Trango Systems M2400S 2.4 GHz Wireless Broadband System User Manual M2400S UserManual

Trango Systems Inc 2.4 GHz Wireless Broadband System M2400S UserManual

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Preface Trango Broadband Wireless — M2400S User Manual Rev A page iii Preface This manual covers basic configuration and installation of the M2400S Wireless Broadband System and applies to the following radio part numbers: M2400S-AP 2.4 GHz Access Point M2400S-SU 2.4 GHz Subscriber Unit FCC Information This device complies with Part 15 of FCC Rules and Regulations. Operation is subject to the following two conditions: (1) This device may not cause harmful interference and (2) this device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio-frequency energy and, if not installed and used in accordance with these instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in any particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to correct the interference by one or more of the following measures: 1) Reorient the antenna 2) Increase the separation between the affected equipment and the unit 3) Connect the affected equipment to a power outlet on a different circuit from the one the receiver is connected to 4) Consult the dealer and/or experienced radio/TV technician for help FCC ID: NCYM2400S Canada: IMPORTANT NOTE: Intentional or unintentional changes or modifications must not be made unless under the express consent of the party responsible for compliance. Any such modifications could void the user’s authority to operate the equipment and will void the manufacturer’s warranty. To comply with FCC RF exposure requirements, the following antenna installation and device operating configurations must be satisfied. The antenna for this unit must be fixed and mounted on an outdoor permanent structure with a minimum separation distance of two meters from any persons. Furthermore, it must not be co-located or operating in conjunction with any other antenna or transmitter. Warranty Information Radios from Trango Broadband Wireless are warranted for one year from date of purchase. Please see www.trangobroadband.com for complete description of warranty coverage and limitations. Firmware Notifications To receive email notifications regarding firmware upgrades and product announcements, register at http://www.trangobroadband.com/mailinglist/mailingListAdd.aspx

Introduction Trango Broadband Wireless — User Manual M2400S Rev. A Page 1 Section 1 Introduction Your Trango Broadband M2400S radio system provides a reliable and robust means to deliver broadband access and wireless Ethernet connectivity to a wide geographic region. This section will familiarize you with basic operational concepts as well as an overview of the hardware and the various components of the M2400S system. Overview The M2400S is a highly versatile and cost effective outdoor point-to-multipoint solution for wireless broadband service providers’ enterprise connectivity applications. The M2400S delivers 5 Mbps over the air, and operates in the 2.4 GHz license free ISM band. Each radio includes an integrated dual polarized (horizontal and vertical) antenna as well as a connector for the attachment of an external antenna such as a yagi or an omni style antenna. Note: If you are going to install an external antenna, refer to the M2400S Professional Installation Guide. Contact technical Support for access to the Professional Installation Guide. The M2400S system consists of two types of radios: Access Points (AP) and Subscriber Units (SU). Up to 126 subscriber units can be supported by a single AP, which acts as a hub in a star configuration. The AP delivers wireless broadband service (Ethernet connectivity) to one or more SUs according to a proprietary adaptive dynamic polling algorithm called SMARTPolling™. Network operators can co-locate multiple APs at a single cell site, thus increasing the aggregate throughput available at each wireless point of presence (POP). Typical Deployment The AP typically resides at the center of the point-to-multipoint (PMP) network and performs all management functions including the allocation of bandwidth for all associated SUs. The M2400S AP provides a host of comprehensive tools and functions. The M2400S system is classified as a Layer 2 multi-point bridge thus all forms of Ethernet traffic and unlimited IP addresses will pass seamlessly over the system. There is no limitation on the number of IP addresses or hardware devices to which an individual subscriber unit may be connected. Authentication of subscriber units is performed using a secure, proprietary method which is based on the MAC address of the subscriber units. In order to establish a wireless link the MAC address of the SU must be present in the Access Point’s SU database. Both APs and SUs are IP addressable and can be managed remotely across the network. Users can manage the radios using the telnet command line interface or the graphical HTTP browser interface. The M2400S also provides remote firmware upgrade capability utilizing TFTP. APs include a full featured SNMP agent for monitoring and control of both APs and SUs via SNMP.

Introduction Trango Broadband Wireless — User Manual M2400S Rev. A Page 2 The M2400S radios are powered using "Power over Ethernet" for ease and low-cost installation. A single Cat-5 cable carries both Ethernet and DC power to the radio. Both APs and SUs feature a handy "site survey" tool to check for interference as well as RSSI tools for optimizing antenna positioning. The M2400S also feature variable receiver threshold, full power control, dual polarized antennas, and various link diagnostic tools SmartPolling™ & Bandwidth Throttling One of the major advantages of the M2400S system is the ability of the AP to handle multiple SU connections and share the 5 Mbps data throughput efficiently. Bandwidth allocation is managed by the AP’s SMART Polling™ algorithm according to provisioning rules set up by the system administrator. The AP polls each SU in a round robin format to determine if the SU has data to transfer. The SU only transmits the data “upstream” to the AP when the AP gives authorization via a “transmit grant”. The SU passes every “downstream” data packet from the AP and identifies packets intended for it. In order for an SU to communicate with an AP, the system administrator must first add the MAC address and ID number of the SU to the user database in the AP. The SMART Polling™ algorithm will poll active SUs more often, thus making the most efficient use of the 5 Mbps bandwidth. Several other parameters are considered in the Smart Polling™ algorithm including upstream/downstream committed information rate (CIR), upstream/downstream maximum information rate (MIR), and Priority Setting. Each of the above parameters is set in the AP by the system administrator and cannot be controlled at the SU. These parameters will be covered in greater detail later in this text. When power is first applied to a properly installed SU, it will scan all available channels, listening for a grant from an AP with matching Base ID and the SU’s MAC in the AP’s SU Database. The SU will then stop on that channel and respond to the AP using maximum RF power. Before the AP can add the SU to the polling list, it must authenticate the SU by verifying the MAC address, and performing a ranging operation to the SU. Upon successfully locating and ranging the SU, the AP will then add the SU to the normal polling list. Once the SU is regularly being polled by the AP, the SU is said to be “associated” to the AP. Once associated, the AP will send a command to the SU to adjust the SU’s RF transmit power based on the Target RSSI parameter in the AP. This process is referred to as “power leveling”. System operators may limit allowable bandwidth to specific customers utilizing the built-in CIR and MIR settings (measured in kbps) for each SU. Auto-retransmit Feature (ARQ) The M2400S features ARQ or “Automatic Request for Re-transmission”, which is the ability to correct for missing or errored packets of data by requesting the sending radio to re-transmit the data. Both the AP and SU units implement a form of ARQ known as 'ARQ with Selected Repeat’. The use of ARQ is especially important in areas of high interference. The ARQ feature can be turned on or off.

Hardware Overview Trango Broadband Wireless — User Manual M2400S Rev. A Page 3 Section 2 Hardware Overview This section provides detail about each radio in the M2400S family. Each radio in the M2400S family includes built-in, electronically switchable, dual-polarized antenna as well as a reverse polarity SMA connector for the attachment of an external antenna. For ease of installation all units are designed for outdoor installation and powered by Power-over-Ethernet (POE). The M2400S Access Point and subscriber units provide channels of operation within the 2400 MHz ISM band which spans from 2400 MHz to 2483 MHz. Default channel spacing is 10 MHz, allowing for 8 non-overlapping channels. M2400S AP and SU Hardware Components Each radio comes equipped with the radio itself, a power-over-Ethernet (PoE) J-Box, an AC adapter, and mounting hardware. Basic Components of an M2400S Radio Bottom of Radio At the bottom of the M2400S are two access ports: a twist-on weatherproof cable port for RJ-45 Ethernet (and PoE), and a translucent access cover plug over the unit’s diagnostic LEDs and reset button. The LEDs will be discussed later in this text.

