all | frequencies |
|
exhibits | applications |
---|---|---|---|---|
manual |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
Manual | Users Manual | 626.71 KiB | ||||
1 | Block Diagram | |||||||
1 | Cover Letter(s) | |||||||
1 | Cover Letter(s) | |||||||
1 | External Photos | |||||||
1 | Internal Photos | |||||||
1 | Internal Photos | |||||||
1 | Internal Photos | |||||||
1 | ID Label/Location Info | |||||||
1 | Operational Description | |||||||
1 | RF Exposure Info | |||||||
1 | Cover Letter(s) | |||||||
1 | Test Report | |||||||
1 | Test Report | |||||||
1 | Test Report | |||||||
1 | Test Setup Photos |
1 | Manual | Users Manual | 626.71 KiB |
EUM3005 Installation Guide APCD-LM047-1.1
Copyright 2005 by WaveRider Communications Inc. You may copy and/or print as many copies of this manual as you wish, as long as the software license agreement and this copyright statement are included. Release 1.1, March 2005 The following are trademarks or registered trademarks of their respective companies or organi-
zations:
Windows XP/Microsoft Windows 2000/Microsoft APCD-LM047-1.1 ii Software License Agreement This is a legal agreement between you (either an individual or an entity) and WaveRider Communica-
tions Inc. for the use of WaveRider computer software, hereinafter the LICENSED SOFTWARE. By using the LICENSED SOFTWARE installed in this product, you acknowledge that you have read this license agreement, understand it, and agree to be bound by its terms. You further agree that it is the full and complete agreement between you and WaveRider Communications Inc., superseding all prior written or verbal agreements of any kind related to the LICENSED SOFTWARE. If you do not understand or do not agree to the terms of this agreement, you will cease using the LICENSED SOFTWARE immediately. 1. GRANT OF LICENSEThis License Agreement permits you to use one copy of the LICENSED SOFTWARE. 2. COPYRIGHTThe LICENSED SOFTWARE is owned by WaveRider Communications Inc. and is protected by copyright laws and international treaty provisions; therefore, you must treat the LICENSED SOFTWARE like any other copyrighted material (e.g., a book or magazine). 3. LIMITS OF FEATURE AVAILABILITYThe LICENSED SOFTWARE is sold with limitations as to certain feature availability and use. These limits are governed by the terms of the purchase agreement. Any actions resulting in the exceeding of these limits is not permitted, and can result in unpredictable performance. 4. OTHER RESTRICTIONSYou may not rent or lease the LICENSED SOFTWARE. You may not reverse engineer, decompile, or disassemble the LICENSED SOFTWARE. 5. LIMITED WARRANTYThe LICENSED SOFTWARE is provided as is without any warranty of any kind, either expressed or implied, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. The entire risk as to the quality and performance of the LICENSED SOFTWARE is with you, the licensee. If the LICENSED SOFTWARE is defective, you assume the risk and liability for the entire cost of all necessary repair, service, or correction. Some states/jurisdictions do not allow the exclusion of implied warranties, so the above exclusion may not apply to you. This warranty gives you specific legal rights, and you may have other rights, which vary from state/jurisdiction to state/
jurisdiction. WaveRider Communications Inc. does not warrant that the functions contained in the LICENSED SOFTWARE will meet your requirements, or that the operation of the LICENSED SOFTWARE will be error-free or uninterrupted. 6. NO OTHER WARRANTIESTo the maximum extent permitted by applicable law, WaveRider Communications Inc. disclaims all other warranties, either express or implied, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose, with regard to the LICENSED SOFTWARE and the accompanying written materials. 7. NO LIABILITY FOR CONSEQUENTIAL DAMAGESTo the maximum extent permitted by applicable law, in no event shall WaveRider Communications Inc. or its suppliers be liable for any damages whatsoever (including, without limitation, damages for loss of business profits, business interruption, loss of business information, or any other pecuniary loss) arising from the use of or inability to use the LICENSED SOFTWARE, even if WaveRider Communications Inc. has been advised of the possibility of such damages, or for any claim by any other party. Because some states/jurisdictions do not allow the exclusion or limitation of liability for consequential or incidental damages, the above limitation may not apply to you. In no event will WaveRiders liability exceed the amount paid for the LICENSED SOFTWARE. iii APCD-LM047-1.1 Warranty
In the following warranty text, WaveRider shall mean WaveRider Communications Inc. This WaveRider product is warranted against defects in material and workmanship for a period of one (1) year from the date of purchase. During this warranty period WaveRider will, at its option, either repair or replace products that prove to be defective. For warranty service or repair, the product must be returned to a service facility designated by WaveRider. Authorization to return products must be obtained prior to shipment. The WaveR-
ider RMA number must be on the shipping documentation so that the service facility will accept the product. The buyer shall pay all shipping charges to WaveRider and WaveRider shall pay shipping charges to return the product to the buyer within Canada or the USA. For all other countries, the buyer shall pay shipping charges as well as duties and taxes incurred in shipping products to or from WaveRider. WaveRider warrants that the firmware designed by it for use with the unit will execute its pro-
gramming instructions when properly installed on the unit. WaveRider does not warrant that the operation of the unit or firmware will be uninterrupted or error-free. Limitation of Warranty The foregoing warranty shall not apply to defects resulting from improper or inadequate mainte-
nance by the buyer, buyer-supplied interfacing, unauthorized modification or misuse, operation outside the environmental specifications for the product, or improper site preparation or mainte-
nance. No other warranty is expressed or implied. WaveRider specifically disclaims the implied warranties of merchantability and fitness for any particular purpose. No Liability for Consequential Damages To the maximum extent permitted by applicable law, in no event shall WaveRider or its suppliers be liable for any damages whatsoever (including, without limitation, damages for loss of busi-
ness profits, business interruption, loss of business information, or any other pecuniary loss) arising from the use of or inability to use the product, even if WaveRider has been advised of the possibility of such damages, or for any claim by any other party. Because some states/jurisdictions do not allow the exclusion or limitation of liability for conse-
quential or incidental damages, the above limitation may not apply to you. In no event will WaveRiders liability exceed the amount paid for the product. Regulatory Notices This equipment has been tested and found to comply with the limits for a Class B Intentional Radiator, pursuant to Part 15 of the FCC Regulations. These limits are intended to provide pro-
tection against harmful interference when the equipment is operated in a residential environ-
ment. 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. However, there is no guarantee that interference will not occur in a particular installation. Notice to User Any changes or modifications to equipment that are not expressly approved by WaveRider may void the users authority to operate the equipment. APCD-LM047-1.1 iv Contents
. vi Figures . vii Tables . viii Preface . ix 1 Introduction . 1 1.1 Document Scope . 1 1.2 EUM3005 Features. 2 1.3 EUM3005 - End-user Modem or Customer Premises Equipment . 4 1.3.1 Key Components . 4 1.3.2 EUM3005 Active Diversity Indoor Antenna . 5 1.3.3 Ethernet Port . 6 1.3.4 Power Supply . 6 1.4 Indicators and Connectors . 7 1.4.1 Ethernet LEDs . 7 1.4.2 Radio LED . 8 2 Setup Menu . 9 2.1 Accessing the Setup Menu . 9 2.2 Setup Menu. 10 2.3 Radio Link Status Display . 10 2.4 Troubleshooting Information Display . 12 3 Installation . 15 3.1 Installation Checklist . 15 3.2 Pre-Installation Steps . 16 3.2.1 Network and EUM3005 Configuration . 16 3.2.2 Verifying the EUM3005 Components . 17 3.2.3 End-Users PC . 17 3.3 Installation Steps. 17 3.3.1 Locating the EUM3005 . 18 3.3.2 Mounting and Orienting the EUM3005 Antenna . 18 3.3.3 Connecting the End-Users PC . 18 3.3.4 Testing the Data Link . 19 3.4 Post-Installation . 23 Appendix A Factory Configuration . 25 Appendix B Ethernet Cables and Connectors . 27 APCD-LM047-1.1 v APCD-LM047-1.1 vi Figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 EUM3005 Indoor Modem . 3 WaveRider Indoor Antenna with Switched-beam Diversity . 5 WaveRider Switched-beam Diversity Antenna Beam Patterns . 6 EUM3005 LEDs and Connectors . 7 T568A Wiring . 29 T568B Wiring . 29 APCD-LM047-1.1 vii Tables Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Ethernet LEDs . 7 Radio LED . 8 Signal Strength Figure of Merit . 12 Signal Quality Figure of Merit . 12 Pre-Installation Stage Checklist . 15 Installation Stage Checklist . 16 Ethernet Interface Specifications . 28 Wiring T568A and T568B ends for Ethernet Cables . 28 APCD-LM047-1.1 viii
Preface Conventions The following conventions are used throughout this document:
WARNING!
