability percentages for a given distance. To obtain the latest version of BridgeWaves Availability Calculator, contact BridgeWaves Customer Service or search the eService center knowledgebase at www.bridgewave.com/support/kbrma.htm 2.5 Antenna Location The optimum location for the antennas must be determined. The ideal location should provide for ease of erecting and mounting the antenna, as well as unimpeded LOS to the other site. The following factors should be taken into account:

Type of mounting structure non penetrating roof mount, tower, wall standoff Location where the cabling will enter/exit the building Length of cable runs Grounding connection points Potential path obstructions Accessibility There is a finite incline and decline range of the elevation adjustment when installing the radio link. The mounts used with the BW64E can accommodate +/- 45 degrees of mechanical elevation adjustment. 2.6 Cabling & Power Requirements Inspect the installation site to determine the cable run paths from the radio equipment to the termination point. Locations for roof penetration should be identified. The routing and securing of all cables should conform to all applicable codes and requirements. Cabling and power requirements depend on whether the optional POE64 kit is installed or not, and whether the 10/100BaseT port will be used for out of band management or AdaptPath features. When the POE64 kit is not installed the GigE SFP port allows for selection of various SFP types. Figure 2-1 and Error! Reference source not found. provide diagrams for installations with and without the optional POE64 kit and outline the power requirements, SFP options, cable types and lengths accordingly. BridgeWave Confidential & Proprietary 5 045-57013 Rev B

. BW64E Installation Guide Figure 2-1 Cable & Power Specification (Without POE64 Option) 1 2 3 1 - GigE SFP Part #

Part #/Type 171-00511 1000Base-SX GigE, multi mode, 850nm LC Connector 171-00512 1000Base-LX GigE, single mode, 1310nm LC Connector 171-00513 1000Base-T GigE RJ45 Connector Cable Type/Length 62.5/125m MMF 270m 50/125m MMF 500m 9/125m SMF 10km Cat5e/Cat6 100m 2 - 10/100BaseT

(Optional for Out of Band Management) Cable Length Cable Type 100 meters Cat5 BridgeWave Confidential & Proprietary 6 045-57013 Rev B BW64E Installation Guide 3 - Power +/-48V Power Requirements Cable Type

+/-37.5 to +/-60VDC 45W Max Power Dissipation

(Recommend Min 60W Power Source) 12 AWG - Stranded

(4mm2)

-or-

14 AWG - Stranded

(2.5mm2) Figure 2-2 Cable & Power Specification (With POE64 Kit Option) 1 2 3 1 - GigE SFP Part #

Cable Type/Length Part #/Type 171-00513 1000Base-T GigE RJ45 Connector

(Supplied with POE64 Kit) Cat5e Jumper

(Supplied with POE64 Kit) BridgeWave Confidential & Proprietary 7 045-57013 Rev B BW64E Installation Guide 2 10/100BaseT

(Optional for Out of Band Management) Cable Length Cable Type 100 meters Cat5 3 Power & Ethernet

(Surge port of POE64 Extractor) Power Requirements Cable Type/Length 56 VDC 45W Max Power Dissipation

(Recommend Min 60W PoE Power Source) Cat5E or Cat6 100m 2.7 Example Cabling Diagrams Error! Not a valid bookmark self-reference. and Error! Reference source not found. depict example diagrams for typical terminal installations for scenarios with and without the use of the optional POE64 kit. BridgeWave Confidential & Proprietary 8 045-57013 Rev B BW64E Installation Guide Figure 2-3Terminal Diagram (Without Optional POE64 Kit) BridgeWave Confidential & Proprietary 9 045-57013 Rev B BW64E*Cat5 Cable(Optional for Out of Band Management)Building Entry*Network Switch/Router*Power Leads(12 or 14 AWG)** 48 VDC Power SourceOptional BridgeWave Accessory Part # 020-57069-0001 - +* 3rd party parts not supplied by BridgeWave** Optional accessories sold by BridgeWave* Conduit*Ethernet Surge Arrestor(Optional for Out of Band Management)*DC Surge Arrestor*Copper or Fiber(Depending on SFP Type)Radio Link UpConnections Inside UnitABCB+ -ACDC Voltage Input Range37.5 to 60VDC45W max power dissipationGigE SFPRx TxPower+/-48VTest10/100BaseTLink ActPoE BW64E Installation Guide Figure 2-4 Terminal Diagram (With Optional POE64 Kit) BridgeWave Confidential & Proprietary 10 045-57013 Rev B BW64E*Cat5 Cable(Optional for Out of Band Management)Building Entry*Network Switch/Router* 3rd party parts not supplied by BridgeWave** Optional accessories sold by BridgeWave* Conduit*Ethernet Surge Arrestor(Optional for Out of Band Management)*Ethernet Surge ArrestorGigE SFPRx TxPower+/-48VTest10/100BaseTLink ActPoERadio Link UpConnections Inside Unit**POE ExtractorPart #: POE64 Data-OutputPower + Data-InputCat5E Jumper- +*PoE Power InjectorMin 60W*Cat5e/6 Cable(Data & Power)*Cat5e/6 Cable(Data)BABAPoE Voltage Input Range37.5 to 60VDC 2.8 Grounding & Lightning BW64E Installation Guide Proper grounding of the outdoor equipment reduces electromagnetic interference, provides lightning protection, and protects against electrical discharge. Using improper techniques in lightning-prone geographic areas may pose a danger to local personnel. The source and connection points for the building-to-earth ground in the vicinity of the antenna location should be determined. It is recommended to integrate the radio ground into the building ground utilizing the pole-mount hardware. For wall or ungrounded pole mounts, connect a grounding wire to the grounding point on the radio. Select the size of the ground wire based on the National Electrical Code. In addition to grounding the equipment, BridgeWave strongly recommends, and local building codes may require, that the DC electrical cable, and or copper Ethernet cables are protected from lightning strikes by the use of surge suppressors. The surge suppressor must be installed at the point where the cables exit/enter the building, however, use of a surge suppressors at the radio unit are optional because surge suppression is built into the unit. For more information on recommended accessory devices and kits, contact BridgeWave Sales. 2.9 Conduit Conduit is recommended for enclosure of the cables as they enter the radio. The conduit provides a water-tight entry to the radio, as well as weather or physical protection required by the cables. The conduit should be flexible, waterproof, and non-metallic. An example of this is LIQUID-TUFF UL Liquid tight Flexible Non-Metallic Conduit (Type LFNC-B) or equivalent. Conduit should be 3/4 inches (19 mm) in diameter to match the radio's opening. A drip loop should be created to ensure sufficient length to enable the radio to be moved during servicing and to prevent water from following the conduit down to any junction box or building entrance. A suggested length is 24 inches (60 cm) from the radio to the bottom of the loop. The opposite end of the conduit is inserted into the cable tray if on a tower or attached to a NEMA or junction box. BridgeWave Confidential & Proprietary 11 045-57013 Rev B BW64E Installation Guide 3 Installation 3.1 Overview It is recommended that installation personnel read this section in its entirety prior to installing the system. 3.2 Equipment Unpacking Inside the main packaging box there will be a box containing a low-band unit and another box containing the high-band unit. Check the site plans to determine which band will be installed at each location and then locate the desired box (low-band or high-band) accordingly before beginning installation. It is recommended that the shipping cartons and packing materials be retained in the event that it is necessary to return any equipment. Unpacked radios can be identified by the color of their labels found on their front faces or inside the unit after removing the plastic back weather cover. The blue color label indicates a high-

