Table of Contents
Advertisement
Quick Links
Advertisement
Table of Contents
Related Manuals for RuggedCom WiN52 Series
Summary of Contents for RuggedCom WiN52 Series
- Page 1 User’s Manual & Installation Guide for: WiN52XX/WiN51XX Series Outdoor CPE...
- Page 2 We have checked the contents of this manual against the hardware and software described. However, deviations from the description cannot be completely ruled out. RuggedCom shall not be liable for any errors or omissions contained herein or for consequential damages in connection with the furnishing, performance, or use of this material.
-
Page 3: Table Of Contents
Table of Contents Introduction......................6 About this Manual........................7 General Description ........................7 1.2.1 Features ..........................8 Package Components and Unpacking .................8 Safety Information ........................8 Product Description ....................11 Introduction ..........................12 IEEE 802.16e Mobile WiMAX Compliance................13 Block Diagram..........................14 Features ............................15 2.4.1 Mobile WiMAX Wave 2 MIMO Features ..............15 2.4.2 Security..........................17 2.4.3 Time Division Duplexing (TDD) ................20 2.4.4 Coding Rate........................20... - Page 4 2.6.4 Scheduling ........................23 Physical Description .......................24 2.7.1 Physical Interfaces Description................24 2.7.2 LED Indication Description..................25 Mounting ......................27 General ............................28 Site Survey..........................28 Pole Mounting ..........................29 Wall Mounting ..........................29 Installation Procedure ..................30 Safety Hazards ........................31 Tools and Cables Required for the Installation ..............31 Installing the WiN5200 ......................31 4.3.1 Pole Mounting ......................32 4.3.2 Wall Mount ........................33...
- Page 5 Appendix A – Product Specification..............51 Appendix B – IDU to ODU Cable Specifications ..........52 List of Acronyms....................54 WiN5200 Table of Contents | 5...
-
Page 6: Introduction
Introduction WiN5200 Introduction | 6... -
Page 7: About This Manual
WiN51XX/WiN52XX 2 products will be referred in this manual as WiN5200 from now The RuggedCom WiN5200 is a member of the Win-Max™ E family, a line of mobile WiMAX broadband wireless access systems based on the 802.16e mobile WiMAX standard. The Win- Max™... -
Page 8: Features
1.2.1 Features • Intelligent WiMAX subscriber unit for wireless triple-play service delivery Outdoor unit with ETH interface to indoor unit • Automatic, self-configured, plug-n-play • Supporting 1.X, 2.X and 3.X GHz bands • Package Components and Unpacking Check that the package contains: WiN52xx ODU with integrated flat antenna Pole/wall mounting hardware In case of damage, contact the shipping company. - Page 9 Any other type of connection/application of the WiN5200 and/or WiN1010 is not allowed. Route all power supply cords so that people cannot walk on them, or place objects on or against them. This can pinch or damage the cords. Servicing Do not open the cover of this product and perform corrective actions unless instructed to do so in the operating instructions.
- Page 10 Changes or modifications to this equipment not expressly approved by the party responsible for compliance (RuggedCom Inc.) could void the user’s authority to operate the equipment. WiN5200 Introduction | 10...
-
Page 11: Product Description
Product Description WiN5200 Product Description | 11... -
Page 12: Introduction
Introduction The WiN5200 ODU CPE is an IEEE 802.16-2005 compliant wireless device for deployment of point-to-multipoint (PMP) and point-to-point (PTP) network architectures . The WiN5200 ODU CPE is an outdoor device. The WiN5200 ODU CPE is WiMAX Forum 802.16e Wave 2 (MIMO) Certified subscribers. Each subscriber registers and establishes a bi- directional data link with the base station sector controller. -
Page 13: Ieee 802.16E Mobile Wimax Compliance
WiN52xx WiN1030-1 WiN70xx WiN1020-1 WiN52xx WiN52xx House WiN1010-1 Figure 2-1: Functional Overview of the CPEs The base station is connected to the head-end over IP Backhaul or via wireless channels. The outdoor CPEs are connected to the base station over wireless channels. The outdoor CPE is connected to the indoor residential gateway over Ethernet or coaxial networks. -
Page 14: Block Diagram
Note The 802.16e standards are subject to amendment, and Win-MaxTM product family design compliance applies to a specific revision of the standard. The Win-MaxTM product family does not support mesh communication (direct subscriber-to-subscriber). Block Diagram The CPE consists of the following modules: 1. -
Page 15: Features
Antenna Base-Band Indoor-Outdoor Cable Figure 2-2: WiN5200 Block Diagram Features 2.4.1 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. - Page 16 using appropriate algorithms, the subscriber terminal is able to separate and decode the parallel simultaneously received data streams. MiMo MiMo Figure 2-3: MiMo Antenna System 2.4.1.1 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 that enhances the signal quality to a specific subscriber located anywhere within the range of the antenna beam.
