RuggedMAX™ WiN5100 / WiN5200 Installation and User Guide Version 4.2.
RuggedMAX™ RuggedMAX™: WiN5100 / WiN5200 Installation and User Guide Copyright © 2011 RuggedCom Inc. All Rights Reserved Dissemination or reproduction of this document, or evaluation and communication of its contents, is not authorized except where expressly permitted. Violations are liable for damages. All rights are reserved, particularly for the purposes of patent application or trademark registration. This document contains proprietary information, which is protected by copyright.
RuggedMAX™ Table of Contents FCC Statement And Cautions ................................................................................................... 8 1. Introduction ............................................................................................................................ 9 1.1. WiN5100 Package Components and Unpacking ........................................................ 9 1.2. WiN5200 Package Components and Unpacking ........................................................
RuggedMAX™ 6.2.4. Software Version Management ...................................................................... 6.2.5. SNMP Administration ..................................................................................... 6.2.6. Alarms & Traps .............................................................................................. 6.3. CPE Network Configuration ...................................................................................... 6.3.1. Network IP Settings ....................
RuggedMAX™ List of Figures 2.1. WiN5100 CPE Block Diagram: External Antennas ........................................................... 2.2. WiN5200 CPE Block Diagram: Integrated Antenna .......................................................... 2.3. MIMO Antenna System ..................................................................................................... 2.4. WiN5100: General View ................................................................................................... 2.5.
RuggedMAX™ 6.15. 6.16. 6.17. 6.18. 6.19. 6.20. 6.21. 6.22. 6.23. 6.24. 6.25. 6.26. 6.27. 6.28. 6.29. 6.30. 6.31. System Alarms pane ....................................................................................................... SNMP Trap Settings ....................................................................................................... IP Settings pane ............................................................................................................. VLAN Tagging pane .......
RuggedMAX™ List of Tables 2.1. WiN5100 Connectors: AC Version ................................................................................... 2.2. WiN5100 Connectors: DC Version ................................................................................... 2.3. WiN5200 Connectors ........................................................................................................ 2.4. CPE LED Indicators ............................................................................................
FCC Statement And Cautions FCC Statement And Cautions Federal Communications Commission Radio Frequency Interference Statement 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 when the equipment is operated in a commercial environment.
1. Introduction 1. Introduction This guide describes how to install and configure the RuggedMAX™ WiN5100-series and WiN5200-series Out Door Unit (ODU) Customer Premises Equipment (CPE) units. The WiN5100series and WiN5200-series ODU CPEs are members of the RuggedMAX™ family, a line of WiMAX broadband wireless access systems based on the 802.16e mobile WiMAX standard. This guide is intended for installers and network operators.
1. Introduction 1.3. Safety Information 1.3.1. RF Exposure The WiN5100/WiN5200 CPE is compliant with the requirements set forth in CFR 47, section 1.1307, addressing Radio Frequency (RF) exposure from radio frequency devices as defined in OET Bulletin 65. The emitted radiation should be as little as possible. To achieve minimum RF exposure, install the CPE when it is configured not to transmit and set it to operational mode remotely, rather than enabling transmission by the installer on-site.
2. Product Description 2. Product Description The WiN5100-series and WiN5200-series Out Door Unit (ODU) Customer Premises Equipment (CPE) units are IEEE 802.16-2005 compliant wireless devices for the deployment of point-tomultipoint (PMP) and point-to-point (PTP) network architectures. The ODU CPEs are WiMAX Forum 802.16e Wave 2 (MIMO) certified subscribers. Each subscriber registers and establishes a bi-directional data link with the base station. 2.1. IEEE 802.16e Mobile WiMAX Compliance The IEEE 802.
2. Product Description Figure 2.1. WiN5100 CPE Block Diagram: External Antennas Figure 2.2. WiN5200 CPE Block Diagram: Integrated Antenna RuggedMAX™ 12 Installation and User Guide v4.2.