band radio and the red color label indicates a low-band radio. BridgeWave Confidential & Proprietary 12 045-57013 Rev B BW64E Installation Guide 3.3 Equipment Inventory The following is a typical inventory lists for each site. Part Number BW64E-L or BW64E-H 435-00517 1047-420-00549 1047-425-00526 1047-515-00790 1047-651-00506 1047-651-00507 1047-370-00608 1047-370-00613 Table 3-1 Equipment Site Inventory List Qty

(Per Site) Description 1 1 1 1 1 1 1 1 1 BW64E Low Band or BW64E High Band unit ANTENNA,57.0-64.0 GHZ,2' DIA,PLANE POL

(60cm antenna) CBL ASSY, TEST, PROD

(RSL and Quality Test Cable) HARD RESET BOX ASSY, PWR, CONN, POLARIZATION

(Green DC Connector) TOOL, 1/2 INCH COMBINATION WRENCH TOOL, 9/16 INCH COMBINATION WRENCH WASHER,#8,FLAT,SS SCR,#8-32 UNC X 3/8,PHIL,PAN,SS Additionally, the following accessories are available as optional parts for use with the BW64E:

Part Number 020-57069-0001 POE64 515-00529 Table 3-2 Optional Equipment List Qty

(Per Site) Description 1 1 1 PWR SUPPLY,48V AC/DC,90W,BRK PWR SUPPLY

- Isolated and Connectorized -

(Optional for non Power over Ethernet applications) BW64 POE EXTRACTOR KIT

(Required only for Power over Ethernet applications) ICE SHIELD FOR 24" ANTENNA The radio is sealed at the factory warranty stickers on the inner

(metal) cover of the radio. There is no need to open this cover in the field. Tampering with these seals will void the warranty. BridgeWave Confidential & Proprietary 13 045-57013 Rev B 3.4 Installation Tools BW64E Installation Guide The following tools, not provided by BridgeWave, should be used for installing the radio:

Screwdriver, slotted 0.1 inch (2.5mm) wide Ratchet with 6 inch (15cm) extension and 9/16 inch (14.29mm) deep socket Ratchet with 6 inch (15cm) extension and 1/2 inch (12.7mm) deep socket Wire stripper/cutter/crimp tool (10-16 gauge) Electrical tape Fish tape for pulling cable Cable tie wraps Hand-held DVM (digital voltmeter) with standard banana plug receptacles BridgeWave Confidential & Proprietary 14 045-57013 Rev B 3.5 Antenna Installation BW64E Installation Guide The antenna mounting bracket is designed to attach to a pole mount with diameter from 3.5 to 4.5 inches

(8.89 to 11.43 cm). 1 Assemble the Antenna Mount Bracket 2 Attach Antenna to Mounting Plate Rotate Mounting Plate 180 for Left Hand Pole Mount 3 Attach Antenna to Mast 4 Confirm Drain Hole Plug Installation a. Secure antenna to mast using provided pole clamp brackets using a 9/16 wrench. a. Ensure plugs are removed from bottom two drain holes. b. Reinstall the plugs at the top of the b. Leave the nuts slightly loose to allow antenna. antenna to be rotated during rough alignment. Drain Hole Plugs Secure Pole Clamp Brackets BridgeWave Confidential & Proprietary 15 045-57013 Rev B 3.6 Radio Installation BW64E Installation Guide 1 Select vertical or horizontal polarity (Default is vertical) a. Locate polarity sticker b. Orient unit so that line is left to right for horizontal or up and down for vertical. 2 Polarity Sticker Polarity Sticker Unit Oriented for Vertical Polarity Unit Oriented for Horizontal Polarity Attach the radio unit to the back of the antenna by securing the (4) 3/8-16 bolts Secure the four 3/8-16 bolts at each corner of the unit using a 1/2wrench BridgeWave Confidential & Proprietary 16 045-57013 Rev B BW64E Installation Guide It is critically important during installation to ensure the radios on each side of the link are in the same polarization (horizontal-

horizontal or vertical-vertical). A link that has a radio on one side of the link set in the horizontal polarization and the other side of the link set in the vertical polarization will not operate properly. It is also critically important that a high-band radio is paired with a low-band radio to ensure the system will operate properly. Prior to installation, check each radio to verify one is a high-band and the other is a low-band version. The label on the radio will indicate the band (blue for high or red for low). BridgeWave Confidential & Proprietary 17 045-57013 Rev B 3.7 Installing Optional POE64 Kit BW64E Installation Guide 3.7.1 Required Parts GiGE Copper SFP

