Chapter 7: Glossary

If the IP addresses given by your ISP are not enough for each PC on the LAN and the ADSL Router, you need to use NAT. With NAT, you make up a private IP network for the LAN and assign an IP address from that network to each PC. One of some public addresses is configured and mapped to a private workstation address when accesses are made through the gateway to a public network.

For example, the ADSL Router is assigned with the public IP address of 168.111.2.1. With NAT enabled, it creates a Virtual LAN. Each PC on the Virtual LAN is assigned with a private IP address with default value of 192.168.1.2 to 192.168.2.254. These PCs are not accessible by the outside word but they can communicate with the outside world through the public IP 168.111.2.1.

Private IP Address

Private IP addresses are also LAN IP addresses, but are considered “illegal” IP addresses to the Internet. They are private to an enterprise while still permitting full network layer connectivity between all hosts inside an enterprise as well as all public hosts of different enterprises.

The ADSL Router uses private IP addresses by assigning them to the LAN that cannot be directly accessed by the Internet or remote server. To access the Internet, private network should have an agent to translate the private IP address to public IP address.

Public IP Address

Public IP addresses are LAN IP addresses that can be considered “legal” for the Internet, because they can be recognized and accessed by any device on the other side of the DSL connection. In most cases they are allocated by your ISP.

If you are given a range of fixed IP addresses, then one can be assigned to the router and the others to network devices on the LAN, such as computer workstations, ftp servers, and web servers.

PVC (Permanent Virtual Circuit)

A PVC is a logical point-to-point circuit between customer sites. PVCs are low-delay circuits because routing decisions do not need to be made along the way. Permanent means that the circuit is preprogrammed by the carrier as a path through the network. It does not need to be set up or torn down for each session.

RIP (Routing Information Protocol)

RIP is a routing protocol that uses the distance-vector routing algorithms to calculate least- hops routes to a destination. It is used on the Internet and is common in the NetWare environment. It exchanges routing information with other routers. It includes V1, V2 and V1&V2, which controls the sending and receiving of RIP packets over Ethernet.

UDP (User Datagram Protocol)

UDP is a connectionless transport service that dispenses with the reliability services provided by TCP. UDP gives applications a direct interface with IP and the ability to address a particular application process running on a host via a port number without setting up a connection session.

Virtual Server

You can designate virtual servers, e.g., a FTP, web, telnet or mail server, on your local network and make them accessible to the outside world. A virtual server means that it is not a dedicated server -- that is, the entire computer is not dedicated to running on the public network but in the private network.

VPI (Virtual Path Identifier) & VCI (Virtual Channel Identifier)

A VPI is a 8-bit field while VCI is a 16-bit field in the ATM cell header. A VPI identifies a link formed by a virtual path and a VCI identifies a channel within a virtual path. In this way, the

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Dynalink RTA230 manual VPI Virtual Path Identifier & VCI Virtual Channel Identifier

RTA230 specifications

The Dynalink RTA230 is a high-performance router designed for both home and small business environments, offering reliable connectivity and multiple features that enhance the user experience. With a sleek and compact design, it fits seamlessly into various spaces while delivering robust performance.

One of the standout features of the RTA230 is its dual-band Wi-Fi capability, which supports both 2.4GHz and 5GHz frequency bands. This dual-band functionality allows users to connect multiple devices without experiencing significant interference or lag. The 5GHz band is particularly useful for high-demand applications, such as streaming videos in 4K, online gaming, and video conferencing, where speed and stability are crucial.

The router supports the latest Wi-Fi 5 (802.11ac) technology, offering faster speeds and improved connection quality compared to its predecessors. With combined speeds of up to 1.9 Gbps, the RTA230 is well-suited to handle a variety of online tasks, from basic browsing to intensive bandwidth applications. This technology ensures users can enjoy seamless connectivity throughout the home or office.

Another key characteristic of the Dynalink RTA230 is its impressive range. Equipped with advanced antennas, the router provides excellent coverage, eliminating dead spots and ensuring that users can remain connected even in larger spaces. This makes it an ideal solution for multi-room setups, where consistent signal strength is a priority.

Security is a major consideration for any network device, and the RTA230 does not disappoint. It offers robust security features, including WPA3 encryption, which ensures greater protection against unauthorized access. Additionally, the router includes a built-in firewall and other essential security protocols to safeguard user's data.

The Dynalink RTA230 also supports easy installation and management through its user-friendly interface. Users can quickly set up their network using a mobile app or web-based interface, where they can manage connected devices, set parental controls, and monitor network traffic, all from the comfort of their smartphone or computer.

In summary, the Dynalink RTA230 is a versatile router that combines speed, range, and security into a single package. Its dual-band Wi-Fi, support for the latest technology, and user-friendly management options make it an excellent choice for anyone looking to enhance their Internet experience, whether at home or in a small office environment.