Siemens Canada WIN5223 WiMax Transceiver;Customer premises equipment(CPE) User Manual Manual

Siemens Canada Limited WiMax Transceiver;Customer premises equipment(CPE) Manual

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RuggedMAX™
WiN5100 / WiN5200
Installation and User Guide
Version 4.2.1 - November 28, 2011
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. All rights are reserved. No part of this document may be
photocopied, reproduced or translated to another language without the prior written consent of RuggedCom Inc.
Disclaimer Of Liability
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.
The information given in this document is reviewed regularly and any necessary corrections will be included in subsequent editions. We appreciate
any suggested improvements. We reserve the right to make technical improvements without notice.
Registered Trademarks
ROX™, RuggedRated™, eRSTP™, RuggedBackbone™, and RuggedMAX™ are trademarks of RuggedCom Inc. RuggedRouter® is a
registered trademark of RuggedCom Inc. Other designations in this manual might be trademarks whose use by third parties for their own purposes
would infringe the rights of the owner.
Linux® is the registered trademark of Linus Torvalds in the U.S. and other countries.
The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on
a world-wide basis.
Warranty
Five (5) years from date of purchase, return to factory. For warranty details, visit www.RuggedCom.com or contact your customer service
representative.
Contacting RuggedCom
Corporate Headquarters
US Headquarters
Europe Headquarters
RuggedCom Inc.
300 Applewood Crescent,
Concord, Ontario
Canada, L4K 5C7
Tel: +1 905 856 5288
Fax: +1 905 856 1995
Toll-free: 1 888 264 0006
RuggedCom
1930 Harrison Street, Suite 209
Hollywood, Florida
USA, 33020
Tel: +1 954 922 7938 ext.103
Fax: +1 954 922 7984
Toll-free: 1 888 264 0006
RuggedCom
Unit 41, Aztec Centre,
Aztec West, Almondsbury, Bristol
United Kingdom BS32 4TD
Tel: +44 1454 203 404
Fax: +44 1454 203 403
Email: RuggedSales@RuggedCom.com
Technical Support
Toll Free (North America): 1 866 922 7975
International: +1 905 856 5288
Email: Support@RuggedCom.com
Web: www.RuggedCom.com
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 ........................................................ 9
1.3. Safety Information ..................................................................................................... 10
1.3.1. RF Exposure .................................................................................................. 10
1.3.2. Lightning Protection ........................................................................................ 10
1.3.3. Power Cord Protection ................................................................................... 10
1.3.4. Servicing ......................................................................................................... 10
1.3.5. Outdoor Grounding System ............................................................................ 10
2. Product Description .............................................................................................................. 11
2.1. IEEE 802.16e Mobile WiMAX Compliance ............................................................... 11
2.2. Block Diagram ........................................................................................................... 11
2.3. Features .................................................................................................................... 13
2.3.1. Mobile WiMAX Wave 2 MIMO Features ........................................................ 13
2.3.2. Deployment Models ........................................................................................ 17
2.3.3. Service Flows ................................................................................................. 18
2.3.4. Physical Description ....................................................................................... 20
2.3.5. Connectors and LED Indicators ..................................................................... 21
2.3.6. LED Indicators .............................................................................................. 23
3. Mounting ............................................................................................................................. 24
3.1. Site Survey ................................................................................................................ 24
3.1.1. Recommended Site Requirements ................................................................. 24
3.1.2. Pole Mounting ................................................................................................ 24
3.1.3. Wall Mounting ................................................................................................. 24
4. Installation Procedure .......................................................................................................... 25
4.1. Safety Hazards .......................................................................................................... 25
4.2. Required Installation Tools ........................................................................................ 25
4.3. Required Cables ....................................................................................................... 25
4.4. Pole Mount Installation .............................................................................................. 26
4.5. Wall Mount Installation .............................................................................................. 27
4.6. Aligning the CPE Antenna ........................................................................................ 28
4.7. Cable Connections .................................................................................................... 29
4.7.1. Weatherproofing ............................................................................................. 29
4.7.2. Assembling the RJ45 Connector .................................................................... 31
4.7.3. Installing the WiN1010 Data Adaptor ............................................................. 34
5. Equipment Configuration and Monitoring ............................................................................. 36
5.1. Connecting to and Logging In to the CPE ................................................................ 36
5.2. Configuring the CPE ................................................................................................. 38
6. CPE Management Interface ................................................................................................. 42
6.1. Using the CPE Management Interface ..................................................................... 42
6.1.1. Configuration Buttons ..................................................................................... 43
6.2. System Management ................................................................................................ 44
6.2.1. Managing System Functions .......................................................................... 44
6.2.2. Changing the CPE Management Interface Password .................................... 45
6.2.3. Remote Management Parameters ................................................................. 46
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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 ......................................................................................
6.3.2. Ethernet Settings ...........................................................................................
6.4. CPE Statistics ...........................................................................................................
6.4.1. General Statistics ..........................................................................................
6.4.2. RF Statistics ..................................................................................................
6.4.3. Network Statistics ..........................................................................................
6.4.4. Service Flow Statistics ..................................................................................
6.5. WiMAX Settings ........................................................................................................
6.5.1. Scanner Settings ............................................................................................
6.5.2. WiMAX Authentication ....................................................................................
6.5.3. Viewing Base Station Information ..................................................................
6.5.4. Configuring WiMAX Radio Parameters ..........................................................
A. WiN5100 / WiN5200 Specifications .....................................................................................
B. List of Acronyms ..................................................................................................................
C. RuggedMAX CPE Warranty ................................................................................................
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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. WiN5200: Top View ..........................................................................................................
2.6. WiN5100 Connectors: AC Version ...................................................................................
2.7. WiN5100 Connectors: DC Version ...................................................................................
2.8. WiN5200 Connectors ........................................................................................................
4.1. Pole Mounting ...................................................................................................................
4.2. WiN5200 Pole Mounted ....................................................................................................
4.3. Wall Mount Rear View ......................................................................................................
4.4. Wall Mount Front View .....................................................................................................
4.5. Wrapping the Connector with Rubber-splicing or Self-amalgamating Tape ......................
4.6. Wrapping the Cable with Rubber-splicing or Self-amalgamating Tape .............................
4.7. Wrapping the Connector with Electrical Tape ...................................................................
4.8. Sealing Gaps with Putty ...................................................................................................
4.9. RJ45 Connector Components and Cable .........................................................................
4.10. Preparing the CPE Cable ...............................................................................................
4.11. CPE Cable Sheathing .....................................................................................................
4.12. Ethernet Port Pinout .......................................................................................................
4.13. Modular Plug Assembly ..................................................................................................
4.14. Crimping the Connector ..................................................................................................
4.15. Assembly of Connector Components .............................................................................
4.16. Connecting the Cable to the CPE ..................................................................................
4.17. Power over Ethernet Connection Schematic ..................................................................
5.1. Windows Local Area Connection Properties dialog ..........................................................
5.2. Windows TCP/IP Properties dialog ...................................................................................
5.3. CPE General Statistics pane ............................................................................................
5.4. Scanner Settings pane .....................................................................................................
5.5. IP Settings pane ...............................................................................................................
5.6. General Statistics pane .....................................................................................................
5.7. Service Flow pane ............................................................................................................
6.1. CPE Management Interface Controls ...............................................................................
6.2. CPE Configuration Buttons ...............................................................................................
6.3. System Functions pane ....................................................................................................
6.4. Change Password for User Admin pane ..........................................................................
6.5. Management Settings pane ..............................................................................................
6.6. Management VLAN pane .................................................................................................
6.7. DSCP Marking pane .........................................................................................................
6.8. SW Properties pane ..........................................................................................................
6.9. SW Download pane ..........................................................................................................
6.10. Primary Bank Components pane ....................................................................................
6.11. Secondary Bank Components pane ...............................................................................
6.12. File Transfer Status pane ...............................................................................................
6.13. SNMPv2c Access Settings pane ....................................................................................
6.14. SNMP MIB2 Settings pane .............................................................................................
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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 .......................................................................................................
MAC Address Table pane ..............................................................................................
MTU pane .......................................................................................................................
General Statistics pane ...................................................................................................
RF pane ..........................................................................................................................
Network pane ..................................................................................................................
Network pane ..................................................................................................................
Scanner Settings pane ...................................................................................................
Authentication Setting pane ............................................................................................
EAP TLS pane ................................................................................................................
EAP TTLS pane ..............................................................................................................
View Certificates pane ....................................................................................................
Mobility pane ...................................................................................................................
Radio Settings pane .......................................................................................................
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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 ..........................................................................................................
4.1. Wall Mount Parts List .......................................................................................................
4.2. Ethernet Port Pinout .........................................................................................................
4.3. WiN1010 Data Adaptor LED Indications ...........................................................................
5.1. Scanner Table fields .........................................................................................................
5.2. IP Settings fields ...............................................................................................................
6.1. Configuration Buttons and Options Pane Links ................................................................
6.2. Management VLAN Fields ................................................................................................
6.3. SW Properties ...................................................................................................................
6.4. Download Parameters .......................................................................................................
6.5. Primary Components Table ..............................................................................................
6.6. Secondary Components Table .........................................................................................
6.7. File Transfer Operation Status table .................................................................................