(Qty. 1) 3.7.2 Installation Steps PoE Extractor w/Bracket

(Qty. 1) CAT5E Jumper

(Qty. 1) 4-40x1/4 Screw & Washer

(Qty. 3) 1 Remove protective cap from SFP cage 2 Insert GiGE Copper SFP into SFP cage with SFP label facing down Protective Cap SFP Inserted 3 Attach PoE Injector Bracket to chassis using the (3) supplied screws and washers SFP Label 4 Connect DC Connector to port labeled Power and install CAT5E Jumper between Data-Output port of Injector and SFP 4-40 Screws & Washers

(Torque to 5-7 in-oz) Power BridgeWave Confidential & Proprietary 18 Port labeled Data-Output Port Labeled GigE SFP 045-57013 Rev B BW64E Installation Guide 5 PoE Wiring Pinouts 6 PSE Recommendations 7 Connect External PoE Power A) Run Cat5e or Cat6 cable from external PoE power source through the conduit and fitting into the unit and attach to the port labeled Power + Data-Input on the Poe Extractor Port labeled Power + Data-Input Cat5e/Cat6 Cable 100m Max Distance To Network & PoE Power Source PSE Do not connect PoE power directly to the SFP or built in 10/100 copper port. These ports do not support PoE and damage may occur. BridgeWave Confidential & Proprietary 19 045-57013 Rev B 3.8 Grounding the Equipment BW64E Installation Guide The preferred method for grounding the radio unit is to ground the mast (or wall-mount bracket) to a ground source, since this provides the largest grounding surface contact possible. If this is not possible, then use the following procedure:

1. Attach the lug of a 10 AWG ground cable to the radio at one of the two #8 holes at the bottom of the enclosure using a #8-32 bolt, #8 lock washer and #8 flat washers (not provided). 2. Connect other end of the ground cable to a nearby building exterior ground location. BridgeWave Confidential & Proprietary 20 045-57013 Rev B 3.9 Cable & Conduit Installation BW64E Installation Guide Conduit is recommended for enclosure of the cables as they enter the radio. The conduit provides a water-tight entry to the radio, as well as any weather or physical protection required by the cables. The conduit should be flexible, waterproof, and non-metallic. An example of this is LIQUID-TUFF UL Liquidtight Flexible Non-Metallic Conduit (Type LFNC-B) or equivalent. Conduit should be 3/4 inches (19 mm) in diameter to match the radio's opening. 3.9.1 Pull Cables Through Conduit BridgeWave Confidential & Proprietary 21 045-57013 Rev B BW64E Installation Guide 3.9.2 Attach Conduit to Units Conduit Fitting The conduit fitting comes preinstalled on the unit chassis. The fitting is comprised of the parts depicted below:

Lock Nut O Ring Fitting Body Ferrule Sealing Ring Compression Nut Assembled Fitting The following instructions describe attaching the conduit to the conduit fitting. 1. Unscrew the Compression Nut and remove the Sealing ring and Ferrule, leaving the Fitting Body, O-Ring, and Lock Nut attached to the units housing. 2. Insert the cables through the Compression Nut and slide the Compression Nut onto the conduit. 3. Pass the cables through the Sealing Ring and slide the Sealing Ring over the conduit so that the tapered end of the Sealing Ring faces away from the Compression Nut. 4. Next, pass the cables through the Ferrule and screw the Ferrule onto the end of the conduit. Depending on quantity and type of cables being used it may require inserting only a single cable at a time through the Ferrule. When using a fiber SFP, the simplex LC connectors on the fiber cabling must be inserted individually through the components of the fitting as there is not sufficient room for both to fit through at the same time. If you have a duplex hood joining the LC connections, it should be temporarily removed during this process. 5. Pass the cables, one at a time if needed, through the Fitting Body, O Ring, and Lock Nut and into the chassis of the unit. BridgeWave Confidential & Proprietary 22 045-57013 Rev B BW64E Installation Guide 6. Push the conduit and Ferrule up against the Fitting Body, making sure the hex head of the Ferrule seats properly in the Fitting Body, and then screw the Compression Nut onto the Fitting Body and hand tighten. 7. Loop the cables around the inside of the enclosure: This minimizes tension on the cables when connected and maintains a proper bend-radius of cabling. 8. A drip loop should be created with the conduit to ensure sufficient length to enable the radio to be moved during servicing and to prevent water from following the conduit down to any junction box or building entrance. A suggested length is 24 inches (60 cm) from the radio to the bottom of the loop. The opposite end of the conduit is inserted into the cable tray if on a tower or onto the NEMA or junction box. 3.9.3 Attach DC Wires to DC Connector (not required when using POE64 kit) 1. Ensure that the DC wire used is either 12 or 14-gauge and the center conductor is comprised of stranded wiring and ensure that a grounded surge suppressor is located at the buildings indoor/outdoor entry point. 2. Confirm that the power source is turned off before proceeding to attach the connector. 3. Connect the provided DC connector onto the wire by inserting the stranded conductors into the

