Siemens ADSL 500 user manual Router Mode, Connection Mode, Interface

Page 59

Chapter 4: Connection Mode

Router Mode

Default Private IP 192.168.1.1 for Management

 

ADSL

 

 

Hub

Router

Loop

STM-1

 

 

 

ISP

 

 

 

Public IP(s)

DSLAM

BRAS

 

 

 

 

 

 

 

 

 

 

 

 

 

PC(s)

Pre-assigned

 

 

AAA

 

 

 

 

 

 

by ISP (+ NAT)

 

 

 

 

 

 

 

 

 

RADIUS

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Server

 

 

 

 

 

IP over ATM

 

 

 

 

 

 

 

 

 

 

 

* BRASBroadband Remote Access Server

 

 

 

Description:

In this deployment environment, we make up a private IP network of 192.168.1.1. NAT function is enabled (on ADSL Router or use another NAT box connected to hub) to support multiple clients to access the Router and some public servers (WWW, FTP).

If you apply for multiple IP addresses from your ISP, you can assign these public IP addresses to the ADSL Router and public server, e.g., Web or FTP server. Typically the first IP is network address, the second is used as router IP address and the last one is subnet broadcasting. Other remaining IP addresses can be assigned to PCs on the LAN.

For example: You are given the IP addresses 10.251.2.0 ~ 10.251.2.7. Then:

10.251.2.0 is network IP address 10.251.2.1 is assigned to router IP address. 10.251.2.7 is subnet broadcasting

10.251.2.2~10.251.2.6 can be assigned to public servers on the LAN.

Configuration:

1.Start up your browser and type 192.168.1.1 as the address to enter this ADSL web-based manager.

2.Go to Advanced User > Configuration > WAN Configuration > Create a new PVC. And select the Data Mode RFC1483 Routed. Then click Next button.

3.Enter the VPI/VCI values provided by your ISP and select the encapsulation type as LLC/SNAP or VC MUX. Then click Apply.

4.Set IP configuration for Local WAN IP Address. Choose Specify an IP Address item. Please set as the following example,

IP Address: 10.3.80.105 (should be the one that you get from ISP)

Subnet Mask: 255.255.255.248

Check on Enable NAT on this interface and click Apply.

5.Go to Configuration > LAN Configuration and set as the following Primary IP: 192.168.1.1, Subnet Mask: 255.255.255.0

Secondary IP: 10.3.80.105, Subnet Mask: 255.255.255.248 (should be the one that you get from ISP)

Then click Apply.

6.Go to Configuration > IP Route and click Create a New Route to add a new route.

Destination Address:

leave default

Netmask:

leave default

Forward packets to:

Interface

Then click Apply.

 

7.Go to Configuration > DNS and enable DNS Relay setting and click Next. On the DNS Relay web page, enter the DNS Server IP address, for example 168.95.1.1 (you should get this value from your ISP).

8.Save the configuration from System >Save Configuration and System >Restart to restart your router for initiating these settings.

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Contents Santis Adsl 50/500 For Service Safety NotesFor Installation For UsingConfiguration ContentTroubleshooting Before You Use FeaturesSystem Requirements Security FeaturesConfiguration and Management For Wireless ClientsUnpacking Front Panel OverviewPhysical Outlook 12VDC Rear PanelLAN 1 ConsoleChoosing a place for the Adsl Router InstallationConnecting the Adsl Router 1a Analog Pstn installationBelgium-Line Filters 1b Isdn installationPage For Windows 98 SE ConfigurationConfigure TCP/IP on Client PC Your network interface card Configuration Page For Windows ME For Windows NT Configuration Page For Windows Page Configuration For Windows XP Renew IP Address on Client PC For Windows NT For Windows Activate WEP Securing your wireless networkChange / activate passwords Change the SsidInternet Access Configuration Quick Configuration via web browserWireless Security Association Control Wireless Configuration WEP encryptionAccess to the Advanced Configuration Advanced Configuration via web browserQuick Menus of the Advanced ConfigurationSave & Restart button To Have the New Settings Take EffectApply & Save button Quick start Advanced FeaturesAccount AdministrationDevice Information Web Port Remote AccessChoose Save this file to disk and click Ok Quick ConfigurationReset Router Save ConfigurationUpgrade Software DS/US Latency Trellis coding Line Attenuation Noise Margin DSL ConnectionDS Downstream Routing Table WAN ConnectionTraffic Counter Dhcp Table Wireless ClientDSL Configuration ConfigurationDhcp Server LAN ConfigurationIP Address Page Wireless Ssid Wlan ConfigurationWired Equivalent Privacy Mechanism WAN Configuration Local WAN IP Address ATM Service TypePCR Peak Cell Rate Encapsulation TypeIP Route DNS Relay NetmaskDynamic Routing DNS Server Firewall SecurityConfiguration Virtual Server Intrusion DetectionConfiguration Igmp Proxy UPnP Connection Mode Interface Router ModeConnection Mode Page Bridge Mode MER Mode PPPoA + NAT Mode PPPoE + NAT Mode PPPoE Relay Multiple PVCs Mode Problems with WAN TroubleshootingProblems with LAN Action Problems with UpgradingTroubleshooting Glossary Glossary Software Appendix SpecificationHardware Appendix Specification

ADSL 500, ADSL 50 specifications

Siemens has made significant contributions to telecommunication technologies, particularly in the realm of Asymmetric Digital Subscriber Line (ADSL). Two prominent products in their portfolio are the Siemens ADSL 50 and ADSL 500, both designed to enhance broadband connectivity for residential and business users.

The Siemens ADSL 50 is a versatile modem that supports downlink speeds of up to 50 Mbps, making it ideal for users who require substantial data bandwidth for activities such as streaming, gaming, and video conferencing. One of its key features is the ability to optimize connection stability using advanced modulation techniques like DMT (Discrete Multi-Tone). This ensures efficient data transmission by dividing the bandwidth into multiple channels, allowing simultaneous data transfer without significant interference.

Another notable characteristic of the ADSL 50 is its built-in Quality of Service (QoS) functionality. This feature enables prioritization of traffic, ensuring that real-time applications like VoIP or online gaming experience minimal latency and jitter. The device is also equipped with multiple Ethernet ports, providing connectivity for various devices within the home or office.

Meanwhile, the Siemens ADSL 500 takes connectivity a step further by offering a higher maximum downlink speed of up to 500 Mbps. This model caters to users with more demanding bandwidth requirements, such as large enterprises or tech-savvy households with multiple users. Like the ADSL 50, the ADSL 500 employs advanced modulation techniques to manage data traffic effectively.

The ADSL 500 also features enhanced security protocols to safeguard user data, including WPA2 encryption for wireless connectivity, which is essential in today's digital landscape where cybersecurity threats are prevalent. Its compatibility with IPv6 ensures that it remains relevant as the industry transitions to this next-generation internet protocol.

Both models come with user-friendly configurations, typically allowing for quick set-up through web-based interfaces. They often include features like remote management and diagnostics, enabling users to troubleshoot connection issues efficiently.

In summary, the Siemens ADSL 50 and ADSL 500 provide robust solutions for broadband connectivity, combining high-speed capabilities with advanced features to meet the evolving needs of users. Their focus on stability, efficiency, and security makes them reliable choices for anyone looking to enhance their internet experience.
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