6.8. SNMPv2c Configuration table ...........................................................................................
6.9. MIB2 System Table ..........................................................................................................
6.10. System Alarms ................................................................................................................
6.11. Alarms Table ...................................................................................................................
6.12. Traps Table .....................................................................................................................
6.13. SNMP Traps List ............................................................................................................
6.14. IP Settings fields .............................................................................................................
6.15. IP Settings fields .............................................................................................................
6.16. IP Settings fields .............................................................................................................
6.17. General Statistics fields ..................................................................................................
6.18. RF Statistics fields ..........................................................................................................
6.19. Network Statistics fields ..................................................................................................
6.20. SS Statistic Table ...........................................................................................................
6.21. Service flow statistics Table ...........................................................................................
6.22. Scanner Table fields .......................................................................................................
6.23. EAP-TTLS Authentication fields ......................................................................................
6.24. Serving BS table .............................................................................................................
6.25. Radio Settings fields .......................................................................................................
B.1. List of Acronyms ...............................................................................................................
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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. This
equipment generates, uses and can radiate radio frequency energy and, if not installed and used in
accordance with the instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference in which
case the user will be required to correct the interference at his own expense.
Caution: Service
This product contains no user-serviceable parts. Attempted service by unauthorized
personnel shall render all warranties null and void.
Changes or modifications not expressly approved by could invalidate specifications,
test results, and agency approvals, and void the user’s authority to operate the
equipment.
Caution: Physical Access
This product should be installed in a restricted access location where access can only
be gained by service personnel or users who have been instructed about the reasons
for the restrictions applied to the location and about any precautions that shall be taken;
and access is through the use of a tool or lock and key, or other means of security,
and is controlled by the authority responsible for the location.
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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. This manual assumes that users have
some experience with WiMAX technologies and procedures.
While some safety precautions are reviewed here, this guide assumes that installers
are trained in safe installation practises. Users who are new to WiMAX technologies
and service procedures should not rely on this guide for comprehensive guidance.
1.1. WiN5100 Package Components and Unpacking
• 1 × WiN5100-series ODU CPE with external antenna connectors
• RF cables - 5m (approximately 16')
• Power cable - 5m (approximately 16')
• Mounting kit
1.2. WiN5200 Package Components and Unpacking
• 1 × WiN5200-series ODU CPE with integrated directional dual slant antenna
• 1 × commercial grade power supply
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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. For maintenance of the CPE ,or
other operations which require RF exposure, the exposure should be minimized in time and according to the regulations set
by the FCC or the regulations relevant to the country of installation.
Install antenna always at distance at least 0.39 m from the people and public area.
1.3.2. Lightning Protection
When the ODU CPE is installed in an outdoor location, all indoor components (Ethernet connections and
power supply) should be connected through a lightning protector.Lightning protection is intended to protect
people and equipment located indoors from lightning that might strike the ODU CPE or its outdoor cables.
The lightning protection device should be installed indoors, as close as possible to the point where the cables enter
the building.
1.3.3. Power Cord Protection
The ODU CPE should always be connected to a supported Power over Ethernet (PoE) injector.
The WiN5100-series and WiN5200-series ODU CPEs are non-standard PoE devices.
Do not attempt to use third-party PoE injectors. The use of any other type of connection
or application of the ODU CPE and/or WiN1010 data adaptor is not permitted.
Route all power supply cords so that people cannot walk on them or place objects on or against them, which can damage the cords.
1.3.4. Servicing
Do not open the ODU CPE cover to perform corrective actions unless instructed to do so in the operating instructions.
1.3.5. Outdoor Grounding System
For the WiN5200, the antenna is an integral part of the CPE.
Verify that the antenna or cable system is grounded. The CPE antenna installation must be as per Article 810 of the NEC.
Of particular note is the requirement that the grounding conductor be not less than 10 AWG (Cu). The grounding scheme
should either be in accordance with UL 96 and 96A Lightning Protection Components and Installation Requirements for
Lightning Protection Systems, or tested in accordance with UL 50 and UL 497.
To reduce the risk of fire, use only 26 AWG or larger telecommunication line cord
between indoor and outdoor units.

1.3.6. Allowed antenna types
For WCS CPE 2.3GHz, to comply with FCC regulations & restrictions, use only outdoor antennas with gain of 16dBi!
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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 802.16-2005 specifications describe a PMP broadband wireless access standard for
systems. This standard includes descriptions for both the Media Access Control (MAC) and the
physical (PHY) layers.
The ODU CPE is compliant to IEEE 802.16-2005 WiMAX forum Wave 2 profile.
The 802.16e standards are subject to amendment and the WiN5100 / WiN5200
product family design compliance applies to a specific revision of the standard. The
WiN5100 / WiN5200 product family does not support mesh communication (direct
subscriber-to-subscriber).
2.2. Block Diagram
The CPE consists of the following modules:
1. Base-Band board: includes the the WiMAX 16e MIMO Base-Band SoC and runs the 16e
MAC + PHY, user interface, and analog front end interface to the RF module.
2. Power Supply board with DC/DC power supply: converts 48 VDC input to the voltages
feeding the Digital and RF modules.
3. RF board: single transmit/dual receive module that modulates the analog WiMAX signal input
from the Base-Band modem to the high frequency RF output. Several RF modules exist, each
supporting a different frequency band.
4. Chassis
5. Antenna or Antennas: dual omni or polarization antennas (WiN5100) or integrated dual
polarization antenna (WiN5200) supporting MIMO schemes.
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2. Product Description
Figure 2.1. WiN5100 CPE Block Diagram: External Antennas
Figure 2.2. WiN5200 CPE Block Diagram: Integrated Antenna
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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. Combining two or more received
signals has the immediate benefit of improving received signal strength, but MIMO also enables
transmission of parallel data streams for greater throughput. For example, in a 2 × 2 MIMO (two
transmit and two receive elements), dual polarization point-to-point system, the carrier’s allocated
frequency can be used twice, effectively doubling the throughput data rate.
In point-to-multipoint systems employing MIMO, each base station antenna transmits a different
data stream and each subscriber terminal receives various components of the transmitted signals
with each of its subscriber antennas. The subscriber terminal is able to algorithmically separate
and decode the parallel simultaneously received data streams.
Figure 2.3. MIMO Antenna System
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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. Although
providing less signal gain than beam-forming, transmit diversity is more robust for mobile users as
it does not require prior knowledge of the path characteristics of a subscriber’s particular frequency
channel. One such STC technique, known as the Alamouti Code, was published in 1998[4] is
incorporated in the WiMAX 16e standard.
2.3.1.2. Security
Security was a key failing of older broadband wireless systems of the past: any network that
transmits its data across wireless signals rather than wires is inherently more open to interference,
intrusion or assault. This does not mean solid broadband wireless security is impossible, just much
more difficult.
As broadband wireless networks have matured security features have improved. With the advent
of WiMAX, the security toolsets available to broadband wireless service providers have reached
high levels of functionality. Today’s WiMAX networks can be secured more effectively than ever
before.
WiMAX and IEEE 802.16 Security Sublayer provides for privacy, authentication and confidentiality
across the broadband wireless network. Defined initially by IEEE 802.16-2004 and then corrected
and amended by Corrigendum 1 and IEEE 802.16e-2005 respectively, the Security Sublayer now
supports fixed and mobile operation.
There are two major differences between the standards. The first difference is that the IEEE
802.16-2004 security mechanism is based on the DOCSIS standard. In 802.16e-2005, many
changes have been made in the security mechanisms. The second difference is in the flexibility
of subscriber station connection characteristics with the base station. IEEE 802.16-2004 only
supports fixed access. In fixed access, a subscriber station cannot migrate to the air interface of
a new base station without re-performing the network entry after a connection termination. IEEE
802.16e-2005 supports mobile access. In mobile access, a subscriber station can move between
base station cells while maintaining the connection.
There are five primary aspects of WiMAX security that should be considered when designing a
security plan for a WiMAX network:
• mitigation techniques at the physical layer
• improved wireless authentication
• encryption
• intrusion protection
• data transport security
Choices in implementation and security levels can be made at each level. However, options are
limited at the physical layer.
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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 3.5 GHz internationally
and 2.5 GHz both internationally and in the United States), and this offers spectrum that is relatively
quiet from accidental interference. Accidental interference in licensed spectrum cannot always be
completely discounted, as there is a possibility of second- and third-harmonic interference waves.
For example, such interference might arise from much lower frequency signals that are in close
proximity to the WiMAX antenna systems, or if such signals cross the WiMAX signal in close
physical proximity and locally overload the WiMAX signal. In practice, however, this is rare.
Packet scrambling is an attack that occurs when control packets in the downlink and uplink
subframes are sniffed, scrambled, and returned to the network. This attack is much harder to
mount than a jamming attack. Since most WiMAX networks today use time division duplexing
(TDD), an attacker can parse this timing sequence to capture control data, preamble, and map.
The attacker can scramble this data and send it back with the correct timing to interrupt the
legitimate signal, resulting in slowdowns and effectively lowered bandwidth. Intercepted and
scrambled packets are also possible with frequency division duplexing (FDD), which transmits
the uplink and downlink simultaneously. However, it is harder to exploit this attack than with TDD
systems.