+ or - terminal and then using a small flat screw driver to secure the terminals on the connector. 4. Turn on the external power and confirm that the Power LED on the unit turns green. 3.9.4 Attach Optional Cat5 cable to 10/100BaseT Interface For applications that require a dedicated out of band management connection to the unit, or for applications using the AdaptPath feature, a CAT5 Ethernet cable can be connected to the 10/100BaseT interface of the unit. If the cable is run to a point of entry into the building then it is recommended to install an Ethernet surge arrestor at the point of entry into the building. BridgeWave Confidential & Proprietary 23 045-57013 Rev B 3.10 Pre-Antenna Alignment Concepts BW64E Installation Guide Prior to performing the antenna alignment it is important to understand the fundamentals of the signal being transmitted out of the antenna so that the alignment process can be visualized. It is equally important to understand proper user of the supplied test cable and how it is to be used with a voltmeter. The following sections describe this in detail. 3.10.1 Antenna Lobes The Main Beam, Side Lobes, and Nulls are terms used to describe the common components of a signal being radiated from a parabolic antenna. An antenna focuses, or shapes the radiated energy into a specific direction. As a result of this focusing a majority of the energy directed into the main beam. However, as a byproduct side lobes are also formed. These side lobes are weaker in amplitude than the main beam and radiate out of the antenna at a different angle. A similar concept is the act of squeezing a water balloon. If you squeeze the balloon in the middle it will bulge out in different directions. Between the main beam and the lobes are nulls where the signal drops off. The first side lobe is the next highest peak in relationship to the main lobe and is typically around 20dB lower than the main lobe. When aligning the antennas the goal is to peak the signal on the main lobe. The diagram in Figure 3-1 depicts the concept of a main beam vs. side lobes and nulls. Figure 3-1 Antenna Lobe Concepts BridgeWave Confidential & Proprietary 24 045-57013 Rev B 3.10.2 Using the RSL/QUAL Test Cable BW64E Installation Guide The antenna alignment is achieved by using the supplied RSL/QUAL Test Cable and a DC voltmeter to peak a received signal level voltage at each end of the link until the maximum voltage is reached. One end of the RSL/QUAL Test Cable contains a plug that connects to the jack labeled Test on the unit chassis. The other end contains three banana plugs for connecting to a voltmeter. The voltmeter should be set to measure DC voltage, commonly depicted by the symbol on the meter. For meters that have a manual range setting dial, set the meters dial for the x20 scale. For alignment, only the lead labeled GND and the lead labeled RSL are needed. The RSL voltage will be dependent on the link distance but will max out at just over 3VDC. Refer to the graph in Appendix B to determine the target RSL voltage for the path distance. Connect GND to COM on voltmeter Connect to Test port on unit Connect RSL To V on voltmeter Figure 3-2 RSL Test Cable The RSL/QUAL Test Cable can also be used to check the quality of the received signal level. The QUAL lead of the test cable out puts a value (between 0 and 3.3V) to indicate the error performance of the link. The quality voltage should be disregarded until the target receive signal level has been reached and a calibration of the unit has been performed from the Maintenance page of the web interface Refer to Figure 3-3 BridgeWave Confidential & Proprietary 25 045-57013 Rev B BW64E Installation Guide Quality Voltages between 3.0V and 3.3V indicate an error-free wireless link. Figure 3-3 Qual Voltage Graph Quality Voltages between 1.5V and 3.0V indicate a low rate of errors, and that the forward error correction will correct. The lower the voltage, the more errors are being corrected. Quality Voltages between 0.5V and 1.0V indicate excessive errors in the wireless link that cannot be corrected by the FEC. To indicate this change in error performance, the quality voltage will drop from 1.5V to 1.0V in a single step. Quality Voltages below 0.5V indicate an unlocked deframer condition. This will be recognized as a link-down condition. BridgeWave Confidential & Proprietary 26 045-57013 Rev B 3.33.02.01.70.3NOERRORSCORRECTEDERRORSUNCORRECTEDERRORSCorrectable Errors DetectedUncorrectable Errors DetectedDeframer Unlocked (Link Down)00ErrorsQUAL Voltage (VDC)0.0 3.11 Antenna Alignment BW64E Installation Guide The following procedure assumes that both ends of the link have been installed and power has been applied to the units per the instructions listed in the previous sections. 1. Confirm your target Received Signal Level (RSL) voltage from the chart in the RSL Voltage vs. Distance graph in Figure 3-6 of Appendix B, or by using the BridgeWave Availability Calculator. 2. Connect a PC to the 10/100BaseT copper port and web browse into the unit. The default IP address is 192.168.0.1 for the low band unit and 192.168.0.2 for the high band. The default subnet mask is 255.255.255.0, and the default user name is admin and default password is adminpass 3. Go to the Setup page and set the Alignment Mode parameter to Enabled. Alignment Mode is Enabled by default. For new installations steps 2 and 3 can be skipped. 4. Connect the provided RSL/QUAL Test Cable to port labeled Test and connect the RSL and COM lead to a DC voltmeter per section 3.10.2 5. Slightly loosen the four (4) 9/16 nuts on the pole clamp brackets to allow the antenna assembly to rotate around the mast. Rotate the antenna assembly from left to right until antenna is roughly aligned with the far end of the link, and then tighten the nuts to secure the pole clamps. A) Slightly loosen pole clamps B) Rotate the assembly left to right until antenna is rough aligned with far end C) Tighten the 9/16 nuts to secure the pole clamps 6. Perform Steps 1 5 at both ends of the link. 7. Identify and become familiar with the various bolts and nuts depicted in Figure 3-4, which are used for azimuth and elevation fine adjustments. BridgeWave Confidential & Proprietary 27 045-57013 Rev B BW64E Installation Guide Figure 3-4 Azimuth and Elevation Fine Adjustments 8. Slightly loosen the (4) Azimuth Lock Bolts and (2) Azimuth Adjustment Nuts, then adjust the Azimuth Adjustment Nuts to slowly pan the antenna left and right while monitoring the RSL voltage. Peak the voltage as high as possible making sure to sweep through side lobes to locate the main beam. Lock down the Azimuth Lock Bolts and Azimuth Adjustment Nuts once the signal is peaked. 9. Slightly loosen only the Antenna Mounting Bolts and then slowly adjust the Elevation Adjustment Bolt to move the unit up and down to find the maximum RSL voltage reading. Again, the voltage may go up and down as you pass through the side lobes and nulls. Tighten the Antenna Mounting Bolts once the maximum RSL voltage is observed. 10. Perform steps 8 and 9 on both ends of the link. Only align one end of the link at a time. 11. Once the target RSL is achieved, log into the web interface and go to the Maintenance page. Press the Auto Cal button to calibrate the receiver. The process takes approximately two minutes per end, during which time the link will go down and the Link LED on the unit will flash on and off. Perform the calibration at both ends of the link but only calibrate one end of the link at a time. 12. Confirm that the Radio Link light is Green and verify that the Quality voltage is 3.3VDC to indicate an error free link. 13. Remove the test cable from the radio, replace the back plastic cover and hand tighten the back cover nut to the point where the back cover stops (that is, when it hits the metal ring on the back metal plate). The installation is now complete. BridgeWave Confidential & Proprietary 28 045-57013 Rev B 3.12 Ice Shield Installation (Optional) BW64E Installation Guide The Ice Shield assembly (part number 515-00529) is an optional item and can be ordered through a BridgeWave distributor. 3.12.1 Required Parts The Ice Shield kit contains the following parts for installation at one site. Two kits are required if installing one at each end of the link. Ice Shield

