The standards and technology just
discussed will help define the specific products that network managers use to
build Ethernet networks. The following presents the key products needed to
build an Ethernet LAN.
Transceivers
Transceivers are also referred to as
Medium Access Units (MAUs). They are used to connect nodes to the various
Ethernet media. Most computers and network interface cards contain a built-in
10BASE-T or 10BASE2 transceiver which allows them to be connected directly to
Ethernet without the need for an external transceiver.
Many Ethernet devices provide an
attachment unit interface (AUI) connector to allow the user to connect to any
type of medium via an external transceiver. The AUI connector consists of a
15-pin D-shell type connector, female on the computer side, male on the
transceiver side.
For Fast Ethernet networks, a new
interface called the MII (Media Independent Interface) was developed to offer a
flexible way to support 100 Mbps connections. The MII is a popular way to
connect 100BASE-FX links to copper-based Fast Ethernet devices.
Network
Interface Cards
Network Interface Cards, commonly
referred to as NICs, are used to connect a PC to a network. The NIC provides a
physical connection between the networking cable and the computer’s internal
bus. Different computers have different bus architectures. PCI bus slots are
most commonly found on 486/Pentium PCs and ISA expansion slots are commonly
found on 386 and older PCs. NICs come in three basic varieties: 8-bit, 16-bit,
and 32-bit. The larger the number of bits that can be transferred to the NIC,
the faster the NIC can transfer data to the network cable. Most NICs are
designed for a particular type of network, protocol, and medium, though some
can serve multiple networks.
Many NIC adapters comply with
plug-and-play specifications. On these systems, NICs are automatically
configured without user intervention, while on non-plug-and-play systems,
configuration is done manually through a set-up program and/or DIP switches.
Cards are available to support
almost all networking standards. Fast Ethernet NICs are often 10/100 capable,
and will automatically set to the appropriate speed. Gigabit Ethernet NICs are
10/100/1000 capable with auto negotiation depending on the user’s Ethernet
speed. Full duplex networking is another option where a dedicated connection to
a switch allows a NIC to operate at twice the speed.
Hubs/Repeaters
Hub:
Hubs/repeaters are used to connect
together two or more Ethernet segments of any type of medium. In larger
designs, signal quality begins to deteriorate as segments exceed their maximum
length. Hubs provide the signal amplification required to allow a segment to be
extended a greater distance. A hub repeats any incoming signal to all ports.
Ethernet hubs are necessary in star
topologies such as 10BASE-T. A multi-port twisted pair hub allows several
point-to-point segments to be joined into one network. One end of the
point-to-point link is attached to the hub and the other is attached to the
computer. If the hub is attached to a backbone, then all computers at the end
of the twisted pair segments can communicate with all the hosts on the
backbone. The number and type of hubs in any one-collision domain is limited by
the Ethernet rules. These repeater rules are discussed in more detail later.
Repeater
A very important fact to note about hubs
is that they only allow users to share Ethernet. A network of hubs/repeaters is
termed a “shared Ethernet,” meaning that all members of the network are
contending for transmission of data onto a single network (collision domain). A
hub/repeater propagates all electrical signals including the invalid ones.
Therefore, if a collision or electrical interference occurs on one segment,
repeaters make it appear on all others as well. This means that individual
members of a shared network will only get a percentage of the available network
bandwidth.
Basically, the number and type of
hubs in any one collision domain for 10Mbps Ethernet is limited by the
following rules:
|
Network Type
|
Max Nodes Per Segment
|
Max Distance Per Segment
|
|
10BASE-T
|
2
|
100m
|
|
10BASE-FL
|
2
|
2000m
|
No comments:
Post a Comment