Whenever you see this icon and heading, the associated text addresses or discusses a critical safety or regulatory issue. CAUTION: Whenever you see this icon and heading, the associated text discusses an issue, which, if not followed, could result in damage to, or improper use of, the equipment or software. TIP: Whenever you see this icon and heading, the associated text provides a tip for facilitating the installation, testing, or operation of the equipment or software. Regulatory Notices This device has been designed to operate with its indoor active diversity antenna only. This device has been tested using unshielded Ethernet CAT-5 cable. Industry Canada The IC Certification Number for the EUM3005 (Cdn) is 3225B-EUM3003. Operators must be familiar with IC RSS-210 and RSS-102. The EUM3005 (Cdn) has been designed and manufactured to comply with IC RSS-210 and RSS-102. Due to different regulatory requirements, the EUM3005 (Cdn) outputs about 1.5 dB less power than the EUM3005 and is to be used in Canada. The EUM3005 (Cdn) is labelled clearly as such. An EUM3005 (Cdn) can be used in the US, since it has lower power than the FCC requirements. However, an EUM3005 cannot be used in Canada due to its higher output power. APCD-LM047-1.1 ix
Federal Communications Commission The EUM3005 has been designed and manufactured to comply with FCC Part 15. Operators must be familiar with the requirements of the FCC Part 15 Regulations prior to operating any link using this equipment. For installations outside the United States, contact local authorities for applicable regulations. The FCC ID for the EUM3005 equipment is OOX-EUM3005. The transmitter of this device complies with Part 15.247 of the FCC Rules. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
--Reorient or relocate the receiving antenna.
--Increase the separation between the equipment and receiver.
--Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
--Consult the dealer or an experienced radio/TV technician for help. Interference Environment Operation is subject to the following conditions:
This device may not cause harmful interference and, This device must accept any interference received, including interference that might cause undesired operation. Operational Requirements In accordance with the FCC Part 15 regulations:
1. The maximum average power output of the intentional radiator shall not exceed one (1) watt (30 dBm) for all spread spectrum systems operating in the 902 to 928MHz band. 2. Stations operating in the 902 to 928MHz band may use transmitting antennas of directional gain greater than 6dBi, provided the average output power from the intentional radiator is reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. 3. The operator of a spread spectrum system and the user of the radio device are each responsible for ensuring that the system is operated in the manner outlined in Interference Environment on page x. APCD-LM047-1.1 x The EUM3005 with its indoor diverstiy antenna complies with these requirements, since the maximum average transmitting power is 24.4 dBm measured at the antenna port . This is 5.6 dB below the maximum allowed, so the active diversity indoor antenna system with its 4.4 dBi gain, including the loss in the captive RF cable, is allowed.
Warnings and Advisories General Advisory Installers, operators and maintenance personnel must be familiar with the related safety requirements before they attempt to install or operate the EUM3005. It is the responsibility of the operator to ensure that the public is not exposed to excessive Radio Frequency (RF) levels. The applicable regulations can be obtained from local authorities. WARNING!
To comply with FCC RF exposure limits, the EUM3005 must be fix-mounted indoors to provide a separation distance of 20cm (8 inches) or more from all persons to satisfy RF exposure requirements. The distance is measured from the nearest point of the modem to the human body. It is recommended that the modem be installed in a location with minimal pathway disruption by nearby personnel. Important Safeguards WARNING!
CAUTION: To reduce risk of electrical shock, do not remove covers, since there are no user-serviceable parts inside. Refer servicing to qualified personnel. 1. Read all these instructions before installing and operating the EUM3005. 2. Retain these instructions for future reference. 3. Heed all warnings on the EUM3005 and in these instructions. 4. Follow all instructions. 5. Do not use EUM3005 and power supply near water. 6. Unplug EUM3005 and power supply from the wall outlet before cleaning. Clean only with a damp cloth. 7. Use only attachments recommended by WaveRider. APCD-LM047-1.1 xi
8. The slots and vents in the housing protect the EUM3005 from overheating to ensure reliable operations. Do not cover the EUM3005 and power supply. Do not place the EUM3005 or power supply near or over a radiator, stove, heat register or other source of heat. Do not place the EUM3005 and power supply in a built-in installation such as a bookcase or rack unless proper ventilation is provided. 9. Operate the EUM3005 only from a 4.2 VDC power supply. This is a custom power supply. Using other AC/DC converters, even 4.5 VDC converters, can result in damage to the EUM3005. 10. Operate the power supply only from a 100 - 250 VAC, single phase, 47-63 Hz AC power source. The power supply is rated for indoor use only. 11. The power supply may be equipped with a 3-wire grounding-type plug, which will only fit into a grounding-type power outlet. This is a safety feature. If you are unable to insert the plug into the outlet, contact an electrician to replace your obsolete outlet. Do not defeat the purpose of the grounding-type plug. 12. Route the AC Power-supply cord, Ethernet cable and Antenna cable so that they are not likely to be walked on or pinched by items placed upon or against them, paying particular attention to cord and cables at their plugs, convenience receptacles and the points where the cords exit the equipment. 13. Provide strain relief for cables near their connections. This is typically done by leaving a loop in the cable near the connection. 14. Do not locate the EUM3005 in the vicinity of power lines or other electric light or power circuits, or where it can fall onto such power lines or circuits. 15. For added protection during a lightning storm, or when it is left unattended and unused for long periods of time, unplug the power supply to the EUM3005 and unplug the power supply from the wall outlet. This will power down the EUM3005. 16. Do not overload wall outlets and extension cords as this increases the risk of fire or electric shock. 17. Never push objects of any kind through openings in this wireless product as they may short-out parts that could result in a fire or electric shock. Never spill liquid of any kind on the power supply. The EUM3005 is an indoor unit. It is not submersible nor is it immune to liquids. 18. Do not attempt to service this wireless product yourself. Refer all servicing to qualified service personnel. 19. Unplug power supply from the wall outlet and refer servicing to qualified service personnel under the following conditions:
When the power supply cord or plug is damaged. If liquid has been spilled or objects have fallen into these products. If the power supply or modem have been exposed to rain or water. If the EUM3005 does not operate normally for an extended period of time when following the operating instructions. Note that it is possible that Internet traffic can be slow even under normal operations due to network congestion and radio interference and fading and not as result of problems with the EUM3005. When the EUM3005 or power supply exhibit distinct changes in performance. This may indicate a need for service. APCD-LM047-1.1 xii