While it may seem the physical layer is inherently most vulnerable as the security elements of
WiMAX are located at higher layers, the fact is hackers can often find useful exploits higher in
the stack. This is because WiMAX supports multiple authentication selections, and sometimes the
door can be left open by the selected authentication settings.
Authentication
Traditionally, the first level of security authentication for older broadband wireless technologies
has been MAC authentication. WiMAX supports this, although providers should not settle for this
method. MAC authentication allowed service providers to log permitted MAC device addresses
and allow only those addresses to access the network. Hackers long ago figured out how to
spoof these. If a base station is not set up with adequate authentication measures, an attacker
can capture control packets and pose as a legitimate subscriber even with older MAC device
authentication enabled.
A second, newer and much better choice, embraced by the WiN5100 / WiN5200 system, is the
built-in support for X.509 device certificates embedded in the Extensible Authentication ProtocolTransport Layer Security (EAP-TTLS) method. EAP-TTLS is added with the 802.16e standard
and WiMAX Forum.
The EAP-TLTS authentication method 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
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 optionally choose to
authenticate them. This capability adds an additional layer of authentication confirmation.
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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 802.16e supports DES (3DES) and adds
support for the Advanced Encryption Standard (AES), supporting 128-bit, 192-bit and 256-bit
encryption keys. AES also meets the Federal Information Processing Standard (FIPS) 140-2
specification, which is required by numerous governmental branches. This technology, which
requires dedicated processors within base stations, is robust and highly effective.
Traffic encryption may be employed per 802.16 Service Flow and is subject to operator policy.
The relevance of encryption to the network operator deployment is debatable. For example, in the
past, many cellular carriers focused on authentication and mostly ignored encryption. Whether
that will change as mobile service providers ramp up more broadband applications is an open
question.
Authentication and encryption are resource-intensive takes, requiring processor cycles that
may affect system performance. The RuggedMAX™ subscriber stations and base stations
offload these heavy computing tasks from the host processor to a specific circuit, avoiding any
performance degradation due to such processing.
2.3.1.3. Time Division Duplexing (TDD)
The CPE uses time division duplexing (TDD) to transmit and receive on the same RF channel.
This is a non-contention based method for providing an efficient and predictable two-way PTP or
PMP cell deployment. All uplink and downlink transmission scheduling is managed by the base
station. The base station sends data traffic to subscribers, polls for grant requests, and sends
grant acknowledgements based on the total of all traffic to all subscribers.
2.3.1.4. Coding Rate
Each burst of data transmitted over the wireless interface is padded with redundant information,
making it more resistant to potential over-the-air errors. The coding rate is the ratio of user data to
the total data transmitted including the redundant error correction data. The base station supports
coding rates of 1/2, 2/3, and 3/4.
2.3.1.5. Modulation
The modulation technique specifies how the data is coded within the OFDMA carriers. The base
station supports QPSK, 16 Quadarature Amplitude Modulation (QAM), and 64 QAM modulations.
2.3.1.6. Convolution Turbo Coding 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.
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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. PMP Deployment
When deployed in a PMP configuration, the base station establishes bi-directional links to more
than one subscriber. PMP deployments typically use a wide beam (sector) antenna at the base
station and a narrow beam antenna at the subscriber. Service flows are used to police service
level agreements for each subscriber.
2.3.2.3. Non Line-of-Sight
The WiN5100 / WiN5200 product family supports line-of-sight (LOS) and non line-of-sight (NLOS)
operation. A clear LOS link has no obstacles within 60% of the first Fresnel zone of the direct path.
A wireless link is considered non-LOS if natural or man-made structures block the visible path
between the base station and the subscriber. In this case, a wireless link can be established only
if a reflective path can be established between the base station and subscriber.
2.3.2.4. Channelization
The CPE is a frequency-specific system, with the frequency band defined by the PHY unit. The
use of the operating band must be in accordance with local regulation requirements.
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.
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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. This feature allows
segregation of high-speed/high-priority traffic from less time-critical flows.
2.3.3.1. Service Flow Classification
Data packets are forwarded based on classification rules. Classification rules examine each
packet for pattern matches such as destination address, source address, IP TOS, or VLAN tag.
All classification is defined at the base station and the classification parameters are downloaded
to the subscriber.
2.3.3.2. Default Service Flows
Default uplink and downlink 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.
2.3.3.3. Scheduling
The base station enforces QoS settings for each service flow by controlling all uplink and
downlink traffic scheduling. This provides a non-contention based traffic model with predictable
transmission characteristics. By analyzing the total of all requests from all subscribers, the base
station ensures that uplink and downlink traffic conforms to the current service level agreements
(SLAs). Centralized scheduling increases predictability of traffic, eliminates contention, and
provides the maximum opportunity for reducing overhead.
A regular period is scheduled for subscribers to register with the base station. These subscribers
may be newly commissioned or have been deregistered due to service outage or interference
on the wireless interface. This is the only opportunity for multiple subscribers to transmit
simultaneously.
• Real-Time Polling Service (rt-PS)
The base station schedules a continuous regular series of transmit opportunities for the
subscriber to send variable size data packets. The grant size is based on the current data
transfer requirement. Typical applications include streaming MPEG video or VOIP with silence
suppression. This is efficient for applications that have a real-time component and continuously
changing bandwidth requirements.
• Extended Real-Time Polling Service (ert-PS)
The base station schedules a continuous series of transmit opportunities for the subscriber to
send variable size data packets. This schedule supports real-time applications including VoIP
with silence suppression. The dynamically scheduled grants guarantee reserved bandwidth and
reduce latency introduced by repetitive grant requests. The service flow will not transmit packets
larger than the nominal grant interval.
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• 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.
• 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 include Internet access and email. Best effort service flows can be assigned a
priority of 0 to 7.
• Unsolicited Grant Service (UGS)
The base station schedules a continuous series of transmit opportunities for the subscriber
to send fixed size data packets. This schedule supports real-time applications, including VoIP
or TDM transport. The UGS pre-scheduled grants guarantee reserved bandwidth and reduce
latency introduced by repetitive grant requests. The service flow will not transmit packets larger
than the nominal grant interval.
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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
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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
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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
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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.LNK: displays the wireless link indication
• PWR: displays the power status
LED
Color
Description
WLNK is ON
Green
CPE is connected with and
receives services from the base
station; network entry is complete.
WLNK is BLINKING
Green
Link between CPE and base
station is down.
PWR is ON
Green
CPE power is good
RSSI: one LED is ON (least
significant)
Green
5dB # SNR < 10dB
RSSI: two LEDs are ON
Green
10dB # SNR < 15dB
RSSI: three LEDs are ON
Green
15dB # SNR < 20dB
RSSI: four LEDs are ON
Green
20dB # SNR < 24dB
RSSI: five LEDs are ON
Green
SNR # 24dB and RSSI < -75dBm
RSSI: six LEDs are ON
Green
SNR # 24dB and RSSI # -75dBm
RSSI: seven LEDs are ON
Green
SNR # 24dB and RSSI # -70dBm
RSSI: eight LEDs are ON
LEDs 1-7: Green
LED 8: Red
SNR # 24dB and RSSI # -61dBm
RSSI: only the last LED is ON
(most significant)
Red
RSSI # -35dBm (saturation)
Table 2.4. CPE LED Indicators
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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. Therefore, a site survey becomes an essential
first step before physically deploying the WiN5100 / WiN5200 solution.
Installation of the CPEs requires a backhaul connection to interface with the corporate network or
Internet. The backhaul connection can be an Ethernet-wired connection, a wireless–connection,
or a third party solution.
The site survey should include a detailed planning of the WiMAX system deployment. The system
deployment plan should include mounting points and the routes for the power and backhaul cables.
3.1.1. Recommended Site Requirements
It is highly recommended that the WiN5100 / WiN5200 CPEs be mounted near the edge of the roof
of a tall building. The CPEs should be pointed in the direction of the area to be covered. To provide
maximum coverage, multiple CPEs can be installed on the same rooftop. To prevent interference
between the units themselves, it is important to leave some distance between each unit. When
choosing the ideal location, it is also important to take into consideration the overall area topology.
3.1.2. Pole Mounting
You can attach the WiN5100 and WiN5200 to any pipe or pole with a diameter of 1.75" to 10".
3.1.3. Wall Mounting
You can attach the WiN5100 and WiN5200 to any wall capable of carrying the weight of the unit.
An outer wall on a roof or other high location to avoid interference from other buildings or trees
is preferred.
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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 0.39m from the people and public area!
Antenna must be in a fixed position!
Antenna position is not allowed to be changed!
4.2. Required Installation Tools
• Flat screwdriver
• Wrench or socket set
• Drill
• RJ-45 connector crimping tool
4.3. Required Cables
• IDU-to-ODU Category 5e Ethernet cable (maximum 100 m) and two RJ-45 plug connectors
• Ground cable with an appropriate termination
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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.
Locate the CPE on the pole and loop each band clamp around the pole.
4.
Assemble and tighten each band clamp.
Figure 4.2. WiN5200 Pole Mounted
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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.