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 4 The radio’s model number, FCC ID, MAC ID, and Serial # are located on the back side of the radio. Back of Radio Side of Radio & Location of Reverse Polarity SMA Connector 6.300 .600 Section 3 Getting Started This section explains how to power your radios, establish TCP/IP connectivity to the radios, as well as how to access the HTTP browser and the command line interfaces. Connections and Power Connection and powering of radios is the same for APs and SUs. • Connect a Cat-5 (straight through) Ethernet cable (we recommend shielded twisted pair) between the Radio port of the J-box and the RJ-45 connector on the radio. Note: this cable will carry Power over Ethernet (PoE). Trango Broadband Wireless M24000S-AP Rev. A S/N: 00000XXXX MAC: 00 01 DE 00 02 F3 FCC ID: NCYM2400SAP Canada: XXXXXXXXXX This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 5 • NETWORK port connection is as follows: If connecting to a COMPUTER, use a Cross-Over Ethernet cable from the NETWORK port of the J-box to the computer’s Ethernet port. If connecting to a HUB, SWITCH, or ROUTER, use a Straight-Thru cable. • Plug the AC adapter into an AC outlet. • Use Ground Lug to ground PoE device and shielded CAT5 • Use voltmeter contacts to check line voltage (can be done with or without load) Wiring Diagram Both green LEDs on the J-box should be lit, indicating power is present at the J-box as well as the radio. You are now ready to configure the radio via the Ethernet port. Radio Management Concepts Proper connections to the radios and careful IP/routing & planning will enable the network administrator to access and manage the radios remotely over the network via TCP/IP. Radio management over TCP/IP can be performed from computers connected to the Ethernet side of each radio. Computers connected to the AP can manage the SU over their wireless connection; and, computers connected to the SU can manage the AP, provided that switch 7 (TCP/IP access to AP from SU) is enabled at the AP. Switches will be covered later in this text. Opmode To fully understand radio management for the M2400S system, it is important to be familiar with the concept of operation mode or “opmode”. APs and SUs can be in one of two opmodes; “OFF” opmode, or “ON” opmode. When in “OFF” opmode, the AP is not transmitting and it is not attempting to associate with SUs. Alternatively, when opmode is “ON”, the radio is transmitting and attempting to become associated.

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 6 Several functions, such as the site survey function and the SU RSSI function can only be performed while the radio is in a particular opmode. See Appendix D (Command Set Reference) for a complete listing of commands, and the appropriate opmode for each command. Switch Settings M2400S firmware includes several “switches” which are used to set certain operational parameters of the radios. Switch settings can be changed via the HTTP browser interface or the Command Line Interface. For purposes of radio TCP/IP management, the following four switches are important: Switch 2 (SU) - TCP/IP access to SU from the AP’s side of network requires that the SU’s switch 2 (SW 2 – TCP/IP for AP) be “ON”. Default setting for SW 2 (from factory) is “ON”. Switch 5 (AP and SU) – In order to utilize the radio’s HTTP Browser interface, switch 5 (SW 5 – Enable HTTP) must be “ON”. Default setting for SW 5 (from factory) is “ON”. Switch 6 (SU) - TCP/IP access from Ethernet port of SU while opmode is on, requires that switch 6 (SW 6 – TCP/IP Service for Ethernet Port) be “ON”. Default setting for SW 6 (from factory) is “ON”. If SW 6 is off, TCP/IP access to SU from it’s Ethernet port is possible only if SU’s opmode is OFF. Switch 7 (AP) – TCP/IP access to AP from SU’s side of network requires that the AP’s switch 7 (SW 7 – TCP/IP for SU) be “ON”. Default setting for SW 7 (from factory) is “ON”. Passwords In order to logon to an M2400S radio (either through telnet or through the web browser interface), the user must know the IP address and password. Both AP’s and SU’s feature two levels of passwords; Read Write (RW) and Read Only (RO). Be sure to change both passwords (RW and RO) prior to deployment of your radios on a live network. Passwords can be changed using the “password ro and password rw command in either the CLI interface or in the command console of the browser interface. Reset Button Pressing the reset button will reset the radio’s IP address and password back to factory defaults. Default IP (192.168.100.100) Default Password (trango) Browser Interface The M2400S (both AP and SU) features a convenient and easy-to-use web based configuration and management tool. No additional software is needed on your computer other than a web browser. Most functions can be performed using the browser interface, although several functions can only be performed using command line interface (CLI). The browser interface also includes a “command console” page which allows the user to enter most CLI commands without leaving the browser interface. To use the browser interface – the following must be present: • An Ethernet connection between a PC and the radio • Ethernet PC connection with IP/subnet that is routable to the radio • SW 5 On (default) • A web browser on the PC (i.e. Microsoft Internet Explorer) In order to use the browser interface – simply connect the radio to a PC, and type the radio’s IP address (default IP address=192.168.100.100) into the web browser (i.e. Microsoft Internet Explorer). This will bring up a login page. NOTE: Login pages for AP and SU are similar.

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 7 Browser Interface Login Page Type the password (default trango) and continue. This will bring up the radio’s system information page.

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 8 Web Browser System Information Page  Note: System Information screen for subscriber unit is similar and is covered in detail later in this text. Primary Features and Pages of the Browser Interface: Navigation Column: Each page features a navigation column which runs along the left-hand side of the page. The model number of the radio is listed at the top of the navigation column. On the bottom of the navigation column is the Current Status of the radio including its Base ID, current Opmode, channel, antenna selection, and frequency. The navigation column also features links to each of the following pages: System Information: This page shows most of the basic configuration parameters of the radio. It is the first page shown after login. Configuration: The essential parameters, such as Base ID, IP, Subnet, gateway, channel, and antenna polarization are set here. Advanced Setup: The advanced RF parameters, such as transmit power, receiver threshold control, and channel center frequencies are set here. Site Survey: With Opmode Off, the user can conduct a spectrum analysis using this page. Subscriber Database: This is the page for defining which SUs can associate to the AP.

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 9 Link Control: This page shows which SUs are associated. This page also provides several tools for evaluating the quality of the wireless link. Command Console: From this page, the user can run any console command which is not interactive (i.e. ipconfig). or time sensitive (su linktest). For a complete list of console commands, type "help" or “?” in the entry field. Logout: This link will end the current browser session with the radio. Help: The Browser Interface features useful Help pages which explain all listed parameters. To access the help pages click on the Help link.  NOTE: For a complete description on use of the Browser Interface, see Appendix A. Command Line Interface Although most radio functions can be managed via the browser interface, the command line interface (CLI) provides slightly more functionality and is usually the management tool of choice for experienced users. The CLI can be accessed through Telnet. Telnet Open a command prompt (DOS) session on your PC. Open a Telnet session by typing: telnet [ip address of radio] All Trango radios are pre-configured at the factory with a default IP address of 192.168.100.100. The factory default password is trango. Once you connect to the radio you will be greeted with current hardware and firmware information and prompted for a password. Type in the read-write (RW) password and press enter. Example: C:>telnet 192.168.100.100 Welcome to Trango Broadband Wireless M900S-AP 1p0H8005D04030101 Password: #> To terminate a CLI session (Telnet or Serial) type the command logout.  Note: Type help, or ? for a listing of all CLI commands. Type help <command> for the syntax of a particular command. Example (to view a list of all commands which start with SU) #> ? su su [all | <suid, 1..126>] su info <suid, 1..126> su linktest <suid, 1..126> su password <suid|all> <rw|ro> <new password> <new password> su ping <suid, 1..126> su reboot <suid|all> su sw <suid|all> <sw#, 0..7> <on | off> su testrflink <suid, 1..126> <r> su testrflink <all> <r> sudb add <suid, 1..126> <pr|re> <device id,hex> sudb cirmir <<suid>|all> <cir dn> <cir up> <mir dn> <mir up> sudb defaultcirmir [<cir dn> <cir up> <mir dn> <mir up>] sudb delete <<suid>|all> sudb dload sudb gid <<suid>|all> <0..15> sudb view