20. When replacement parts are required, be sure the service technician has used replacement parts specified by the WaveRider or with the same characteristics as the original part. Improper substitutions may result in fire, electric shock or other hazards. 21. Upon completion of any service or repairs to this wireless product, ask the service technician to perform safety checks to determine that the wireless product is in proper operating condition. 22. Install the EUM3005 in compliance with local and national electrical codes. The following are the national codes. The installer is responsible for knowing the appropriate local codes. In the United States, use the National Electrical Code (NEC);
In Canada, use the Canadian Electrical Code, Part 1, CSA C22.1;
In other countries, use International Electrotechnical Commission (IEC) 364, part 1 through 7. APCD-LM047-1.1 xiii Revision History
Date Revision Description May 2004 Mar. 2005 Mar. 2005 0.1 1.0 1.1 Initial Version for lower power Increased power due to FCC changes, update for new Software Minor edits to correct procedures Customer Support An extensive knowledge base is available at support.waverider.com. WaveRider offers a complete training program. Please contact your sales representative for training information. WaveRider also offers priority telephone and email support. Please contact your sales representative for details. APCD-LM047-1.1 xiv 1 Introduction The LMS4000 900 MHz Radio Network provides wireless high-speed Internet connectivity to business, SOHO (small office, home office) and residential customers. LMS4000 operates in a point-to-multipoint configuration, with one base station efficiently serving many subscriber stations. LMS4000 transmission is based on a high-performance MAC protocol, and industry-
standard IP routing and Ethernet switching technology. No radio license is required, since LMS4000 operates in the 900 MHz ISM band. LMS4000 can deliver Internet service over long ranges and often where the radio paths between the base station and subscribers are partially or even totally obscured, that is, non-line-of-sight. Connection between the end-users computer and the subscriber station is through an Ethernet port. The EUM3005 Indoor Modem is the latest indoor modem for the LMS4000 system and offers significant improvements: higher output power, extended temperature range, DHCP Client, Automatic CCU Discovery, Automatic Remote Configuration, easy-to-use Setup menu, VoIP support. 1.1 Document Scope This Installation Guide covers only the EUM3005. It provides information on the installation of the EUM3005, its performance, and any required regulatory information, including approved installation notices. Related information can be found in the suite of available LMS4000 manuals, which includes the following:
LMS4000 900 MHz Radio Networking Concepts (APCD-LM053) LMS4000 Data Networking Concepts (APCD-LM050) LMS4000 Managing the Network (APCD-LM052) LMS4000 CLI Reference Manual (APCD-LM051) LMS4000 SNMP Reference Manual (APCD-LM049) Acronyms and Glossary (APCD-LM056 ) APCD-LM047-1.1 1 1: Introduction These manuals provide information not included in this Installation Guide, including information on:
Planning, installing and managing the network. Diagnostic tools for the network and EUM. Details on the Command Line Interface and methods of accessing the EUM. Manual configuration of the EUM via the CLI. Glossary of network terms. These manuals, as well as manuals for hardware elements, including EUMs and CCUs, can be found on WaveRiders Web site (http://www.waverider.com). Other documents on the WaveRider web site are useful to assist in installing and operating the EUM3005. WaveRider recommends that you be familiar with the following sections before proceeding with the instructions in this guide:
Software License Agreement on page iii Warranty on page iv Warnings and Advisories on page xi Important Safeguards on page xi Conventions on page ix NOTE: The information contained in this manual is subject to change without notice. The reader should consult the WaveRider web site for updates. 1.2 EUM3005 Features The EUM3005 is the next step in the evolution of the indoor version of the LMS4000 900MHz Wireless Internet Modems offered by WaveRider. The current LMS4000 product family includes:
The CCU3000 and the NCL1900 are the current base station products;
The EUM3006 with its integrated antenna provides an outdoor unit for areas where the indoor unit is not usable, due to operational or RF link considerations. The EUM3005 with its indoor diversity antenna is the newest indoor end-user modem, providing easy installation for areas with signal levels that allow for indoor installations;
2 APCD-LM047-1.1 1: Introduction Figure 1 EUM3005 Indoor Modem The EUM3005 has new features that provide improved RF performance as well as ease of installation and extended temperature range. The RF performance is enhanced due to the improved transmit power. Hardware and software improvements make installation easier than ever, allowing rapid deployment, single person installation, and even end-user self-installation. These improvements include alignment tools, and Automatic Remote Configuration of key parameters using DHCP and RADIUS. The Automatic Remote Configuration also allows the network operator to easily manage and reconfigure the EUM3005 after it is installed, including changing frequency, passwords, and SNMP parameters. Key features of the EUM3005 include:
Easy Indoor Installation - The EUM3005 is an indoor unit, but with an extended temperature range of -40 C to 50 C. The EUM3005 can work in uninhabited indoor locations, such as attics, if there is an adequate RF signal. The advantages of an indoor unit with extended temperature range and an indoor antenna include:
More flexible installations. An easily mounted antenna, designed for indoor use. No long RF cable runs. Lower installation costs, since the modem can be installed by the end-user. Active diversity indoor antenna - There are many advantages to the EUM3005s active diversity indoor antenna:
Reduced RF losses since there are no long cable runs. Active diversity, which is done on a packet by packet basis, so that the EUM3005 performs better in a multi-path fading environment. Easy mounting and positioning antenna, using a wall, window, window frame, or other surface. Higher RF Power1 - As a result of changes to the FCC rules, the EUM3005 can provide higher output power. Previous indoor modems were limited to 26 dBm PEAK power at their antenna port. The EUM3005 provides 27.3 dBm PEAK power. APCD-LM047-1.1 3 1: Introduction DHCP Client enabled (factory default)- The EUM3005 can obtain its IP address, subnet mask and IP gateway information from a DHCP server, reducing the amount of configuration needed for installation. This also allows the Network Operator to re-
assign IP addresses to EUMs without having to access the EUM itself. Automatic CCU Discovery (factory default) - The EUM3005 searches the full RF frequency range to locate CCUs. It then selects the CCU with the best RF signal that allows it to register. With this and DCHP Client enabled (factory defaults), the installer does not need to enter ANY configuration parameters into the EUM3005 in order to install it. Automatic Remote Configuration - The EUM3005 will accept parameters from a RADIUS server to set other configurable parameters in the modem. These parameters include: password, all SNMP parameters, RF Frequency (including enabling Automatic CCU Discovery), and number of customers. To use this feature, the CCU must use software version V6.0 or later. Installation Tools - The EUM3005 has a SETUP Menu to make installation and alignment easy and error-free. The EUM3005 supports the local link IP address, 169.254.10.250, on its Ethernet port at all times. Using the local-link address, the user can use the password setup to call up the setup menu that allows any user to check the RF link quality to help align the EUM3005 and troubleshoot the link. This avoids needing to know the IP address and password of the modem. Detailed specifications for the EUM3005 can be found on the WaveRider website. 1.3 EUM3005 - End-user Modem or Customer Premises Equipment The EUM3005, shown in Figure 1, is an indoor wireless modem that connects to the end-