Item
Quantity
Description
SU16e Top Assembly
SU16e Wall Mount Bracket
Screw Flathead 100 DEG 6-32 × 3/8"
Phillips Fastener
Washer Flat NC 1/4"
Washer Spring NC 1/4"
Screw NC 1/4" × 1/2" hex
Table 4.1. Wall Mount Parts List
Figure 4.3. Wall Mount Rear View
Figure 4.4. Wall Mount Front View
Procedure 4.2. Wall Mounting
1.
Select a mounting location on the wall.
2.
Place the wall mounting bracket on the wall and mark 4 mounting holes.
3.
Drill 4 holes and insert 4 type NC 1/4" fastening inserts into the holes.
4.
Secure the mounting bracket to the wall with 4 type NS 1/4" × 1/2" HEX screws, 4 spring
washers, and 4 flat washers.
5.
Secure the CPE to the mounting bracket with 4 type NC 1/4" × 1/2" HEX screws, 4 spring
washers and 4 flat washers.
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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. If the CPE is not synchronized with the base station, ensure that all parameters
are configured properly. If the CPE is still not synchronized with the base station, improve
link quality by changing the direction of the antenna or by placing the CPE at a higher or
alternate location.
4.
Rotate the CPE until the maximum RSSI link quality reading is achieved. If you encounter
prolonged difficulty in achieving the expected link quality, try to improve the reception quality
by placing the CPE at a higher point or in an alternate location.
Ensure that the front of the antenna is always facing the base station. In some
conditions, such as when the line of sight to the base station is impeded, better
reception may be achieved using a reflected signal. In this case, direct the antenna
towards the reflecting object, rather than towards the base station.
In some cases, the antenna may need to be tilted to ensure that the level at which
the CPE receives transmissions from the base station (and vice versa) is not
too high. When only the last RSSI LED is on, this indicates saturation and that
the received signal level is too high. This must be avoided, preferably by tilting
the antenna upwards. As a rule of thumb, if the CPE is located at a distance of
less than 300 meters from the base station, it is recommended to tilt the antenna
upwards by approximately 10° to 15°.
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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.
We recommend the use of sealing tapes designed for outdoor use:
• 3M™ Scotch® Super 88 Electrical Tape
• Heavy-duty weather-, abrasion-, and UV-resistant rubber splicing tape or self-amalgamating
tape
Rubber mastic putty or duct sealing putty must also be used to complete the weatherproofing
where needed. We do not recommend silicon seal or glue. These materials are difficult to apply
accurately and are difficult to remove. Do not use PVC tape.
Weatherproofing Cable Connections
Most outdoor unit, antenna, or cable problems are caused by coaxial cable connections loosened
by vibration, allowing moisture to penetrate the connector interface. We recommend that all
outdoor unit-to-cable connections be weatherproofed using a procedure similar to the one
described below.
This method of weatherproofing must be completed on all external connections. If surge arrestors
are used, all the associated connections and arrestors must be completely wrapped with splicing
tape or self-amalgamating tape.
Before waterproofing, ensure all connectors are correctly tightened. Ensure the
connector and cables are free of foreign substances such as oil, water, grease,
and dirt. Ensure that the cable extends below the connector to which it is attached,
providing a path for water to follow away from the connected device.
Procedure 4.4. Weatherproofing Cable Connectors
1.
Begin to wrap the rubber-splicing or self-amalgamating tape. Start as close to the equipment
body as possible. Stretch and wind the tape around the connector housing, ensuring there
are no gaps in the tape.
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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. Wrapping the Connector with Electrical Tape
4.
Work mastic putty or duct sealing putty between the connector and the body of the radio or
antenna. Ensure the putty fills any gaps not covered by the tape.
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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. Before beginning, you will need the following items:
• CPE RJ45 Connector Kit
• Category 5e cable of suitable length for your application
• Standard cable splicing tools, including a standard crimp tool
Procedure 4.5. Assembling the CPE RJ45 Connector
1.
Slide the connector parts on to the end of the cable as shown in Figure 4.9, “RJ45 Connector
Components and Cable”.
Figure 4.9. RJ45 Connector Components and Cable
2.
Refer to Figure 4.10, “Preparing the CPE Cable”.
• Strip at least 18mm (0.71 inch) of sheathing from the end of the cable.
• Pull back the cable braiding.
• Remove the inner jacket and foil, leaving 6mm (0.25 inch) of inner jacket and foil.
• Fan the pairs into proper color code and trim the conductors, leaving 12mm (0.47 inch)
extending from the inner jacket.
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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. Ethernet Port Pinout
RuggedMAX™
Description
ETH Data
TP0+
ETH Data
TP0-
ETH Data
TP1+
+55V
TP2+
+55V
TP2-
ETH Data
TP1-
RTN (-)
TP3+
RTN (-)
TP3-
Table 4.2. Ethernet Port Pinout
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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.
Cut the braid pigtails as close to the back of the plug as possible.
8.
Slide the plug housing up the cable and align with the modular plug.
9.
Refer to Figure 4.15, “Assembly of Connector Components”.
• Insert the modular plug into the plug housing.
• Align the latch with the LATCH slot.
• Press the modular plug into the plug housing until it bottoms out.
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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. The WiN1010 data adaptor
unit provides RJ-45 input connectors that include 10/100Base-T transformers for connection to an
IEEE802.3 (10/100Base-T) compatible device. The unit receives power from 100V to 240V AC
using an IEC-320-C14 industry standard connector.
Important:
The power supply AC cord should be 3 wires, 18 AWG minimum, with length less than
4.5 m, and safety certified according to national rules.
A single output RJ-45 connector provides 10/100 Base-T data and power to the
outdoor unit over a Category 5e cable. This cable provides for the bi-directional transfer
of data and signalling as well as a power feed to the outdoor equipment.
The Category 5e Ethernet cable is not included. Refer to "Appendix B – IDU to ODU
cable specification" for detailed technical specifications.
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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.
Connect a Category 5e cable between the WiN1010 data adaptor and a 10/100 Base-T port
of a switch, router, or PC.
3.
Connect the WiN1010 data adaptor to the 110 VAC/220 VAC power source using the cable.
4.7.3.1. WiN1010 Data Adaptor LED Indicators
LEDs on the WiN1010 data adaptor front panel indicate the status of the WiN1010 power supply.
Name
Color
Description
PWR
Green
Input power is connected
LAN
Green
LAN link/activity display
WLNK
Green
Wireless link/activity display
Table 4.3. WiN1010 Data Adaptor LED Indications
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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. Connecting to and Logging In to the CPE
This section describes how to set up the network parameters in Microsoft Windows so you can
connect a computer to the WiN5100 or WiN5200 . For instructions on how to configure the network
parameters for other operating systems, refer to your operating system documentation.
Before beginning, ensure that the CPE is connected to the Power over Ethernet (PoE) power
adaptor and that power is applied.
Procedure 5.1. Connecting a computer to the CPE
1.
Ensure that the PoE adaptor is connected to the base station. Connect the computer’s
Ethernet port to the PoE adaptor’s Ethernet port.
2.
On the computer, click Start and select Control Panel.
3.
In the Control Panel, select Network and Internet Connections.
4.
Select Network Connections and then double-click Local Area Connection. The Local
Area Connections Properties dialog appears with the General tab selected.
Figure 5.1. Windows Local Area Connection Properties dialog
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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://192.168.254.251 in the address field.
The Login window appears. Enter your user name and password and click Log In. The
RuggedMAX™ WiN5100 / WiN5200 management interface appears.
Figure 5.3. CPE General Statistics pane
The default user name is admin and the default password is Axxess. The user
name and password are case sensitive.
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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 5.1, “Connecting to and Logging In to the CPE”.
2.
Click the WiMAX button. The Scanner Settings pane appears.
Figure 5.4. Scanner Settings pane
3.
Review the entries in the Scanner Table and ensure that the CPE is configured to work in
the correct frequency.
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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.
End frequency
[kHz]
Sets the end of the scanning range.
Table 5.1. Scanner Table fields
The frequency and bandwidth should match the base station configuration.
5.
To remove a row from the table, select the row and click the
from the table.
6.
After making changes to the Scanner Settings table, click the Apply button.
7.
To begin transmitting, click the Connect button.
8.
Click the Network button. The IP Settings pane appears.
button. The row is removed
Figure 5.5. IP Settings pane
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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.
RF IP Default GW
Sets the CPE RF network default gateway.
Table 5.2. IP Settings fields
10. Click the Apply button.
11. If you changed the Configured LAN IP Address or Configured LAN Mask fields, reboot
the CPE:
a.
Click the Management button. The System Functions pane appears.
b.
Click the Reboot button. The CPE reboots.
12. Review the CPE statistics and ensure that the CPE is operational. Click the Statistics button.
The General Statistics pane appears.
Figure 5.6. General Statistics pane
13. Confirm that the CPE Status field indicates that the CPE is “Operational”.
14. Review the service flow information and ensure that the service flows are created. Click the
Statistics button and select Service Flow. The Service Flow pane appears.
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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.
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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. To select
a group of configuration options, click a button.
• Options Pane — a set of links providing access to individual configuration panes. To select a
specific configuration pane, click a link.
• Display Pane — displays fields and controls for configuration options and system information
displays.
Figure 6.1. CPE Management Interface Controls
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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.
IP Settings
Ethernet Settings
WiMAX
Access to WiMAX scanner, authentication, mobility, and Scanner Settings
radio settings.