Getting Started Trango Broadband Wireless — User Manual M2400S Rev. A Page 10 survey <time, 1..10 sec> <antenna, h|v|e> #>  NOTE: The majority of the CLI commands will be covered throughout this text as well as in Appendix A, Command Set Reference. Troubleshooting If you cannot telnet into the radio or open a browser session, check cable connections, ensure proper use of cross-over vs. straight-through cable and ensure PC’s subnet is routable to radio’s IP address. If you still cannot access the radio’s management interfaces, consult the troubleshooting guide which is available at www.trangobroadband.com in the Technical Support area of the website.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 11 Section 4 Basic Configuration via Browser Interface This section describes a few more basic concepts and how to establish a basic wireless link between AP and SU using the Browser (HTTP) Interface. This section is written to address only the most basic steps in establishing a link in the lab, or a bench-top environment. It is highly recommended to read the other sections of this manual to gain an understanding of all important configuration parameters and procedures prior to deploying any wireless equipment. In this section you will: • Learn about AP and SU Basic Configuration Screens and Parameters • Populate AP’s Subscriber Unit Data Base (SUDB) with at least one SU • Configure Other Basic AP Parameters • Configure Basic SU Parameters • Establish a Wireless Link • Evaluate Link Quality The M2400S uses the concept of “association” to indicate that the AP and SU’s are communicating. If all parameters are properly set, the AP will begin actively searching for the SU’s in its SU database (SUDB). Once an active SU is detected, the authentication and association process will begin. Essentials to Establish a Wireless Link with M2400S Series Radios • Base ID in AP and SU must match • MAC Address of SU must be entered into the AP(SUDB) • SU must be set to either “autoscan” all channels, or it’s channel must be fixed on same channel as AP. • AP must be in Opmode “on” • SU must be in Opmode “on” • Adequate signal strength must be received at each radio If all of these parameters are met, the wireless link will automatically establish itself and Ethernet traffic will begin to pass between the radios.  Note: This section utilizes the Browser Interface as the configuration tool. For the equivalent procedure using CLI commands, see Section 5. Configuring the AP Subscriber Unit Database Prior to establishing a wireless link, the user must configure the subscriber unit database (SUDB) in the AP with each SU’s MAC address and related settings. The SUDB includes information about each SU. Click on the Subscriber Database page to add, modify, or delete SUs. The key information for each SU includes the following: SU ID: User Definable subscriber unit ID (1…126) TYPE: PR Priority or REG Regular. Priority SUs are polled much more frequently than regular SUs. Priority SUs in general will respond to the AP with less latency than regular SUs. Group: SU to SU Group # (1..F in hex) for SU to SU communications within the same sector. Note: This SU to SU feature allows interconnectivity between multiple SUs in the same sector, without the need for a router. Only SUs with same SU to SU group # may communicate with each another. If you do not want the SUs to communicate with each other, choose N/A for SU to SU group. In order to use SU to SU communication, AP switch #3 must be ON. Default setting for switch #3 is OFF.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 12  Note: SUs using SU to SU communication must be on the same subnet. CIR UP: Committed Information Rate from SU to AP. Minimum upstream rate (measured in Kbps) at which the SU will attempt to deliver bandwidth to the AP. Maximum setting is 5200. CIR DOWN: Committed Information Rate from AP to SU. Minimum downstream rate (measured in Kbps) at which the AP will attempt to deliver bandwidth to that SU. Maximum setting is 5200. MIR UP: Maximum Information Rate from SU to AP. Maximum upstream rate (measured in Kbps) at which the SU will attempt to deliver bandwidth to the AP. Maximum setting is 5200. MIR DOWN: Maximum Information Rate from AP to SU. Maximum rate (measured in Kbps) at which the AP will attempt to deliver bandwidth to that SU. Maximum setting is 5200. DEVICE ID: MAC address of the SU. The MAC address and the AP’s BASE ID are the basis for authentication with the AP. Creating an SU in the SU Database. 1. Connect to the AP (see Getting Started) and open the Subscriber Database page. 2. Enter the SU ID (range 1 – 126) 3. Select either PRIORITY or REGULAR. 4. If the SU will be part of an SU to SU group, enter the SU to SU group number.

$Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 13 5. CIR up (SU to AP Committed Information Rate) is the minimum upstream bandwidth for the SU in Kbps. 6. CIR dn (AP to SU Committed Information Rate) is the minimum downstream bandwidth for the SU in Kbps. 7. MIR up (SU to AP Maximum Information Rate) is the maximum upstream bandwidth for the SU in Kbps. 8. MIR dn (AP to SU Maximum Information Rate) is the maximum downstream bandwidth for the SU in Kbps. 9. Enter the Device ID (MAC Address of the SU) 10. Save and Activate changes ! Important! Always remember to Save and Activate changes or the SUDB will revert back to its previous state after a power cycle or reboot. ! Important! SUs using SU to SU communication must be on the same subnet. Configure Other Basic AP Parameters In addition to setting up the SU in the SU Database, the following settings from the AP’s Configuration page must be set (or left at default). Base ID: Four characters, alphanumeric, user definable base station ID. Input of BASEID shall be in the format of xxxx. Where x is any character from the set : { 0..9; a..z; A..Z; '!@#$%^&*()_+[]\<>,./?' } . The Base ID is typically assigned to a single AP or a group of APs at a particular cell site. The Base ID in the AP must match the Base ID in the SU in order for a link to be established. This parameter can only be changed while opmode is "OFF". AP ID: User definable AP ID (00-FF). Default is last two digits of MAC ID. Once authenticated, the AP will automatically assign its AP ID to the SU. This parameter can only be changed while opmode is “OFF”. IP Address, Subnet Mask, Gateway: The IP address used on the radio is for management purposes only. Since this is a layer-II device, these parameters do not play a role in establishing the wireless link. Default Opmode: Will initiate Operation Mode of the radio after a power cycle or reboot. When the radio enters "ON" mode, it will be transmitting. When the radio enters "OFF" mode, it will not be transmitting. The radio can be put into opmode "OFF" regardless of its default opmode by telnetting into the radio within the first 30 seconds after a power cycle or reboot. Active Channel/Polarization: Is the current channel and antenna polarization of the unit when Opmode = "ON". To configure the AP’s other basic settings, complete the following steps: 1. Connect to the AP (see Getting Started) and open the Configuration page.$

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 14 2. Set Base ID or choose default base ID of 0000 (Must match the SU) 3. Set AP ID (00-FF HEX) 4. Set IP, Subnet, and Gateway, or leave at default settings. Keep in mind if you change the IP Settings of the radio you will loose your HTTP session when you save and activate. 5. Choose Active Channel (1-8) 6. Choose Antenna Polarization (H or V) or choose E for external antenna 7. Ensure default Opmode is "ON" 8. Save and Activate Settings 9. If this is the first SU to be added to the SUDB, reboot the AP. After reboot, the AP will automatically enter its default opmode, (ON) after approximately 40 seconds. At this time it will begin actively searching for all SUs in its SUDB. Once an active SU is detected, the authentication and association process will begin.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 15 Configure Basic SU Parameters In order to establish a working link, the Base ID in the SU must match the Base ID of the AP. SU Basic Setup: 1. Connect to the SU (see Getting Started) and open the Configuration page. 2. Set Base ID (Must match the AP) 3. Set IP, Subnet, and Gateway, or leave at default settings. Keep in mind if you change the IP Settings of the radio you will loose your HTTP session when you save and activate. 4. Ensure default Opmode is "ON" 5. Save and Activate Settings 6. If opmode is OFF, click activate opmode At this point, if all parameters have been set correctly and the radios are within range, a wireless link between the AP and SU will automatically become established. Once this occurs the SU will be in “associated” status. Allow approximately 60 seconds for the radios to complete the boot-up cycle and to associate. If the AP is busy servicing many SUs, the association process may take slightly longer.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 16 LED Summary At this point it is useful to learn about the various LEDs which can be found on the bottom of the radio. These LEDs can assist the user in determining radio and link status. Link Control Page The radio’s firmware includes several useful tools to assist in determining which SUs are associated, and the quality of each link. One method for verifying link quality is by using the Link Control page. LED / RESET BUTTON WINDOW