(Qty. 1) Large Hose Clamp

(Qty. 1) 3.12.2 Installation Instructions 1. Remove the protective covering from the Ice Shield. 2. Attach Ice Shield to antenna using the Hose Clamp as shown in Figure 3-5. Space the Hose Clamp 0.5(1.27cm) from antenna edge. Ice Shield Hose Clamp 0.5 (1.27cm) Figure 3-5 Ice Shield Installation BridgeWave Confidential & Proprietary 29 045-57013 Rev B BW64E Installation Guide Appendix A: Troubleshooting The following table provides a summary of possible problems you might encounter while installing, along with possible solutions. Extensive troubleshooting support and knowledgebase articles are available at the BridgeWave eService Center online at:

http://bridgewave.com/support Contact support@bridgewave.com to obtain a login account. Problem Possible Cause Resolution No power to radio Power source is not rated to supply proper wattage requirement The supply voltage is outside of operating range. Fiber light lit at radio but not on network equipment LSP is enabled and radio link is down. TX and RX fibers are swapped. Error in the configuration of the networking equipment One or both of the fibers have been damaged or is not connected at both ends. Check the specifications of the attached DC supply to confirm it meets the 60Watt minimum recommendation. Check the output of the power supply with the DC cabling disconnected from the supply. If within range, then the cable run is too long or the cable gauge is too small. Shorten the length of the cable or use larger gauge cable. This is normal behavior if LSP is enabled. Check LSP configuration on setup page of web interface. Try swapping the TX and RX fibers at one/both ends of the connection. Verify the configuration of the network equipment is consistent with radio units fiber port settings

(auto-negotiation and flow control). Try swapping the TX and RX fibers at one/both ends of the connection. Visually inspect the fiber cable. BridgeWave Confidential & Proprietary 30 045-57013 Rev B BW64E Installation Guide Problem Cannot establish the wireless link Possible Cause Obstacle in link RSL voltage lower than expected Incorrect calculation of link distance Resolution Verify the line of sight conditions and check for required clearance.

(See Section 2.3 for clearance distances). Verify that the calculation tool used and the GPS used both use the same annotation system

(degree hours minutes seconds or degree with a decimal value). Antennas aligned on side lobes Realign antenna to main lobe. Antennas set to different polarizations Installed two high or low band radios in one link Link exceeds maximum specified range. Verify that both radios are set to the same polarization (see Section 3.6). Verify that one end of the link is high and the other end is a low band radio (see Section 3.6). Verify that maximum path length has not been exceeded. Antennas are not aligned for maximum RSL. Verify antenna alignment (see Section 3.10). Auto-calibration not completed Force an auto calibration Low link quality voltage Interference Minimum distance exceeded Wireless link established, but no data transfer over the link Network equipment configuration and radio configuration incompatible operation (see Section 3.10). Check for possible interference by turning off the radio at the other end of the link and verify the RSL voltage on the local site drops below 0.5V. Install on a path that exceeds the minimum distance. Verify settings on network equipment to be consistent with radio units fiber port settings. Verify network equipment port configured not to enter error-

disable state due to link up/down transitions (see Section Error!