-
Page 17: Security
characteristics of a subscriber’s particular frequency channel. One such STC technique, known as the Alamouti Code, was published in 1998[4] and has been incorporated into the WiMAX 16e standard. 2.4.2 Security Security was a key failing of older broadband wireless systems of the past. The why of it is easy to comprehend---any network that transmits its data across wireless signals rather than wires is inherently more open to interference, intrusion or assault. - Page 18 signal than the WiMAX network overwhelming network data feeds either in intermittent bursts or with sustained carrier waves. Since most WiMAX network services are delivered over licensed b ands (currently 3.5 GHz internationally and 2.5 GHz both internationally and in the US), this offers spectrum relatively quiet from accidental interference.
- Page 19 Enter the EAP-TLTS authentication method. This technique allows both the subscriber and the base station to authenticate each other using an X.509 method for both, in addition to a subscriber authentication which is based on well-known subscriber authentication techniques such PAP and MS -CHAP. MAC control headers are never encrypted in WiMAX, however with EAP carriers can choose to authenticate them (but they don't necessarily have to).
-
Page 20: Time Division Duplexing (Tdd)
protection, defenses against viruses, backdoor exploits and denial of service attacks to name a few. Some of these elements are almost a business necessity for a wireless service provider and may justify the cost of an additional security suite initially. For other companies, a migration strategy to enhanced tools makes the most cost effective sense. -
Page 21: Convolution Coding Error Correction
2.4.6 Convolution Coding Error Correction Convolution Coding (CC) error correction is enabled for all traffic rates. This low-level process can correct bursts of errors in received messages and reduce the number of retransmissions. Deployment Models The CPE supports point to point (PTP) and point to multipoint (PMP) deployment scenarios. 2.5.1 PTP Deployment When deployed in a PTP configuration the base station establishes a dedicated bidirectional... -
Page 22: Service Flows
The CPE divides the available frequency band into channels. Allocation of channels during deployment is dependent on spectrum availability in the licensed band and local licensing requirements and conditions. Channel selection allows planners to obtain the maximum geographic coverage, while avoiding frequency contention in adjacent sectors. Service Flows Service flows are a key feature of the 802.16e standard. -
Page 23: Default Service Flows
2.6.3 Default Service Flows Default UL/DL service flows are created automatically for each registered subscriber. These service flows are used to pass all traffic not matching any user-defined service flow (such as broadcast ARP) between the base station and subscribers. The default service flow capacity is limited for each subscriber. -
Page 24: Physical Description
Best Effort (BE) The base station schedules transmit opportunities for the subscriber to send traffic based on unused bandwidth after all higher level traffic scheduling requirements are serviced. Typical applications may include Internet access and email. Best effort service flows can be assigned a priority of 0 to 7. -
Page 25: Led Indication Description
Name Description Connector Type ETH + PWR Data and power from WiN1010 RJ-45 Grounding screw Figure 2-5: Interconnection Panel 2.7.2 LED Indication Description The LED indications are located on the bottom panel of the outdoor unit. The CPE has the following LED indications: •... - Page 26 Three bar LEDs are On Green 15dB = SNR < 20dB Four bar LEDs are On Green 20dB = SNR < 24dB Five bar LEDs are On Green SNR = 24dB and RSSI < -75dBm Six bar LEDs are On Green SNR = 24dB and RSSI = -75dBm Seven bar LEDs are On...