Authentication
Mobility
Radio
Management
Access to general CPE management settings and System Functions
functions.
Remote Management
SW Upgrade
SNMP
Alarms & Traps
Statistics
Displays general CPE, RF, network, and service flow General
statistics.
RF
Network
Service Flow
Table 6.1. Configuration Buttons and Options Pane Links
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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. See Section 6.2.5, “SNMP Administration”.
• manage Alarms & Traps. See Section 6.2.6, “Alarms & Traps”.
6.2.1. Managing System Functions
The System Function pane displays the CPE name and provides general system controls. On
this pane, you can change the CPE password, connect to and disconnect from the base station,
reboot the CPE, log out from the management interface, and restore the CPE to its factory default
settings.
Procedure 6.1. Accessing the System Functions pane
1.
Click the Management button. The System Functions pane appears.
Figure 6.3. System Functions pane
2.
The following operations can be performed from this pane:
• Set the CPE name: The CPE name appears at the top of many of the management
interface panes, identifying the CPE unit as you work with the management interface. In
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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.
• Link Timeout (min): You can change the number of minutes before the Link Watchdog
function times out. In the Link Timeout (min) field, enter the number of minutes and click
the Apply button. The default setting is 15.
• Change the CPE password: You can change the password used to log in to the CPE
management interface. For more information, see Section 6.2.2, “Changing the CPE
Management Interface Password”.
• Connect the CPE to the base station: To begin broadcasting and connect to the base
station, click the Connect button.
• Disconnect the CPE from the base station: To stop broadcasting and disconnect from
the base station, click the Disconnect button.
• Reboot the CPE: To reboot the CPE and run the software in the “Primary” memory bank,
click the Reboot button.
• Log out of the management interface: To log out of the CPE management interface,
click the Logout button.
• Restore the CPE to factory defaults: To restore the CPE to its factory default settings
and reboot the CPE, click the Set Factory Defaults button.
6.2.2. Changing the CPE Management Interface Password
The Change Password for User Admin pane appears when you click the Change Password
button on the System Functions pane. On this pane, you can change the the CPE management
interface password for the user “admin”.
Procedure 6.2. Changing the Admin Password
1.
Click the Management button. The System Functions pane appears.
2.
Click the Change Password button. The Change Password for User Admin pane appears.
Figure 6.4. Change Password for User Admin pane
3.
In the Current Password field, type the current password. The default password is “Axxess”.
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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. Configuring the Management Port
On the Management Port pane, you configure the CPE management port. Note that changing
the management port affects both local and remote management access.
Procedure 6.3. Setting the Management Port
1.
Click the Management button. The System Functions pane appears.
2.
In the options pane, click the Remote Management link. The Management Settings pane
appears.
Figure 6.5. Management Settings pane
3.
In the Management port [1-65535] field, type the port number you want to use for the
management port. The default port is 80.
4.
Click the Apply button.
5.
After changing the Management port [1-65535] field, reboot the CPE:
a.
Click the Management button. The System Functions pane appears.
b.
Click the Reboot button. The CPE reboots.
6.2.3.2. Configuring the Management VLAN
On the Management VLAN pane, you configure the management VLAN options. The options
include the VLAN number and the 802.1p priority value. Outgoing management frames are tagged
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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.
Review and set the management VLAN parameters in the following fields:
Field
Description
VLAN Number
Displays an identifier for the management VLAN. When setting this value, ensure that the
relevant VLAN service is created on the base station and that remote management is enabled.
Values: Any numeric value
Default: 0
802.1p bits [0-7]
Sets the 802.1p priority value for the management VLAN. Type a value from 0 to 7.
Values: A number in the range of 0 to 7
Default: 6
Table 6.2. Management VLAN Fields
4.
Click the Apply button.
6.2.3.3. Configuring DSCP Marking
On the DSCP Marking pane, you configure the Differentiated Services Code Point marking value.
DSCP marking identified outgoing management traffic only.
Procedure 6.5. Setting the DSCP Marking Parameter
1.
Click the Management button. The System Functions pane appears.
2.
In the options panel, click the Remote Management link, and then click the DSCP Marking
link. The DSCP Marking pane appears.
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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. When you reset or
reboot the CPE, it always runs the software installed in the “Primary” bank. The CPE web console
provides controls to change the “Primary” and “Secondary” designations on the memory banks,
and to reboot the CPE using the “Secondary” memory bank for testing. Software saved in one
bank can be copied to the other, allowing you to create backups and to restore or update versions
as required.
This section describes how to manage CPE software versions 4.2 and later, including how to
upload and download files, manage the memory banks and their “Primary” and “Secondary”
designations, and how to backup and restore the operating system.
6.2.4.1. Upgrading CPE Software
For safety and reliability, the CPE software upgrade process consists of the following steps, with
checks and verification at several stages:
1.
Load the new software image to the secondary memory bank:
• Configure the FTP server from which the new software files will be downloaded (see
Section 6.2.4.3, “Downloading CPE Software”):
• Download the software update files to the secondary memory bank (see Section 6.2.4.3,
“Downloading CPE Software”).
• Verify that the downloaded software files have been correctly saved to the secondary
memory bank (see Section 6.2.4.5, “Managing the Secondary Memory Bank”).
2.
Perform a trial run of the new software image:
On the SW Properties pane, click Run Secondary.
The CPE will reset and load the software image in the secondary memory bank. This process
will take approximately two minutes.
3.
Commit the new software image as the new default software:
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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. On this pane, you can reboot the CPE from the secondary bank, set the current bank as
the primary bank, and reboot the CPE.
Procedure 6.6. Viewing software properties
1.
Click the Management button. The System Functions pane appears.
2.
In the options pane, click the SW Upgrade link. The SW Properties pane appears.
Figure 6.8. SW Properties pane
3.
The SW Properties pane displays the following information:
Field
Description
Current Active Bank
Displays the name of the memory bank from which the CPE software is running.
Values: Primary | Secondary
Current SW Location
Displays the number of the memory bank from which the CPE software is running.
Values: 1 | 2
Primary SW Version
Displays the version number of the software in the Primary memory bank.
Primary SW Location
Displays the number of the current Primary memory bank.
Values: 1 | 2
Primary CDC
Displays the filename of the CDC (Customer Defaults Configuration) file in the Primary
memory bank.
Primary UV
Displays the filename of the UV (Unique Value) file in the Primary memory bank.
Secondary SW Version
Displays the version number of the software in the Secondary memory bank.
Secondary SW Location
Displays the number of the memory bank selected as the Secondary memory bank.
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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. It does not include events, such as
setting the primary software image or uploading a file.
Table 6.3. SW Properties
4.
The following operations can be performed from this pane:
• Run Secondary — Reboot the CPE and run the “Secondary” software image. Reboot a
second time to run the CPE using the “Primary” software image.
• Set as Primary — Set the current running software as the “Primary” image. For example,
if the CPE is running from the “Secondary” image, the “Primary” and “Secondary”
designations are exchanged.
• Reboot — Reboot the CPE and run the “Primary” image.
6.2.4.3. Downloading CPE Software
Use the SW Download pane to download CPE software from your FTP server. The CPE
downloads all software to the “Secondary” memory bank.
Procedure 6.7. Downloading software
1.
Click the Management button. The Current Status pane appears.
2.
In the options pane, click the SW Upgrade link, and then click the SW Download link. The
SW Download pane appears.
Figure 6.9. SW Download pane
3.
Set the download parameters in the following fields:
Field
Description
FTP Server IP
Type the IPv4 address for the FTP server from which the CPE software is to be downloaded.
Directory
Type the directory path to the CPE software on the FTP server.
File Type
Select the type of file to download:
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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.
Password
Type the password used to log in to the FTP server.
Table 6.4. Download Parameters
4.
Click the Download button. The CPE downloads the specified file from the FTP server
directory to the “Secondary” memory bank.
6.2.4.4. Managing the Primary Memory Bank
Use the Primary Components pane to manage software in the “Primary” 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 copy files from the “Primary” memory bank to the “Secondary”
memory bank.
Before uploading files to an FTP server, you must configure an FTP server on the SW Download
pane. For instructions on how to configure the FTP server properties, see Section 6.2.4.3,
“Downloading CPE Software”.
Procedure 6.8. Viewing files in the Primary memory bank
1.
Click the Management button. The Current Status pane appears.
2.
In the options pane, click the SW Upgrade link, and then click the Primary Bank link. The
Primary Components pane appears.
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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.
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 Primary Components Table.
• Click the Upload File.
5.
To copy a file to the “Secondary” memory bank:
Before copying the file, ensure that it does not already exist in the “Secondary”
memory bank. If the file is present in the “Secondary” memory bank, delete the
file from the “Secondary” memory bank before copying. For instructions on how to
delete files from the “Secondary” memory bank, see Section 6.2.4.5, “Managing
the Secondary Memory Bank”.
• Select a file from the Primary Components Table.
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• 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.
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”.
Procedure 6.9. Viewing files in the Secondary memory bank
1.
Click the Management button. The Current Status pane appears.
2.
In the options pane, click the SW Upgrade link, and then click the Secondary Bank link. The
Secondary Components pane appears.