Reference source not found.). BridgeWave Confidential & Proprietary 31 045-57013 Rev B BW64E Installation Guide BridgeWave Confidential & Proprietary 32 045-57013 Rev B BW64E Installation Guide Appendix B: RSL Voltage vs. Distance Figure 3-6 RSL Voltage vs. Distance BridgeWave Confidential & Proprietary 33 045-57013 Rev B BW64E Installation Guide Standard Limited Warranty & Software License THE FOLLOWING WARRANTY AND SOFTWARE LICENSE GRANT APPLY ONLY FOR BRIDGEWAVE COMMUNICATIONS (BRIDGEWAVE) PRODUCTS PURCHASED THROUGH BRIDGEWAVE AUTHORIZED CHANNEL PARTNERS WITHIN THE UNITED STATES OR CANADA BY THE ORIGINAL END PURCHASER (BUYER). IF BRIDGEWAVE PRODUCTS WERE OBTAINED THROUGH OTHER CHANNELS, THE FOLLOWING PROVISIONS DO NOT APPLY AND THE SELLING PARTY SHOULD BE CONTACTED FOR INFORMATION ON ANY PRODUCT WARRANTIES AVAILABLE. The following terms apply to the Buyers use of BridgeWave hardware products (Products) and software products (Software), except to the extent otherwise provided in (a) a separate written agreement between Buyer and BridgeWave or (b) a click-on license agreement as part of the installation and/or downloading process for a particular Software. To the extent of a conflict between the provisions of these documents, the order of precedence shall be (1) the written agreement, (2) the click-on license agreement, and (3) this Limited Warranty and Software License. LIMITED HARDWARE WARRANTY Limited Hardware Warranty. Subject to limitations below, for a period of twelve (12) months (the Warranty Period) after shipment to Buyer of the Hardware by BridgeWave or an authorized distributor of BridgeWave products, BridgeWave warrants that the Products, under normal use and service, shall be free in all material respects from defective design, material and faulty workmanship and shall operate in all material respects in compliance with the functional specifications, designs, installation instructions, Product descriptions or technical requirements published by BridgeWave in its Product Manual

(Specifications). The foregoing warranty includes Basic Support Services (as defined at www.BridgeWave.com) from BridgeWave during the Warranty Period. These warranties are provided for the benefit of the original Buyer only. Except for the foregoing warranties, the Products are supplied AS IS. Remedies for Breach of BridgeWave Warranty. If a Product is in breach of BridgeWaves warranty during the Warranty Period, BridgeWave shall, as the sole and exclusive remedy, within thirty (30) calendar days after BridgeWaves receipt of the returned Product, repair, replace (with new or refurbished units) or modify, as BridgeWave may solely elect, the Product as necessary so that the Product complies with the applicable Warranty, or at BridgeWaves option, refund to the Buyer the Buyers purchase price paid for the Product. Before returning any Products to BridgeWave, Buyer must follow the steps set forth in the Trouble Shooting and Return Merchandise Procedure explained at www.BridgeWave.com. Any Product returned to BridgeWave must be shipped according to BridgeWaves instructions with a properly issued RMA number clearly visible on the outside of the packaging. All Products returned to BridgeWave shall be shipped DDP (Delivery and Duties Paid) by Buyer to BridgeWaves designated service facility. BridgeWave shall prepay return freight charges on repaired or replaced Products when BridgeWave determines, in its sole judgment that a breach of warranty occurred. BridgeWave may charge its standard rates for any repair or replacement work performed on returned Product that was not in breach of the warranties herein. Replacement Product Warranty. The Warranty Period of replacement Product (whether new or refurbished) shall commence upon the shipment of the replacement Product to Buyer and shall expire on the later of ninety (90) days after shipment date or the last day of the original Warranty Period with respect to the replaced Product. All replaced parts or Product shall become the property of BridgeWave. Limitation on Warranty. Except where they are embedded in the Products, non-BridgeWave manufactured products provided to Buyer are excluded from any BridgeWave warranty, but may be subject to a warranty provided by the original manufacturer. BridgeWave shall supply a copy of any such warranty to Buyer on specific written request. BridgeWave warranties are void if: (a) Buyer integrates or assembles the Product with other products unless integrated or assembled in accordance with applicable Specifications; (b) the Product is wired, repaired or altered by anyone other than BridgeWave or an authorized representative of BridgeWave in strict accordance with the applicable Specifications; (c) the Product is improperly handled, stored, installed or maintained;