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 17 On this page the user can immediately see which SUs are currently associated. In the page shown, SU ID# 1 is associated, and SU ID# 17 is not. Consider "Power Off" status synonymous with "not associated." RF Link Loopback Test The RF Link Loopback Test is one of the built-in tools for evaluating the quality of the wireless link. Specify an SU ID and time in minutes to conduct the test. The test is prioritized, so it will take precedence over all other traffic. 1600 byte packets are sent and received between the SU and AP at 50 millisecond intervals over the time specified.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 18 SU Ranging Test This test reports the SUs distance from AP in miles, received signal strength for uplink and downlink, and SU Tx Power. Use a link budget calculator to analyze results. Significant differences between calculated and actual values could indicate alignment or LOS issues! Advanced Setup Page The advanced set up page includes several important parameters including RF TX Power, RF Rx Threshold, target RSSI from SU (AP only), and Channel Table. RF Tx Power: Sets the conducted RF power output of the radio. Highest allowable setting is +23 dBm. Lowest setting is +10 dBm. This value does not include antenna gain. RF Rx Threshold: Sets the receive threshold of the radio. The radio will not process signals received below this level, so it is very useful for interference mitigation. For smaller radius of operation use a higher threshold (-75 is higher than -80). Target RSSI from SU: Used by the powerleveling process to automatically adjust the RF output power level of all SUs in a sector so the signal strength from each SU as measured at the AP will be roughly equal.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 19 Channel Table: Assigns channel numbers to actual frequencies of operation. Default settings allow the largest number of channels (8) within the band, while still maintaining 10 MHz channel spacing. Other Key Parameters This section describes the remainder of the parameters listed on the System Information page. Most of these parameters are the same for both APs and SUs. Hardware Version: Hardware version is factory-set and can not be changed by the user. FPGA Version: Low level field programmable gate array firmware currently loaded on the radio. Normally the FPGA firmware will not require upgrading. Firmware Version: Main firmware. In this example, the version part of the string is 1p0 (v1.0), the hardware code is H8006, and the remainder of the string is a date code. Device ID: MAC address of the radio. S/N: Serial number of the radio. Telnetd Port: User changeable telnet port of radio. TFTPd: Current status of TFTP daemon. Used for uploading firmware. MIR Threshold: Shown in Mbps (0..5) Maximum Information Rate (MIR) Threshold. The MIR Threshold is the aggregate throughput on the AP at which the AP will start to enforce CIR rules for the SUs.

Basic Configuration via Browser Interface Trango Broadband Wireless — User Manual M2400S Rev A Page 20 Active Channel: The channel currently being used by the radio. RFRx Threshold: Sets the receive threshold of the radio. The radio will not process signals received below this level, so it is very useful for interference mitigation. For a smaller radius of operation use a higher threshold (-65 is higher than -70). Broadcast Packet: This software switch (0) enables/disables the blocking of Ethernet control packet except ICMP and ARP to reduce the amount of unnecessary overhead introduced to the wireless link. SU to SU Communication: If enabled (switch 3=on), SUs with matching SU to SU groups (except group 0) can communicate in peer-to-peer mode through the AP without the need of a router behind the AP. SUs using SU to SU communication must be on the same subnet. TCP/IP Service for SU: If enabled, the AP can be accessed via TCP/IP (Telnet or HTTP) from the SU side of the network via the wireless link. Remarks: User definable radio information (i.e. customer name, address of installation, etc). A maximum of 28 characters can be stored. Site Survey Page The Site Survey page provides a useful tool for detecting and measuring interference. The radio must be in Opmode OFF in order to use this feature. Enter the number of minutes desired for the survey, and select the polarization H, V, or E for external antenna. Click "Start Survey". A survey of the default 8 channels will be performed. Results are reported in dBm per channel as average and peak. A channel is reported to be "Clear" if the peak and average are below the RF Rx Threshold by more than 8 dB.

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 21 Basic Configuration via CLI This section covers how to utilize the radio’s CLI interface to establish a working wireless link. In this section, the most common settings are discussed using the CLI. Topics include: • Access Point Basic Settings • Subscriber Unit Database Settings • Subscriber Unit Basic Settings See Appendix A Command Set Reference for a complete listing of CLI commands. See “Getting Started” section for a description of how to access the radio using Telnet or Serial Interface. Access Point Basic Settings After logging onto an AP or SU, it is good practice to type the sysinfo command to see the radio’s basic system information. Example (Access Point): #> sysinfo [Hardware Version] 8006 [FPGA Version] 04042201 [Checksum] 47231EEE [Firmware Version] AP 1p0x8H8006D04061502 [Checksum] F8815A5B [Device ID] 00 01 DE 18 6A 05 [S/N] 01600005 [Base ID] 1234 [AP ID] 01 [System Up Time] 0 day(s) 01:37:29 [Opmode] on [Default Opmode] on [IP] 10.8.1.232 [Subnet Mask] 255.255.255.192 [Gateway] 10.8.1.193 [Login Password] RW [Httpd Port] 80 [Httpd Status] listen [Telnetd Port] 23 [Telnetd Status] connected (10.8.0.60,1454) [Tftpd] disabled [RF Tx Power] 10 dBm [RF Rx Threshold] -80 dBm [MIR Threshold] 5 Mbps [Ch#01] 2405 Mhz [Ch#02] 2415 Mhz [Ch#03] 2425 Mhz [Ch#04] 2435 Mhz [Ch#05] 2445 Mhz [Ch#06] 2455 Mhz [Ch#07] 2465 Mhz [Ch#08] 2475 Mhz [Default Channel] 1 e [Active Channel] 1 e [Broadcast Packet] block [SU to SU] off [TCP/IP for SU] on [Remarks] [RF Rx] 0 kbps [RF Tx] 0 kbps [Eth Rx] 3 kbps [Eth Tx] 5 kbps Many of these parameters can be changed by the user. A description of each of these changeable parameters, along with the related command is shown in the table below. ! Important! When changing settings, it is usually necessary to type the save ss command in order to update the radio’s flash memory. If you do not type the save ss command, the setting will be lost the next time the radio is rebooted. . AP SYSTEM INFORMATION PARAMETERS AND RELATED COMMANDS AP Parameter Description Related CLI Command Device ID MAC Address of AP N/A Base ID Specifies the cell or cluster to which the AP belongs. Base ID must match in AP and SU in order to establish a wireless link. set baseid <baseid> Example: #>set baseid aa12

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 22 AP SYSTEM INFORMATION PARAMETERS AND RELATED COMMANDS AP Parameter Description Related CLI Command AP ID This parameter provides a unique number for each AP. If a Target AP is specified on the SU, the SU can only authenticate with that specified AP ID. The Default AP ID is last two bytes of MAC address. set apid <apid> 00-FF HEX Example: #>set apid 01 Opmode Current Opmode of radio. opmode on y. This sets radio in Opmode ON. If the radio is accessed via the Ethernet port within first 30 seconds after a reboot, opmode will default to OFF. opmode off (note: “y” is necessary if default opmode is OFF). Default Opmode Determines the Opmode (“ON” or “OFF”) of the radio after a power cycle. When the parameter is set to “ON”, the radio will progress into “ON” Opmode automatically after a reboot/power cycle. set defaultopmode <on or off> Example: #>set defaultopmode on Opmode Start Determines the amount of time the radio will remain in Opmode OFF after a reboot before progressing to the default Opmode. set defaultopmode on [<time (sec)>] Example: #>set defaultopmode on 60 IP Subnet Gateway IP, Subnet, and Gateway address of radio. ipconfig [<new ip> <new subnet mask> <new gateway>] Example: #>ipconfig 10.1.1.2 255.0.0.0 10.1.1.1 Tftpd Status Tftpd status (on or off). Tftpd should be turned on to import a file into the radio (such as new firmware). Default is off. TFTPD will revert to Off after rebooting. tftpd <on|off> Example: #>tftpd on MIR Threshold Mbps Use MIR Threshold (maximum information rate) to specify total throughput level at which the AP will only serve CIR (committed information rate) to associated SUs. mirth [<Mbps,0..5>] Example: #> mirth 5 5 Mbps 681574 Bytes/sec Active Channel Current RF channel freq [<ch#>] Example: #>freq 3 This command will change the channel of the AP to 3. antenna Current antenna selection: (h)horizontal, (v)vertical, (e)external antenna [<v|h|e>]

