Zhone Technologies 4929 DSLAM manual Configuring Your Windows PC to Communicate with, Nms

Page 36

Configuration Using the NMS

Configuring Your Windows PC to Communicate with

NMS

To communicate with NMS, your PC’s Ethernet interface must be on the same subnet as the network extender. For example, to configure the IP address under Windows XP:

1In the Windows task bar, click on the Start button, and then click on Control Panel.

2Double-click on the Network Connections icon.

3In the LAN or High-Speed Internet window, right-click on the icon corresponding to your network interface card (NIC) and select Properties. (Often this icon is labeled Local Area Connection.) The Local Area Connection dialog box is displayed with a list of currently installed network items.

4Ensure that the check box to the left of the item labeled Internet Protocol (TCP/IP) is checked, and click on Properties.

5Write down the current IP Address and Subnet Mask in the Internet Protocol (TCP/IP) Properties dialog box. When you are done using NMS, you will need to reconfigure your PC with these values.

6In the Internet Protocol (TCP/IP) Properties dialog box, click in the radio button labeled “Use the following IP address” and type 192.168.254.x (where x is any number between 3 and 250, inclusive) in the IP Address field.

7Type 255.255.255.0 in the Subnet Mask field.

8Click on OK twice to confirm your changes, and close the Control Panel.

9Start your web browser. Type 192.168.254.252 into the Address field and press Enter. The web server opening screen appears.

10Click on >> Next >>. The login dialog box appears. Log in using:

Username: superuser

Password: Password

36

4929 DSLAM Installation and User’s Guide

4929-A2-ZN20-30

Image 36
Contents Dslam Installation and User’s Guide Copyright 2005 Zhone Technologies, Inc. All rights reserved Dslam Installation and User’s Guide End User License Agreement Zhone and AffiliatesImportant Safety Instructions EMI Notices United States EMI NoticeCE Marking Canada EMI NoticeContents Configuring Your Windows PC to Communicate with NMS 4929-A2-ZN20-30 Dslam Installation and User’s Guide Dslam Installation and User’s Guide About this Guide Document Purpose and Intended AudienceDocument Summary Related Product Documents GrandVIEW EMS User’s GuideContacting Global Service and Support Service RequirementsTechnical Support Dslam Installation and User’s Guide Features IntroductionOverview Introduction Installation PreparationCables Required ADSL2+Pots SFPPackage Contents Mounting ConfigurationsUnpacking the Hardware Installing the Brackets for Rack Mounting Installing the Dslam Into a Rack Installing the Dslam on a Wall Installing the Dslam on a Wall Installing the Dslam on a Shelf or Desktop Cabling Cabling OverviewInstalling the Micro Interface Module Connecting the ADSL2+ and Pots Connectors Connecting the SFP Connector or the 10/100/1000 Connector Connecting DSLAMs to Each Other Connecting the COM Port Connecting a Terminal or PC to the COM PortConnecting to Power Connecting a Modem to the COM Port+48 VDC -48 VDC LED Locations LED MeaningsPWR Configuration Using the NMS Web Interface System RequirementsConfiguring Your Windows PC to Communicate with NMSNMS home page appears Management Configuration DslamAdvanced Configuration Http Password PasswordSnmp Configuration Snmp Community Administration Global Circuit Configuration Global SetAccepted from source IP addresses in the ranges Global Dscp Rules Vlan Global IP Rules Specify a Vlan ID range. For each Global IP Global MAC Rules MAC Rule, if you selected Tag for Allow Tag Global Vlan Rules Specify a Vlan ID range that constitutes a Parameter Description Global Advanced Configuration Circuit Summary EC/FDMCircuit Configuration Circuit Configuration Dscp Rules Parameter Description IP Rules Parameter Description MAC Rules Parameter Description Vlan Rules Vlan Backbone Vlan ID Parameter Description Port Statistics Copy Port SNR Advanced Configuration MAC and Igmp Summary MAC-IGMPParameter Description Dslam Interconnect Configuration To specify the port connected to a downstream Dslam Command Line Interface Connecting a PC DirectlyCLI System Requirements CLI Commands Launching the Terminal Emulation ProgramDisablewebserver EnabletelnetEnabletftp EnablewebserverClisessiontimeout DefaultgatewayFlood UPL,VLN Generalpassword LAYER2ENABLEReset SuperuserpasswordMAC MgmtportuplinkUsing the CLI to Establish Inband Management Snmp Interface Downloading MIBsAccess Community String Snmp Community StringsConnectors and PIN Assignments DSL Ports and Pots Splitter ConnectorsDSL Connector Pinouts Sheet 2 SFP Connector MOD-DEF2 I2CDATA MOD-DEF1 I2CCLK MOD-DEF0 SfppresentlLOS RD+10/100/1000BaseT Connector DB9 to RJ45 Adapter Pinouts DSR RTSGND DTR CTSConnectors and Pin Assignments Equipment List Equipment List Technical Specifications Ieee 802.1Q Vlan Index NumericsCLI Igmp Snmp Vlan ID Tftp

4929, 4929 DSLAM specifications

Zhone Technologies, a leading provider of innovative networking and communications equipment, has garnered attention for its advanced digital subscriber line access multiplexer (DSLAM), the Zhone 4929. This model is designed to meet the growing demand for high-speed broadband access in a variety of environments, making it a vital component in modern telecommunications networks.

One of the primary features of the Zhone 4929 DSLAM is its ability to support multiple DSL standards, including ADSL, ADSL2, ADSL2+, and VDSL2. This versatility enables service providers to efficiently manage a diverse range of customer demands and to optimize bandwidth allocation across various service tiers. The ability to support both asymmetric and symmetric DSL technologies allows operators to cater to different business and residential requirements while maintaining service quality.

The Zhone 4929 is equipped with advanced hardware that supports high-density deployments, allowing network operators to maximize their investment in infrastructure. With support for up to 384 DSL lines in a single chassis, this DSLAM can easily scale to accommodate growing subscriber bases. This flexibility is essential for service providers aiming to expand their coverage and reach without significantly increasing operational costs.

Another notable characteristic of the 4929 is its robust management capabilities. It features an intuitive management interface that simplifies the monitoring and configuration of the device, enabling operators to efficiently manage their networks. With real-time performance monitoring and diagnostic tools, service providers can quickly identify and resolve issues, ensuring a high-quality end-user experience.

Power efficiency is also a key aspect of the Zhone 4929 design. The DSLAM employs energy-efficient technologies that reduce overall power consumption, making it not only environmentally friendly but also cost-effective during operation. This is particularly important in an era where operational costs and sustainability concerns are at the forefront of industry challenges.

Moreover, the Zhone 4929 is designed with future-proofing in mind. Its modular architecture allows for easy upgrades and expansions, meaning that service providers can adapt to new technologies and standards as they emerge, protecting their investments over time.

In conclusion, the Zhone Technologies 4929 DSLAM is a powerful solution for enhancing broadband access. Its support for multiple DSL technologies, high-density capabilities, robust management tools, energy efficiency, and future-proof design make it an essential component for any service provider looking to deliver high-speed internet access in today's fast-paced digital world.