FCC ID: PS6R3000-A2 5.8 GHz Wireless LAN

Chapter 3. Base Station Unit Web GUI Operation of the Web GUI The BSU and SU Web GUI pages share the basic elements identified in Figure 3-2. Main Menu and Submenu The Main Menu lists the various categories of functions available via the Web GUI. To select an item from the Main Menu, click on it. Orange crescents will bracket the menu item to show that it has been selected. The Submenu is context-sensitivity, changing as different Main Menu items are selected. The Submenu lists the pages available under the selected Main Menu category. Click on the appropriately-labeled box in the Submenu to display the desired page. Submitting and Uploading Changes Pages on which configuration changes can be entered include a Submit button at the bot-

tom. Any change entered on the page does not take effect until the Submit button is clicked. Clicking Submit affects only the current operation of the BSU or SU. The corre-

sponding configuration file located on the BSUs permanent memory is not altered; there-

fore, the configuration change will be lost if the BSU or SU is reset or re-powered. To update the BSU or SU permanent memory with changes made via the Web GUI, use the Upload Configuration button on the BSU or SU Device Control Utility page. Clicking the Upload Configuration button will cause all configuration changes currently in effect to be written into the permanent memory. Cancel and Refresh Buttons Some pages include Cancel and/or Refresh buttons at the bottom. These buttons have the following functions:

Clicking on the Cancel button cancels any changes made on the page; altered fields will return to their original contents. Clicking on the Refresh button refreshes the window with the most up-to-date infor-

mation. Hyperlinks Some Web GUI pages include hyperlinks to related pages. Hyperlinks are indicated in the method defined in your browser configuration. In some cases, hyperlinks are imple-

mented using buttons similar to the Submit button. 070-20000750-01 Rev A 33 Chapter 3. Base Station Unit Web GUI The Web GUI Home Page When you log on using the BSUs IP address, you will be at the Home Page of the Base Station Units Web GUI as shown on Figure 3-3. The Web GUI will log off after 15 minutes of inactivity. Activity can be either user input or automatic status updates performed by the Web GUI (as in the connectivity views described below). To keep the Web GUI from logging off when you will not be using it for more than 15 minutes, go to a page on which status is automatically updated. BSU/SU Connectivity From the BSU Home Page, you can access graphical connectivity view of the BSU and SU connection. Hyperlinks allow you to navigate through the connectivity view. The connectivity view provides a quick way to identify the configured BSU/SU, and to check their status. The arrows pointing to the Subscriber Unit in Figure 3-3 indicate wire-

less channel status: green if good or red the Subscriber Unit is down. Figure 3-2 Basic Elements in BSU and SU Web GUI 070-20000750-01 Rev A 34 Chapter 3. Base Station Unit Web GUI Figure 3-3 BSU Home: BSU/SU Connectivity Overview of BSU Web GUI Functions Table 3-A summarizes the functions available for each of the Main Menu and Submenu selection. Table 3-A Summary of the BSU Web GUI Main Menu Submenu Functions Configuration System Shows general BSU information and status. Read-only. Administration Specifies contact, location, and cell name. Password SNMP Local Time IP Filter Allows users to change password for access to Web GUI, SNMP, CLI, and FTP. Configures SNMP management of BSU. Sets local time, daylight savings parameters. Per Ethernet/WSS: List of all defined IP filters. Hyperlinks to contents of individual filters. Read-only. Wireless Interface Per WSS: Configuration pages for Frame, Channel, Radio. Read-only. HTML Upgrade HTML Upgrade Uploads new HTML pages for Web GUI. Utility Device Control Several commands: Reset BSU; Turn WSS On/Off; Reset WSS; Configuration Upload; Search IP address by Cus-

tomer Name. 070-20000750-01 Rev A 35 Chapter 3. Base Station Unit Web GUI Table 3-A Summary of the BSU Web GUI Main Menu Submenu Functions Status BSU System Status BSU software and hardware information, plus operational status. Read-only. SU Link Status Per WSS: Gives upstream or downstream link status for all SUs with status. Read-only. Performance BSU System Statistics One-hour, Transmit or Receive byte count graph. Read-

only. Bandwidth Allocation Shows Upstream and Downstream allocation. RF Signal Quality Shows RF signal quality statistics. BSU Flow Statistics Gives performance statistics for all defined service flows. Hyperlinks to specific flow details. Read-only. SU Statistics Event logs E-mail Shows SU with transmit and receive byte counts. Hyper-

links to Subscriber Unit Web GUI. Read-only. List of logged BSU events. Read-only. Configuration of e-mail alert reporting. Fault Configuration Pages The Web GUI lets you check, and in some cases alter, the configuration of the Base Station Unit. Numerous BSU configuration pages may be displayed, as indicated by the submenu at the left of the page. System Configuration As shown in Figure 3-4, the System Configuration page identifies:

Ethernet parameters Server settings Operating software and configuration files, and current boot status. 070-20000750-01 Rev A 36 Chapter 3. Base Station Unit Web GUI Figure 3-4 System Configuration Page (BSU in bridge mode) Administration As shown in Figure 3-5, the Administration Configuration page allows viewing and altering of text fields related to BSU and cell administration. These text fields can be used for what-

ever information system administrators deem useful. Click on the Submit button to acti-

vate any changes made on this page. Password The Password Configuration page, shown in Figure 3-6, allows you to change the pass-

word that is used to access the BSUs Web GUI, SNMP, CLI, and FTP. Enter the password exactly the same in the two fields (the password is case-sensitive). Then click the Submit button. 070-20000750-01 Rev A 37 Chapter 3. Base Station Unit Web GUI Figure 3-5 Administration Configuration Page Figure 3-6 Password Configuration Page SNMP The SNMP Configuration page, shown in Figure 3-7, allows the viewing and altering of SNMP parameters:

Whether traps will be generated by the BSU. What SNMP manager(s) will be recognized, and what level of access they will have. Click the Submit button to activate any changes made on this page. 070-20000750-01 Rev A 38 Chapter 3. Base Station Unit Web GUI Figure 3-7 SNMP Configuration Page 070-20000750-01 Rev A 39 Chapter 3. Base Station Unit Web GUI Local Time The Local Time Configuration page, shown in Figure 3-8, allows the specification of the local time zone and daylight savings time options. These adjustments will be applied to the time received from the Base Station Units SNTP server. Alternatively, obtaining of system time from the SNTP server can be disabled, and the time entered on this page. Click the Submit button to activate any changes made on this page. Figure 3-8 Time Configuration Page 070-20000750-01 Rev A 310 Chapter 3. Base Station Unit Web GUI IP Filters IP Filter Configuration pages show any IP filters configured for the Base Station Units wire-

less and Ethernet interfaces. IP Filter List pages list all filters configured for a particular interface, as shown in Figure 3-9. Hyperlinks at the top of the page allow selection of the Ethernet interface or a particular wireless interface. Each filter listed has an identifier number which also functions as a hyperlink to an IP Filter Contents page. All IP Filter Configuration parameters are read-only. Figure 3-9 IP Filters List Page 070-20000750-01 Rev A 311 Chapter 3. Base Station Unit Web GUI Wireless Interfaces Selecting Wireless Interface from the Configuration submenu brings up the Frame Config-

uration page, as illustrated in Figure 3-10. Hyperlinks provide access to configuration pages for three different wireless port parameters per wireless port:

Wireless Interface Frame Configuration, as shown in Figure 3-10. Wireless Interface Channel Configuration, as shown in Figure 3-11. Wireless Interface Radio Configuration, as shown in Figure 3-12. All Wireless Interface Configuration pages are read-only. Figure 3-10 Wireless Interface Frame Configuration Page 070-20000750-01 Rev A 312 Chapter 3. Base Station Unit Web GUI Figure 3-11 Wireless Interface Channel Configuration Page Figure 3-12 Wireless Interface Radio Configuration Page 070-20000750-01 Rev A 313 Chapter 3. Base Station Unit Web GUI HTML Upgrade The HTML upgrade page illustrated in Figure 3-13 lets you upgrade the Web GUI by writing new pages from files to the BSU. For example, you might have pages translated into a lan-

guage other than English which you want to load in place of the English-language pages. If you have an HTML page to upload, you can type in the file name or browse for it. When the file name is specified, click on the Load button to load the file into the Base Station Units Web GUI agent. Figure 3-13 HTML Upgrade Page Utilities The Utility option on the Main Menu provides access to several commands for controlling base station equipment. Device Control The Device Control page, illustrated in Figure 3-14, allows an operator to:

Reset the entire BSU. Turn a RF port on or off Upload configuration changes to the BSUs permanent memory. The Web GUI will prompt for confirmation before performing any selected functions. 070-20000750-01 Rev A 314 Chapter 3. Base Station Unit Web GUI Figure 3-14 Device Control Page 070-20000750-01 Rev A 315 Chapter 3. Base Station Unit Web GUI Status Pages The BSU Web GUI includes the status pages shown in Figure 3-15 through Figure 3-17. These provide a snapshot of the current status of the Base Station Unit and its connected Subscriber Unit. NOTE: The data base used to generate these pages is updated in real time. How-

ever, the pages do not update dynamically; you must click on the Refresh button to see later status. No configuration or other operation can be initiated from these pages. Figure 3-15 System Status Page 070-20000750-01 Rev A 316 Chapter 3. Base Station Unit Web GUI Figure 3-16 SU Link Downstream Page Figure 3-17 SU Link Upstream Status Page 070-20000750-01 Rev A 317 Performance Pages Chapter 3. Base Station Unit Web GUI The BSU Web GUI provides wireless channel performance and bandwidth allocation infor-

mation on the pages illustrated in Figure 3-18 through Figure 3-23. As shown in Figure 3-18, transmitted byte counts are presented graphically. In Figure 3-19, the page shows Best Effort, CIR, and CBR bandwidth allocation in text and graphics. Only Best Effort is supported for software version 1.0. These data base used to generate these displays is updated in real time, and the pages are automatically updated every 30 seconds. RF Modem Statistics such as burst error rate and FEC error counts are listed in Figure 3-20. Flow statistics are listed in text format in Figure 3-21. By clicking on the flow id, a more detailed information for that flow will be displayed as shown in Figure 3-22. In Figure 3-23, transmitted and received byte counts for all subscribers in all sectors (wire-

less ports) are listed in a text format. NOTE: The data base used to generate this page is updated in real time. How-

ever, the pages do not update dynamically; you must click on the Refresh button to see later status. Figure 3-18 BSU System Statistics Page (Transmit) 070-20000750-01 Rev A 318 Chapter 3. Base Station Unit Web GUI Figure 3-19 BSU WSS Bandwidth Allocation Page (Port 1 Upstream) Figure 3-20 RF Signal Quality Page 070-20000750-01 Rev A 319 Chapter 3. Base Station Unit Web GUI Figure 3-21 BSU Flow Statistics Page Figure 3-22 BSU Flow Statistics by Flow ID 070-20000750-01 Rev A 320 Chapter 3. Base Station Unit Web GUI Figure 3-23 Subscriber Unit Statistics Page Fault Reporting Pages The BSU fault reporting functions include an event log and E-mail configuration, as shown in Figure 3-24 and Figure 3-25. Event Log The event log page, shown in Figure 3-24, includes all logable events reported by the Base Station Unit and its connected Subscriber Units. NOTE: The data base used to generate the log is updated in real time. However, the pages do not update dynamically; you must click on the Refresh button to see later status. You can empty the log by clicking on the Clear All Events button. Figure 3-24 BSU Event Log Page 070-20000750-01 Rev A 321 Chapter 3. Base Station Unit Web GUI E-mail Configuration As shown in Figure 3-25, the E-mail Configuration page allows the viewing and altering of E-mail event reporting parameters:

The address of the SMTP server (may be configured here, or in the BSU configura-

tion). The BSUs E-mail domain name. Reply-to and receiver E-mail addresses. A test E-mail may be sent. Event reporting via E-mail may be turned on and off as desired. Click on the Submit button to activate any changes made on this page. Figure 3-25 BSU E-mail Configuration Page 070-20000750-01 Rev A 322 4 Subscriber Unit Web GUI The PacketWave 610 Subscriber Unit includes a Java-based graphical user interface (GUI) which runs on a standard Web browser (Netscape 4.74 or Internet Explorer 5.0 recom-

mended). Functions which can be performed using the Web GUI include:

Viewing network connectivity. Monitoring status and performance. Reviewing configuration. Making basic configuration changes. Uploading configuration changes to permanent memory. Resetting Indoor Units. ISP and Subscriber Logon Levels The PacketWave SU Web GUI features different logon levels for ISPs and subscribers, each protected by a different user-set password. The Debug logon is reserved for Aperto Net-

works use. The ISP logon level provides access to all areas of SU configuration, status reporting, performance monitoring, and operating commands. The Subscriber logon level is limited to:

The site connectivity view of the SU home page. Subscriber password configuration. The configuration upload utility. System status. 070-20000750-01 Rev A 41 Chapter 4. Subscriber Unit Web GUI Accessing the Web Interface To access the Web GUI:

1. On a computer with IP access to the Indoor Unit (via either the LAN or wireless inter-

face), open Netscape 4.74 or Internet Explorer 5.0. NOTE: Other browsers could show some anomalies. Enter the URL, http://<Indoor Unit IP address>/. The logon page will appear, as shown in Figure 4-1. Figure 4-1 SU Web GUI Logon Screen 2. Select the ISP or Subscriber user name. Debug logon is reserved. 3. Enter the correct password (case-sensitive). NOTE: The default passwords are isp and subscriber. For security, these pass-

words should be changed via the Web GUI. 4. Click on the Logon button or press Enter key. 5. If the browser prompts that it needs to load a plug-in, allow it to do so. 6. Wait for the Web interface home page to open, as shown in Figure 4-2 for isp logon. If you logon as subscriber, some of the screen items will not be shown. 070-20000750-01 Rev A 42 Chapter 4. Subscriber Unit Web GUI Figure 4-2 Web GUI Home Page (ISP logon) 070-20000750-01 Rev A 43 Chapter 4. Subscriber Unit Web GUI Figure 4-3 Basic Elements of Web GUI Features of the Web Interface The Web interface pages share the basic elements identified in Figure 4-3. Home Page: Connectivity View As shown in Figure 4-2, the home page provides a graphical representation of base sta-

tion-to-subscriber connectivity. The arrow pointing to the Indoor Unit icon indicates wire-

less channel status: green if good or red if down. Additional configuration and status information related to basic SU connectivity is presented in a table below the graphics. Status indications on the connectivity view are updated dynamically every 30 seconds. 070-20000750-01 Rev A 44 Chapter 4. Subscriber Unit Web GUI Main Menu and Submenu The Main Menu lists the various categories of functions available via the Web GUI. The ISP logon level provides the five Main Menu categories shown in Figure 4-3. For the Subscriber logon level, the Main Menu lists Configuration, Utility, and Status categories only. To select an item from the Main Menu, click on it. Orange crescents will bracket the menu item to show that it has been selected (see the Configuration item in Figure 4-3). The Submenu is context-sensitive, changing as different Main Menu items are selected. The Submenu lists the pages available under the selected Main Menu category. Click on the appropriately-labeled box in the Submenu to display the desired page. Figure 4-3 shows the page displayed when the System option is selected in the Submenu. Submitting and Uploading Changes Pages on which configuration changes can be entered include a Submit button at the bot-

tom. Any change entered on the page does not take effect until the Submit button is clicked. Clicking Submit affects only the current operating configuration of the SU. The SUs con-

figuration file located on the TFTP server is not altered; therefore, the configuration change will be lost if the SU is reset or re-powered (after which the SU reverts to the con-

figuration specified in its configuration file). To update the SUs configuration file on the TFTP server with changes made via the Web GUI, use the Configuration Upload button on the Device Control Utility page. Clicking the Configuration Upload button will cause all configuration changes currently in effect to be written into the SUs permanent memory. Cancel and Refresh Buttons Some pages include Cancel and/or Refresh buttons at the bottom. Clicking on the Cancel button cancels any changes made on the page; altered fields will return to their original contents. Clicking on the Refresh button refreshes all fields with configuration parameters currently stored on the Subscriber Unit. Hyperlinks Some Web GUI pages include hyperlinks to related pages. For example, the Classifier Con-

figuration pages includes hyperlinks to pages for corresponding Service Flows. Hyperlinks are indicated in the method defined in your browser configuration. 070-20000750-01 Rev A 45 Chapter 4. Subscriber Unit Web GUI Overview of SU Web GUI Functions Table 4-A summarizes the functions available for each of the Main Menu and Submenu selections. Table 4-A Summary of the SU Web GUI Main Menu Submenu Functions Configuration System Shows general SU information and status. Read-only. Administration Specifies contact, location, and system name. Password *

Specifies ISP or Subscriber password for Web GUI, CLI, and FTP. SNMP Configures SNMP management of SU. Up/Downstream Default Best Effort Shows configuration of upstream or downstream default best effort service flow (ID=0). Read-only. Radio IP Filter Shows allowed transmit power. Read-only. List of all defined IP filters for wireless or Ethernet port. Hyperlinks to contents of individual filters. Read-only. Device Control *

Several commands: Reset SU; Upload Configuration. (At Subscriber level, only Upload Configuration is available.) Event logs E-mail List of logged SU events. Read-only. Configuration of e-mail alert reporting. Utility Fault Status SU System Status *

SU software and hardware information, plus operational status. Read-only. SU Link Status Transmit and receive details for wireless link. Read-only. Performance SU System Statistics Basic Transmit and Receive counts. Read-only. SU Filter Statistics Counts of packets passed and blocked for wireless or Ethernet port. Read-only. SU Flow Statistics List of service flows supported by the SU; hyperlink to service flow details. Read-only.