(d) the Product is used in violation of the applicable Specifications or BridgeWaves instructions or subjected to misuse, neglect, accident, abuse or suffers damage due to acts of nature; or (e) the Product is disassembled or its housings are removed by any person other than a BridgeWave-authorized technician. EXCLUSION OF CERTAIN WARRANTIES. THE FOREGOING WARRANTIES ARE IN LIEU OF AND EXCLUDE ALL OTHER EXPRESS AND IMPLIED REPRESENTATION OR WARRANTIES, INCLUDING BUT NOT LIMITED TO, PRODUCT NON-INFRINGEMENT, OR WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, SATISFACTORY QUALITY, ERROR FREE NON-INTERRUPTED OPERATIONS, PROTECTION FROM UNAUTHORIZED INTRUSION OR ATTACK OR OPERATION AT A SPECIFIED RANGE OR SIGNAL AVAILABILITY OR ARISING FROM A COURSE OF DEALING, LAW, USAGE OR TRADE PRACTICE. AS EACH PRODUCT IS UNIQUE, BRIDGEWAVE DISCLAIMS LIABILITY FOR OPERATION OF THE END USER NETWORK AS A WHOLE UNDER ANY WARRANTY PROVIDED HEREIN. TO THE EXTENT A WARRANTY CANNOT BE EXCLUDED BY LAW, SUCH WARRANTY IS LIMITED IN DURATION TO THE WARRANTY PERIOD. BECAUSE SOME STATES OR JURISDICTIONS DO NOT ALLOW LIMITATIONS ON WARRANTY DURATION, THE ABOVE LIMITATION MAY NOT APPLY. THIS WARRANTY GIVES SPECIFIC LEGAL RIGHTS WHICH MAY BE IN ADDITION TO OTHER RIGHTS WHICH VARY FROM JURISDICTION TO JURISDICTION. THIS DISCLAIMER AND EXCLUSION SHALL APPLY EVEN IF THE EXPRESS WARRANTY SET FORTH ABOVE FAILS OF ITS ESSENTIAL PURPOSE. SOFTWARE LICENSE Software License. BridgeWave provides Buyer a non-exclusive, non-transferable limited license (License) to use, solely as embedded in, for execution on or for communication with the Products, the object code (and not the source code) of its Software. For purposes of this License, Software shall include any BridgeWave provided documentation, component parts, user interfaces, modifications, upgrades, updates, bug fixes, corrections, backup copies and new releases. Buyers use of the Software shall also be limited by any other restrictions set forth in BridgeWaves quotation or in BridgeWaves product catalog, user documentation or web site. BridgeWave Confidential & Proprietary 34 045-57013 Rev B BW64E Installation Guide Title to Software. Title to the Software, and to any source code for the Software, shall at all times remain solely and exclusively with BridgeWave. Buyer agrees not to take any action inconsistent with such title. Buyer agrees that the Software, including the design and structure of individual programs, constitutes the trade secrets or copyrighted material of BridgeWave. Buyer agrees not to disclose such material in any form to any third party and to implement reasonable security measures to protect such material. License Restrictions. BridgeWave reserves all other rights to the Software not specifically licensed hereunder. Buyer has no right to, and agrees not to sell, transfer, rent, copy, reverse engineer, reverse compile, decrypt, or reduce to human readable form to gain access to trade secrets or confidential information, modify or create derivative works of, or grant to any third party any rights in the Software, or permit any third party to do any of these prohibited acts, without BridgeWaves prior written consent. Buyer agrees to protect the Software licensed hereunder in a manner consistent with the maintenance of BridgeWaves ownership and proprietary rights therein, including displaying of any copyright and trademark notices in all Software as incorporated by BridgeWave. Term and Termination. This License is effective until terminated. Buyer may terminate this License at any time, provided that Buyers termination does not entitle Buyer to any refund of purchase or license fees. BridgeWave may terminate Buyers rights under this License immediately upon written notice if Buyer fails to comply with any provision of this License. Upon termination, Buyer must destroy all copies of Software in its possession or control. Export. Software and Products, including technical data, may be subject to U.S. export control laws, including the U.S. Export Administration Act and its associated regulations, and may be subject to export or import regulations in other countries. Buyer agrees to comply strictly with all such regulations and acknowledges that Buyer has the responsibility to obtain licenses to export, re-export, or import Software and Products. Restricted Rights. BridgeWaves commercial software and commercial computer software documentation is provided to United States Government agencies in accordance with the terms of this Limited Hardware Warranty and Software License, and per subparagraph of the Commercial Computer Software Restricted Rights clause at FAR 52.227-19 (June 1987). For DOD agencies, the restrictions set forth in the technical Data-Commercial Items clause at DFARS 252.227-7015 (Nov 1995) shall also apply. LIMITATION OF REMEDY AND LIABILITY PROVISIONS EXCLUSIVE REMEDIES. THE REMEDIES SET FORTH IN THIS LIMITED WARRANTY AND SOFTWARE LICENSE ESTABLISH THE ENTIRE OBLIGATION OF BRIDGEWAVE AND BUYERS SOLE REMEDY IN REGARD TO CLAIMS RELATING TO BREACH OF WARRANTY OR INTELLECTUAL PROPERTY RIGHTS INCLUDING BUT NOT LIMITED TO CLAIMS DIRECTED TO THE INFRINGEMENT OR MISAPPROPRIATION OF PATENTS, COPYRIGHTS, TRADE SECRETS AND OTHER PROPRIETARY RIGHTS FOR THE PRODUCTS. NO CONSEQUENTIAL DAMAGES. IN NO EVENT SHALL EITHER PARTY, OR EITHER PARTYS SUPPLIERS, OFFICERS, DIRECTORS, EMPLOYEES, AGENTS, SHAREHOLDERS OR CONTRACTORS (RELATED PARTIES), BE LIABLE TO THE OTHER PARTY OR ITS RELATED PARTIES FOR CONSEQUENTIAL, INDIRECT, INCIDENTAL, SPECIAL, PUNITIVE OR EXEMPLARY DAMAGES OR FOR COST OF COVER, LOST REVENUES, LOST PROFITS OR LOST DATA OR OTHER ECONOMIC LOSS ARISING FROM ANY CAUSE INCLUDING BUT NOT LIMITED TO BREACH OF WARRANTY, BREACH OF CONTRACT, TORT, STRICT LIABILITY, OR FAILURE OF ESSENTIAL PURPOSE EVEN IF BRIDGEWAVE HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. THE FOREGOING LIMITATIONS SHALL APPLY EVEN IF THE ABOVE-STATED WARRANTY FAILS OF ITS ESSENTIAL PURPOSE. BECAUSE SOME STATES OR JURISDICTIONS DO NOT ALLOW LIMITATIONS OR EXCLUSIONS OF CONSEQUENTIAL OR INCIDENTAL DAMAGES, THE ABOVE LIMITATION MAY NOT APPLY TO BUYER. LIMIT ON LIABILITY. THE MAXIMUM LIABILITY OF BRIDGEWAVE, AND ITS RELATED PARTIES, TAKEN AS A WHOLE, FOR ANY AND ALL CLAIMS IN CONNECTION WITH THE PRODUCTS AND SOFTWARE, INCLUDING BUT NOT LIMITED TO CLAIMS FOR BREACH OF WARRANTY, BREACH OF CONTRACT, TORT, STRICT LIABILITY, FAILURE OF ESSENTIAL PURPOSE OR OTHERWISE, SHALL IN NO CIRCUMSTANCE EXCEED THE PURCHASE PRICE PAID BY BUYER TO BRIDGEWAVE OR BRIDGEWAVES AUTHORIZED CHANNEL PARTNERS FOR THE PRODUCTS AND SOFTWARE. Statute of Limitations. Any action for breach of or to enforce any right under this Limited Hardware Warranty or Software License shall be commenced within one (1) year after the cause of action accrues, or reasonably could have been discovered, or it shall be deemed waived and barred. Administrative Provisions. This Limited Hardware Warranty and Software License shall be governed by and construed in accordance with the laws of the State of California, without reference to principles of conflict of laws, provided that for customers located in a member state of the European Union, Norway or Switzerland, English law shall apply. The United Nations Convention on the International Sale of Goods shall not apply. If any portion hereof is found to be void or unenforceable, the remaining provisions of the Limited Hardware Warranty and Software License shall remain in full force and effect. Except as expressly provided herein, the Limited Hardware Warranty and Software License constitutes the entire agreement between the parties with respect to warranties on the Hardware and Licensing of the Software, and supersedes any conflicting or additional terms contained in any prior or contemporaneous discussion, negotiation or agreement, including those in any purchase order or order acknowledgment. BridgeWave Confidential & Proprietary 35 045-57013 Rev B