-
Page 27: Mounting
Mounting WiN5200 Mounting | 27... -
Page 28: General
It is important to position each CPE at an optimal location and the assignment of its radio channels. Therefore, a site survey becomes an essential first step before physically deploying the RuggedCom solution. Installation of the CPEs requires a backhaul to interface the corporate network or Internet. -
Page 29: Pole Mounting
Pole Mounting Select a mounting location. You can attach the WiN5200 to any pipe or pole with diameter 1.75” to 10”. Wall Mounting Select a mounting location. You can attach the WiN5200 to any wall, Outer wall is preferred (typically on a roof or high location to avoid interference from other buildings or trees). Ensure that the wall mount installation can hold the load of the ODU. -
Page 30: Installation Procedure
Installation Procedure WiN5200 Installation Procedure | 30... -
Page 31: Safety Hazards
Safety Hazards Warning Installing the WiN5200 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 Tools and Cables Required for the Installation WiN5200 Ethernet ODU CPE Requirements: IDU-to-ODU Cat5e Ethernet cable (100m MAX) and two RJ-45 plug connectors... -
Page 32: Pole Mounting
4.3.1 Pole Mounting Figure 4-1: Pole Mounting Follow the steps listed below to install the outdoor device on a pole 1. Select a mounting location on the pole 2. Slide the two adjustable hose clamps along the pole via the holes of the mounting bracket of the outdoor device 3. -
Page 33: Wall Mount
4.3.2 Wall Mount Rear View Front View Figure 4-3: WiN5200 Wall Mount Follow the steps listed below to install the WiN5200 on a wall 1. Select a mounting location on the wall 2. Place the wall mounting bracket on the wall and mark 4 holes (2 on the top and 2 on the bottom) 3. - Page 34 7. Press the screws till they match the inserts 8. Fasten the screws with a screwdriver 9. Use flat screwdriver 10. Insert the WiN5200 so that the wall mounting bracket holes match the holes of the mounting bracket of the device 11.
-
Page 35: Cable Connections
Cable Connections 4.4.1 Installing the WiN1010 data adapter for WiN5200 The WiN 1010 data adapter is used to power the WiN 5200 and to distribute data. The WiN1010 data adapter is a combined data and power adapter that interfaces to the customer’s Outdoor Unit wireless device. - Page 36 Note The Cat5e Ethernet cable is not included. Please refer to "Appendix B – IDU to ODU cable specification" for detailed technical specifications. Connect the WiN 1010 data adapter to a Switch/Router/PC Connect over a Cat 5e cable the Ethernet port of the of the WiN1010 data adapter to a 10/100 Base-T port of a Switch/Router/PC.
- Page 37 Table 4-1: WiN1010 data adapter LED Description WiN1010 data adapter LED Description Name Color Description Green Input power is connected Green LAN link/activity display WLNK Green Wireless link/activity display Table 4-2: ODU I/F port pin-out ODU I/F - RJ-45 Pin # Description ETH Data ETH Data...
-
Page 38: Equipment Configuration And Monitoring
Equipment Configuration and Monitoring WiN5200 Equipment Configuration and Monitoring | 38... -
Page 39: Configuring Win5200 Basic Parameters
Configuring WiN5200 Basic Parameters Note The WiN5200 may be pre-configured in the lab before being sent for installation at the customer’s site. In this case, this section can be skipped. After completing the installation process, the basic parameters must be configured to ensure that the unit operates correctly and can communicate with the base station. - Page 40 4. Use the removeChannelFromScanner command to remove a channel from the scanning procedure. In the id field, enter the ID of the scanned channel (the IDs are shown in the results of the showScanner operation). Figure 5-3: removeChannelfromScanner screen 5. To add a channel for scanning purposes, select the addChannelToScanner command. Figure 5-4: addChannelToScanner screen Enter the bandwidth and the frequency.
-
Page 41: Aligning The Cpe Antenna
Note This field is only valid when the CPE is synchronized with the cBST. 7. Choose the "SS" tab, from the menu on the left hand side of the screen, choose showSs. Press the "CALL" button. Check if the WiN5000/5200 is in OPERATIONAL status. "OPERATIONAL"... -
Page 42: Cpe Antenna Alignment Procedure
5.2.1 CPE Antenna Alignment Procedure • Point the antenna towards the general direction of the Base Station. • Verify that the power indication of the unit is on. • Verify that at least one green LED of the LINK QUALITY bar display is on, indicating that the unit is synchronized with the base station. -
Page 43: Link Indication
Bar LEDs Six bar LEDs are On SNR = 24dB and RSSI = -75dBm Seven bar LEDs are On SNR = 24dB and RSSI = -70dBm Eight bar LEDs are On SNR = 24dB and RSSI = -60dBm Only the 8 LED is On (Most RSSI = -20dBm (saturation) significant) - Page 44 WiN5200 Equipment Configuration and Monitoring | 44...