* Available when logged on at Subscriber level. 070-20000750-01 Rev A 46 Chapter 4. Subscriber Unit Web GUI Configuration Pages The Web GUI displays SU configuration in numerous individual pages, as indicated by the Configuration Submenu. In addition, many configuration parameters can be changed via the Configuration pages. System Configuration As shown in Figure 4-4, the system configuration page provides an overview of the Subscriber Units network and operating parameters. These parameters are read-only. This page is available only at the ISP logon level. Figure 4-4 System Configuration Page Administration Configuration The Administration Configuration page, shown in Figure 4-5, allows system name, location and contact information to be specified for the subscriber site. Any text entry is accept-

able, subject to length limitations for each field. 070-20000750-01 Rev A 47 This page is available only at the ISP logon level. Chapter 4. Subscriber Unit Web GUI Figure 4-5 Administration Configuration Page Password Configuration Passwords for the ISP and Subscriber logon levels are specified on the Password Config-

uration page, shown in Figure 4-6. Passwords which can be defined depend on the current logon level; if logon is at the Subscriber level, only the Subscriber password fields will be displayed. The passwords are used for the Web GUI, CLI, and FTP. The password must be entered exactly the same (including case) in the two password fields to be accepted. After specifying the desired password, click Submit. The Web GUI will prompt that password storage is temporary, and that the Upload Configuration func-

tion (page 4-13) is required for making the password permanent. Figure 4-6 Password Configuration Page 070-20000750-01 Rev A 48 Chapter 4. Subscriber Unit Web GUI SNMP Configuration As shown in Figure 4-7, the SNMP configuration page allows the viewing and altering of SNMP parameters for one or two SNMP managers:

Whether traps will be generated. What SNMP manager(s) will be recognized, what access rights they will have, and the read and write community names. Click on the Submit button to activate any changes made on this page. NOTE: This page does not support deletion of SNMP managers. This page is available only at the ISP logon level. Figure 4-7 SNMP Configuration Page Default Best Effort Configuration All Subscriber Units have a default Best Effort service flow. Performance parameters of the default upstream and downstream service flows are configurable using the Advanced Installation Manager. Configuration pages for default Best Effort service flows are shown in Figure 4-8 and Figure 4-9. All fields are read-only. These pages are available only at the ISP logon level. 070-20000750-01 Rev A 49 Chapter 4. Subscriber Unit Web GUI Figure 4-8 Downstream Default Best Effort Configuration Page Figure 4-9 Upstream Default Best Effort Configuration Page 070-20000750-01 Rev A 410 Chapter 4. Subscriber Unit Web GUI Radio Configuration The Radio Configuration page, shown in Figure 4-10, shows the maximum transmit power allowed in the selected frequency band. This page is available only at the ISP logon level. Figure 4-10 Radio Configuration Page IP Filter Configuration IP Filter Configuration pages show any IP filters configured for the Subscriber Units wire-

less and Ethernet interfaces. IP Filter List pages list all filters configured for a particular interface, as shown in Figure 4-11. Hyperlinks at the top of the page allow either the Ether-

net or the wireless interface filters to be listed. Each filter listed has an identifier number which also functions as a hyperlink to an IP Filter Contents page. The IP Filter Contents page identifies the Layer 2 or Layer 3 parameters used in this particular filter. All IP Filter Configuration parameters are read-only. 070-20000750-01 Rev A 411 Chapter 4. Subscriber Unit Web GUI Figure 4-11 IP Filter List Page (Ethernet) 070-20000750-01 Rev A 412 Chapter 4. Subscriber Unit Web GUI Device Control Utility The Device Control page, illustrated in Figure 4-12, provides access to two important func-

tions:

Resetting the Indoor Unit. Uploading configuration changes entered via the Web interface to the Subscriber Units permanent memory, making the changes part of the Subscriber Units per-

manent configuration. The interface will prompt for confirmation before performing a selected function. The full Device Control page is available only at ISP logon level. At the Subscriber logon level, only the Upload Configuration function is available. Figure 4-12 Device Control Page Fault Reporting Pages The subscriber fault reporting functions include an event log and E-mail configuration, as shown in Figure 4-13 and Figure 4-14. These functions are available only at the ISP logon level. 070-20000750-01 Rev A 413 Chapter 4. Subscriber Unit Web GUI Event Log Page The Event Log page, shown in Figure 4-13, includes all logable events reported by the Indoor Unit. You can empty the log by clicking on the Clear All Events button. NOTE: The data base used to generate the log is updated in real time. However, the pages do not update dynamically; you must click on the Refresh button to see later status. Figure 4-13 Event Log Page Figure 4-14 E-mail Page 070-20000750-01 Rev A 414 Chapter 4. Subscriber Unit Web GUI E-mail Configuration Page The E-mail Configuration page, shown in Figure 4-14, allows the viewing and altering of E-

mail event reporting parameters:

Whether event reporting via E-mail is enabled or disabled. The address of the SMTP server. The E-mail domain name. Reply-to and receiver E-mail addresses. Whether a test E-mail will be sent when the Submit button is clicked on. Click on the Submit button to activate any changes made on this page. Status Pages There are two status pages:

The System Status page, shown in Figure 4-15, identifies the Indoor Unit, its soft-

ware and hardware, and its current operational status. The Link Status page, shown in Figure 4-16, provides information about the wire-

less link between the subscriber equipment and the base station. System Status is available at both ISP and subscriber levels; Link Status is available at the ISP level only. Performance Pages Performance pages, available at the ISP level only, include:

The System Statistics page (Figure 4-17) shows counts of packets and bytes trans-

mitted and received on the wireless link. The RF Signal Quality page (Figure 4-18) shows RF signal performance statistics such as burst error rate and FEC error counts. The Filter Statistics page (Figure 4-19) shows counts of passed and blocked pack-

ets; hyperlinks allow selection of Ethernet or wireless interface statistics. The Flow Statistics pages (Figure 4-20 and Figure 4-21). The Service Flow Summary page provides upstream/downstream packet counts and upstream dropped packet percentage for all defined service flows. Each Service Flow ID serves as a hyperlink to a Service Flow Details page, which provides detailed flow statistics about the particular service flow. A hyperlink at the bottom of the Service Flow Details page leads back to the Service Flow Summary page. 070-20000750-01 Rev A 415 Chapter 4. Subscriber Unit Web GUI Figure 4-15 System Status Page Figure 4-16 Link Status Page 070-20000750-01 Rev A 416 Chapter 4. Subscriber Unit Web GUI Figure 4-17 System Statistics Page Figure 4-18 RF Signal Quality Page Figure 4-19 Filter Statistics Page 070-20000750-01 Rev A 417 Chapter 4. Subscriber Unit Web GUI Figure 4-20 Service Flow Summary Page Figure 4-21 Service Flow Details Page 070-20000750-01 Rev A 418 5 Antennas PacketWave products support a variety of antennas for both Point-to-Point and Point-to-

Multipoint solutions The Point-to-Point products use highly directional antennas to establish a single link. The Point-to-Multipoint products used sector antennas ranging from 60 to 120 degrees. This chapter describes the specifications for the various antennas. Point-to-Point Antennas The standard PacketWave Point-to-Point product (Model Number PP600-58-01) uses an integrated radio/antenna. The long range option has an N connector and supports the various options listed in Table 5-A. Table 5-A Point-to-Point Antennas Antenna Description Standard Panel Patch Antenna Gain dBi 17 Az, El deg, deg 17, 17 070-20000750-01 RevA 51 Point-to-Multipoint Antennas These sector antennas are connected to PacketWave Base Station Unit radios. These units Chapter 5. Antennas Table 5-B Point-to-Multipoint Antennas Model Description PWA5800-90 90 degree sector Gain dBi 16 El deg 8 provide flexibility to support a wide range of coverage requirements. 070-20000330-01 Rev B 52 AppendixA Specifications Bridge (Indoor Unit) Specifications Interfaces 10/100Base-T Ethernet RJ-45 connector Radio F connector Radio Control shielded RJ-45 connector Power Requirement 100 to 240 V ac, 47 to 63 Hz Power Consumption 30 Watts for Indoor and Outdoor Unit Networking and Protocols Bridging 070-20000750-01 Rev A A1 Appendix A. Specifications Management Embedded WaveCenter agent supporting SNMP and web browser SNMP MIB (RFC 1157), MIB II (RFC 1213), Aperto Enterprise MIBs Software updates via TFTP Advanced Installation Manager Utility Facilitates configuration and antenna alignment process Diagnostic Manager Utility Provides diagnostic functions for troubleshooting subscriber equipment LED Indicators Power Wireless Transmit, Receive, Status LAN Link, Transmit, Receive Environmental Operating Temperature 32 to 104 F (0 to 40 C) Humidity 10 to 90%, noncondensing Dimensions and Weight W x H x D 1.5 x 6.6 x 9.1 inches (3.8 x 16.8 x 23.1 cm) Weight 2.2 lbs (1.0 kg) Regulatory Approvals FCC Class B CE, ETSI Radio/Antenna (Outdoor Unit) Specifications RF Data Rates from 64 kbps with burst mode up to 20 Mbps in a 6 MHz channel Modulation QPSK,16 QAM Cables and Connectors Radio Signal Quad shield RG-6 coaxial cable; Male F-type connector Radio Control Shielded Cat 5 cable (outdoor rated); Male RJ45 connector Cable Lengths Up to 50 m (165 ft); 100 m (330 ft) with proper type of cable 070-20000750-01 Rev A A2 Appendix A. Specifications Mounting Clamping bracket for pole with diameter of 1.5 inch (3.8 cm) or 2 inches (5.1 cm) Adjustable elevation Environmental Operating Temperature -22 to 140 F (-30 to 60 C) Storage Temperature -40 to 257 F (-40 to 125 C) Humidity 0 to 100%

5.8 GHz Outdoor Unit Frequency Range 5725 to 5875 MHz; Maximum EIRP* 33 dBm Dimensions: W x H x D 8.1 x 8.1 x 1.9 inches (20.6 x 20.6 x 4.8 cm) 3 dB Beamwidth Azimuth 17; Elevation 17 Polarization Horizontal and vertical

* The maximum EIRP varies depending on country regulations. Contact Aperto Networks sales for more information. 070-20000750-01 Rev A A3 Appendix A. Specifications 070-20000750-01 Rev A A4 AppendixB Event Reporting The PacketWave Base Station Units and Subscriber Units can be configured to report events by several means:

E-mail event messages. SNMP traps. Logging to a Syslog server. Event log presented on request via the Web GUI. Reportable events are identified in Table B-A. 070-20000750-01 Rev A B1 Appendix B. Event Reporting Table B-A Reported Events Fault Event Description Cold Start Warm Start Authentication Suc-

ceeded/Failure BSU, WSS, or subscriber Indoor Unit has performed a full hardware boot. BSU, WSS, or subscriber Indoor Unit has performed a software reboot. User name or password login succeeded/failed Port N Link Up/Down WSS port (number N) has gone up/down. BSU Up/Down BSU has started/ceased normal operation. SU Sync Acquired BSU has acquired wireless channel synchronization with a specific Subscriber Unit. SU Up/Down DHCP Failed Power Supply Failed Radio Synth not Locked Subscriber Unit has started/ceased communication with the BSU. A failure has occurred in the retrieval of required data from the DHCP server. Radio synthesizer out of locked; could be the result of bad connection to the radio or bad radio. Radio Synth not Locked Cleared Radio is back to locked Fan Alarm Fan stops Fan Alarm Cleared Fan back to operational Temperature too Low/High Temperature Normal Current Image Corrupted Software stored on BSU is corrupted SU Failed Registration SU failed to complete registration process with the BSU Config File Error Configuration file has error 070-20000750-01 Rev A B2 AppendixC Command Line Interface (CLI) Each Base Station Unit and Subscriber Unit includes a simple command line interface

(CLI) accessible via Telnet Accessing and Using the CLI To access and use the Base Station Units and Subscriber Units command line interface:

1. Telnet to the units IP address. 2. At the Login: prompt, enter ISP. (There is also a Debug logon level, which is re-

served for Aperto use. The Subscriber logon level applies to Subscriber Units only.) NOTE: All CLI entries, including logon level and password, are case-sensitive. 3. At the Password: prompt, enter the correct password for the specified logon level. The CLI uses the same passwords as the Web interface. The default password is isp (case-sensitive). Passwords can be changed via the Web GUI. 4. When the CLI# prompt appears, you are in the CLI. a. b. For a list of commands, type ? (the ? will not appear on the screen; pressing

[Enter] is not necessary). The CLI will respond with a list of the available com-

mands groups. To display information about the use of a specific commands, including com-

mand parameters, enter the command and press space bar followed by ?. 5. If there is no activity on a connection for 30 minutes, the CLI will disconnect. 6. When you are finished with the CLI, disconnect from the RS-232 Craft Port, or end the Telnet session by entering the killTelnet command or simply closing the Telnet application. 070-20000750-01 Rev A C1 Appendix C. Error Messages Error messages which may be returned by the Base Station Unit CLI include the following:

Error: Bad Command command has been entered incorrectly. Error: Invalid Parameter command has been entered incorrectly. Passwords are not the same when setting a password, two password entries do not match. Table C-A Base Station Unit CLI Commands Command Function killTelnet reboot Terminate all current Telnet sessions connected at port 5000. Reboots the Base Station Unit. 070-20000750-01 Rev A C2 AppendixD RF Signal Quality Parameters Burst Error Rate Description Cumulative burst errors (uncorrectable FEC errors + No Unique Word errors) as a percentage of total bursts received. At BSU, a value of 1% in a sector is normal. Higher number may caused by problems such as interference and can degrade performance. Correctable FEC Error Count Number of bursts with errors that are corrected by FEC (Forward Error Correction). This is a normal part of system operation. Uncorrectable FEC Error Count No Unique Word Count Number of bursts with errors that can not be corrected by FEC, resulting in such bursts being dropped by the system. If this number is high, the link is likely to be impaired by either low SNR (link is too long), multipath, fading, or interference. Number of burst with no unique word (an identifier in the preamble of each burst). Mainly caused by external interference and thus it reflects the quality of the channel. At BSU, a high number of No UW Count will degrade performance of the sector. It can also be cuased by packet collision during Conten-

tion Request but such occurences are rare. At SU, No UW Count can also caused by the SU beig too close to the BSU, resulting in overdriving of the SU radio. This can be confirmed if Installation Manager reports signal level higher than -40dBm. In such case, the SU antenna should be pointed up toward the sky. Signal level between -45 to -83 dBm is preferred. No Energy Count Caused by a scheduled packet failed to arrive or arrived with power level below threshold. At BSU, this count will keep increasing as part of normal system operation. At SU, a low count number may result from fading and can be ignored if the performance is normal. However, a high count num-

ber indicates very low signal level. Installation Manager should be used to point the antenna again to make ensure proper power level. 070-20000750-01 Rev A D1 Appendix D. RF Signal Quality 070-20000750-01 Rev A D2

PacketWaveTM Fixed Broadband Wireless System PacketWave 600 Series Installation, Configuration, and Operation Manual for Software Version 1.0 070-20000750-01 Rev A, November 5, 2002 PacketWave 100 Series Subscriber Equipment Manual PacketWave 100 Installation and Operation Copyright 2002 by Aperto Networks All rights reserved. Specifications subject to change. Aperto, PacketWave, and WaveCenter are trademarks of Aperto Networks. All other trademarks used herein are the property of their respective owners. Aperto Networks 1637 South Main Street Milpitas, CA 95035 USA Phone: 408.719.9977 Fax: 408.719.9970 www.apertonet.com REGULATORY INFORMATION FCC PART 15 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

this device may not cause harmful electromagnetic interference, and this device must accept any interference received including interference that may cause undesired operations. The user is cautioned that changes or modifications not expressly approved by Aperto Networks could void the user's authority to operate the equipment. FCC NOTICE: Radio and Television Interference The PacketWaveTM 600 Series Base Station Equipment has been tested and found to com-

ply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a res-

idential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used according to 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 interfer-

ence to radio or television reception, which is found 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 or device. Connect the equipment to an outlet other than the receiver's. Consult a dealer or an experienced radio/TV technician for assistance. 070-20000340-01 Rev C1 iii RF Exposure Notice The installer shall mount all transmit antennas so as to comply with the limits for human exposure to radio frequency (RF) fields per paragraph 1.1307 of FCC regulations. The FCC requirements incorporate limits for Maximum Permissible Exposure (MPE) in terms of electric field strength, magnetic field strength, and power density. CAUTION:

5.8 GHz To comply with FCC RF exposure requirements, antennas used for this device must be installed to provide a separation distance of at least 1.5m from all persons to satisfy RF exposure compliance. Canadian Standards Compliance This Class A digital apparatus complies with Canadian ICES-003 Cet appareil numrique de la classe A est conforme la norme NMB-003 du Canada 070-20000340-01 Rev C1 iv 070-20000340-01 Rev C1 v 070-20000340-01 Rev C1 vi Preface Scope of This Manual This manual documents the installation, configuration, and operation of the PacketWave 600 Series of Base Station and Subscriber Unit Equipment with software version 1.0. This manual provides the following information:

A conceptual overview of the PacketWave System. Descriptions of the PacketWave hardware components, including base station and subscriber equipment. Descriptions of the PacketWave software components, including configuration pro-

grams and management interfaces. Complete installation instructions System configuration, management, and diagnostic procedures. Conventions Used in This Manual The term Base Station Equipment refers to the combination of the Base Station Indoor Unit, the radio, and the antenna. The term Base Station Unit refers to the Base Station Indoor Unit. PacketWave manuals represent special kinds of text as follows:

Files names and URLs are represented in italics, with variables described inside angle brackets. For example, if the URL http://<IP address>/ is referenced, you will replace the variable <IP address> with the appropriate real IP address. Management interface text is represented by a bold font: for example, the Generate Config File button. 070-20000750-01 Rev C1 xiii Preface Labels on equipment are represented in a bold font: for example, the Control con-

nector. WARNING:

This format is used to indicate the possibility of personal injury or seri-

ous damage to equipment. CAUTION:

This format is used to indicate the possibility of system or equipment operation problems. Items of special importance will be formatted and marked by a pointing-hand icon, as this paragraph is. Intended Audience for this Manual This manual is intended for system designers and planners, base station installers, system operators, and others requiring or desiring information about the PacketWave System. It provides information specific to the PacketWave system, but cannot and should not be considered a tutorial on relevant technologies and practices. It is expected that system designers and planners are knowledgeable about radio communications, cellular communication systems, and IP networks. Tutorials on these subjects are beyond the scope of this manual, and are readily available in published and online materials. Installation of radio equipment involves numerous factors, such as lightning and weather protection, requiring considerable expertise. It is assumed that equipment installers are professionals with knowledge of the principles and standard practices and procedures of cell site installation, all relevant safety requirements, and applicable local building codes. General Cautions and Warnings Observe the following when installing or operating any PacketWave System components. Carefully follow all local building and electrical codes, especially the latest revision of the National Electrical Code (NEC) and standard safety procedures for installing and working with this type of equipment. Improper procedures or installation can result in damage to the equipment or the building, and injury or death. If you are not sure 070-20000750-01 Rev C1 xiv Preface about whether the installation follows these codes, contact a licensed building inspec-

tor or electrician in the area for assistance. Always use quality componentsincluding cables, connectors, mounts, etc. specifically rated for your particular environmental conditions and system performance requirements. Always use appropriate tools, and follow the instructions of the tool manufacturers. All outdoor installation, including equipment mounting and cabling, should be per-

formed by trained microwave radio technicians familiar with usual and customary practices and procedures. Take extreme care to avoid contacting any overhead power lines, lights, and power cir-

cuits while you are installing outdoor equipment. Contact with any of these objects could cause injury or death. Do not install outdoor equipment near power lines. Observe all customary and mandatory safety requirements when installing and oper-

ating PacketWave equipment. Because Aperto cannot be responsible for improper installation or use of its equipment, failure to follow these and other published cautions and warnings may void your equip-

ment warranty. 070-20000750-01 Rev C1 xv Preface 070-20000750-01 Rev C1 xvi Table of Contents Table of Contents REGULATORY INFORMATION . iii Preface Scope of This Manual . Conventions Used in This Manual . Intended Audience for this Manual . General Cautions and Warnings . xi xii xii xiii Chapter 1. Overview Hardware . Outdoor Unit . Indoor Unit . Front-Panel LED . Hardware Installation . Mounting the Outdoor Unit . Grounding the Outdoor Unit . Indoor Unit Installation . Cable Installation . Radio Signal Connection . Radio Control Connection . Ethernet 10/100 Base-T Connection . Software Overview . Configuration . SNMP . Event Reporting . Chapter 2. Installation and Configuration Introduction . What You will Need . Getting Started . Performing the Installation . 070-20000750-01 Rev A 1-1 1-2 1-2 1-3 1-4 1-4 1-5 1-7 1-8 1-9 1-9 1-11 1-12 1-12 1-12 1-12 2-1 2-1 2-1 2-2 vii Table of Contents 2-2 Installing the PW620 . 2-3 Start the Application . 2-4 Choose the Installation Mode . 2-5 Fill out the Configuration Parameters . 2-7 Accept the Default Configuration . 2-7 Allow AIM to Configure the PW . 2-9 Installing the PW610 . Start the Application . 2-9 Choose the Installation Mode . 2-10 Fill out the Configuration Parameters . 2-10 Accept the Default Configuration . 2-12 Allow AIM to Configure the PW . 2-12 Align the Antenna . 2-13 Allow AIM to Perform the Installation and Throughput Test . 2-14 View the Results and Re-align Antenna if Necessary . 2-16 Running a Non-destructive Test . 2-17 Antenna Polarity . 2-18 What are the Options . 2-18 When to use Antenna Diversity . 2-18 Installation with Antenna Diversity . 2-19 Problem with Signal Indicator in Installation Manger . 2-21 Chapter 3. Base Station Unit Web GUI 3-2 Accessing the BSUs Web Interface . 3-3 Operation of the Web GUI . 3-3 Main Menu and Submenu . 3-3 Submitting and Uploading Changes . 3-3 Cancel and Refresh Buttons . 3-3 Hyperlinks . 3-4 The Web GUI Home Page . 3-4 BSU/SU Connectivity . 3-5 Overview of BSU Web GUI Functions . 3-6 Configuration Pages . 3-6 System Configuration . 3-7 Administration . 3-7 Password . 3-8 SNMP . Local Time . 3-10 IP Filters . 3-11 Wireless Interfaces . 3-12 HTML Upgrade . 3-14 Utilities . 3-14 Device Control . 3-14 Status Pages . 3-16 Performance Pages . 3-18 Fault Reporting Pages . 3-21 Event Log . 3-21 070-20000340-01 Rev C1 viii E-mail Configuration . 3-22 Table of Contents Chapter 4. Subscriber Unit Web GUI 4-1 ISP and Subscriber Logon Levels . 4-2 Accessing the Web Interface . 4-4 Features of the Web Interface . 4-4 Home Page: Connectivity View . 4-5 Main Menu and Submenu . 4-5 Submitting and Uploading Changes . 4-5 Cancel and Refresh Buttons . 4-5 Hyperlinks . 4-6 Overview of SU Web GUI Functions . 4-7 Configuration Pages . 4-7 System Configuration . 4-7 Administration Configuration . 4-8 Password Configuration . 4-9 SNMP Configuration . Default Best Effort Configuration . 4-9 Radio Configuration . 4-11 IP Filter Configuration . 4-11 Device Control Utility . 4-13 Fault Reporting Pages . 4-13 Event Log Page . 4-14 E-mail Configuration Page . 4-15 Status Pages . 4-15 Performance Pages . 4-15 Chapter 5. Antennas Appendix A. Specifications Appendix B. Event Reporting Appendix C. Command Line Interface (CLI) Appendix D. RF Signal Quality 070-20000340-01 Rev C1 ix Table of Contents 070-20000340-01 Rev C1 x 1 Overview This chapter outlines the basics of the PacketWave 600 Series hardware, software, and installation. Hardware There are two models in the PacketWave 600 Series. For each link, the PacketWave 620 is the master (also refer to as the base station) and the PacketWave 610 is the slave (also refer to as the subscriber unit). Although they have different hardware and software inter-

nally, they looks the same from outside except for the model number on the back panel. Each PacketWave 600 Series equipment consists of an Outdoor Unit (radio/antenna), and an Indoor Unit (bridge), as shown in Figure 1-1. Outdoor Unit

(Radio/Antenna) Indoor Unit

(Bridge) Figure 1-1 PacketWave 600 Series Equipment 070-20000750-01 Rev A 11 Chapter 1. Overview Outdoor Unit The outdoor portion of the equipment consists of a single unit containing the radio and antenna. Different models support various frequency bands:

2.5 GHz MMDS 3.5 GHz FWA 5.8 GHz U-NII 2.5 GHz MMDS 3.5 GHz FWA 5.8 GHz U-NII Figure 1-2 Outdoor Units As shown in Figure 1-2, sizes of the antennas vary with the frequency band, from approx-

imately 9 inches square to approximately 13 inches square. Outdoor units mount easily on a office roof or on a tower. The antennas are directional, with a beam width of 17 to 20 horizontally and vertically depending on frequency. Depending on distance, a line-of-sight path may not be required for establishment of a wireless link between the subscriber and the base station. PacketWaves OptimaLink(TM) technology minimizes the effects of obstructions in the path between the subscribers antenna and the base station antenna. Indoor Unit The Indoor Unit is a bridge with following interfaces. 10/100Base-T: auto-negotiation with 10/100Base-T Ethernet LAN. Radio IF: provides radio signal and power for the Outdoor Unit. Radio Control: provides control signal for the Outdoor Unit. 070-20000750-01 Rev A 12 Chapter 1. Overview The Indoor Unit is a free-standing unit which can be placed virtually anywhere indoor with controlled environment, subject to the following basic requirements:

The Indoor Unit must be upright, with adequate air flow around it. The unit must have access to AC power. The cable runs to the Outdoor Unit can be up to 100 m (330 ft) with proper cable

(See cable requirement in Table 1-B). The Indoor Unit comes with an external power supply and power cord that plugs into a standard AC wall plug (120 or 220 volts). Front-Panel LEDs Table 1-A contains the operational information for the Indoor Units front panel LED. Table 1-A Front-Panel LEDs LAN LED TX RX Indications Blinks on Ethernet transmit activity. Blinks on Ethernet receive activity. LINK On when Ethernet link is up; Off when it is down. WIRELESS TX RX STATUS POWER Blinks on wireless transmit activity. Blinks on wireless receive activity. Off: Indoor Unit is not operational. Slow blink: received wireless initialization signals. Fast Blink: in ranging process. On: configuration file received; Indoor Unit opera-

tional. Green when Indoor Unit is receiving power from AC source and has not failed boot diagnostics. Amber if boot diagnostic failure. Off if unit not receiving power. 070-20000750-01 Rev A 13 Chapter 1. Overview Hardware Installation You will need the following tools and supplies for installation. Drill (for cable entry through walls, etc.) Phillips screwdriver Wrench (7/16 inch) Cable Tools Cable tester (10Base-T and EIA/TIA 568B) Cable ties, staples, or clamps for dressing cables Silicone sealant PC laptop for antenna pointing using Advanced Installation Manager You will also need the following cables and connectors:

Coaxial cable (quad shield), long enough to run between Indoor and Outdoor Units, and two male F connectors (see Table 1-B) Shielded Cat 5 cable (outdoor rated), long enough to run between Indoor and Outdoor Units, and two RJ45 male connectors (see Table 1-B). Spare radio signal and control cables with connectors (each 30 feet or longer), for connecting Indoor and Outdoor Units during antenna pointing Ethernet cable with RJ45 male connectors (straight-through for connection to hub, or crossover for connection to computer) Mounting the Outdoor Unit (Radio/Antenna) Outdoor Units are designed for mounting on a pole or antenna mast with a diameter of 1.5 inch (3.8 cm) or 2 inches (5.1 cm) using a rear-mounted bracket as shown in Figure 1-3. WARNING:

This manual assumes that outdoor installation procedures will be per-

formed by qualified professionals following all safety and other require-

ments and acting in accordance with standard practices and procedures. Failure to meet safety requirements and/or non-standard practices and procedures could result in personal injury and/or damage to equipment. To mount an Outdoor Unit on a pole:

1. Loosen the pole clamp bolt and open the pole clamp. 2. Close the pole clamp around the pole. 3. Adjust the azimuth and elevation orientation of the radio/antenna. 070-20000750-01 Rev A 14 4. Tighten the pole clamp bolt until the Outdoor Unit is secured in position. Chapter 1. Overview Figure 1-3 Outdoor Unit Mounting Bracket Grounding the Outdoor Unit Grounding of the outdoor radio/antenna is an essential part of the installation process. A proper grounding circuit is illustrated in Figure 1-4. WARNING:

Each PacketWave 600 Series Unit is required to have lightning protec-

tion. Instructions and specific example of lightning protection equip-

ment is contained in the document titled Surge Protection for PacketWave Products. This document is included in the CD that shipped with the equipment. If missing, please contact Customer Service. Failure to follow the instructions will void your equipment warranty. To properly ground the Outdoor Unit:

1. 2. Locate the installed lug on the back of the Outdoor Unit. (See Figure 1-5.) Provide a proper grounding conductor (NEC Section 810-21) long enough to reach from the Outdoor Unit to the earth ground. 3. Attach one end of the conductor to the lug. 070-20000750-01 Rev A 15 Chapter 1. Overview 4. Connect the other end of the grounding conductor to an appropriate earth ground using a grounding clamp. If you install a grounding electrode separate from the power service grounding elec-

trode system, connect the separate electrode to the grounding system in accordance with the National Electrical Code (NEC) and local electrical codes. Connection to Radio/Antenna Ground Lug Grounding Conductor

(NEC Section 810-21) Grounding Clamp Figure 1-4 Grounding the Outdoor Unit (Radio/Antenna) 070-20000750-01 Rev A 16 Chapter 1. Overview Lug installed here for ground connection Figure 1-5 Location of Grounding Lug on Outdoor Unit (Radio/Antenna) Indoor Unit Installation Installation of the Indoor Unit involves placing the unit in the desired location, connecting radio/antenna and local Ethernet cables to the rear panel, and applying power. WARNING:

For proper cooling, the Indoor Unit must be installed in the upright posi-

tion, with adequate air flow around and through it. To apply power to the Indoor Unit:

1. 2. Plug the power cord into the Power connector on the Indoor Unit,. Plug the power cord/transformer into a surge-protected AC outlet. The Indoor Unit does not have an on/off switch; to turn the unit off, disconnect power at the power outlet. 070-20000750-01 Rev A 17 Chapter 1. Overview Cable Installation There is one cable for Ethernet connection and two cables that connect the Indoor Unit to the Outdoor Unit:

A RG-6 quad shield coaxial cable for the subscriber signal (which also provides DC power to the Outdoor Unit). A shielded outdoor-rated Cat 5 cable for controlling the Outdoor Unit. CAUTION:

Always power off the Indoor Unit before connecting or disconnecting the cable from the Outdoor Unit. Table 1-B provides the types of cable required for the PacketWave 600 Series. For the Out-

door Unit to be located more than 50m (165 ft) from the Indoor Unit, the Radio Signal cable has to be RG-6 quad shielded with copper center and the Radio Control cable has to be CAT 5E. Table 1-B PacketWave 600 Series Cable Requirement Connection Qty Cable Type Max. Length Connectors Ethernet (1) Cat 5 100 m (330 ft) RJ45 male Radio Signal (1) RG-6 quad shield coaxial 50 m (165 ft) Male F type Radio Control (1) RG-6 with copper center conductor, quad shield 100 m (330 ft) Male F type Shielded Cat 5, Outdoor-rated Shielded Cat 5E, Outdoor-rated 50 m (165 ft) RJ45 male 100 m (330 ft) RJ45 male CAUTION:

Specific models of cable are listed in a document titled Cables for Pack-

etWave Product. This document is included in the CD that shipped with the equipment. 070-20000750-01 Rev A 18 Chapter 1. Overview Radio Signal Connection To install the radio signal cable, perform the following steps 1. Obtain an appropriate length of cable, and run it from the Indoor Unit to the Out-

door Unit. Include a service/drip loop as appropriate. 2. Install a male F connector at each end of the cable. 3. Attach the cable to the female F connector on the Outdoor Unit, as shown in Figure 1-6. Tighten the connector until the cable is firmly secured, but do not over-

tighten. 4. Attach the cable to the Radio IF connector on the Indoor Unit as illustrated in Figure 1-7. The Radio Control connector of the Indoor Unit has the same physical appearance as the 10/100Base-T connector. Make sure you connect to the right one. 5. Dress the cable as appropriate. Radio Control Connection To install the radio control cable, perform the following steps 1. Obtain an appropriate length of cable, and run it from the Indoor Unit to the Out-

door Unit. Include a service/drip loop as appropriate. 2. 3. 4. Place the supplied rubber boot over the radio/antenna end of the cable. Install an RJ45 male connector on each end of the cable. Plug the cable into the RJ45 socket on the Outdoor Unit as shown in Figure 1-6. 5. Slide the rubber boot over the R-J45 connection so that it is tight against the radio/

antenna housing; then secure the boot in place with a cable tie. 6. Attach the cable to the Radio Control connector on the Indoor Unit as shown in Figure 1-7. 7. Dress the cable as appropriate. Seal the entry of both cables to the building as appropriate. 070-20000750-01 Rev A 19 Chapter 1. Overview To Indoor Units Radio IF connector To Indoor Units Radio Control connector Figure 1-6 Connections to the Outdoor Unit To radio/antennas Radio IF connector To radio/antennas Radio Control connector Figure 1-7 Connections to the Indoor Unit 070-20000750-01 Rev A 110 Chapter 1. Overview Ethernet 10/100 Base-T Connection To connect the Indoor Unit to Ethernet device. 1. 2. 3. Provide an appropriate Cat 5 Ethernet cable with an RJ45 male connector at each end. Use a straight-through cable for connection to a hub or router. Use a crossover cable for connection directly to a computer. Plug one end of the Ethernet cable into the RJ45 socket labeled 10/100Base-T on the Indoor Unit, as illustrated in Figure 1-8. The Radio Control connector of the Indoor Unit has the same physical appearance as the 10/100Base-T connector. Make sure you connect to the right one. Plug the other end of the Ethernet cable into the socket on the local Ethernet device. To computers Ethernet port or Ethernet hub Figure 1-8 Ethernet 10/100 Base-T Connection 070-20000750-01 Rev A 111 Chapter 1. Overview Software Overview Configuration The PacketWave 600 Series equipment is configured using the Advanced Configuration Manager (AIM) described in Chapter 2. The resulting configuration file is saved into the units permanent memory. Some configuration of equipment can be performed via the Web GUI or SNMP. If desired, these configuration changes can be made permanent by saving them into the units per-

manent memory. If configuration changes are made via the Web GUI or SNMP is not saved, they will be lost when the Indoor Unit is reset or re-powered. See Chapter 3 and 4 for more details on Web GUI. SNMP Each Indoor Unit includes an SNMP agent supporting the following MIBs:

SNMP MIB (RFC 1157) MIB II (RFC 1213) Aperto private MIB The complete MIBs are provided on the PacketWave CD-ROM. SNMP can be used to read configuration, status, and performance data from PacketWave 600 Series Units. In addi-

tion, SNMP can be used to change some configuration parameters (those which can be changed via the Web GUI), and to upload the configuration changes to the units perma-

nent memory. The SNMP agents support trap reporting. Trap-reporting parameters can be specified via the Web GUI as well as via SNMP. Event Reporting PacketWave 600 Series Units offer several means of reporting equipment events:

E-mail messages The Subscriber Unit can be configured (via the Web GUI, or SNMP) to report events via e-mail to specified addresses. SNMP traps The Indoor Units SNMP agent supports trap reporting. Trap-report-

ing parameters can be specified via the Web GUI, or SNMP. Event log A historical event log can be presented on request via the Web GUI. For information about specific subscriber equipment events which can be reported, see Appendix B. 070-20000750-01 Rev A 112 2 Installation and Configuration Installation and configuration of the PacketWave 600 series are provided in this chapter. Introduction The PacketWave series 600, point-to-point system consists of two indoor and two outdoor units. The indoor units have master and slave capabilities. The slave unit is the Packet-

Wave 610 and the master unit is the PacketWave 620. The installation software that help you configure, install, and aim your antenna is the Advanced Installation Manager (AIM). What you will need The PacketWave series 600 kit is supplied with everything you need. The only additional equipment youll need is an Ethernet cross-over cable and a PC (or PC compatible) with an Ethernet connection and enough memory and disk space to run the Java application. We suggest a laptop PC with 256 Mbyte memory, 10 GB disk drive, Pentium processor, and ethernet LAN connection. Systems as small as 128 Mbyte mem-

ory and a 386 processor have been used. They do work, but not very satisfac-

torily. Getting started Preparing the PC The PacketWave 600 comes with Java software from SUN Microsystems. 070-20000750-01 Rev A 21 Chapter 2. Installation and Configuration Install the file j2re-1_3_0_02-win.exe from the \Software\Application\Support directory of your CD-ROM. Next install the Setup.exe from the \Software\Application\AdvancedIM\win32 directory. Connect your Indoor Unit (IDU) to your Outdoor unit (ODU) using the appropriate RG6 and CAT-5 cabling. Connect your PC to the PacketWave 620 (PW620) IDU using an Ethernet cross-over cable. Performing the Installation To install the PacketWave 600 series point-to-point link you should first install the Pack-

etWave 620 (PW620) and then install the PacketWave 610 (PW610). Detailed instructions follow. Installing the PacketWave 620 - PW620 To install the PW620 you need to perform the following steps Connect the PC and the PW620 Start the Application Choose the Installation Mode Fill Out the Configuration Parameters or Accept the Default Configura-

tion Parameters Allow AIM to Configure the PacketWave Connect the PC and the PW620 Connect your PC to the PW620 using an Ethernet cross-over cable. It is best to only has one Ethernet connection on your PC. The AIM application has no way to distinguish which Ethernet interface to use. If you have multiple Ethernet interfaces, disable all of the extra ones. AIM is going to calculate an address in the current subnet of the PC to give to the Packet-