2. Product Description 2.3. Features 2.3.1. Mobile WiMAX Wave 2 MIMO Features Multiple-Input, Multiple-Output (MIMO) describes systems that use more than one radio and antenna system at each end of the wireless link. In the past it was too costly to incorporate multiple antennas and radios in a subscriber terminal. Recent advances in radio miniaturization and integration technology now make it feasible and cost effective.
2. Product Description 2.3.1.1. Space-Time Coding Space-Time Coding (STC) is a technique for implementing transmission diversity. Mobile WiMAX uses transmit diversity in the downlink direction to provide spatial diversity to enhance the signal quality to a specific subscriber located anywhere within the range of the antenna beam.
2. Product Description Physical Layer Security There are two basic types of attacks that can affect the WiMAX physical layer: jamming and packet scrambling. The first is relatively straightforward, and is sometimes the result of interference rather than an attack. Jamming consists of a signal stronger than the WiMAX network signal overwhelming network data feeds, either in intermittent bursts or with sustained carrier waves. Most WiMAX network services are delivered over licensed bands (currently 3.
2. Product Description Encryption The first layer of defense for WiMAX operators is to authenticate a legitimate user on its network. However, WiMAX, with its 802.16e ratification, offers top-line tools for data encryption. Older wireless iterations used the Data Encryption Standard (DES), which relied on a 56-bit key for encryption. This is largely considered obsolete. WiMAX 802.
2. Product Description 2.3.2. Deployment Models The CPE supports point to point (PTP) and point to multipoint (PMP) deployment scenarios. 2.3.2.1. PTP Deployment When deployed in a PTP configuration, the base station establishes a dedicated bidirectional link to a single subscriber. PTP deployments typically use a directional narrow beam antenna for both ends of the link. 2.3.2.2.
2. Product Description 2.3.3. Service Flows Service flows are a key feature of the 802.16e standard. A service flow represents a unidirectional data flow having separate Quality of Service (QoS) settings for uplink and downlink. Service flows provide the ability to set up multiple connections to each subscriber in a sector. Separate service flows can be established for uplink and downlink traffic, where each service flow is assigned a unique service level category and separate QoS settings.
2. Product Description • Non-Real-Time Polling Service (nrt-PS) The base station schedules regular transmit opportunities for the subscriber to send variable size data packets. Typical applications include high bandwidth FTP. The polling period is typically be one second or less, even during periods of network congestion.
2. Product Description 2.3.4. Physical Description Dimensions (H × W × D without antenna): 22cm × 9.2cm × 6cm Weight: <1.5 Kg Figure 2.4. WiN5100: General View Figure 2.5. WiN5200: Top View RuggedMAX™ 20 Installation and User Guide v4.2.
2. Product Description 2.3.5. Connectors and LED Indicators Connectors and LED indicators are found on the bottom of the CPE casing. 2.3.5.1. WiN5100 Connectors: AC Version Figure 2.6. WiN5100 Connectors: AC Version Name Description Connector Type ETH/PWR Data and power from PoE injector RJ-45 Ground Grounding screw ANT1 Antenna 1 RF ANT2 Antenna 2 RF Table 2.1. WiN5100 Connectors: AC Version RuggedMAX™ 21 Installation and User Guide v4.2.
2. Product Description 2.3.5.2. WiN5100 Connectors: DC Version Figure 2.7. WiN5100 Connectors: DC Version Name Description Connector Type ETH/PWR Ethernet data connection only RJ-45 Ground Grounding screw ANT1 Antenna 1 RF ANT2 Antenna 2 RF DC DC input, 10 VDC to 30 VDC 3-pin connector Table 2.2. WiN5100 Connectors: DC Version RuggedMAX™ 22 Installation and User Guide v4.2.
2. Product Description 2.3.5.3. WiN5200 Connectors Figure 2.8. WiN5200 Connectors Name Description Connector Type ETH/PWR Data and power from PoE injector RJ-45 Ground Grounding screw Table 2.3. WiN5200 Connectors 2.3.6. LED Indicators The LED indicators at the bottom of the CPE casing display the following information: • RSSI: displays the RSSI level • W.