users computer through an Ethernet connection. It is installed indoors at the end-users premises and provides an interface to the customers computer or local area network on one side and wireless access to the LMS4000 network on the other The EUM3005, which acts as a network bridge, receives data from the CCU (Communication Access Point Channel Unit = base station) over the 900 MHz radio link, and then forwards this data to EUM3005 internal processes or to the end-users computer through the Ethernet port. In the other direction, the EUM3005 forwards data received from the end-users computer over the radio link to the CCU 1.3.1 Key Components These key components of the customer-premises equipment are described on the following pages:
EUM3005 Active Diversity Indoor Antenna on page 5 Ethernet Port on page 6 1. Does not apply to the EUM3005 (Cdn) used in Canada at this time. 4 APCD-LM047-1.1 1: Introduction Power Supply on page 6 1.3.2 EUM3005 Active Diversity Indoor Antenna The EUM3005 Active Diversity Indoor Antenna uses switched-beam diversity. This antenna, shown in Figure 2, performs very well in cases where the radio path to the CCU is obstructed and/or where there is significant multipath. The antenna comes with a mounting bracket and is designed to mount vertically on walls (using drywall screws), or horizontally (on desks, for example, using the suction cups). The concave surface of the antenna is the front. Antenna Front Figure 2 WaveRider Indoor Antenna with Switched-beam Diversity The EUM3005 Active Diversity Indoor Antenna contains two vertical antenna elements mounted inside and on either side of the antenna housing. The phasing between these elements, which modifies the antenna pattern, is controlled by a DC voltage from the EUM3005. It produces two patterns, one perpendicular to the face of the antenna, which has a gain of about 6 dBi (not including cable loss), and the other, a dual-beam pattern off both sides, offering about 3 dBi gain for each beam. These beam patterns are illustrated in Figure 3. The EUM3005 samples the signal strength from both antenna patterns during the preamble of every received packet and automatically selects the best signal. When the EUM3005 transmits, it sends on the antenna pattern that was last used to receive a signal. Since most of the traffic comes from the CCU, the EUM3005 samples the signal strength oftentypically faster than once every 5 ms. APCD-LM047-1.1 5 1: Introduction Beam Pattern A Beam Pattern B Figure 3 WaveRider Switched-beam Diversity Antenna Beam Patterns The end user must position the switched-beam diversity antenna correctly to receive an adequate signal level. The Radio LED on the EUM3005, described in section 1.4, Indicators and Connectors, can be used to help with the alignment. Since the switched-beam diversity antenna has a good front-to-back ratio, it can be positioned to suppress interference from other wireless devices at the end-users premises. The EUM3005 is not approved to be used with any other antenna. For installations requiring an outdoor antenna, the EUM3006 Integrated Outdoor Modem is recommended for its superior performance and ease of installation. The EUM3005 Active Diversity Indoor Antenna comes equipped with a 3 m RF cable and connector. The connector is a proprietary WaveRider connector, which is mandated by the FCC requirement that the connectors used in ISM band products that are not professionally installed must be unique, or at least not readily available. 1.3.3 Ethernet Port The EUM has one 10BaseT Ethernet port. Details on the Ethernet port are found in Appendix B on page 27. CAUTION: Any DC voltage applied to the Ethernet port may damage the EUM, the Ethernet cable, and/or network gear. The EUM3005 is not a Power-over-Ethernet device. 1.3.4 Power Supply Power is provided to EUM3005 through its AC/DC Power supply, which supplies 4.2 VDC through a standard barrel (5.5 x 2.5 x 9.5 mm) connector to the modem. CAUTION: Using any other power supply than that provided by WaveRider, especially any other DC voltage will result in damage to the modem. 6 APCD-LM047-1.1 1.4 Indicators and Connectors The EUM3005 is equipped with LED indicators that provide a visual indication of the status of the unit and its interfaces. The EUM3005 LED indicators are illustrated in Figure 4. 1: Introduction Radio LED Link LED Ethernet 10BaseT Traffic LED Power Connector Antenna Connector Figure 4 EUM3005 LEDs and Connectors The LEDs are described below:
1.4.1 Ethernet LEDs Table 1 Ethernet LEDs LED State Link LED Ethernet Status If the Link LED is ON, the Ethernet physical connection is configured and working properly. If the Link LED is OFF, then the Ethernet physical connection is not working properly, which could be because the wrong type of cable was used or there is a problem with the host or device Ethernet interface. If connecting directly to the end-user PC, use the cross-over Ethernet cable provided. If connecting to a router or switch, use a straight-through cable. Traffic LED The Traffic LED flashes whenever the link is transferring data. APCD-LM047-1.1 7 1: Introduction 1.4.2 Radio LED In the following table, RSS is the Radio Signal Strength, in dBm. Table 2 Radio LED LED State RSS Value OFF Unit is not operating (no power). Very Slow Flash Slow Flash Unit operational but no radio signal present. Searching for CCU if in Automatic CCU Discovery, no CCU detected yet. Receive Threshold < RSS < -80 dBm. Signal may be okay at best, or very poor at worst. Fast Flash
-80 dBm < RSS < -70 dBm. Signal is good or very good. ON Solid RSS > -70 dBm. Signal is exceptionally good. NOTE: A Radio LED very slow flash flashes once every two seconds. A slow flash flashes at 1 Hz, 50% duty cycle, or once per second. A Radio LED fast flash flashes at 4 Hz, 50% duty cycle, or 4 times per second. 8 APCD-LM047-1.1 2 Setup Menu The EUM3005 is equipped with a simple setup menu through which you can monitor the RF link quality and view the key parameters of the modem. 2.1 Accessing the Setup Menu The setup menu is accessed by connecting a Telnet session to the local link IP address of the EUM3005, 169.254.10.250, with password = setup. The connection must be through the Ethernet port, not over the air via the RF link. The computer needs to have an IP address of 169.254.x.y with a 16 bit mask (255.255.0.0), where x and y can be any value from 0 to 255 except for 10.250, 0.0, or 255.255. It is recommended that the address 169.254.10.251 be used unless another address is more convenient. This address will be used throughout. The following assumes the computer has a Windows 2000 or Windows XP operating system. Other operating systems can be used provided the computer has an IP address of 169.254.10.251 and can use ping and telnet programs. On Windows 2000, XP and similar systems, the IP Address is set using the Control Panel >
Network and Dialup Connection > Local Area Connections > right mouse click to select Properties > Internet Protocol (TCP/IP) > Properties. Once the computers IP address is set to 169.254.10.251, open a DOS command window and try to ping the EUM3005, using the command ping 169.254.10.250. If the EUM3005 does not respond, verify the Ethernet cables are connected correctly, that power supply has power and that the computer has the correct address and net mask. When the EUM3005 replies to the ping command, establish a telnet session with the command telnet 169.254.10.250. Once a telnet connection is established, a password is requested. Enter setup, which will enter the setup menu. APCD-LM047-1.1 9 2: Setup Menu 2.2 Setup Menu The Setup Menu structure consists of a menu with four selections. Setup Menu WaveRider Communications, Inc. EUM3005 Password: *****