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 23 AP SYSTEM INFORMATION PARAMETERS AND RELATED COMMANDS AP Parameter Description Related CLI Command RF Rx Threshold Specifies the receiver sensitivity of the AP. It is a powerful tool when the radio is in a noisy environment. AP will block out any signal received which is below the RF Rx threshold. rfrxth <-90..-55> example: #>rfrxth –70 RF Tx Power Current transmit power of the AP not including antenna gain. power <set> <min|max|<dBm>> Example: #>power set 10 Channel Table Assigned frequencies to channels. All channels may be re-assigned as desired by the administrator. freq writechannel [<ch#> <freq>] Example: #>freg writechannel 3 2475 This command will change channel 3 to 2475 Mhz. Broadcast Packet Filter This software switch (switch 0) enables/disables the blocking of Ethernet control packets except ICMP and ARP to reduce the amount of unnecessary overhead introduced into the wireless link sw 0 [on|off] (default is on) Example: #>sw 0 on note: All switch settings (0-7) are set using the sw on/off command. SU to SU This software switch (switch 3) enables/disables the SU to SU feature. When SU to SU is turned on, multiple SUs within the same sector (meaning associated to the same AP) can communicate with each other. SUs using SU to SU communication must be on the same subnet. sw 3 [on|off] (default is off) Example: #>sw 3 on TCP/IP for SU This software switch (switch 7) when on, allows users at the SU side of the network to telnet or HTTP into the AP. sw 7 [on|off] (default is on) Example: #>sw 7 off Remarks User definable radio information (i.e. customer name, address of installation, and so on). A maximum of 28 characters can be stored. remarks [remarks] Example: #>remarks 123 Elm Street Subscriber Unit Database Settings Once you are familiar with the basic system information presented above, you are ready to add one or more SUs to the SU database. There are five basic commands related to the SU database: sudb add, sudb cirmir, sudb defaultcirmir, sudb view, and save sudb. Adding an SU You will need to know the following information to add an SU to the database:

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 24 1. MAC ID of SU (printed on the back of the SU) 2. Polling priority; either PRIORITY or REGULAR.  Note: SUs designated as PRIORITY will get polled more often by the AP. To add an SU to the database, use the following command and syntax: sudb add <suid> <pr|reg> <device id> suid: SU ID pr: priority user reg: regular user <device id>: xx xx xx xx xx xx in hexadecimal (this is the MAC address of the SU) Example: #>sudb add 5 pr F3 3C 50 67 89 D4 In this example an SU ID 5 was added as a Priority SU. The MAC ID of this SU is F3 3C 50 67 89 D4.  Note: You can add up to 126 entries in the SU database CIR / MIR Commands The default CIR/MIR setting is 5000 kbps for upstream and downstream values. To change SU’s CIR/MIR settings, use the following command: sudb cirmir <<suid>|all> <cir dn> <cir up> <mir dn> <mir up> Example: #>sudb cirmir 5 128 256 5000 5000 In this example, SU #5’s CIR downstream is set to 128, CIR upstream is changed to 256. MIR upstream and downstream is set to 5000. To change the default CIR/MIR values, use the following command: sudb defaultcirmir <default cir dn> <default cir up> <default mir dn> <default mir up> Example: #>sudb defaultcirmir 256 256 512 512 To view the entries in the SU database, type the command sudb view. To save the changes you have made to the SU database, type save sudb Other important SU database related commands are sudb delete, sudb gid, and sudb modify. See Appendix A for descriptions of these commands. ! Important! After updating the SU database, type the command save sudb to save the SU database. If you do not save the sudb file will revert back to its previous state after power cycle or reboot. ! Important! SUs using SU to SU communication must be on the same subnet.

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 25 Subscriber Unit Basic Settings Once logged on to the SU you can receive a comprehensive snapshot of the system’s configuration info and status, by typing the command sysinfo. #> sysinfo [Hardware Version] 0006 [FPGA Version] 04042201 [Checksum] 47231EEE [Firmware Version] SU 1p0x8H0006D04061502 [Checksum] 6DDF232C [Device ID] 00 01 DE 19 F0 A4 [S/N] 01700004 [Base ID] 1234 [AP ID] 01 [SU ID] 1 [System Up Time] 0 day(s) 05:14:51 [Opmode] on [Default Opmode] on [IP] 10.8.1.234 [Subnet Mask] 255.255.255.192 [Gateway] 10.8.1.193 [Login Password] RW [Httpd Port] 80 [Httpd Status] listen [Telnetd Port] 23 [Telnetd Status] connected (10.8.0.60,1738) [Tftpd] disabled '[RF Tx Power] 22 dBm [RF Rx Threshold] -98 dBm [Ch#01] 2405 Mhz [Ch#02] 2415 Mhz [Ch#03] 2425 Mhz [Ch#04] 2435 Mhz [Ch#05] 2445 Mhz [Ch#06] 2455 Mhz [Ch#07] 2465 Mhz [Ch#08] 2475 Mhz [Default Channel] 1 h [Active Channel] 1 v [Associated] Y [Broadcast Packet] block [Auto Scan AP] on [TCP/IP for AP] on [TCP/IP for Local Eth] on [Remarks] [RF Rx] 3 kbps [RF Tx] 2 kbps [Eth Rx] 0 kbps [Eth Tx] 0 kbps [ARQ RF Tx Retry] 0 [ARQ RF Tx Retry Maxed Out] 0 Many of these parameters can be changed by the user. A description of each of these changeable parameters, along with the related command is shown in the table below. ! Important! When changing settings, it is usually necessary to type the save ss command in order to update the radio’s flash memory. If you do not type the save ss command, the setting will be lost the next time the radio is rebooted. SU SYSTEM INFORMATION PARAMETERS AND RELATED COMMANDS SU Parameter Description Related CLI Command Device ID MAC Address of the SU N/A Base ID Specifies the cell or cluster to which the SU belongs. set baseid <baseid> Example: #>Set baseid aa12 Target AP If a unique AP ID is selected, the SU will only associate with specified target AP. If ALL is selected, SU can associate with any AP with a matching BASE ID. targetap <apid> Examples: #>targetap 33 #>targetap all

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 26 SU SYSTEM INFORMATION PARAMETERS AND RELATED COMMANDS SU Parameter Description Related CLI Command Opmode Current Opmode of radio. opmode on y - set opmode to ON. (note: “y” is necessary if default opmode is OFF. opmode off – set opmode to OFF. Default Opmode Determines the Opmode (“ON” or “OFF”) of the radio after power cycle. When the parameter is set to “ON”, the radio will progress into “ON” Opmode automatically after reboot/power cycle. set defaultopmode <on or off> Example: #>set defaultopmode on IP Subnet Gateway IP, Subnet, and Gateway address of radio. ipconfig [<new ip> <new subnet mask> <new gateway>] Example: #>ipconfig 10.1.1.3 255.0.0.0 10.1.1.1 Tftpd Tftpd status (on or off). Tftpd should be turned on to import file into radio (such as new firmware). Default is off. TFTPD will revert to Off after rebooting. tftpd <on|off> Example: #>tftpd on RF Tx Power Current transmit power of the SU not including antenna gain. This is controlled by the AP. Informational Parameter only – can not be manually changed by user. Active Channel Shows the channel used in the current association, and "Associated" or "Disconnected" depending on the association status. If Autoscan AP (SW 1) is on, the active channel (and antenna selection) will be set once the SU scans and begins the association process with an AP. If Autoscan AP is off, active channel is set by user using the freq and antenna commands. freq [<ch#>] Use this command to change the channel. antenna [h | v |e] Use the antenna command to select active antenna Broadcast Packet Filter The software switch (0) enables/disables the blocking of Ethernet control packets except ICMP and ARP to reduce the amount of unnecessary overhead introduced to the wireless link. Default setting is ON. sw <sw#>=0..7 [on|off] Example: #>sw 0 on AP Autoscan This software switch (switch 1) is to turn AP autoscan on or off. sw 1 [on|off] (default is on) (for SUs only) TCP/IP for AP The software switch (2) when on, allows users at the AP side of the network sw 2 [on|off] (default is on) Example:

Basic Configuration via CLI Trango Broadband Wireless — User Manual M2400S Rev A Page 27 SU SYSTEM INFORMATION PARAMETERS AND RELATED COMMANDS SU Parameter Description Related CLI Command to telnet or HTTP into the SU. #>sw 2 off TCP/IP for Local Ethernet Port The software switch (6) when on, allows users on the wired side of the SU to telnet or HTTP into the SU regardless of opmode. sw 6 [on|off] (default is on) Remarks User definable radio information (i.e. customer name, address of installation, and so on). Maximum of 28 characters can be stored. remarks [remarks] Example: #>remarks 678 Oak Ave Counters: RF Tx RF Rx Eth Tx Eth Rx This is an average of wired and wireless, transmit and received traffic in kilobits per second. Informational Parameter

Mounting Hardware Trango Broadband Wireless — User Manual M2400S Rev A Page 28 Section 5 Mounting Hardware M2400S Mounting Hardware Assembly Articulation for M2400S with Mono Pod Mount (not supplied) Up/Down Tilt4X Must Be loosened forUp/Down Tilt 12345Not SuppliedITEM NO. PART NUMBER QTY. 1 Radio 125/16 x 3" Threaded Rod 435/16 Keps Nut 84"V" Bracket 25Mono Pod Mount (Not Supplied) 1

Mounting Hardware Trango Broadband Wireless — User Manual M2400S Rev A Page 29 Cabling and Grounding Considerations Grounding Example Installation Notes Access to the radio RJ-45 Port and LED status lights are purposely located at the bottom of the radio to minimize the risk of water intrusion. Do not mount the radio upside down. The J-Box is not a weatherized device and must be located either indoors or in a weather-protected cabinet. Shielded twisted pair Cat-5 cable is recommended for all installations unless cable is placed in metal conduit. The shield within the Cat-5 cable does not need to be grounded if the radio itself is grounded. It is important to consider that most Cat-5 cable will deteriorate over time if exposed to the weather (especially direct sunlight). Conduit (metal or PVC) is recommended to protect the cable. ! Important! The Ethernet port compression washer should be loosely tightened around the cat-5 cable to allow pressure equalization within the radio enclosure. Leave approximately 1 mm around the cat-5. It is important to provide strain relief and drip loop for STP Cat-5 cables. Do not mount the radio upside down. Proper mounting of the radio includes consideration for grounding. Please note that if the radio is attached to a metal pole which is earth-grounded, no other grounding is necessary. If the radio is not earth-grounded via the mounting bracket, you must attach a grounding wire to the grounding stud on the back of the radio per the adjacent diagram.

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 30 Section 6 Deployment Once you are familiar with the basic operation of the radios you are ready for deployment in the field. The deployment process consists of the following steps: • Site Selection • Site Survey • Channel Planning • SU Antenna Alignment • Link Management Commands Site Selection Proper site selection for your AP will help ensure a successful deployment. Site selection will depend on a wide variety of factors, but from the radio’s performance standpoint consider the following: • Path from AP to SU should provide as few obstructions as possible. It is advisable to place the AP as high as possible on a tall building or tower. • Ethernet cable is limited to 300 feet from Ethernet device (router, switch) to radio • Radios require grounding for optimal performance • AP provides sector coverage of 60 degrees azimuth and 18 degrees elevation • Consider nearby sources of interference which could degrade performance of radio. Mount radios as far from sources of interference as possible • Perform a site survey to determine noise levels and the relative clarity of channels at the chosen installation location. Site Survey Both the AP and SU provide a powerful on-board site survey tool. This tool will tell you if there is interference present in the 2.4 GHz ISM band. Command: survey <time> <antenna> In order to use the survey command, the radio must be in Opmode “OFF”. The survey can be performed for up to 10 seconds per channel (incrementing by 5 MHz). The test can be run for either the (h) horizontal polarization, (v) vertical polarization, or (e) external antenna. Prior to performing the site survey, place the radio in the installation spot, and aim the radio in the desired direction. The results of this test will provide you with a listing of each channel in the band, the average signal received, and the maximum signal received during the survey period. In general you will be looking for frequencies with interference signal strength of –85 dBm or lower. If interference is present on various channels, it is recommended that you chose clean channels or alternate polarizations for your deployment. If it is not possible to use a clean channel/polarization combination, there are various methods available to mitigate the affects of interference. These methods include the use of the RFRX THRESHOLD settings, the use of external shields, and or external narrower beam antennas.

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 31 Site Survey Example: #> survey 2 v Press [space] then [enter] to stop 2350 MHz peak -94 dBm avg -99 dBm 2355 MHz peak -94 dBm avg -99 dBm 2360 MHz peak -94 dBm avg -99 dBm 2365 MHz peak -94 dBm avg -99 dBm 2370 MHz peak -94 dBm avg -99 dBm 2375 MHz peak -94 dBm avg -99 dBm 2380 MHz peak -94 dBm avg -99 dBm 2385 MHz peak -94 dBm avg -99 dBm 2390 MHz peak -94 dBm avg -99 dBm 2395 MHz peak -94 dBm avg -99 dBm 2400 MHz peak -94 dBm avg -99 dBm 2405 MHz Ch 1 peak -91 dBm avg -92 dBm 2410 MHz peak -69 dBm avg -75 dBm ** 2415 MHz Ch 2 peak -61 dBm avg -66 dBm *** 2420 MHz peak -70 dBm avg -76 dBm * 2425 MHz Ch 3 peak -90 dBm avg -92 dBm 2430 MHz peak -94 dBm avg -99 dBm 2435 MHz Ch 4 peak -94 dBm avg -99 dBm 2440 MHz peak -94 dBm avg -99 dBm 2445 MHz Ch 5 peak -94 dBm avg -99 dBm 2450 MHz peak -94 dBm avg -99 dBm 2455 MHz Ch 6 peak -94 dBm avg -99 dBm 2460 MHz peak -94 dBm avg -99 dBm 2465 MHz Ch 7 peak -94 dBm avg -99 dBm 2470 MHz peak -94 dBm avg -99 dBm 2475 MHz Ch 8 peak -94 dBm avg -99 dBm 2480 MHz peak -94 dBm avg -99 dBm 2485 MHz peak -94 dBm avg -99 dBm 2490 MHz peak -94 dBm avg -99 dBm 2495 MHz peak -94 dBm avg -99 dBm 2500 MHz peak -94 dBm avg -99 dBm 2505 MHz peak -94 dBm avg -99 dBm 2510 MHz peak -94 dBm avg -99 dBm 2515 MHz peak -94 dBm avg -99 dBm 2520 MHz peak -94 dBm avg -99 dBm 2525 MHz peak -94 dBm avg -99 dBm 2530 MHz peak -94 dBm avg -99 dBm 2535 MHz peak -94 dBm avg -99 dBm 2540 MHz peak -94 dBm avg -99 dBm 2545 MHz peak -94 dBm avg -99 dBm 2550 MHz peak -94 dBm avg -99 dBm #> Once the site survey is completed you are ready to install your radios. It is recommended that APs be installed first. The reason for this is that the SU has a built-in RSSI tool that will help you properly aim the SU toward the AP to achieve the maximum signal strength. AP Search and SU Antenna Alignment Once the AP is installed and aligned in the correct general direction, it is time to install the SU. The hardware installation of the SU is identical to the AP, including considerations for line-of-sight; cable distances; cable type; weather sealing; and grounding. In this example of a survey on the vertical polarization for 2 seconds for each 5 MHz portion of spectrum. The largest amount of energy is detected at frequency 2415 MHz. The asterisks (****) indicate the highest avg amount of energy detected and corresponds to the number of amber colored LEDs lit. Note: the survey also covers spectrum outside of the operational range of the radio.

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 32 Once the SU is installed and aimed in the general direction of the AP it is time to perform an RSSI (relative signal strength indicator) test to determine the signal strength from the AP. Now you can precisely align the SU antenna for maximum signal strength. Although it is possible to rely upon the subscriber unit’s LEDs for alignment, more precise RSSI readings are available from the command RSSI. In conjunction with the RSSI command, it is also useful to perform the APSEARCH command. This command will tell you which AP is providing an adequate signal at the location of the SU. AP Search 1. Ensure AP is in opmode “On” 2. Run the apsearch command to verify which AP is providing the strongest signal strength. #> apsearch Press [space] then [enter] to stop 1 2405 Hz 1234 DE 18 6A 05 [H: -55 dBm] [V: -75 dBm] [E: -99 dBm] 2 2415 Hz ---- FF FF FF FF [H: -98 dBm] [V: -98 dBm] [E: -99 dBm] 3 2425 Hz ---- FF FF FF FF [H: -99 dBm] [V: -99 dBm] [E: -99 dBm] 4 2435 Hz ---- FF FF FF FF [H: -99 dBm] [V: -98 dBm] [E: -99 dBm] 5 2445 Hz ---- FF FF FF FF [H: -99 dBm] [V: -98 dBm] [E: -98 dBm] 6 2455 Hz ---- FF FF FF FF [H: -99 dBm] [V: -99 dBm] [E: -99 dBm] 7 2465 Hz ---- FF FF FF FF [H: -99 dBm] [V: -99 dBm] [E: -99 dBm] 8 2475 Hz ---- FF FF FF FF [H: -99 dBm] [V: -99 dBm] [E: -99 dBm] #> RSSI Command for Antenna Alignment Step 1 Telnet into the SU (while in Opmode “OFF”). Use the freq and antenna command to note current radio settings. Step 2 Run the rssi command. The telnet session screen will begin a continuous readout of the received signal strength. As you read the RSSI reading, move the antenna in the horizontal and vertical planes until the maximum RSSI reading is achieved. To allow for plenty of fade margin we recommend a continuous RSSI reading of -78 dBm or better. An RSSI of –88 dBm will allow you to establish a wireless link, but there may not be sufficient fade margin for reliable and continuous operation. Example 1 has the wrong freq and antenna settings: #> rssi [ 1] peak -99 dBm avg -99 dBm [ 2] peak -99 dBm avg -99 dBm [ 3] peak -99 dBm avg -99 dBm Example 2 has the correct freq and antenna settings: #> rssi [ 1] peak -38 dBm avg -80 dBm * [ 2] peak -38 dBm avg -75 dBm ** [ 3] peak -37 dBm avg -75 dBm ** Step 3 If it is not possible to receive an adequate RSSI reading it may be necessary to reorient the AP (up/down, left/right) to increase the output power. Or move the SU to a location with better line-of-sight to the AP. Alternatively consider using external antennas on either the AP or SU or both. Once you are satisfied with the RSSI reading, tighten down the SU in the optimum position. To stop the RSSI continuous readout hit SPACE ENTER. In this example, an AP is detected on channel 1, polarization horizontal. Further, the Base ID is 1234, and the MAC address is 00 01 DE 18 6A 05.