3. Mounting 3. Mounting The WiN5100 / WiN5200 ODU CPE mounting kit allows for pole or wall mounting. When choosing the mounting location for the unit, consider the available mounting structures and antenna clearance. 3.1. Site Survey Most wireless networks include many CPEs and BSTs installed in various locations in an overlapping radio-cell pattern. It is important to position each CPE at an optimal location considering the assignment of its radio channels.
4. Installation Procedure 4. Installation Procedure 4.1. Safety Hazards Installing the WiN5100 / WiN5200 ODU CPEs can pose a serious hazard. Be sure to take precautions to avoid the following: • Exposure to high voltage lines during installation • Falls when working at heights or with ladders • Injuries from dropping tools • Contact with AC wiring Install antenna always at distance at least 0.
4. Installation Procedure 4.4. Pole Mount Installation To pole mount the unit, first attach the pole mount band clamps to the CPE and then mount the CPE to the pole. The illustrations below show the WiN5200 with integrated antenna. The installation procedure for the WiN5100 is the same. Procedure 4.1. Pole Mounting the Unit 1. Select a mounting location on the pole. 2. Open the pole mount band clamps and insert the bands into the slots on the back of the CPE casing. Figure 4.1. Pole Mounting 3.
4. Installation Procedure 4.5. Wall Mount Installation To wall mount the unit, first mount the wall mount bracket to the wall and then mount the CPE to the bracket. The illustrations below show the WiN5200 with integrated antenna. The installation procedure for the WiN5100 is the same.
4. Installation Procedure 4.6. Aligning the CPE Antenna For information on the location of and how to read the RSSI LED indicators, see Section 2.3.6, “LED Indicators ”. Procedure 4.3. Aligning the CPE Antenna 1. Point the antenna towards the general direction of the base station. 2. Verify that power is applied to the CPE. The PWR LED should be ON. 3. Verify that at least one green RSSI LED is ON, indicating that the CPE is synchronized with the base station.
4. Installation Procedure 4.7. Cable Connections 4.7.1. Weatherproofing It is extremely important to weatherproof all outdoor cable connections. Weatherproofing the connections at the outdoor unit and antennas prevents corrosion, prevents water from interfering with the connection, and helps to keep the connection tight. Because cables also carry DC current, the need for proper weatherproofing cannot be overstated.
4. Installation Procedure Figure 4.5. Wrapping the Connector with Rubber-splicing or Self-amalgamating Tape 2. Tightly wrap the connector and the cable. Overlap the tape, without gaps, all the way along the connector. Continue wrapping the tape 25 mm (1") onto the cable. Figure 4.6. Wrapping the Cable with Rubber-splicing or Self-amalgamating Tape 3. For UV protection of the rubber splicing tape, wrap two layers of electrical tape on top of the rubber splicing tape. Figure 4.7.
4. Installation Procedure Figure 4.8. Sealing Gaps with Putty 4.7.2. Assembling the RJ45 Connector The ODU CPE uses a male, shielded, RJ45 connector to provide the data and Power over Ethernet (PoE) connection to the device. To assemble the RJ45 connector, follow the instructions in this section.
4. Installation Procedure Figure 4.10. Preparing the CPE Cable 3. Form the braiding into two pigtails. The stripped cable should appear as shown in Figure 4.11, “CPE Cable Sheathing”. Figure 4.11. CPE Cable Sheathing 4. Place the modular plug over the wire ends, making sure to maintain the pin arrangement shown in Figure 4.12, “Ethernet Port Pinout” and Table 4.2, “Ethernet Port Pinout”. Pin Number Figure 4.12.
4. Installation Procedure 5. Refer to Figure 4.13, “Modular Plug Assembly”. Insert the cable all the way into the modular plug case, including the inner jacket and foil. The inner jacket should be directly under the plug's strain relief tab. Figure 4.13. Modular Plug Assembly 6. Refer to Figure 4.14, “Crimping the Connector”. Use a standard crimp tool to secure the modular plug assembly to the cable. Figure 4.14. Crimping the Connector 7.
4. Installation Procedure Figure 4.15. Assembly of Connector Components 10. Refer to Figure 4.16, “Connecting the Cable to the CPE”. While maintaining inward pressure on the plug or keeping the dust cover engaged, tighten the compression nut to 0.56Nm (5 In-lbs). Figure 4.16. Connecting the Cable to the CPE 4.7.3. Installing the WiN1010 Data Adaptor The WiN1010 data adaptor powers the ODU CPE and distributes data.
4. Installation Procedure Figure 4.17. Power over Ethernet Connection Schematic Before connecting the WiN1010 data adaptor to the 110 VAC/220 VAC power source, verify that all system components are properly installed. Make sure that all cable connectors are securely positioned in the appropriate ports. Procedure 4.6. Connecting Power to the CPE 1. Connect a Category 5e cable between the CPE and the WiN1010 data adaptor. 2.
5. Equipment Configuration and Monitoring 5. Equipment Configuration and Monitoring This section describes how to configure basic CPE parameters. You can preconfigure the CPE in the lab, eliminating the need to configure the unit in the field. After installing a preconfigured unit, configure additional parameters remotely through the wireless link. 5.1.
5. Equipment Configuration and Monitoring 5. In the Items list, select Internet Protocol (TCP/IP) and click the Properties button. The Internet Protocol (TCP/IP) Properties dialog appears. Figure 5.2. Windows TCP/IP Properties dialog 6. Assign your computer the IP address 192.168.254.250 and the subnet 255.255.255.0. 7. On the Internet Protocol (TCP/IP) Properties dialog, click OK. On the Local Area Connection Properties dialog, click Close. 8. Launch your web browser and type http://192.168.254.
5. Equipment Configuration and Monitoring 5.2. Configuring the CPE This section describes how to configure the initial CPE settings. This section describes just the minimal setting required to connect the CPE to the network. After installing the minimally configured CPE, configure additional parameters remotely through the wireless link. Procedure 5.2. Configuring the WiN5100 / WiN5200 1. Connect a computer to the CPE and log in to the CPE management interface. For instructions, see Section 5.
5. Equipment Configuration and Monitoring 4. To add an entry to the Scanner Table, click the You can add up to 32 rows to the table. button. A new row appears in the table. Configure the bandwidth and frequency settings in the following fields: Field Description Priority Sets the scanning priority. Bandwidth [MHz] Sets the scanning bandwidth. Values: 3.5 MHz | 5 MHz | 10 MHz Start frequency [kHz] Sets the start of the scanning range. Step [kHz] Sets the scanning step.
5. Equipment Configuration and Monitoring 9. Configure the CPE IP addresses in the following fields: Field Description Configured LAN IP Sets the CPE LAN IP address. Use this address for local CPE management through a direct connection Address between the CPE and a computer. Configured LAN Mask Sets the CPE LAN subnet mask. RF IP Address Sets the CPE RF network IP address. Use this address for remote CPE management through the core network. RF IP Subnet Mask Sets the CPE RF network subnet mask.
5. Equipment Configuration and Monitoring Figure 5.7. Service Flow pane 15. Log out of the CPE management interface. Click the Management button. The System Functions pane appears. 16. Click the Logout button. You are logged out of the CPE management interface. RuggedMAX™ 41 Installation and User Guide v4.2.
6. CPE Management Interface 6. CPE Management Interface This chapter describes how to use the CPE management interface. Use the CPE management interface to configure and control CPE settings and functions. You can access the CPE management interface through the CPE’s LAN or RF IP address. 6.1. Using the CPE Management Interface The CPE management interface consists of four main areas: • Configuration Buttons — a set of buttons providing access to configuration options.
6. CPE Management Interface 6.1.1. Configuration Buttons The configuration buttons provide access to the main groups of configuration options. Clicking a button displays a set of links in the Options Pane. Clicking a link in the options pane displays a pane where you can review and configure system parameters, or review system data. Figure 6.2. CPE Configuration Buttons Configuration Button Description Option Pane Links Network Access to CPE network settings.
6. CPE Management Interface 6.2. System Management This section describes how to: • manage general system functions. See Section 6.2.1, “Managing System Functions”. • change the management interface password. See Section 6.2.2, “Changing the CPE Management Interface Password”. • configure the remote management parameters. See Section 6.2.3, “Remote Management Parameters”. • manage software versions and perform software upgrades. See Section 6.2.4, “Software Version Management”. • manage SNMP.
6. CPE Management Interface the CPE name field, type a name and click the Apply button. The CPE name appears in the at the top of the management interface panes. • Link Watchdog: You can set the Link Watchdog function to reset the device if it is not in an operational state for a continuous time. In the Link WatchDog field, select Disabled, Smart or Always and click the Apply button. The default setting is Smart.
6. CPE Management Interface 4. In the New Password field, type the new password. 5. In the Confirm Password field, retype the new password. 6. Click the Apply button. 6.2.3. Remote Management Parameters On the Remote Management panes, you configure the management port, management VLAN, and DSCP marking parameters: • Section 6.2.3.1, “Configuring the Management Port” • Section 6.2.3.2, “Configuring the Management VLAN” • Section 6.2.3.3, “Configuring DSCP Marking” 6.2.3.1.
6. CPE Management Interface with the configured VLAN number and priority. Incoming management frames must be tagged with the same values, or the CPE drops the incoming frames. Procedure 6.4. Setting Management VLAN Configuration Options 1. Click the Management button. The System Functions pane appears. 2. In the options panel, click the Remote Management link, and then click the Management VLAN link. The Management VLAN pane appears. Figure 6.6. Management VLAN pane 3.
6. CPE Management Interface Figure 6.7. DSCP Marking pane 3. In the DSCP marking [0-63] field, type a value in the range of 0 to 63. The default value is 48. 4. Click the Apply button. 6.2.4. Software Version Management Permanent memory storage is organized in two memory banks, “1” and “2”. Two versions of the operating system software can be stored on the CPE, one in each memory bank. Each memory bank is designated as either the “Primary” or “Secondary” memory bank.
6. CPE Management Interface Again on the SW Properties pane, click Set As Primary in order to set the current memory bank (currently denoted Secondary) as Primary. Doing so will cause the software in the memory bank newly designated Primary to be run by default on bootup. 6.2.4.2. Viewing Software Properties The SW Properties pane displays information about the software loaded into each CPE memory bank.
6. CPE Management Interface Field Description Secondary CDC Displays the filename of the CDC (Customer Defaults Configuration) file in the Secondary memory bank. Secondary UV Displays the filename of the UV (Unique Value) configuration file in the Primary memory bank. Configuration Changes Counter Displays the number of changes made to configuration values on the CPE. This value only includes changes to configuration values.
6. CPE Management Interface Field Description • Package — The software package file provided with an upgrade package. For example: ruggedupgrade.ini • Web Resource — A web console template file. For example: web.rc • CDC — A Common Default Configuration file. For example: BS-Val-Cdc.xml • UV — A Unique Value file. For example: BS-Val-Unique.xml File Name Type the name of the file you want to download. User Name Type the user name used to log in to the FTP server.
6. CPE Management Interface Figure 6.10. Primary Bank Components pane 3. The Primary Components Table displays the following information: Field Description Name Displays the software component filename. Type Displays the software component file type. Values: Package | Application | VxWorks | Blob | Script | WebResource | Defaults | CDC | Regulation | UV | GUI Version Displays the software component version number. Table 6.5. Primary Components Table 4.
6. CPE Management Interface • Click the Copy File. 6. To copy all files to the “Secondary” memory bank: • Click the Copy directory. 6.2.4.5. Managing the Secondary Memory Bank Use the Secondary Components pane to manage software in the “Secondary” memory bank. On this pane, you can view information for the files in the memory bank, upload files from the memory bank to your FTP server, and delete files from the memory bank.