-
Page 45: Management
Management WiN5200 Management | 45... -
Page 46: General
General The CPEs can be monitored and controlled with a standalone PC or through a management system (WiNMS) using the backhaul interface. The monitoring and control capabilities are similar in both cases but the interface may appear different. This section will detail all the monitoring and control capabilities and then will specify which of them are available through each type of interface. -
Page 47: Web
Figure 6-1: SoftwareUpgrade Screen Fill the FTP server IP address in the HostIpAddress field Fill the directory in which the new SW files are located in the FileDirectory field In this directory there should be <filename>.pkg file Fill in the file name of the .pkg file in the PackageFileName field Fill in the username and password of the FTP server in the appropriate fields Press the "call"... - Page 48 Command Function Notes ShowTxRxparam Conf Shows the Transmit and Receive parameters showscanner Shows the scanning list of channels/frequencies addChannelToScanner Adds a new channel to the scanner removeChannelfromScanner Removes a channel from the scanning list clearScannerChannel Resets all channel scanners showMacUl Shows theMac Uplink configuration showMacDl...
- Page 49 Table 6-3: List of Commands - Tools Command Function Notes showMacAddress Shows the mac address Tools showMSGProtocol showVersion Shows the system version showRegisteredMsg Shows registered Msg showIPAddressTable setIPAddresTable Set and configure subscriber’s IP address showAutorizedManager Shows a list of authorized managers by IP address showAutorizedManager a list of authorized...
- Page 50 Command Function Notes TrapConfig Configure a trap showTrap Shows trap parameters SoftwareUpgrade Shows software upgrade parameters showPkgFiles Shows package file indoemation runMainPkfFile Runs Main Package File Following the download of a new software package this can be set as the main package.
-
Page 51: Snmp Management
SNMP Management There are two MIB types available in the CPE: the standard MIB II (RFC 1213) • the private MIB • Table 6 -4 describes the CPE Managed Parameters . Table 6-4: Subscriber Station Parameters Parameter Description MIB Type Remarks Location site MIB II... - Page 52 WiN5200 Appendix A – Product Specification | 52...
- Page 53 List of Acronyms Radio and Modem: Indoor Unit (ETH) Compatibility: Frequency WiN5125-XX, WiN5225: 2496 MHz WiN1010 Data Adapter to 2690 MHz Configuration and Management: Radio Access Method IEEE802.16-2005 (16e OFDMA) • Local Management Telnet Operation Mode • Compatibility WiN52XX-2: Wave 2 Profile SNMPv2 (MIMO) •...
- Page 54 List of Acronyms WiN5200 Appendix B – IDU to ODU Cable Specifications | 54...
- Page 55 List of Acronyms Appendix B – IDU to ODU Cable Specifications WiN5200 Appendix B – IDU to ODU Cable Specifications | 55...
- Page 56 List of Acronyms WiN5200 List of Acronyms | 56...
- Page 57 List of Acronyms List of Acronyms Authentication Authorization Accounting Advanced Encryption Standard Application-Level Gateway daptive Modulation and Coding Application Programming Interface ARPU Average Revenue Per Unit Access Service Network Application Service Provider ATPC Automatic Transmit Power Control Best Effort BPSK Binary Phase Shift Keying Base Station Broadband Wireless Access...
- Page 58 List of Acronyms FCAPS Functionality Configuration Accountability Performance Security Fast Fourier Transfer File Transfer Protocol FUSC Fully Used Sub-Channelization Foreign Exchange Subscriber Gateway Home Agent HTTP HyperText Transport Protocol Integrated Access Device ICMP Internet Control Message Protocol Indoor Units IEEE Institute of Electronic and Eclectic Engineers IGMP Internet Group Multicast Protocol...
- Page 59 List of Acronyms Multi-Service Gateways Maximum Transmission Unit Multiple Tenant Unit Network Access Provider NAPT Network Address Port Translation NEBS Network Equipment Building System Network Management System NLOS Non-line-of-sight nrtPS Non-Real Time Polling Service Network Service Provider NVoD Near Video on Demand Network Working Group Operations and Maintenance Outdoor Units...
- Page 60 List of Acronyms PSTN Public Switched Telephone Network PUSC Partially used sub-channelization Personal Video Recorder Quadrature Amplitude Modulation Quality of Service QPSK Quadrature Phase Shift Keying Return Channel Radio Frequency Residential Gateway Routing Information Protocol Return of Investment rtPS Real-Time Polling Service Service Flow Session Initiation Protocol Service Level Agreements...
- Page 61 List of Acronyms Universal Resource Locator Universal Serial Bus Video on Demand VoIP Voice over IP Virtual Private Network Wide Area Network WiMAX Worldwide Interoperability for Microwave Access Wireless Local Loop WMAN Wireless Metropolitan Area Networks WiN5200 List of Acronyms | 61...
Need help?
Do you have a question about the WiN52 Series and is the answer not in the manual?
Questions and answers