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 33 SU Alignment Using LEDs The LED RSSI indicators on the bottom of the radio provide a handy alignment tool. If all four LEDs are lit, the unit is receiving –64 dBm or stronger. If no LEDs are lit, there is not sufficient signal strength to establish a wireless link. Lit LEDs Signal Strength 0 LED -80 dBm 1 LED -75 to -79 dBm 2 LED -70 to -74 dBm 3 LED -65 to -69 dBm 4 LED -64 dBm and stronger Collocation and Channel Planning (temporary example from 900 manual) With proper channel planning and adherence to installation guidelines, multiple M900S access points may co-exist and operate interference-free on the same tower or building. The main consideration when collocating access points is to ensure at least 10 ft. of vertical separation. Please see the diagram below for collocation spacing and suggested channel plan. Note: RSSI tool (telnet or LEDs) will show all RF energy on a given freq. i.e. – a nearby SU on the same freq. passing traffic may give the appearance of a strong signal from your AP when in fact it is not and cause a misalignment.      !" #"$# %#&&"' (!)*! !++! '"'&' #'"#" !*+!*!"! 

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 34 Link Management Commands Once the radios are properly aligned for maximum RSSI, ensure the SU’s default Opmode is “ON” and that all configuration parameters are correct. Reboot the SU. Once the SU enters Opmode “ON” the authentication process will begin, and the two radios will begin to associate. From the AP side, there are several basic diagnostics commands such as su ping, su info, and su testrflink to ensure that a reliable RF link has been established. It may take one minute or more for the association process to complete. This process may take longer if there are many SUs in the sector. If all tests show favorable results, the wireless link will automatically begin passing Ethernet traffic between the radios. In establishing and diagnosing the quality of the link between AP and SU(s), there are a few commands that are especially useful. All of these commands are performed at the AP. A summary of these commands follows: su Displays the status of all SUs in the APs database. SUs in the SU database will appear by SU ID, classified into one of the following status categories: Associated, Associating, or OFF. All associated SUs will be indicated Example: #> su [Priority] 1 [0] 1 [1] [2] [3] [4] [5] [Associating] [Power Off] 17 Success. su ping <su#> AP will send 10 RF pings to the designated SU ID. The response from each ping will indicate latency (in micro-seconds) and the received signal strength (RSSI) from the SU for each of the 10 pings. Note this command will also tell you the distance from the AP to the SU. Example: #> su ping 1 [#Begin] [001] Ping #0 -> -52 dB 220 us 0.0 mi Ping #1 -> -53 dB 219 us 0.0 mi Ping #2 -> -53 dB 220 us 0.0 mi Ping #3 -> -52 dB 220 us 0.0 mi Ping #4 -> -53 dB 219 us 0.0 mi Ping #5 -> -52 dB 220 us 0.0 mi Ping #6 -> -50 dB 220 us 0.0 mi Ping #7 -> -52 dB 220 us 0.0 mi Ping #8 -> -52 dB 220 us 0.0 mi Ping #9 -> -52 dB 220 us 0.0 mi

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 35 [#End] Avg = -51 dB Success. su <su #> AP will poll the SU for SU’s current status and will provide information such as SU range from AP, signal strength received at SU from AP, SU temperature, etc. Example: #> su 1 [ 1] pr [as] y [d] 0.0 [rssi at ap] -50 dBm [rssi at su] -60 dBm [ip] 10.8.1.234 [subnet] 255.255.255.192 [gateway] 10.8.1.193 [mac] 00 01 DE 19 F0 A4 [hw ver] 0006 [fpga ver] 04042201 [fpga chksum] 47231EEE [fw ver] 1p0x8 [fw chksum] 6DDF232C [fw datecode] 04061502 [default channel and antenna] 1 h [active channel and antenna] 1 h [tx power] 23 dBm [ch#1] 2405 [ch#2] 2415 [ch#3] 2425 [ch#4] 2435 [ch#5] 2445 [ch#6] 2455 [ch#7] 2465 [ch#8] 2475 [remarks] [RF Tx Retry at AP] 0 [RF Tx Retry Maxed Out at AP] 0 [RF Tx Retry at SU] 0 [RF Tx Retry Maxed Out at SU] 0 Success. #> su linktest <su#> This command checks the integrity of the wireless link from the standpoint of performance (throughput) and over-the-air packet loss. The AP will send 100 1600 byte packets to the SU and the SU will return the packets it receives to the AP. A perfect link (without dropped packets) will yield average throughput of 5,000 kbps. If heavy packet loss occurs it may be caused by interference or multi-path. Example: #> su linktest 1 [suid] 1 [pkt len] 1600 bytes [# of pkts per cycle] 100 [cycle] 10 0 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 1 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 2 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 3 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 4 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 5 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 6 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 7 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 8 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps 9 [AP Tx] 100 [AP Rx] 100 [AP RxErr] 0 [SU Tx] 100 [SU Rx] 100 [SU RxErr] 0 5 00 ms 5120 kbps [AP Total nTx] 1000 pkts

Deployment Trango Broadband Wireless — User Manual M2400S Rev A Page 36 [AP Total nRx] 1000 pkts [AP Total nRxErr] 0 pkts [SU Total nTx] 1000 pkts [SU Total nRx] 1000 pkts [SU Total nRxErr] 0 pkts [AP to SU Error Rate] 0.00 % [SU to AP Error Rate] 0.00 % [Avg of Throughput] 5120 kbps #> Success. su testrflink <su#> This command also checks the integrity of the wireless link from the standpoint of over-the-air packet loss. In this test, the AP will send 20 large (1512 byte) packets to the SU and the SU will in turn send the same 20 packets back to the AP. The expected result of an error free link is 20..20..20, indicating (in the following sequence) 20 packets sent from AP, 20 packets received back at AP, 20 packets received at the SU. Any results other than 20..20..20 indicate a performance problem, most likely due to interference or inadequate signal to noise ratio. For thorough results it is recommended you run the command repeatedly for at least 1 minute or more to determine if packets are passing without error consistently over time. This command will give results without the help from ARQ. Note: This test does not provide as much detail as linktest The “r” is used in this command to repeat the rf link test repeatedly until the user terminates the test by hitting SPACE ENTER. Example: #> su testrflink 1 r Press [space] then [enter] to stop [len] 1512 [suid] 1 [ 0] ...........[AP Tx] 20 [AP Rx] 20 [SU Rx] 20 [ 1] ...........[AP Tx] 20 [AP Rx] 20 [SU Rx] 20 [ 2] ...........[AP Tx] 20 [AP Rx] 20 [SU Rx] 20 [ 3] ...........[AP Tx] 20 [AP Rx] 20 [SU Rx] 20 [ 4] ...........[AP Tx] 20 [AP Rx] 20 [SU Rx] 20 [ 5] ...........[AP Tx] 20 [AP Rx] 20 [SU Rx] 20 Success. #> As another example, a result of 20..10..18 would indicate 20 packets sent from the AP, 18 packets received at the SU, 10 packets received back to the AP. These types of results may be caused by Fresnel zone infringements, interference or multi-path. ARQ with Selected Repeat and Multirate Feature The M900S features ARQ or “Automatic Request for Re-transmission” which provides the ability to correct for missing or erred packets of data by asking the sender to re-transmit the data. Both the AP and SU units implement a form of ARQ known as Selective Repeat. The units make a first attempt at transmitting a data frame using the 5.5 Mbps rate. Then, if a re-try is required, that 2nd attempt shall be at 5.5 Mbps rate as well. e 3rd and 4th attempts will be at a rate of 2.75 Mbps. After the 4th attempt there will be no more re-tries. A counter describing “maximum retries reached” will be incremented. • A minimum of 100ms is placed between re-transmission requests.