6. CPE Management Interface 4. To upload a file to your FTP server: Before uploading files to an FTP server, you must configure an FTP server on the FTP Server Properties pane. For instructions on how to configure the FTP server properties, see Section 6.2.4.3, “Downloading CPE Software”. • Select a file from the Secondary Components Table. • Click the Upload File. 5. To delete a file: • Select a file from the Secondary Components Table. • Click the Delete File. 6.
6. CPE Management Interface 4. The File Transfer Operation Status table displays the following information for the files in the selected operation status: Field Description Index Displays a unique identifier for the file. Operation Displays the file transfer operation performed on the file. Values: Download | Upload | Delete | Copy | Operations (indicates the completion of a batch operation on several files) File Name Displays the filename for the uploaded or downloaded file.
6. CPE Management Interface Figure 6.13. SNMPv2c Access Settings pane 3. Review and set the SNMPv2c settings in the following fields: Field Description SNMP Read Community The SNMP community name for read access. This name can be used as a password for secure information retrieval. Type a name in the field. Default: public SNMP Write Community The SNMP community name for write access. This name can be used as a password for secure set commands. Type a name in the field.
6. CPE Management Interface 2. In the options panel, click the SNMP link, and then click the MIB2 System link. The SNMP - MIB2 Settings pane appears. Figure 6.14. SNMP MIB2 Settings pane 3. Review and set the SNMP system identification information in the following fields: Field Description sysDescr Displays the SNMP MIB version. Default: This MIB version: BS-E-12-MIB.mib sysObjectID Displays the private enterprise number and object identifier for the subscriber station SNMP subsystem. Default: .1.
6. CPE Management Interface 2. In the options panel, click the Alarms and Traps link. The System Alarms pane appears. Figure 6.15. System Alarms pane 3. Review the current number of alarms in the following fields: Field Description Number of Critical Alarms Displays the number of critical alarms. Number of Major Alarms Displays the number of major alarms. Number of Warning Alarms Displays the number of warning or advisory alarms. Table 6.10. System Alarms 4.
6. CPE Management Interface 6.2.6.2. SNMP Trap Settings On the SNMP Trap Settings panel, configure the subscriber station SNMP traps. From this pane, you can also select traps and send them on demand. To send traps, you must have SNMP Trap Destinations configured. For instructions on configuring SNMP Trap Destinations, see Section 6.2.5.1, “SNMP Communities and Trap Destination Addresses” Procedure 6.14. Setting SNMP traps 1. Click the Management button. The Management options appear in the options pane.
6. CPE Management Interface 4. Click the Apply button. For testing purposes, you can send selected traps on demand. To send traps, you must have SNMP Trap Destinations configured. For instructions on configuring SNMP Trap Destinations, see Section 6.2.5.1, “SNMP Communities and Trap Destination Addresses”. Procedure 6.15. Sending SNMP traps on demand 1. In the Traps Table, select one or more SNMP traps. 2. Click the Send Trap button. 6.2.6.3.
6. CPE Management Interface 6.3. CPE Network Configuration This section describes how to: • set the CPE LAN and RF IP settings. See Section 6.3.1, “ Network IP Settings ”. • set the CPE Ethernet settings. See Section 6.3.2, “ Ethernet Settings ”. 6.3.1. Network IP Settings On the the IP Settings pane, configure the CPE’s LAN and RF IP addresses. • Use the LAN IP address when you access the CPE through a direct connection to its physical Ethernet port.
6. CPE Management Interface 4. If you changed the value in the Configured LAN IP Address or Configured LAN Mask fields, reboot the base station: a. Click the Management button. The System Functions pane appears. b. Click the Reboot button. The CPE reboots. 6.3.2. Ethernet Settings On the Ethernet Settings panes, you configure VLAN tagging, the MAC address table, and MTU parameters: • Section 6.3.2.1, “Configuring VLAN Tagging” • Section 6.3.2.2, “Configuring the MAC Address Table” • Section 6.3.2.