Figure 6.11. Secondary Bank Components pane
3.
The Secondary 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 6.6. Secondary Components Table
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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.
To delete all files:
• Click the Delete Directory.
6.2.4.6. File Status
Use the File Transfer Status pane to view the status of upload and download operations between
the CPE and your FTP server. You can also cancel current upload and download operations from
this pane.
Procedure 6.10. Viewing File Transfer Status
1.
Click the Management button. The Current Status pane appears.
2.
In the options pane, click the SW Upgrade link, and then click the Files Status link. The File
Transfer Status pane appears.
Figure 6.12. File Transfer Status pane
3.
From the File Operation Status list, select an operation status:
• OK — displays successfully completed file transfers.
• Not Started — displays requested file transfers that have not yet started.
• In Process — displays file transfers that are currently in progress.
• Failure — displays failed file transfers.
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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.
Status
Displays the status of the file transfer operation.
Values: OK | Not Started | In Process | Failure
Table 6.7. File Transfer Operation Status table
5.
To cancel a download or upload operation that is currently in progress:
• Click the Cancel button.
6.2.5. SNMP Administration
In SNMP administration, you configure SNMP communities, trap destinations, and MIB2 system
identification parameters.
For instructions on setting SNMP communities and trap destinations, see Section 6.2.5.1, “SNMP
Communities and Trap Destination Addresses”.
For instructions on setting the MIB2 system identification information, see Section 6.2.5.2, “MIB2
System”.
6.2.5.1. SNMP Communities and Trap Destination Addresses
On the SNMPv2c Access Settings pane, configure the SNMP communities and set the SNMP
trap destinations. You can specify up to five trap destination addresses.
Procedure 6.11. Setting the SNMPv2c access parameters
1.
Click the Management button. The Management options appear in the options pane.
2.
In the options pane, click the SNMP link, and then click the SNMP Managers link. The
SNMPv2c Access Settings pane appears.
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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.
Default: private
SNMP Trap Community
The SNMP community name to use when the SNMP service receives a request
that does not contain the correct community name and does not match an
accepted host name.
Default: public
Table 6.8. SNMPv2c Configuration table
4.
In the Managers Table, add up to five trap destination addresses:
button. A new row appears in the Managers Table.
a.
Click the
b.
Type an IP address in the new row.
5.
To remove an SNMP trap destination, select a row and click the
selected, clicking the button removes the last entry in the table.
6.
Click the Apply button.
button. If no rows are
6.2.5.2. MIB2 System
The SNMP MIB2 settings provide subscriber station system identification information.
On the SNMP - MIB2 Settings pane, you set the subscriber station contact details, name, and
street address. This pane also displays the read-only SNMP system description, object identifier,
system up time, and system services values.
Procedure 6.12. Setting SNMP MIB2 system identification information
1.
Click the Admin button. The Admin options appear in the options pane.
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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: .1.3.6.1.4.1.15004.2.7.1
sysUpTime
Displays the length of time, in hundredths of a second, since the SNMP subsystem was last
initialized.
Contact Details
Contains subscriber station contact information. Type a name and contact details, such as an
e-mail address, in this field.
Subscriber Station Name
Contains the subscriber station name. Type a descriptive name in this field.
Street Address
Contains the subscriber station street address or location. Type and address or location in this
field.
sysServices
Displays a value indicating the set of services provided by the system. The value 2 indicates
the datalink/subnetwork layer.
Table 6.9. MIB2 System Table
4.
Click the Apply button.
6.2.6. Alarms & Traps
Use the System Alarms and SNMP Trap Settings panes to view system alarms and to configure
SNMP traps.
6.2.6.1. System Alarms
The System Alarms pane displays current system alarms. This pane is read-only; there are no
parameters to set on this pane.
Procedure 6.13. Viewing System Alarms
1.
Click the Management button. The Management options appear in the options pane.
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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.
Review the current alarm settings in the Alarms Table:
Column
Description
ID
Displays the alarm type identification number.
Name
Displays the alarm type. For a list of alarm and trap conditions, see Section 6.2.6.3, “SNMP
Traps List”.
Status
Indicates if the alarm type is enabled or disabled.
Values: Off | On
Severity
Displays the severity of the alarm.
Values: Clear | Critical | Major | Warning
Category
Displays the category for the alarm type.
Values: Restart | Communication | RF | Hardware | Security | Environmental | Redundancy |
Services | Link Status
Last Description
Displays a message describing the alarm.
Last Update Time
Displays the date and time of the most recent alarm.
Table 6.11. Alarms Table
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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.
2.
In the options panel, click the Alarms and Traps link, and then click the Traps link. The
SNMP Trap Settings pane appears.
Figure 6.16. SNMP Trap Settings
3.
In the Traps Table, review and configure the SNMP traps:
Column
Description
Trap ID
Displays the trap identification number.
Trap Name
Displays the trap name.
Activation Mode
Indicates if the trap is enabled or disabled. To enable a trap, select True. To disable a trap,
select False.
Values: True | False
Severity
Displays the severity of the trap condition.
Values: Clear | Critical | Major | Warning
Category
Displays the category of the trap condition.
Values: Restart | Communication | RF | Hardware | Security | Environmental | Redundancy |
Services | Link Status
Description
Displays a description of the trap condition.
Value
Displays the value reported by the SNMP trap.
Table 6.12. Traps Table
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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. SNMP Traps List
Event Name
Description
RestartOK
The subscriber station restarted successfully.
RestartFailure
The subscriber station failed to restart. This
event reports all causes of initialization errors.
WebLoginOK
Web interface login was successful.
WebLogout
Web interface logout.
WebLoginFailed
Web login has failed for 10 consecutive attempts.
EthernetUp
Ethernet link is up.
EthernetDown
Ethernet link is down.
FileOperationsOK
File operations are successful.
FileOperationsFail
File operations failed.
ConfigChanged
Configuration was changed successfully.
DuplicateNsiIp
Duplicate LAN IP address.
DuplicateRfiIp
Duplicate RF IP address.
Table 6.13. SNMP Traps List
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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.
• Use the RF IP address when you access the CPE through the RF network.
Procedure 6.16. Configuring the IP Settings
1.
Click the Network button. The IP Settings pane appears.
Figure 6.17. IP Settings pane
2.
View and configure the LAN and RF IP settings in the following fields:
Field
Description
Current LAN IP Address
Displays the currently configured CPE LAN IP address.
Configured LAN IP Address
To change the LAN IP address, type an IPv4 address in this field. After changing this field, you
must reboot the CPE.
Current LAN Mask
Displays the currently configured LAN netmask.
Configured LAN Mask
To change the LAN mask, type a dotted-decimal mask in this field. After changing this field, you
must reboot the CPE.
RF IP mode
Displays the RF IP mode: Static or DHCP. To change the mode, select a value from the list.
RF IP Address
Displays the RF IP address. To change the address, type an IPv4 address in this field.
RF IP Subnet Mask
Displays the RF IP subnet mask. To change the subnet mask, type a dotted-decimal mask in
this field.
RF IP Default Gateway
Displays the RF default gateway. To change the gateway, type an IPv4 address in this field.
Table 6.14. IP Settings fields
3.
Click the Apply button.
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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 6.3.2.3, “Configuring the MTU”
6.3.2.1. Configuring VLAN Tagging
On the VLAN Tagging pane, you configure the management VLAN options. The options include
the VLAN number and the 802.1p priority value. Outgoing management frames are tagged 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 6.17. Setting the VLAN Tagging Parameters
1.
Click the Network button. The IP Settings pane appears.
2.
In the options panel, click the Ethernet Settings link. The VLAN Tagging pane appears.
Figure 6.18. VLAN Tagging pane
3.
View and configure the LAN and RF IP settings in the following fields:
Field
Description
VLAN ID [1-4094]
Displays an identifier for the management VLAN.
Values: A number in the range of 1 to 4094.
Default: 0
802.1p bits [0-7]
Sets the 802.1p priority value for the management VLAN. Type a value from 0 to 7.
Values: A number in the range of 0 to 7
Default: 0
Table 6.15. IP Settings fields
4.
Click the Apply button.
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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. Managing the the MAC Address Table
1.
Click the Network button. The IP Settings pane appears.
2.
In the options panel, click the Ethernet Settings link, and then click the MAC Address Table
link. The MAC Address Table pane appears.
Figure 6.19. MAC Address Table pane
3.
In the Aging time [300-1800] sec field, set the MAC address aging time. This is the time
until table entries are removed from the MAC address table. Type a value in the range of
300 to 1800 seconds.
4.
The MAC Address Table displays the following information:
Field
Description
Index
Displays a unique identifier for the table entry.
MAC Address
Displays the MAC address of a local or remote node.
VLAN ID
Displays the identifier for the Virtual LAN on which the node is active.
Aging Time [sec]
Displays the time, in seconds, until the entry will be removed from the table.
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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.
After changing the Aging time [300-1800] sec field, click the Apply button.
6.3.2.3. Configuring the MTU
On the MTU pane, you configure the maximum transmission unit. The MTU specifies the size of
the largest data unit, in bytes, that the CPE will transmit. The MTU value includes the L2 header
and cyclic redundancy check (CRC).
Procedure 6.19. Setting the MTU
1.
Click the Network button. The IP Settings pane appears.
2.
In the options panel, click the Ethernet Settings link, and then click the MTU link. The MTU
pane appears.
Figure 6.20. MTU pane
3.
In the MTU [1300-1530] bytes field, set the MTU value. Type a value in the range of 1300
to 1530 bytes. The default value is 1530.
4.
Click the Apply button.
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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. General Statistics
On the the General Statistics pane, you can review general CPE status and information. The
General Statistics pane is read-only; there are no parameters to set on this pane.
Procedure 6.20. Viewing General Statistics
1.
Click the Statistics button. The General Statistics pane appears.
Figure 6.21. General Statistics pane
2.
View the CPE general information in the following fields:
Field
Description
CPE Name
Displays the name of the CPE. This name identifies the CPE on the base station and in the base
station management interface. The name is set on the System Functions pane. For instructions
on how to set the name, see Section 6.2.1, “Managing System Functions”.
MS ID
Displays the mobile station MAC address.
CPE Status
Displays the current CPE status.
Values: Init | DL Synchronization | Handover DL acquisition | UL Acquisition | Ranging |
Handover ranging | Capabilities negotiation | Authorization | Registration | DHCP | TOD | TFTP
| Operational | Sleep | IDLE | Aborted
Up Time
Displays the time since the last CPE start-up.
BS ID
Displays the base station MAC address.
Frequency [kHz]
Displays the CPE broadcast frequency, in kilohertz.
Bandwidth
Displays CPE bandwidth setting.
Values: 3.5MHz | 5MHz | 10MHz
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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. The RF Statistics
pane is read-only; there are no parameters to set on this pane.
Procedure 6.21. Viewing RF Statistics
1.
Click the Statistics button. The General Statistics pane appears.
In the options panel, click the RF link. The RF pane appears.
Figure 6.22. RF pane
2.
View the CPE RF statistics in the following fields:
Field
Description
CPE Status
Displays the current CPE status.
Values: Init | DL Synchronization | Handover DL acquisition | UL Acquisition | Ranging |
Handover ranging | Capabilities negotiation | Authorization | Registration | DHCP | TOD | TFTP
| Operational | Sleep | IDLE | Aborted
DL RSSI
Displays the downlink received signal strength, in dBm.
DL CINR
Displays the downlink carrier to interference and noise ratio, in dBm.
MIMO mode
Displays the CPE Multiple-Input, Multiple-Output mode.
Values: SISO | MIMO A | MIMO B
TX Power [dBm]
Displays the CPE transmission power, in dBm.
UL MCS
Displays the uplink Modulation and Coding Scheme.
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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.
Received bytes
Displays the amount of data received by the CPE, in bytes.
Received packets
Displays the number of packets received by the CPE.
Sent bytes
Displays amount of data sent by the CPE, in bytes.
Sent packets
Displays the number of packets sent by the CPE.
DL rate [Kb/sec]
Displays the downlink rate, in kilobits per second.
UL rate [Kb/sec]
Displays the uplink rate, in kilobits per second.
Table 6.18. RF Statistics fields
6.4.3. Network Statistics
On the the Network pane, you can review LAN and RF network information and statistics. On this
pane, you can clear the network statistics.
Procedure 6.22. Viewing Network Statistics
1.
Click the Statistics button. The General Statistics pane appears.
In the options panel, click the Network link. The Network pane appears.
Figure 6.23. Network pane
2.
View the LAN and RF network information in the following fields:
Field
Description
Current LAN IP Address
Displays the current CPE LAN IP address. Use the LAN IP address when you access the CPE
through a direct connection to its physical Ethernet port.
Current RF IP Address
Displays the current CPE RF IP address. Use the RF IP address when you access the CPE
through the RF network.
RF IP Default GW
Displays the CPE default gateway on the RF network.
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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. SS Statistic Table
4.
To clear the SS Statistics Table, click the Clear statistics button.
6.4.4. Service Flow Statistics
On the the Service Flow pane, you can review service flow statistics for each service flow defined
on the CPE. Each row in the Service flow statistics table displays information for a service flow.
On this pane, you can clear the statistics all of the service flows or for selected service flows.
Procedure 6.23. Viewing Service Flow Statistics
1.
Click the Statistics button. The General Statistics pane appears.
2.
In the options panel, click the Service Flow link. The Service Flow pane appears.
Figure 6.24. Network pane
3.
View the service flow statistics in the Service flow statistics table:
Field
Description
SF Name
Displays the name of the service flow.
Service flow ID
Displays a numeric identifier for the service flow.
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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.
Bytes
Displays the number of bytes handled by the service flow.
Table 6.21. Service flow statistics Table
4.
To clear the statistics for a selected service flow, select the service flow in the Service flow
statistics table and click the Clear SF statistics button.
5.
To clear the statistics for all service flows, click the Clear All button.
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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. Scanner Settings
On the the Scanner Settings pane, you set the CINR (Carrier to Interference + Noise Ratio) value
and define the scanning frequencies for the CPE. The CPE uses this information to scan for and
locate available base stations.
During the scan, the CPE builds a table of detected base stations. If the CPE finds a base station
with a CINR greater than the user-defined threshold, it stops the scan and connects to the base
station immediately. This technique scanning time.
On this pane, you can also start and stop CPE’s scan for base stations.
Procedure 6.24. Working with WiMAX Scanner Settings
1.
Click the WiMAX button. The Scanner Settings pane appears.
Figure 6.25. Scanner Settings pane
2.
The Autoconnect CINR threshold field displays the Carrier to Interference + Noise Ratio
threshold.
3.
The Connect to recent used BS field can be set to connect to a recently used base station.
The default option is No.
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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.
Step [kHz]
Displays scanning increment in the scanning range, in kilohertz.
End frequency [kHz]
Displays the end of the scanning range as a frequency in kilohertz.
Table 6.22. Scanner Table fields
5.
The Scan Report field displays a list of base stations located by the scan. The list includes
the following information for each base station:
• the base station MAC address
• the base station frequency
• the base station bandwidth
• the transmission preamble
• the CINR R1 value
• the RSSI value, in dBm
6.
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.
Set the values for the new scanning range in the Priority, Bandwidth [MHz], Start frequency
[kHz], Step [kHz], and End frequency [kHz] fields.
7.
To remove a row from the table, select the row and click the
from the table.
8.
After adding or editing rows in the Scan Report table, or after changing the values in the
Autoconnect CINR threshold or Connect to recent used BS fields, click the Apply button.
9.
To begin scanning for base stations, click the Connect button.
button. The row is removed
10. To stop scanning for base stations, click the Disconnect button.
11. To delete all scanning configuration information, click the Delete All button.
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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 6.5.2.1, “Viewing the CPE
Authentication Method”.
• configure EAP-TLS authentication. See Section 6.5.2.2, “Configuring EAP-TLS Authentication”.
• configure EAP-TLLS
Authentication”.
authentication.
See
Section
6.5.2.3,
“Configuring
EAP-TTLS
• configure null authentication. See Section 6.5.2.4, “Configuring Null Authentication”.
• view the authentication certificate filenames. See Section 6.5.2.5, “Viewing Authentication
Certificates”.
6.5.2.1. Viewing the CPE Authentication Method
The Authentication Setting pane displays the current CPE WiMAX authentication configuration.
The Authentication Setting pane is read-only; there are no parameters to set on this pane.
Procedure 6.25. Viewing CPE 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 Authentication Method pane, click the Show Settings button. The Authentication
Setting pane appears.
Figure 6.26. Authentication Setting pane
4.
The Configured Authentication field displays the current configuration setting: Null or EAP.
5.
The Outer NAI field displays the outer Network Access Identifier.
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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.
On the The Authentication Method pane, click the Set TLS button. The EAP TLS pane
appears.
Figure 6.27. EAP TLS pane
4.
In the Realm field, type the authentication realm.
5.
After changing the Realm field, reboot the CPE:
a.
Click the Management button. The System Functions pane appears.
b.
Click the Reboot button. The CPE reboots.
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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. The Authentication Method pane
appears.
3.
On the The Authentication Method pane, click the Set TTLS button. The EAP TTLS pane
appears.
Figure 6.28. EAP TTLS pane
4.
Set the EAP-TTLS parameters in the following fields:
Column
Description
Realm
Specify the EAP-TTLS authentication realm.
Username
Specify the EAP-TTLS user name.
Password
Specify the password for the EAP-TTLS user.
Confirm Password
Re-type the password to confirm it.
Table 6.23. EAP-TTLS Authentication fields
5.
Click the Apply button.
6.
After changing and of the fields on the EAP TTLS pane, reboot the CPE:
a.
Click the Management button. The System Functions pane appears.
b.
Click the Reboot button. The CPE reboots.
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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. Viewing Authentication Certificates
You can view the authentication certificate filenames on the View Certificates pane. The View
Certificates pane is read-only; there are no parameters to set on this pane.
Procedure 6.29. Viewing Authentication Certificate Filenames
1.
Click the WiMAX button. The Scanner Settings pane appears.
2.
In the options panel, click the Authentication link and then click the View Certificates link.
The View Certificates pane appears.
Figure 6.29. View Certificates pane
3.
The fields on the View Certificates pane list the filenames for the Device Certificate, the
Device Private Key, the CA Certificate, and the Random See file.