Wave devices in order for it to make an IP connection. It therefore requires that the PC have a fixed IP address; not one assigned by a DHCP server. The figure below, Figure 2-1, gives 070-20000750-01 Rev A 22 Chapter 2. Installation and Configuration an example of setting a fixed IP address on Windows 2000. Be sure to choose the Use the following IP address selection. Figure 2-1 Windows 2000 IP Address Setting WARNING:

You cannot rely of executing an ipconfig command to tell you if you have a fixed IP address. Often errors have occurred due to the fact that what appeared to be a fixed address was none the less a dynamic IP address and communications were lost when the Aperto device reboo-

ted to set the parameters permanently. Start the Application Double-click on the Advanced Installation Manager 1.0 (AIM) icon on your desktop. If it is installed properly, you should see the Authentication window, Figure 2-2shown below. Please note the buttons at the bottom of the window. The AIM application is much like a wizard program. You may move to the next or previous window as you wish. Each time you move from window to window some process is per-

formed for you. WARNING:

If the PC and the PW620 are not connected properly you will see the warning shown in the graphic below when you click on the next button. 070-20000750-01 Rev A 23 Chapter 2. Installation and Configuration If you feel you are connected properly between the PC and the PW620, see below for other errors. Click on the Next button at the bottom of the window. You will move to the next window and AIM will begin communications with the PW620. It will read the type of IDU so that it may proceed correctly through this installation. Figure 2-2 Authentication Window Choose the Installation Mode You should now be at the Installation Option Window as shown in Figure 2-3 below. You may now choose Setup to perform an Installation viewing and changing the parameters or Continue to use the parameters that are already stored in the PW620 from a previous installation attempt. If in doubt, choose the Setup option. Select the Installation Mode Option and then click on the Next button at the bottom of the window. If you chose the Setup Option, continue the instructions below. If you chose the Continue with setup 070-20000750-01 Rev A 24 Chapter 2. Installation and Configuration Option, skip then next step and go to the Continue Configuration Description. As you con-

tinue on the next window, AIM will get the current parameters from the PW620. Setup - new parameters or Continue - reset the unit. Figure 2-3 Installation Option Window Fill Out the Configuration Parameters If you are here, you chose the Setup Installation mode. If you chose the Continue with setup option please skip to the next step. The information shown to you in the Configuration Window was retrieved from the attached Aperto unit. If you have any reason to believe these are not correct, click on the Previous button and then on the Next button to get back to this screen and refresh the data. You should now be at the Installation Option Window as shown in Figure 2-4 below. Most of the values are filled in for you. The MAC address should be the same as that on the label in the back of the IDU. If this is the first time, the window will look differently than in each successive installation. That is because the frequency band and channel width are only requested once. Please use the selection box following the Frequency (MHz) label to select the UNII5.8GHz 070-20000750-01 Rev A 25 Chapter 2. Installation and Configuration

(5.725 - 5.825 GHz) value. It is suggested that you leave the channel width to the current selection of 6. Band 1st time only read from device Always add your own frequency IP Addressing read from device Width 1st time only Figure 2-4 Configuration Window from Setup Please select an appropriate channel center frequency. The values range from 5728 to 5822.This is the center of a 6MHz channel. You may move the frequency up or down within that range in 1 MHz values. Hopefully, you have planned carefully and have an appropriate value in mind. Aperto has no way of offering a suggestion for a default value appropriate to your area. As soon as you configure the PW620, it will begin transmitting. Choose the IP address, Subnet mask, and Default gateway appropriate for your PW620. This should be a unique address in the network to which you attach the PacketWave 600 series units. It is important to remember that the IP subnet you choose will include an address for the PW610. Thus, both units of your PacketWave 600 series should have a unique address in the same subnet. The antenna polarity of the PW620 should match that of the PW610. Antenna polarity and diversity will be discussed later in this document. The Vertical default is a good choice. 070-20000750-01 Rev A 26 Chapter 2. Installation and Configuration Link Distance should be set to the correct distance or the next higher equivalent. Values of 10,20,30,40, and 50 KM are available. AIM will calculate the correct frame parameters for the values you have entered. Please skip ahead to the Results step. Accept the Default Configuration Parameters If you are here, you chose the Continue with setup Installation mode. If you chose the Setup option please skip to the next step. You should now see a window as shown in Figure 2-5. AIM has retrieved the MAC address of the Aperto unit. If you believe this is incorrect, use the Previous and then the Next but-

tons to proceed to the previous window and then back again. If the information is correct, click on the next button. Figure 2-5 Configuration Window - Continuing with Installation Allow AIM to Configure the PacketWave When you click on the next button from either the Setup or Continue with Setup Configu-

ration window, AIM sends the parameters to the Aperto PW620. 070-20000750-01 Rev A 27 Chapter 2. Installation and Configuration AIM signifies the completion of the work by displaying a Result window as show in Figure 2-6. Figure 2-6 Result Window of the Installation of a PacketWave 620 You may now use the Previous button successively to return to the Authentication window to proceed to the installation of the PW610 or you may click on the Exit button to end the program. AIM has a warning to ask if you really want to exit. This is shown in the graphic below Figure 2-7 Exit Warning WIndow WARNING:

The high speed bridge mode technology of the PacketWave 600 series causes it to remember which interface was connected to a particular PC. When you use AIM to configure the PW620, the PW620 believes the PC is connected to its LAN interface. If you use the same PC to run AIM on the PW610, the system may get confused since the PC will now appear 070-20000750-01 Rev A 28 Chapter 2. Installation and Configuration on the wireless interface of the PW620. These entries time out in 1 hour. If you wish to use the same PC to run the AIM application on the both of the PacketWave 600 units (PW620 & PW610) within the same hour, it is best to disconnect the PC from the unit and power-cycle it. Installing the PacketWave 610 - PW610 The installation of the PW610 is similar in many ways to the installation of the PW620. Many of the input parameters are the same. The biggest difference is that you use AIM to aim the antenna for the best possible signal. Everything you need is supplied in the AIM application. You dont have to guess at the optimal signal level nor do you need expen-

sive equipment. The PacketWave 600 series not only helps you get the best signal, but also includes standard communication test to insure the equipment is working properly. To install the PW610 you need to perform the following steps Connect the PC and the PW610 Start the Application Choose the Installation Mode Fill Out the Configuration Parameters or Accept the Default Configura-

tion Parameters Allow AIM to Configure the PacketWave Align the Antenna Allow AIM to Perform the Installation and Through-put Tests View the Results and Re-align the Antenna if Necessary Exit the AIM Application Connect the PC and the PW610 Connect your PC to the PW610 in the same way you did with the PW620. Follow the exam-

ple of Figure 2-1 on page -3. Start the Application If you exited the AIM application, restart it just as you did for the PW620. If you did not exit the application, click on the Previous button successively until you reach the Authen-

tication Window as shown in Figure 2-2 on page -4. Once on this page, make sure the PC is connected to the PW610 and click on the Next button. At this point AIM will query the Aperto unit and determine it is a PW610. 070-20000750-01 Rev A 29 Chapter 2. Installation and Configuration Choose the Installation Mode The installation modes of the PW610 vary from that of the PW620. You will note that there is now a Test Only mode. The first two modes are the same with either the PW620 or the PW610. Test Only mode provides a ping and through-put test that is non-destructive. Figure 2-8 below shows the three options. choose one and click on the Next button. Figure 2-8 Install Option Window for the PW610 Fill Out the Configuration Parameters You come to the Configuration Parameters window as seen in Figure 2-9 because you selected Setup as your Install Option. If you chose the Continue with setup, skip to the next step. As you can see from Figure 2-9 below, the configuration parameters of the PW610 are much the same as the PW620. The screens appearance is simplified due to the fact that the frequency band and channel are not presented. Aperto assumes that once this has 070-20000750-01 Rev A 210 Chapter 2. Installation and Configuration been selected for a system, the questions no longer need to be asked. The rest of the screen is also simplified also. Figure 2-9 Configuration Window for the PW610 Enter the same frequency as you did on the PW620 configuration. These must match exactly. Enter the IP address, subnet mask, and default gateway of the PW610. Remember this IP address should be in the same subnet as the PW620 or the ping and through-put tests of AIM will not complete. Finally, enter the antenna polarity. Here are the general rules:

The PW620 is set to Vertical; set the PW610 to Vertical The PW620 is set to Horizontal; set the PW610 to Horizontal The PW620 is set to Vertical with diversity or Horizontal with diversity; set thePW610 to diversity. A more complete description of diversity is given later. Click on the Next button to proceed and skip the next step and proceed to Antenna Align-

ment;

070-20000750-01 Rev A 211 Chapter 2. Installation and Configuration Accept the Default Configuration Parameters You came to this step because you chose Continue with setup. If you chose Setup as your install option, please skip ahead to the next step. This step is exactly the same as with the PW620 so please refer to Figure 2-5 on page -7 for the correct instructions. Click on the Next button Allow AIM to Configure the PacketWave AIM now uses the information you gave (or the information stored in the Aperto unit if you came with the Continue with setup option) to configure the Aperto unit. AIM will send all of the parameters you entered and some calculated parameters to the Aperto unit. WARNING:

One of the items AIM sends to the Aperto unit is a calculated IP address and subnet so AIM can communicate with the Aperto unit using stan-

dard TCP/IP. If you begin the alignment step and do not terminate it suc-

cessfully, the IP address of the PW610 will remain with the address calculated by AIM, not the address you gave in the AIM parameters. Only after a successful completion of antenna alignment will the IP address be as you entered. The PW610 will be reset and it will go into antenna alignment mode. Once the PW610 is ready for antenna pointing, AIM will proceed to the alignment window automatically. 070-20000750-01 Rev A 212 Chapter 2. Installation and Configuration Align the Antenna When the antenna is ready to be aligned, the window as shown in Figure 2-10 below. Figure 2-10 Alignment Window of PW610 - First Step Move the antenna to point up or down or right to left to maximize the signal strength as shown on the graph on the right side of the window. Values greater than -95 dbm will work in the slowest speed on the line. Values above -78 will work at the highest speed. Once this value is maximized, click on the View SNR button to reveal the full window as shown in Figure 2-11. Values in the red area are not good. Values in the yellow area are 070-20000750-01 Rev A 213 Chapter 2. Installation and Configuration acceptable. Values in the green area are best. The author has seen a value of 10db of SNR, most definitely in the red area, successfully at the lowest speed. Figure 2-11 Alignment Window of the PW610 - Full Window Once again, adjust the antenna to point up or down, right or left until the maximum signal strength and maximize the signal to noise indicator (SNR). When you have done all that is possible, click on the Finish button. Allow AIM to Perform the Installation and Through-put Tests A series of popup windows will display showing you the progress of the application. Remember, that the unit must perform automatic transmission strength and radio gain, become operational, and perform IP stability testing before the application is complete. The following is the description of the popup windows as the system progresses. First, 070-20000750-01 Rev A 214 Chapter 2. Installation and Configuration parameters are sent to the PW610. Next the unit is reset. This takes a few minutes of time and you will see the popup window below. The following window will display when the PW610 has reset and it receives the first syn-

chronization from the PW620. It is periodically refreshed and shows the current state of the unit and the radio gain and attenuation from maximum transmission. There is nothing you can do to help or hinder this process. It will proceed automatically. AIM requests a ping test between the PW600 units once the unit becomes operational. Then the following will be displayed. This is to signify that the unit is operational and the ping tests have completed. It make take a few minutes to complete the throughput tests 070-20000750-01 Rev A 215 Chapter 2. Installation and Configuration depending upon the signal characteristics. If it takes more than 10 minutes, click on the Exit button. View the Results and Re-align the Antenna if Necessary Figure D-13 shows an example of the Results Window after the antenna alignment is fin-

ished. Results of the Ping test and the Throughput test are displayed. The ping results are the same as most ping applications. The throughput test is the result of the data through-

put of an FTP transfer of 1 megabit of data transferring up and down the wireless link. Figure 2-12 Results Window of the PW610 070-20000750-01 Rev A 216 Chapter 2. Installation and Configuration These results and RF transmission results are recorded in a text file with the name of the IP address in the file in which AIM is loaded (normally C:\aim). Each time the Setup or Test function successfully executed this file is updated. View the Results and Re-align the Antenna if Necessary It is important to check the RF and IP transmission results to see if you have the best pos-

sible wireless connection. If these results are not acceptable, click on the previous button to the installation option window, choose the Continue with Setup option and click on next and then final buttons to re-align the antenna and retest. Exit the AIM Application To exit, click on the Exit button. An exit confirmation window will appear as shown in Figure D-14 on page -18. Running a Non-destructive Test You can run a non-destructive test at any time from the LAN port of the PW610. Connect the PC to the PW610 and start the AIM application as described above. At the Installation Option Window, select Test only and click on the Next key. You can pick the number of megabytes to be transferred from the selection window shown below in Figure 2-13. Click on the Next button after choosing the size of the test. Figure 2-13 Test Configuration Window 070-20000750-01 Rev A 217 Chapter 2. Installation and Configuration The same result screen as Figure 2-12 on page -16 will show and the result text file will be updated. Antenna Polarity What are the options?

The Aperto Series 600 point-to-point system runs in two modes; fixed polarity mode and diversity mode. The polarity is Vertical or Horizontal. Vertical is usually a better choice in that it provides a signal over longer distances. That is not due to the strength of the signal since both Ver-

tical and Horizontal are the same strength. This characteristic is due to the type of inter-

ference from environmental factors. If there is interference from other signals, Horizontal may be a better choice. Antenna Diversity allows the PW610 to check both the Vertical and Horizontal signals the use the stronger of the two. The radio/antenna is installed at a 45 degree angle and appears to be a diamond shape rather than a rectangle. This is done so the Vertical and Horizontal signals are more available to the PW610. The PW620 will increase the number of SYNC packets on the wireless frame when it is placed in diversity mode so that the synchronization may be seen more regularly by the PW610. The SYNC packets are either sent Vertically or Horizontally, thus the settings of Vertical diversity and Horizontal diver-

sity on the PW620. When to use Antenna Diversity Antenna Diversity does have a disadvantage when it comes to signal strength. We loose 3db of signal strength when we run in diversity mode. Therefore, it is not appropriate to enable diversity when long distances of weak signals are encountered. When maximum signal strength is required, use either Vertical or Horizontal polarity without diversity. Antenna Diversity should be used when there is multipath or signal distortion due to phys-

ical interference such as buildings or trees or other vegetation. Multipath is cause by a signal bouncing off of reflective surfaces. The antenna receive many signals from the same source frame, but due to their reflection, they are delayed and thus many offsetting signals. Aperto utilizes many techniques to isolate the strongest signal in a multipath environment, one of which is Antenna Diversity. Another way to deal with the multipath environment is antenna alignment of which you are already familiar. If the SNR value is low after pointing the antenna as best you could in a non-diversity mode, you should re-mount the PW610 antenna and try diversity mode. Another indication that you should try diversity mode is that after your best attempt at antenna pointing you receive disappointing throughput results. 070-20000750-01 Rev A 218 Chapter 2. Installation and Configuration Finally, you should try diversity mode if you feel that even though your SNR values are high and the throughput has appropriate results today, this may change in the future. An exam-

ple of this is that you install in the Winter when trees have few or no leaves, but you know that come Spring the leaves will grow back causing problems. It is best to utilize diversity mode now in anticipation. Installation with Antenna Diversity Here is how you install antenna diversity now that you have determined you need it Leave the PW620 mounted in a rectangular fashion such that the antenna bracket is at 90 degree angles to the antenna. Insure that the mounting mast of the PW620 is plumb (at exact vertical). Choose either Vertical or Horizontal polarity with diversity using AIM. Change the antenna mounting bracket of the PW610s antenna such that it is at a 45 degree angle to the antenna Insure that the mounting mast of the PW610 is plumb. When AIM enters the Alignment phase, you will see two signal strengths, horizontal and vertical. You should maximize their value and insure that both the horizontal and vertical signal strengths are equal. To perform the alignment of the horizontal and vertical signal strengths, you should plumb the antenna as appropriate to make these signals equal. An example of AIMs Alignment response is shown in Figure 2-14 on page -20. 070-20000750-01 Rev A 219 Chapter 2. Installation and Configuration Once aligned, check the IP integrity and throughput as before. Re-align if necessary. Figure 2-14 Alignment with Diversity Enabled 070-20000750-01 Rev A 220 Chapter 2. Installation and Configuration Problem with Signal Indicator in Installation Manager When using Installation Manager, if the signal does not move up from the bottom of the Signal Indicator graph (i.e., shows -100 dBm), follow the instructions below. If the installation has line-of-sight to the Base Station antenna, you should know the gen-

eral direction to point the Outdoor Unit. Start in that direction. Move the Outdoor Unit every few seconds until you see the Signal Indicator line raises at lease once. Once it raises, slow the movement of the antenna, checking the SIGNAL INDICATOR as well as the SNR. If nothing appears after 2 to 3 minutes, it is best to click the Previous and then the Next buttons to reset sequence. If the installation is not line-of-sight, either search for a first synchronization from the base station (as indicated by the rise of the Signal Indicator line) or just pick a direction to point your antenna. In either case, the SU will begin to adjust your 10 MHz reference clock. After two minutes, either the SU has found synchronization, or it needs to be reset by clicking on the Previous and then the Next buttons. If you chose to leave the antenna in a static direction, move that antenna 20 degrees after it has been reset. 070-20000750-01 Rev A 221 Chapter 2. Installation and Configuration 070-20000750-01 Rev A 222 3 Base Station Unit Web GUI Each PacketWave 620 Base Station Unit and PacketWave 610 Subscriber Unit includes a Java-based graphical user interface (GUI) which runs on a standard Web browser

(Netscape 4.74 or Internet Explorer 5.0 recommended). Functions of the Web GUI include:

Viewing network connectivity. Monitoring status and performance. Reviewing configuration. Making configuration changes. Uploading configuration changes to the Base Station Unit and Subscriber Unit per-

manent memory. Resetting Base Station Units and Subscriber Units. This chapter describes the Base Station Unit Web GUI. 070-20000750-01 Rev A 31 Chapter 3. Base Station Unit Web GUI Accessing the BSUs Web Interface To access the Base Station Units Web GUI:

1. On a computer with IP access to the Base Station Unit, open Netscape 4.74 or Internet Explorer 5.0. (Other browsers could show some anomalies.) 2. Enter the URL, http://<BSU IP address>/. The logon page will appear, as shown in Figure 3-1. Figure 3-1 BSU Web GUI Logon Screen 3. Select the ISP user name. Debug logon is reserved. 4. Enter the correct password (case-sensitive). NOTE: The default password is isp. For security, this password should be changed via the Web GUI. 5. Click on the Logon button or press Enter key. 6. If the browser prompts that it needs to load a plug-in, allow it to do so. 7. Wait for the Web GUI home page to open, as shown in Figure 3-2. The Web GUI pages share the basic elements identified in Figure 3-2. 070-20000750-01 Rev A 32