the wireless lab 30 March 2016 BridgeWave Communications Model: BW64 and BW64E Tracker: BDWC12 FCC IC Internal Photographs Radio Housing with Cover MiCOM Labs, 575 Boulder Court, Pleasanton, CA 94566 Tel: +1 (925) 462-0304, Fax: +1 (925) 462-0306, Web: www.micomlabs.com the wireless lab Open Housing with Boards Top of Boards with Shields Page 2 of 3 the wireless lab Top of Boards without Shields Bottom of Boards Page 3 of 3

the wireless lab 5 April 2016 BirdgeWave Communications BDWC12- External 2 Foot Antenna External Photographs MiCOM Labs, 575 Boulder Court, Pleasanton, CA 94566 Tel: +1 (925) 462-0304, Fax: +1 (925) 462-0306, Web: www.micomlabs.com the wireless lab Page 2 of 2

the wireless lab 18 January 2016 BridgeWave Communications Model: BW64 BDWC11: Reference BDWC09 External Photographs MiCOM Labs, 575 Boulder Court, Pleasanton, CA 94566 Tel: +1 (925) 462-0304, Fax: +1 (925) 462-0306, Web: www.micomlabs.com the wireless lab Page 2 of 3 the wireless lab Page 3 of 3

BW64 IC and FCC Identification Label Location:

The Label size is: 0.5 x 2.0 inches:

Industry Canada (IC) and FCC ID Label Location

REMEC BROADBAND WIRELESS Letter of Authorization Company: REMEC Broadband Wireless, DBA: BridgeWave Communications Address: 17034 Camino San Bernardo, San Diego CA, 92127 Product Name: BW64 Model Number: BW64 and BW64E FCC ldentifier: RWM-BW64 We authorize MiCOM Labs Inc., 575 Boulder Court, Pleasanton, California 94566, USA, to act on our behalf on all matters concerning the above named equipment. Any individual within MiCOM Labs is authorized to act on our behalf and take action on the application. We declare that MiCOM Labs Inc., 575 Boulder Court, Pleasanton, California 94566, USA, is allowed to forward all information related to the approval project to the Federal Communication Commission and to discuss any issues concerning the approval application. Any and all acts carried out by MiCOM Labs on our behalf shall have the same effect as acts of our own. Name: Ken LoPresti Signature:

Title: Director of Engineering Services & Operations Telephone: Office: 858-312-6903 Cell: 858-386-8174 Fax: 858-312-6901 Email: ken.lopresti@remecbroadband.com 17034 Camino San Bernardo Phone +1 858 312-6900 San Diego, CA 92127 FAX +1 858 312-6901

REMEC BROADBAND WIRELESS Office of Engineering Technology Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 Date: 03/31/2016 Subject; Request for Confidentiality FCC ID: RWM-BW64 To Whom It May Concern, Pursuant to the provisions of Sections 0.457 and 0.459 of Commission's rules (47CFRO.457, 0.459), we are requesting the Commission to withhold the following attachment(s) as confidential document from public disclosure indefinitely. e Schematic Diagram e Block Diagram e Part List e Operational Description Above mentioned document contains detailed system and equipment description are considered as proprietary information in operation of the equipment. The public disclosure of above documents might be harmful to our company and would give competitor an unfair advantage in the market. In additional to above mentioned documents, pursuant to Public Notice DA 04-1705 of the Commission'

s policy, in order to comply with the marketing regulations in 47 CFT 2.803 and the importation rules in 47 CFR 2.1204, while ensuring that business sensitive information remains confidential until the actual marketing of newly authorized devices. We are requesting the commission to grant shot-term confidentiality request on the following attachment(s) for 180 days after the grant as outlined in Public Notice DA 04-1705. e External Photos e Internal Photos e Test Setup Photos e User Manual It is our understanding that all measurement test reports, FCC ID label format and correspondent during certification review process cannot be granted as confidential documents and those information will be available for public review once the grant of oanigmrent authorization is issued. Name: Ken LoPresti Signature: f tL af [bead Title: Director of Engineering Services & Operations Telephone: Office: 858-312-6903 Cell: 858-386-8174 Fax: 858-312-6901 Email: ken.lopresti@remecbroadband.com 17034 Camino San Bernardo Phone +1 858 312-6900 San Diego, CA 92127 FAX +1 858 312-6901