Management Trango Broadband Wireless — User Manual M2400S Rev A Page 37 • The units buffer up to 1200 frames or 4 seconds worth of RF TX Data frames to support the ARQ algorithm. • The AP unit maintains counters concerning the ARQ algorithm on a per SU basis. The counters shall include the following data: Total Transmitted Frames Total Retransmission Attempts Total “Maximum Attempts Reached” The SU also maintains a counter concerning its use of the ARQ algorithm. Counters include the following data: Total Transmitted Frames Total Retransmission Attempts Total “Maximum Attempts Reached” Section 7 Management Section Topics: • Radio Management Access via TCP/IP • SU Management from AP’s command set • SNMP Radio Management Access Via TCP/IP The IP Address of an M2400S radio is for management purposes only. The IP address is not used for routing purposes or passing traffic. Users should take care to set appropriate IP schemes for all management activities including upgrading the radio’s firmware. It is not uncommon for users to assign public IP addresses to radios so that they can be accessed from anywhere on the internet. In order to gain TCP/IP access to the SU (from either side of the wireless network) ensure that the SU Switches 2 and 6 are turned on. In order to gain TCP/IP access to the AP from the SU side of the wireless network ensure that AP Switch 7 is turned on. SU Management from AP The AP provides several commands which permit the management of associated SUs. In fact, most system management functions are performed by issuing commands from the AP. Presented below are a few examples of these commands: su [all | <suid, 1..126>] su info <suid, 1..126> su linktest <suid, 1..126> su password <suid|all> <rw|ro> <new password> <new password> su ping <suid, 1..126> su reboot <suid|all> su sw <suid|all> <sw#, 0..7> <on | off> su testrflink <suid, 1..126> <r> su testrflink <all> <r> Note: SU commands issued from the AP will automatically update the SU’s flash memory. No save ss command is necessary. You can remotely change the SUs password for a single SU or all SUs in a sector using the syntax below: su password <suid | all> <rw | ro> <new password> <new password> Example: su password all rw hello hello to remotely change the read write password on all SUs to “hello” You can change the SUs IP, subnet, and gateway using th syntax below: su ipconfig <suid> <new ip> <new subnet> <new gateway>

Management Trango Broadband Wireless — User Manual M2400S Rev A Page 38 Example: su ipconfig 7 192.168.10.10 255.255.255.0 192.168.10.1 In this example SU ID #7’s IP address is changed to 192.168.10.10, the subnet mask is changed to 255.255.255.0, and the gateway is changed to 192.168.10.1. A complete description of these commands and many others can be found in Appendix A Command Set Summary. Loading Multiple SU’s into SUDB using DLOAD Command To load a full database of SU entries into the AP database, you will need to create a subscriber database in ASCII text file format. As shown below, each row represents all information for one SU. Each column is an information field, which includes: SU ID, SU to SU group, service level, CIR, MIR, and MAC address. 005 re a 1 3000 3000 3000 3000 0000 00 01 de 16 e3 60 --- Subscriber 1 007 re a 1 3000 3000 3000 3000 0000 00 01 de 16 e3 7c --- Subscriber 2 009 re a 1 3000 3000 3000 3000 0000 00 01 de 16 e3 7b --- Subscriber 3 000 --- End of file indicator --- -- - - ---- ---- ---- ---- ---- ----------------- | | | | | | | | | | | | | | | | | | | | | | | | | | | | | ------------ MAC Address | | | | | | | | | | | | | | | | | | | | | | | | | | ----------------------- Reserved (should be 0000) | | | | | | | | | | | | | | | | | | | | | | | ---------------------------- mir uplink | | | | | | | | | | | | | | | | | | | | --------------------------------- mir downlink | | | | | | | | | | | | | | | | | -------------------------------------- cir uplink | | | | | | | | | | | | | | ------------------------------------------- cir downlink | | | | | | | | | | | ---------------------------------------------- su2su group id | | | | | | | | ------------------------------------------------- rate (currently not supported, | | value should be a) | | | ---------------------------------------------------- pr priority user | re regular user | | ------------------------------------------------------- su id (1..127) 1. telnet into the AP, run command tftpd on to enable tftp process 2. tftp the file to the AP from your DOS prompt example: tftp <IP of AP> put mySUs.txt 3. From the AP telnet session run command sudb dload to load and activate the database 4. Run command sudb view to verify the database entries Run command save sudb to write the database to non-volatile memory. SNMP The M2400S supports Simple Network Management Protocol (SNMP) for network management. Network management consists of the following 5 categories: configuration, accounting, alarm, monitoring, and control. These capabilities allow the network operator to provide superior services through higher network availability

$Management Trango Broadband Wireless — User Manual M2400S Rev A Page 39 and an integrated accounting system. For more information on SNMP and its uses you can visit http://www.faqs.org/faqs/snmp-faq/. The Trango SNMP solution supports MIB-II (system only) and the Trango proprietary Management Information Base (MIB). The SNMP agent resides on the AP ONLY. It gathers health, status and performance statistics from all SUs locally, the agent then responds back to the SNMP manager upon request. Users interested in using the SNMP functionality should review the entire M2400S MIB for a complete understanding of its features. The M2400S MIB is available for download at: http://www.trangobroadband.com/support/downloads.htm The following is an overview of a few of the more commonly used SNMP objects in the M900S system. Objects for Monitoring and Control SU Bandwidth Monitoring • suRfInOctets – Number of octets of payload transmitted from AP’s RF port. • suRfOutOctets – Number of octets of payload received from AP’s RF port. AP Bandwidth Monitoring • aptrafficEthInOctets – Number of octets of payload received on the Ethernet port • aptrafficEthOutOctets – Number of octets of payload transmitted on the Ethernet port • aptrafficRfInOctets – Number of octets of payload received on the RF port • aptrafficRfOutOctets – Number of octets of payload transmitted on the RF port Link Status Monitoring –Various traps are defined as follows: • SU Link Up – When SU associates to the AP • SU Link Down – When SU disassociates from the AP AP and SU Control – SNMP also provides several control capabilities. The majority of the features available on the CLI are also available in SNMP. Here are a few of these features: • Add/delete subscriber • Change channel • Set power • Set radio sensitivity Review the Trango M2400S MIB for the complete listing of MIB Objects. SNMP Setup Trango Broadband provides only the MIB portion of the SNMP Management system. The radios act as individual agents, and it is up the user to provide an SNMP Manager software from a third party vendor. Below is an example of the setup process for SNMPc from Castle Rock™. 1. Unzip trangopkg.zip file to a local temporary directory. 2. Go to your local temporary directory. You will find 4 files as shown below. a. trango_m2400sap_1p0.mib – M2400S AP MIB file b. trango.ico – M900S AP icon c. autoico.txt – instruction file (Selects Trango icon automatically during initial set-up.) d. readme.pdf 3. Copy trango_m2400sap_1p0.mib file to C:\Program Files\SNMPc Network Manager\mibfiles 4. Copy autoico.txt file to C:\Program Files\SNMPc Network Manager\mibfiles 5. Copy trango.ico file to C:\Program Files\SNMPc Network Manager\bitmaps 6. The MIB needs to be compiled into the SNMPc database$

Trango Systems M2400S 2.4 GHz Wireless Broadband System User Manual M2400S UserManual

Trango Systems Inc 2.4 GHz Wireless Broadband System M2400S UserManual

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