Networking Glossary

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Introduction

This page explains some of the fundamental concepts, components and terminology associated with standard computer networks. These networks are often referred to as local area networks (LAN). This type of network is technically known as an Ethernet network.

Cable

Network

An Ethernet network consists of two or more devices effectively connected together as shown in the diagram.

Network.png

Since most devices only have one physical network connection socket, connecting more than two devices is not possible without the use of an additional device known as a network switch.

Network Switch

A network switch, often just referred to as a switch, allows multiple network devices to be connected together in a star formation. Switches come in different types and sizes. The most common type of switch is known as a "dumb" switch because it is not user configurable. A switch's size is defined by the number of network sockets, or ports, it has. The diagram below shows a four port switch.

Switch.png

A switch functions as a multipoint connector where any device, attached to any of the switch ports, is effectively connected to all other devices connected to any of the other ports.

IP Address

An IP address is a series of 4 numbers, in the range 0 to 255, assigned to each device on the network. Each device on the network needs a unique IP address to communicate with other devices. Problems will occur if two devices on the network have the same IP address.

Assignment

There are two ways to assign IP addresses to a device on the network, static assignmant and dynamic assignment.

Static Assignment (Manual)

Static (fixed) assignment is where a fixed IP address is manually programmed into the device. This is normally done using a settings menu on the device. Some devices do not support static IP assignment.

Dynamic Assignment (Automatic)

Dynamic assignment is where the IP address is assigned automatically, by the network. Each device sends a request for an IP address onto the network. It then waits for a response containing the address it should use. This is done using a mechanism called DHCP.

DHCP

DHCP (Dynamic Host Configuration Protocol) is a standard protocol used for automatic assignment of IP addresses to devices on a network. Devices, that are configured for DHCP, send a request then wait to receive a response containing the IP address that they have been allocated. A major advantage of this approach is a device can be moved to a different network without the need for reconfiguration. Some devices send a DHCP request every time they are disconnected and reconnected to a network. Other devices only send a request at power up, meaning they have to be power cycled whenever they are moved to a new network.

DHCP Server

A DHCP server is a small software component that processes DHCP requests from devices on the network. It replies to each request with a response containing a valid IP address for that device. It keeps a record of the devices who sent requests, and the IP addresses that it assigned to them, ensuring that no two devices are supplied with the same address. It is important that only one DHCP server exists on the network. Problems will occur if more than one is present since devices would then receive multiple responses to their requests. Typically, DHCP server functionality is integrated into the router device on the network.

Dynamic Fixed Assignment
MAC Address

Subnet

Subnet Mask

Router

A router is a device that manages the boundary between two subnets.

Router.png

Wireless Access Point (WAP)

A WAP is device that provides wireless access to the network.

Wap.png

Modem

Power Over Ethernet (PoE)

Ethernet Over Power (Homeplugs)

Combination Boxes

Router-Switch

Router-Switch-WAP

Appendix

Advantages/Disadvantages Of IP Assignment Methods

Static IP Advantages

  • The IP address is reliable as it always remains the same.

Static IP Disadvantages

  • There is a small time/labour overhead in manual configuration
  • There is a potential for error such as address conflicts
  • If the device is moved to another network it will probably need a new address
  • Need to keep a record of all addresses on the network