: Searching for CCU WaveRider Communications Inc. Setup Menu Modem Serial Number : C00017 Station Identifier (EUM ID): 40:00:17 Software Version : 10.0 Search State Menu
(R)adio Link Status - Use this for pointing the antenna
(T)roubleshooting information - for network operator
(H)elp e(X)it type option and press enter > r The Setup menu identifies the modem, the software version and search state. In this case, the modem is configured for Automatic CCU Discovery and it is searching to find the best available CCU. There are 4 options:
Radio Link Status - see section 2.3, Radio Link Status Display Troubleshooting information - see section 2.4, Troubleshooting Information Display Help - this provides an on-line explanation of the options and the information displayed with each. Exit - this terminates the telnet session. 2.3 Radio Link Status Display The Radio Link Status display is the key setup display for aligning the antenna and verifying the link. The Radio Link Status display shows the search state of the modem, which is either:
10 APCD-LM047-1.1 2: Setup Menu searching for a CCU - A complete sweep of all frequencies takes about 30 seconds. The display shows which frequencies may be CCUs. A search is started when any of the following occurs:
the modem boots up, either due to a hard (power) reset or software reset, no CCUs are found during the last frequency sweep, so that the modem cannot register with any CCU found during the last sweep, the modem has received no signal from the CCU in the last two minutes. This indicates that the CCU or radio link is down. attempting to register with a CCU - When a frequency sweep has been completed, the modem attempts to register with the CCUs in the order of best signal down to poorest. The modem may not register with a CCU for a number of reasons, in which case the modem attempts the next CCU in the frequency list. If the modem cannot register with any CCU, contact the network operator. The reasons a modem may not be able to register with a CCU include:
The modem is not authorized to register at that CCU, The signal detected is not a valid CCU. registered with a CCU - This state occurs when the modem has a frequency and has successfully registered with a CCU. At this point, the modem can provide a link to the Internet through the CCU. An example of the Radio Link Status display is shown below. Radio Link Status Display Signal Strength Signal Quality Searching: found 9070 9086 Searching: found 9070 9086 Searching: found 9070 9086 9114 Searching: found 9070 9086 9114 Searching: found 9070 9086 9114 9142 Searching: found 9070 9086 9114 9142 Searching: found 9070 9086 9114 9142 Searching: found 9070 9086 9114 9142 Registered at 9114
| Poor | Fair | Good | Poor |Fair | Good 1 2 3 4 5 6 7 8 | 1 2 3 4 5 4.0 ***********
4.3 ************ 3.5 *****************
5.0 **************** 3.0 **************
4.7 *************** 2.5 ***********
6.7 *********************** 2.0 *********
5.0 *************** 1.5 *******
3.7 ********* 4.0 ********************
6.0 ******************* 3.0 ***************
8.7 ******************************* 3.5 *****************
8.0 ***************************** 4.5 ***********************
1.5 *******
The Signal Strength and Signal Quality graphs and values are Figures of Merit and are interpreted using the tables below. The goal for aligning the antenna is a Signal Strength of 5 or better and a Signal Quality of 4 or 5, if possible. APCD-LM047-1.1 11 2: Setup Menu Table 3 Signal Strength Figure of Merit LED Meaning Received Signal is at least Received Signal is less than 1 2 3 4 5 6 7 8 Extremely poor Very Poor Poor Marginal Okay Good Very Good Excellent
-92 dBm
-89 dBm
-86 dBm
-83 dBm
-80 dBm
-77 dBm
-74 dBm Table 4 Signal Quality Figure of Merit LED Meaning
-92 dBm
-89 dBm
-86 dBm
-83 dBm
-80 dBm
-77 dBm
-74 dBm 0 1 2 3 4 5 Extremely Poor Very poor Poor Adequate Good Very Good Getting any Signal Strength reading at all indicates that packets are being received from the CCU. The higher the signal strength and signal quality indicators, the lower the packet error rate and the higher the fade margin for the EUM3005. The goal should be a signal strength of 5 or higher and a signal quality of 4 or 5. Regardless of the levels, the EUM3005 should be aligned so that the indicators are the highest possible for the given site. 2.4 Troubleshooting Information Display The troubleshooting information is provided to allow the network operator to troubleshoot the link. It is also useful to record the status of the link once the modem is installed and aligned. This can form a reference baseline so that the network operator can judge if the link in future is better or worse than it was when the modem was installed. The information provided below is a brief description of the statistics provided. A detailed understanding of this information is not required to install the EUM3005. If there are problems 12 APCD-LM047-1.1 2: Setup Menu with the installation, then the installer may contact the network operator and report the information on this display so that the network operator can troubleshoot the installation. The troubleshooting information display is shown below. Troubleshooting information Display WaveRider Communications Inc. Diagnostic Information
----------------- MAC Summary ---------------------------------
Transmitted Payloads 1Ok : 35 100.0%
2Ok : 0 0.0%
3Ok : 0 0.0%
4Ok : 0 0.0%
Fail Retry : 0 0.0%
Fail Timeout : 1 Received Packets HCRC Error : 23993 3.0%
Directed : 6948 0.8%
Broadcast : 11178 1.4%
No Match : 753093 94.7%
Received Packets with Payloads FCS Error : 0 0.0%
Duplicate : 0 0.0%
Too Busy - Discard : 0 0.0%
Delivered : 73 100.0%
-------------------- IP Summary --------------------
DHCP Enabled : YES IP Address: 192.168.10.250 / 24 IP Subnet : 192.168.10.0 ( 255.255.255.0 ) Gateway IP Address: 192.168.10.1
------------------- Radio Summary ------------------
RF Power: 26 dBm Auto Mode - Locked on frequency 9114 RSSI[dBm] RX; TX; R1; R2; R3; F;Retry%; SQ; RNA; RNB RSSI: -69 1; 0; 0; 0; 0; 0; 0; 8; 31; 29 APCD-LM047-1.1 13 2: Setup Menu The MAC Summary shows the breakdown for transmitted and received packets and payloads. All values are expressed as a count and percentage of total packets or payloads. A payload is a packet with real data. Transmitted Payloads: shows how many payloads were successfully transmitted the 1st time or needed to be sent a 2nd, 3rd or 4th time to get through, as well as how many packets failed to get through at all. Note that traffic must be sent from the end user PC in order to generate enough traffic to be meaningful. The rules of thumb are:
1OK should be at least 90%, otherwise the link may not be good enough. The 1OK packets should be 1000 or more to be a reasonable representation of the link. Received packets: shows the classification of all packets received from the CCU, whether they contain payloads or not and whether they are directed to this modem or not. This data is for information only and does not indicate the quality of the link for the installer. Received packets with payloads: shows the disposal of the received packets with payloads for this modem, either directed to the modem or broadcast to all modems. Only the delivered payloads are successfully received. The rule of thumb here is that the delivered payloads should be better than 95%, otherwise the link is suspect. 14 APCD-LM047-1.1 3 Installation 3.1 Installation Checklist A successful installation is divided into pre-installation, installation and post-installation stages, with each stage outlined in the following checklists. The Pre-Installation Stage Checklist involves the Network Operator as well as the installer. Table 5 Pre-Installation Stage Checklist Step Discussion section 3.2.1, Network and EUM3005 Configuration The network must be properly configured by the Network Operator to accept the new modem. section 3.2.2, Verifying the EUM3005 Components section 3.2.3, End-Users PC Ensure that all the needed parts are included. The end-users PC requires an Ethernet Network Interface to accept the data from the EUM3005. When everything is ready for the installation stage, then the installer performs the following steps:
APCD-LM047-1.1 15 3: Installation Table 6 Installation Stage Checklist Step Discussion section 3.3.1, Locating the EUM3005 section 3.3.2, Mounting and Orienting the EUM3005 Antenna section 3.3.3, Connecting the End-Users PC section 3.3.4, Testing the Data Link Find the best location for mounting the EUM3005, with a good RF signal and at least 1 foot away from where people will stand. The EUM3005 antenna mounts to a wall, window or horizontal surface. Once a location with good signal levels is found, optimize the signal by selecting the best orientation of the antenna. Mount the antenna, using the hardware provided. Connect the modem to the end-users PC. Confirm that the link is functioning correctly. Once the installation is complete and verified, the network operator can complete the Post-
installation Stage, using the Automatic Remote Configuration feature or manually over the air. This is discussed in section 3.4, Post-Installation 3.2 Pre-Installation Steps 3.2.1 Network and EUM3005 Configuration There are a number of steps that must be undertaken by the network operator before installing an EUM3005. For more information, see the LMS4000 Data Networking Concepts, LMS4000 Radio Concepts and LMS4000 Managing the Network manuals on the WaveRider web-site. 1. CCU Authorization: Ensure that the EUM is authorized at one or more CCUs with the appropriate Grade of Service. 2. IP Addresses: Configure a DHCP server to accept the new EUM3005s request for an IP address, if the modem has DHCP enabled (factory default). If not using DHCP, then the EUM must be manually configured with the following settings:
IP address Subnet mask Gateway IP address 3. Frequency Assignment: If the Automatic CCU Discovery feature (factory default) is used, then the EUM will search for the CCU upon power up. This is the recommended approach. If for some reason this is not acceptable, then the EUM3005 must be configured with its radio frequency. 16 APCD-LM047-1.1 3: Installation The easiest installation uses the EUM3005 factory defaults, so that the modem will gets all its IP address information from DHCP and its RF Frequency from the Automatic CCU Discovery feature. Other useful information for the installer includes:
Direction from the installation site to the CCU. Expected signal strength for the installation site based on the network operators site survey or signal strength for other installations in the vicinity. The IP address of a site that accepts pings as well as the name of a site that accepts pings, for testing the data link. Whether modem is being connected directly to end-user PC or via an Ethernet switch or IP router. In the latter cases, the installer must provide a straight-through Ethernet cable to connect the modem to the switch/router. 3.2.2 Verifying the EUM3005 Components Verify that the EUM3005 kit is complete with:
EUM3005 modem Indoor antenna with its captive 10 feet of RF cable. Antenna Mounting hardware, including drywall plugs, screws and suction cups AC/DC power supply (may include AC power cable) Crossover Ethernet cable. 3.2.3 End-Users PC Ensure that the end-user PC is equipped with an Ethernet interface. 3.3 Installation Steps NOTE: Turn off all cordless phones in the customers premises, and any other equipment that uses the 900MHz ISM band. Once the installation is complete, turn this equipment back on and monitor for interference or degraded signal quality. APCD-LM047-1.1 17 3: Installation 3.3.1 Locating the EUM3005 The EUM3005 antenna should be mounted on or near an outside wall or window, pointing in the direction to the CCU. The higher in the building, the better the signal level will be. So locating in the attic or second storey is preferred to the main floor or basement. You can use just the EUM3005 and its antenna to find a good signal, before connecting to the end-users PC. Attach the antenna to the EUM3005, attached the DC cord fro the power supply to the EUM3005, then connect the power supply to an AC socket. Wait 10 seconds for the EUM3005 to come up. Then you can use the Radio LED to find a good signal. Alternatively, connect the users PC as described in section 3.2.3, End-Users PC and use the Setup Menu as described in section 2, Setup Menu to get the figures of merit. The goal for a good installation is to have the Signal Strength FOM in the range of 5-8 and the Signal Quality FOM to be in the range 4-5. However, there are many good installations with lower figures of merit. Using the LEDs or Setup Menu, the installer should find the location that provides the best signal figures of merit and then adjust the EUM3005 to maximize the FOM readings. In most cases, a signal strength of 5 with a signal quality of 4 is a better signal that a signal strength of 6 and signal quality of 2. The following are suggested guidelines for determining where to locate the modem:
Survey the area with the modem to assess the signal levels before installing the antenna Signal indicators should be good. Locate the EUM3005 at least 8 inches (20 cm) away from occupied areas to avoid any harm from emissions. Try several locations and several orientations and angles near the desired location. Moving the antenna by as little as 6 inches and swiveling the antenna be as little as 30 degrees can have dramatic effects on the received signal strength and quality. 3.3.2 Mounting and Orienting the EUM3005 Antenna Once a good location for the antenna has been selected, mount the antenna as required, Use the drywall plugs and screws if you are attaching the antenna to the wall. Note that the antenna holding bar has a release tab at one end. It is recommended that this tab be the upper tab when mounting the holding bar vertically. When the EUM3005 antenna holding bar has been positioned and attached, the best orientation of the modem should be determined by trying different angles and seeing which give the highest signal strength and signal quality. 3.3.3 Connecting the End-Users PC There are many ways to connect the EUM3005 to the end-users PC, using Ethernet switches, IP routers, etc. The discussion below is for the simplest, most direct method of connection. 18 APCD-LM047-1.1 3: Installation 1. Connect the end-users PC by attaching a crossover Ethernet cable between the Ethernet port on the end-users computer and the Ethernet port on the modem. 2. Plug the power supply into the EUM3005 first, then into the AC socket. Wait 10 seconds for the EUM3005 to come up. 3. Check the Ethernet LEDs on the Ethernet interface of the modem and/or end-users PC to ensure the Ethernet connection between the EUM3005 and the end-users PC is active. Refer to Table 1 on page 7 for an explanation of the Ethernet LEDs normally provided on Ethernet interface cards. 4. When attempting to send data to, or receive data from, the Internet, check the Ethernet Traffic LED to ensure data transmission is taking place. This LED flashes as data traffic passes between the end-users PC and the EUM3005. 3.3.4 Testing the Data Link The following are simple tests that the installer or end-user can perform to ensure that the link is functioning correctly. These tests are outlined below. If any test fails, then the subsequent tests are likely to fail as well until the problem is resolved. 