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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.
The Serving BS table displays information about the base station to which the CPE is
connected:
Column
Description
BSID
Displays the MAC address of the base station to which the CPE is connected.
Preamble Index
Displays the base station’s preamble index.
Frequency
Displays the frequency (According to CPE's frequency band).
DL RSSI
Displays the downlink RSSI (Received Signal Strength Indication).
UL RSSI
Displays the uplink RSSI (Received Signal Strength Indication).
Table 6.24. Serving BS table
4.
The Scanned Neighbor BS list table displays information about neighboring base stations
detected by the CPE. This table displays the same information for neighboring base stations
as that shown in Table 6.24, “Serving BS table”.
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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.
Set the following WiMAX radio options:
Column
Maximum
Enhanced
Description
Tx
Power Displays the setting for transmission power enhancement. When On, transmission power is
enhanced. When Off, transmission power is not enhanced. The default setting is Off.
Values: On | Off
Boost on CDMA Contention
Determines if transmission power is boosted on CDMA (Code Division Multiple Accessbase)
contention. When On, transmission power is boosted when another station competes for
the same bandwidth. When Off, transmission power is not boosted when the CPE detects
contention. The default value is Off.
Values: On | Off
Table 6.25. Radio Settings fields
4.
After making changes, click the Apply button.
5.
After changing the Maximum Tx Power Enhanced or Boost on CDMA Contention fields,
reboot the CPE:
a.
Click the Management button. The System Functions pane appears.
b.
Click the Reboot button. The CPE reboots.
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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: 3.5 MHz, 5 MHz, 7MHz (not available for WiN5123/WiN5223), 10 MHz
• Frequency Resolution: 0.25 MHz
• Antenna Support: Integrated Dual Slant Antenna
• Antenna Diversity Support: STC / MRC / MIMO
• Output Power (average): 24 dBm +/-1 dB
(Note: for WCS CPE 2.3GHz the output power is 18 dBm, fixed)
• TPC: 54 dB
• FFT / Modulation: 1024 / 512 FFT points; QPSK, 16 QAM, 64 QAM
• FEC: Convolutional Turbo Code
• Dynamic Range:
• RX: -100 dBm : -20 dBm
• TX: -30 dBm : +24 dBm
Data Communication (Through Indoor Unit)
• Ethernet Standard Compliance: IEEE 802.3 CSMA/CD
• Ethernet Port: 10/100 Mbps, Half / Full Duplex with Auto Negotiation
• Traffic Classification:
• DSCP/IP TOS Field
• IP Protocol / Next Header Field
• IP Masked Source Address
• IP Destination Address
• Protocol Source Port Range
• Protocol Destination Port Range
• Source MAC Address (SA Mode)
• Destionation MAC Address (SA Mode)
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Appendix A. WiN5100 / WiN5200
Specifications
• VLAN ID (SA Mode)
• Ethertype (SA Mode)
• Max User Throughput:
• DL: 20 Mbps
• UL: 10 Mbps
Indoor Unit (ETH) Compatibility:
• WiN1010: Data Adaptor
• RP100: RuggedPower Injector supporting 10-60VDC or 88-300VDC or 85-264VAC
• RP110: Supporting embedded serial protocols
Configuration and Management
• Local Management: Telnet, Web Browser
• Remote Management: SNMP Agent
• Authentication: EAP-TTLS, Device, X509 digital certificate
• Software Upgrade: FTP
• Remote Configuration: FTP
Mechanical, Electrical, and Envionmental
• Dimensions (without antenna): 224 mm × 92 mm × 61 mm
• Weight: 1.5 kg
• Power Source: 48 VDC from the indoor unit over the indoor-outdoor cable
• Power Consumption: 8 W typical
• Operating Temperature: -40°C to +75°C
• Operating Humidity: 5% to 95% non-condensing
Standards Compliance
• EMC:
• FCC Part 15, Subpart B, Class B
• ETSI EN 301489-1/4
• Safety:
• TUV-UL 60950-1
• EN 60950-1
• Radio:
• FCC Part 27
• FCC Part 90
• ETSI EN 302 326-1/2/3
• Environmental: ETS 300 019
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Appendix B. List of Acronyms
Appendix B. List of Acronyms
Acronym
Description
AAA
Authentication Authorization Accounting
AES
Advanced Encryption Standard
ALG
Application-Level Gateway
AMC
Adaptive Modulation and Coding
API
Application Programming Interface
ARPU
Average Revenue Per Unit
ASN
Access Service Network
ASP
Application Service Provider
ATPC
Automatic Transmit Power Control
BE
Best Effort
BPSK
Binary Phase Shift Keying
BST
Base Station
BWA
Broadband Wireless Access
CAPEX
Capital Expenditure
CBST
Compact Base Station
CINR
Carrier to Interference + Noise Ratio
CPE
Customer Premise Equipment
DES
Data Encryption Standard
DHCP
Dynamic Host Configuration Protocol
DMZ
Demilitarized Zone
DNS
Domain Name System
DSL
Digital Subscriber Line
DSLAM
Digital Subscriber Line Multiplexer
DVB
Digital Video Broadcast
EAP
Extensible Authentication Protocol
ErtPS
Extended Real-Time Polling Service
FCAPS
Functionality Configuration Accountability Performance Security
FFT
Fast Fourier Transfer
FTP
File Transfer Protocol
FUSC
Fully Used Sub-Channelization
FXS
Foreign Exchange Subscriber
GW
Gateway
HA
Home Agent
HTTP
HyperText Transport Protocol
IAD
Integrated Access Device
ICMP
Internet Control Message Protocol
IDU
Indoor Units
IEEE
Institute of Electronic and Eclectic Engineers
IGMP
Internet Group Multicast Protocol
IMS
IP Multimedia System
IOS
Internetwork Operating System
IP
Internet Protocol
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Appendix B. List of Acronyms
Acronym
Description
IPSec
IP Security
LAN
Local Area Network
LOS
Line-of-sight
MAC
Media Access Control
MAI
Multiple Access Interference
MAN
Metropolitan Area Network
MCS
Modulation and Coding Scheme
MGCP
Media Gateway Control Protocol
MIMO
Multiple-Input, Multiple-Output
MIP
Mobile IP
MOS4
Mean Opinion Score (voice quality 1-5)
MOS5
Mean Opinion Score (voice quality 1-5)
MS
Mobile Station
MSG
Multi-Service Gateways
MTU
Maximum Transmission Unit
MTU
Multiple Tenant Unit
NAI
Network Access Identifier
NAP
Network Access Provider
NAPT
Network Address Port Translation
NEBS
Network Equipment Building System
NMS
Network Management System
NLOS
Non-line-of-sight
nrtPS
Non-Real Time Polling Service
NSP
Network Service Provider
NVoD
Near Video on Demand
NWG
Network Working Group
OAM
Operations and Maintenance
ODU
Outdoor Units
OEM
Original Equipment Manufacturer
OFDM
Orthogonal Frequency Division Multiplexing
OFDMA
Orthogonal frequency division multiple access
OPEX
Operational Expenditure
P-CSCF
Proxy - Call Session Control Function
PDA
Personal Digital Assistant
PDF
Portable File Format
PMIP
Proxy Media IP
POP
Point of Presence
POP3
Post Office Protocol 3
POTS
Plain Old Telephony System
PPP
Point-to-Point Protocol
PPTP
Point-to-Point Tunneling Protocol
PSK
Phase Shift Keying
PSTN
Public Switched Telephone Network
PUSC
Partially used sub-channelization
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Appendix B. List of Acronyms
Acronym
Description
PVR
Personal Video Recorder
QAM
Quadrature Amplitude Modulation
QoS
Quality of Service
QPSK
Quadrature Phase Shift Keying
RC
Return Channel
RF
Radio Frequency
RG
Residential Gateway
RIP
Routing Information Protocol
ROI
Return of Investment
RSSI
Received Signal Strength Indication
rtPS
Real-Time Polling Service
SF
Service Flow
SIP
Session Initiation Protocol
SLA
Service Level Agreements
SNMP
Simple Network Management Protocol
S-OFDMA
Scalable Orthogonal frequency division multiple access
SOHO
Small Office/Home Office
SS
Subscribers
STB
Set Top Box
STC
Space-time coding
SU
Subscriber Unit
TCP
Transmission Control Protocol
TDD
Test Driven Design
TFTP
Trivial File Transfer Protocol
TMN
Telecommunication Management Sysytem
UDP
User Datagram Protocol
UGS
Unsolicited Grant Service
URL
Universal Resource Locator
USB
Universal Serial Bus
VoD
Video on Demand
VoIP
Voice over IP
VPN
Virtual Private Network
WAN
Wide Area Network
WiMAX
Worldwide Interoperability for Microwave Access
RuggedMAX
WiNetworks WiMAX Product Family
WiNMS
WiNetworks Network Management System
WLL
Wireless Local Loop
WMAN
Wireless Metropolitan Area Networks
Table B.1. List of Acronyms
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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.
Should this product require service, contact the factory at:
RuggedCom Inc.
300 Applewood Crescent
Concord, Ontario
Canada L4K 5C7
Phone: +1 905 856 5288
Fax: +1 905 856 1995
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