6. CPE Management Interface 5. If you changed the value in the Configured LAN IP Address or Configured LAN Mask fields, reboot the base station: a. Click the Management button. The System Functions pane appears. b. Click the Reboot button. The CPE reboots. 6.3.2.2. Configuring the MAC Address Table The MAC Address Table displays the MAC addresses learned by the CPE. On the MAC Address Table pane, you can set the MAC address aging time and clear the MAC Address Table. Procedure 6.18.
6. CPE Management Interface Field Description Interface Displays the interface from which the CPE learned the MAC address. Possible values include: • Network — the base station acquired the address from the Ethernet network interface • RF — the base station acquired the address from the RF interface • Local — indicates the MAC address of the base station itself Table 6.16. IP Settings fields 5. To remove an entry from the MAC address table, select a row in the table and click the Clear button. 6.
6. CPE Management Interface 6.4. CPE Statistics This section describes how to: • view general CPE system statistics. See Section 6.4.1, “ General Statistics ”. • view and clear CPE RF statistics. See Section 6.4.2, “ RF Statistics ”. • view and clear network statistics. See Section 6.4.3, “ Network Statistics ”. • view and clear service flow statistics. See Section 6.4.4, “ Service Flow Statistics ”. 6.4.1.
6. CPE Management Interface Field Description Current SW version Displays the current CPE software version number. Current Authentication Displays the current CPE authentication mode. Values: Null | EAP-TTLS | EAP-TLS Outer NAI Displays the outer network access identifier. Next re-authentication Table 6.17. General Statistics fields 6.4.2. RF Statistics On the the RF Statistics pane, you can review CPE RF status and information.
6. CPE Management Interface Field Description Values: N/A | QPSK-CTC-1/2 | QPSK-CTC-3/4 | QAM16-CTC-1/2 | QAM16-CTC-3/4 | QAM64CTC-2/3 | QAM64-CTC-3/4| QAM64-CTC-5/6 DL MCS Displays the downlink Modulation and Coding Scheme. Values: N/A | QPSK-CTC-1/2 | QPSK-CTC-3/4 | QAM16-CTC-1/2 | QAM16-CTC-3/4 | QAM64CTC-2/3 | QAM64-CTC-3/4| QAM64-CTC-5/6 Distance from BS Displays the estimated distance of the CPE from the base station, in meters.
6. CPE Management Interface Field Description DHCP Lease Time Displays the CPE default DHCP lease time. Table 6.19. Network Statistics fields 3. View the network statistics in the SS Statistic Table: Field Description Direction Displays the direction of network traffic to and from the CPE: Input or Output. Packets/sec Displays the packet transmission rate for inbound and outbound traffic, in packets per second. Packets Displays the total number of inbound and outbound packets. Table 6.20.
6. CPE Management Interface Field Description CID Displays the connection identifier for the service flow. Direction Displays the direction for the service flow: uplink or downlink. Values: DL | UL Scheduling Service Displays the scheduling service for the service flow: Best Effort, Near-Real Time, Real Time, Extended Real Time, or Unsolicited Grant Service. Values: BE | nRT | RT | eRT | UGS Packets Displays the number of packets handled by the service flow.
6. CPE Management Interface 6.5. WiMAX Settings This section describes how to: • configure the scanner settings. See Section 6.5.1, “Scanner Settings”. • configure WiMAX authentication. See Section 6.5.2, “WiMAX Authentication”. • view information for the serving and neighboring base stations. See Section 6.5.3, “Viewing Base Station Information”. • configure the WiMAX radio options. See Section 6.5.4, “Configuring WiMAX Radio Parameters”. 6.5.1.
6. CPE Management Interface 4. The Scanner Table lists the frequencies scanned by the CPE to locate its base station. The Scanner Table displays the following information: Column Description Priority Sets the priority for the scanning table entry. Priority is ranked in numeric order. Values: A numeric value. Bandwidth [MHz] Displays the bandwidth of the scanning table entry. Values: 3.5MHz | 5MHz | 10MHz Start frequency [kHz] Displays the start of the scanning range as a frequency in kilohertz.