1. Ping the EUM: Configure the end-users PC to have the local link IP address and ping the EUM3005 at IP address 169.254.10.250 (see Ping the EUM on page 20 for more details if needed). 2. Assess the Link: Use the Setup Menu as described in Setup Menu on page 9 to assess the Radio Link Status and to get the Troubleshooting information to baseline the installation. This test verifies that the end-users PC is communicating with the EUM3005 and provides insight into the state of the RF link. This test is recommended since it provides details on the state of the modem and what CCU(s) it has located. 3. Verify DHCP: If the network assigns end-user PCs IP addresses by DHCP, then reconfigure the end-user PC to use DHCP to automatically obtain its IP address. Verify the end-user PC has received an IP address, by using the DOS command ipconfig and seeing that an IP address is assigned along with Gateway and DNS server addresses This confirms that the End user PC is contacting the DHCP server correctly.See Verify DHCP on page 21 if more details are required. 4. Ping the Gateway: Assuming the end-user PC has an IP address and a Gateway address as shown by the ipconfig command, ping the gateway to determine if it can be reached. See Ping the Gateway on page 21 if more details are required. This step assume your gateway will respond to pings. 5. Ping Internet by IP address: If everything is good so far, try pinging a known Internet address. If successful, then you know that the end-user PC can access the general Internet. See Ping Internet by IP address on page 22 if more details are required. 6. Ping Internet by Name: Ping a known named Internet address (e.g. ping www.google.com or some equivalent). Even if the site refuses ping commands, you should get the IP address for the named site. If so, this shows that DNS is working correctly. See Ping Internet by Name on page 22 if more details are required. 7. Link Speed Test: Go to a known web-site that offers link speed testing, such as http:/
/bandwidthplace.com/speedtest/. Follow their instructions and determine the link speed. There are many factors affecting the link speed between the end-users PC and the test site, including the assigned grade-of-service for the modem, the loading APCD-LM047-1.1 19 3: Installation on the CCU sector and the loading over the rest of the Internet. So this test is not the best test for ensuring that the modem to CCU link is operating at its correct speed. But it should indicate that the PC is able to communicate with a site on the Internet. If any of these tests fail, then the installer may need to check the modem, its alignment, the cabling, the PCs configuration and the RF link. If all of these appear good, then the installer should contact the Network Operator for further troubleshooting advice. Even if all the above tests indicate a good link, WaveRider recommends that the Network Operator remotely test the EUM-to-CCU data link more thoroughly soon after it is installed. The test facilities available to the Network Operator are outlined in the LMS4000 Managing the Network manual and other manuals on the WaveRider web-site. The following sections provide more detail for some of the steps for Testing the Data Link. Ping the EUM Note that the EUM3005 may be on a different sub-net than the end-users PC, so pinging the IP address assigned to the EUM3005 will go through the CCU. Therefore, we ping the EUM3005 using the local link IP address as the 1st test. 1. Ensure the end-users PC is configured with an IP address of 169.254.10.251, netmask = 16 (or 255.255.0.0). See Setup Menu on page 9 for more information. 2. Ping the EUMs local-link IP address 169.254.10.250, from the end-users PC, as follows:
Open a DOS window in the end-users PC. At the command prompt, type ping 169.254.10.250 and press Enter. 3. If there is no response, check the following:
The end-users computer IP address settings. The Ethernet link light on the PC. The Ethernet crossover cable between the EUM3005 and the end-users PC, to ensure that the pins have not been damaged. The POWER LED should be on or flashing. 4. If there is a response, but with errors, check the Ethernet crossover cable. This is what a successful ping from the end-users PC to the EUM looks like:
C:\>ping 169.254.10.250 Pinging 169.254.10.250 with 32 bytes of data:
Reply from 169.254.10.250: bytes=32 time<10ms TTL=64 Reply from 169.254.10.250: bytes=32 time<10ms TTL=64 Reply from 169.254.10.250: bytes=32 time<10ms TTL=64 Reply from 169.254.10.250: bytes=32 time<10ms TTL=64 Ping statistics for 169.254.10.250:
Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds:
Minimum = 0ms, Maximum = 0ms, Average = 0ms 20 APCD-LM047-1.1 3: Installation This is what an unsuccessful ping from the end-users PC to the EUM looks like:
C:\>ping 169.254.10.250 Pinging 169.254.10.250 with 32 bytes of data:
Request timed out. Request timed out. Request timed out. Request timed out. Ping statistics for 169.254.10.250:
Packets: Sent = 4, Received = 0, Lost = 4 (100% loss), Approximate round trip times in milli-seconds:
Minimum = 0ms, Maximum = 0ms, Average = 0ms Verify DHCP This step is for networks that use DHCP to provide IP addresses to the end-users computer. Assuming the Setup command shows that the modem has registered with a CCU and is receiving a signal, then reconfigure the end-user PC to use the correct IP address. This is usually done using DHCP to automatically obtain the IP address. On Windows 2000, XP and similar systems, the IP Address is set using the Control Panel >
Network and Dialup Connection > Local Area Connections > right mouse click to select Properties > Internet Protocol (TCP/IP) > Properties. To enable DHCP, click on the Obtain an IP Address Automatically button. Once properly configured, verify the end-user has received an IP address. For a Windows 2000 or XP PC, in a DOS Window, type ipconfig and see that there is an IP address assigned along with a Gateway Address and DNS server addresses This confirms that the End user PC is contacting the DHCP server correctly. Record the IP Address of the gateway and the DNS servers. Ping the Gateway Ensure the end-users PC is configured properly. Then ping the gateway address from a PC DOS window. The gateway address was recorded during the Verify DHCP address if using DHCP. Otherwise the installer will know the gateway address since it is needed to configure the end-users PC. Ping using short packets first (default size) to confirm the connection. Then use long packets
(1472 byte packets) to confirm the RF performance. Errors observed on pings with long packets indicate a high error rate on the channel, caused by low signal levels or interference. The following describes how to ping the gateway:
1. Open a DOS window. 2. At the command prompt, type ping <aaa.bbb.ccc.ddd> -t -l 1472, where
<aaa.bbb.ccc.ddd> is the Gateway radio IP address and press Enter. 3. Press Ctrl+c to end the test. APCD-LM047-1.1 21 3: Installation NOTE: If this test fails with the long packets, but pinging the Gateway with the default packet size succeeds, then the connection is working but is not operating at maximum capacity, possibly due to poor antenna placement or orientation, poor signal levels, and/or interference. The following example assumes the Gateway has an IP address of 172.16.4.1. Replace that address with the correct gateway address from the ipconfig command:
C:\>ping 172.16.4.1 -t -l 1472 Pinging 172.16.4.1 with 1472 bytes of data:
Reply from 172.16.4.1: bytes=1472 time=40ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=81ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=80ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=40ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=60ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=80ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=40ms TTL=64 Reply from 172.16.4.1: bytes=1472 time=110ms TTL=64 Ping statistics for 172.16.4.1:
Packets: Sent = 8, Received = 8, Lost = 0 (0% loss), Approximate round trip times in milli-seconds:
Minimum = 40ms, Maximum = 110ms, Average = 66ms Ctrl-C
^C C:\>
Ping Internet by IP address Use the following test to determine whether the end-users PC can communicate with the Internet. If you do not know an IP address, try the DNS servers. Otherwise, skip this step. C:\>ping 216.239.39.104 Pinging 216.239.39.104 with 32 bytes of data:
Reply from 216.239.39.104: bytes=32 time=90ms TTL=113 Reply from 216.239.39.104: bytes=32 time=80ms TTL=113 Reply from 216.239.39.104: bytes=32 time=80ms TTL=113 Reply from 216.239.39.104: bytes=32 time=70ms TTL=113 Ping statistics for 216.239.39.104:
Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds:
Minimum = 70ms, Maximum = 90ms, Average = 80ms Ping Internet by Name Use the following test to verify that the DNS server IP address is correctly configured in the end-users PC and is operating properly:
22 APCD-LM047-1.1 3: Installation C:\> ping www.google.com Pinging www.google.akadns.net [216.239.39.104] with 32 bytes of data:
Reply from 216.239.39.104: bytes=32 time=72ms TTL=241 Reply from 216.239.39.104: bytes=32 time=69ms TTL=241 Reply from 216.239.39.104: bytes=32 time=76ms TTL=241 Reply from 216.239.39.104: bytes=32 time=68ms TTL=241 Ping statistics for 216.239.39.104:
Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds:
Minimum = 68ms, Maximum = 76ms, Average = 71ms 3.4 Post-Installation Once a good link between the CCU and the EUM3005 has been established, the configuration can be completed automatically using the Automatic Remote Configuration feature with a RADIUS Server and database in which the EUM3005 information has been entered. The network operator must update the RADIUS database for the new modem. The configurable items that can be included in the Automatic Remote Configuration include:
password, all SNMP parameters, RF Frequency (including enabling Automatic CCU Discovery) number of customers. If the Automatic Remote Configuration feature is not used, then the network operator can connect to the EUM3005 over the air and complete the configuration. Details on configuring a RADIUS Server or manually configuring an individual EUMs are covered in the LMS4000 Managing the Network manual or other manuals, available on the WaveRider web-site. APCD-LM047-1.1 23 3: Installation 24 APCD-LM047-1.1 Appendix A Factory Configuration This appendix identifies the factory configuration settings for the EUM3005 Parameter Default Configuration Modem IP Address Modem IP Netmask Gateway IP Address Local Link IP Address
(Available on Ethernet Port only) Local Link IP Netmask From DHCP From DHCP From DHCP 169.254.10.250 16 255.255.0.0 ffff0000 Maximum Number of Customers*
5 Password*
Port Filters Radio Radio Frequency*
By default, the EUM3005 has no password. Press Enter at the password prompt to enter a null password. 137 (both) 138 (both) 139 (both) 445 (both) 1512 (both) Enabled Automatic CCU Discovery APCD-LM047-1.1 25 Appendix A: Factory Configuration Radio Power*
Parameter Default Configuration
+26 dBm (High) - To be consistent with previous modems, +26 is used in the CLI to indicate maximum output power. The EUM3005 actually outputs about 27.3 dBm Peak power = 24.4.dBm averager power.
(NOTE: For configuring the modem, the power values entered are rounded to the nearest dB) SNMP Name* (= Console Prompt) EUMID SNMP Contact*
SNMP Location*
SNMP Read Communities*
SNMP Write Communities*
SNMP Traps*
Statistics Log Interval WaveRider Communications Ltd. www.waverider.com None entered None entered None entered 15 minutes
* These parameters can be set using Automatic Remote Configuration if the network is configured to use a RADIUS Server. 26 APCD-LM047-1.1 Appendix B Ethernet Cables and Connectors There will be several Ethernet cables used in installing the EUM3005:
EUM3005 Cross-over Cable: The 3 foot cross-over Ethernet cable that is provided with the EUM3005. It can be used to connect the EUM3005 directly to the end-users PC. A cross-over cable has one end wired according to T568A and the other end according to T568B. Both ends have RJ45 connectors. Straight-Through Cable: Straight-through Ethernet cables have both ends wired according to T568A with RJ45 connectors. Straight-through cables can be used in a number of locations:
If the 10 foot cable with the EUM3005 is not long enough, a straight-through Ethernet cable can be used to provide extended distances. If the EUM3005 is to be connected to a router or Ethernet Switch, then a straight-through Ethernet cable is used. If a router or Ethernet switch are used, then they are connected to the end-
users PC by a straight-through Ethernet cable. The Ethernet cable used for the EUM3005 must have at least the RX and TX pairs wired as shown in Table 7 with NO power on the other wires. APCD-LM047-1.1 27 Appendix B: Ethernet Cables and Connectors Table 7 Ethernet Interface Specifications EUM Physical Interface RJ45 (Ethernet) socket Wiring standard TIA - T568A
- Pair/Wire - Color Pin Pin 1 - 3/a Pin 2 - 3/b Pin 3 - 2/a Pin 4 - 1/b Pin 5 - 1/a Pin 6 - 2/b Pin 7 - 4/a Pin 8 - 4/b
- Green/White
- Solid Green
- Orange/White
- Solid Blue
- Blue/White
- Solid Orange
- Brown/White
- Solid Brown TX Data + (Output from EUM) TX Data - (Output from EUM) RX Data + (Input to EUM) Not Used. Not Used. RX Data - (Input to EUM) Not Used. Not Used. The following table and figures show the definitions of wiring for T568A and T568B connectors, used to make cross-over and straight-through Ethernet cables as found in ANSI/
TIA/EIA-568-B.2 Balanced Twisted Pair Cabling Components. Table 8 Wiring T568A and T568B ends for Ethernet Cables Description T568A T568B
1 Connectors 2 Wiring standard 3 Pair/Wire - Color 3/a Green/White 3/b Solid Green 2/a - Orange/White 1/b Solid Blue 1/a Blue/White 2/b Solid Orange 4/a Brown/White 4/b Solid Brown RJ-45 T568A Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 RJ-45 T568B
(Pins in bold are different from T568A) Pin 3 Pin 6 Pin 1 Pin 4 Pin 5 Pin 2 Pin 7 Pin 8 Straight-through Ethernet cables have T568A wiring at both ends while Cross-over cables have T568A at one end and T568B at the other end. 28 APCD-LM047-1.1 Appendix B: Ethernet Cables and Connectors T 568A W iring Schem e P air 2 P air 3 P air 1 P air 4 Figure 5 T568A Wiring T 568B W iring Schem e P air 3 P air 2 P air 1 P air 4 Figure 6 T568B Wiring APCD-LM047-1.1 29
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2005-03-22 | 902 ~ 928 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2005-03-22
|
||||
1 | Applicant's complete, legal business name |
Vecima Networks Inc.
|
||||
1 | FCC Registration Number (FRN) |
0008118101
|
||||
1 | Physical Address |
Ste. 4, 6110-1A Street S. W.
|
||||
1 |
Calgary, Alberta, N/A T2H 0G3
|
|||||
1 |
Canada
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@curtis-straus.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
OOX
|
||||
1 | Equipment Product Code |
EUM3005
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
L****** G****
|
||||
1 | Title |
Senior Technical Design Lead
|
||||
1 | Telephone Number |
403-2********
|
||||
1 | Fax Number |
403-2********
|
||||
1 |
l******@vecimanetworks.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Wireless Modem | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power listed is conducted RMS average at the antenna port. Only the antenna listed in this filing can be used with this device. The antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Electronics Test Centre
|
||||
1 | Name |
V**** M******
|
||||
1 | Telephone Number |
403-9********
|
||||
1 | Fax Number |
403-9********
|
||||
1 |
m******@etc-mpbtech.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.00000000 | 928.00000000 | 0.3420000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC