Appendix d. ethernet network configuration – Comtech EF Data CDM-760 User Manual

D–1

Appendix D. ETHERNET

NETWORK CONFIGURATION

D.1 Overview

For operations requiring Ethernet-based terrestrial data handling, it is important to stress the

importance of avoiding Ethernet looping connection problems – with or without use of the

CDM-760 Advanced High-Speed Trunking Modem in redundancy. These issues are specifically

addressed with a CDM-760 redundancy configuration that uses Comtech EF Data’s CRS-170A

(L-Band) or CRS-180 (70/140 MHz) 1:1 Redundancy Switches, or a CRS-500 M:N Redundancy

System in 1:N redundancy.

Use this appendix to review the differing methods for Ethernet-based data handling with the

CDM-760.

D.2 Ethernet Routers and Switches

Routers and switches allow connection of one or more computers or networked devices to

other computers or network devices. Each has two or more connectors, called physical ports, in

which cables connect to other network devices.

An Ethernet switch examines the traffic that comes across it, and learns where particular MAC

addresses are. An Ethernet switch maintains what is known as a Content Addressable Memory

(CAM) table, listing the MAC addresses for each switch port. The Ethernet switch uses the CAM

table to determine where to forward Ethernet frames. By default, Ethernet switches will update

the CAM table automatically; for example, if an Ethernet switch sees traffic from ‘Machine A’

coming in on ‘Port 2’, it now knows that ‘Machine A’ is connected to that port, and that traffic

destined for ‘Machine A’ needs to only be sent to that port and not any of the others.

An Ethernet router determines where to forward IP traffic based upon the destination IP address

and the Route table entries in the router. An Ethernet router can be programmed to understand

and route the data it is directed to handle; for example, broadband routers include the ability to

"hide" computers behind a type of firewall, which involves slightly modifying the packets of

network traffic as they traverse the device. All routers include some kind of user interface for

configuring how the router will treat traffic: larger routers include the equivalent of a full-blown

programming language to describe how they should operate, as well as the ability to communicate