6. CPE Management Interface 6.5.2. WiMAX Authentication On the the Authentication panes, you set view and set the WiMAX authentication parameters. The CPE supports EAP-TLS (Extensible Authentication Protocol - Transport Layer Security) and EAP-TTLS (Extensible Authentication Protocol - Tunneled Transport Layer Security) authentication. You can also set the CPE to use null (no) authentication. This section describes how to: • view the current CPE authentication setting. See Section 6.5.2.
6. CPE Management Interface 6.5.2.2. Configuring EAP-TLS Authentication On the EAP-TLS pane, you configure Extensible Authentication Protocol - Transport Layer Security authentication by specifying the authentication realm. After configuring EAP-TLS, you must reboot the CPE. Procedure 6.26. Configuring EAP-TLS 1. Click the WiMAX button. The Scanner Settings pane appears. 2. In the options panel, click the Authentication link. The Authentication Method pane appears. 3.
6. CPE Management Interface 6.5.2.3. Configuring EAP-TTLS Authentication On the EAP-TTLS pane, you configure Extensible Authentication Protocol - Tunneled Transport Layer Security authentication by specifying the authentication realm and a username and password. After configuring EAP-TTLS, you must reboot the CPE. Procedure 6.27. Configuring EAP-TTLS 1. Click the WiMAX button. The Scanner Settings pane appears. 2. In the options panel, click the Authentication link.
6. CPE Management Interface 6.5.2.4. Configuring Null Authentication You enable null authentication on the Authentication Method pane. Procedure 6.28. Enabling Null Authentication 1. Click the WiMAX button. The Scanner Settings pane appears. 2. In the options panel, click the Authentication link. The Authentication Method pane appears. 3. On the The Authentication Method pane, click the Set Null button. 6.5.2.5.
6. CPE Management Interface 6.5.3. Viewing Base Station Information On the Mobility pane, you can view information about the base station serving the CPE and information about neighboring base stations. The Mobility pane is read-only; there are no parameters to set on this pane. Procedure 6.30. Viewing Base Station Information 1. Click the WiMAX button. The Scanner Settings pane appears. 2. In the options panel, click the Mobility link. The Mobility pane appears. Figure 6.30. Mobility pane 3.
6. CPE Management Interface 6.5.4. Configuring WiMAX Radio Parameters On the Radio Settings pane, you can enable and disable WiMAX radio settings. After making changes on the Radio Settings pane, you must reboot the CPE. Procedure 6.31. Setting WiMAX Radio Parameters (Not available for WCS 2.3GHz) 1. Click the WiMAX button. The Scanner Settings pane appears. 2. In the options panel, click the Radio link. The Radio Settings pane appears. Figure 6.31. Radio Settings pane 3.
Appendix A. WiN5100 / WiN5200 Specifications Appendix A. WiN5100 / WiN5200 Specifications Radio and Modem • Frequency (by CPE Model Number) • WiN5124: 1350 MHz to 1525 MHz • WiN5218: 1800 MHz to 1830 MHz • WiN5123/WiN5223: 2305 MHz to 2320 MHz, 2345 MHz to 2360 MHz • WiN5225: 2496 MHz to 2690 MHz • WiN5235: 3300 MHz t0 3800 MHz • Radio Access Method: IEEE802.16-2005 (16e OFDMA) • Operation Mode: TDD • Compatibility: Wave 2 Profile (MIMO) • Channel Bandwidth: 3.
Appendix A.
Appendix B. List of Acronyms Appendix B.
Appendix B.
Appendix B.
Appendix C. RuggedMAX CPE Warranty Appendix C. RuggedMAX CPE Warranty RuggedMAX™ CPEs can be ordered with one (1) year or five (5) year warranty periods. RuggedCom warrants this product for the ordered warranty period from the date of purchase. This product contains no user-serviceable parts. Attempted service by unauthorized personnel shall render all warranties null and void. For warranty details, visit www.RuggedCom.com or contact your customer service representative.