FAST ETHERNET NETWORKING TECHNOLOGY(IEEE 802.3u)

INTRODUCTION:

  • 10B Ethernet Technology cannot support modern high speed applications such as 3-D images and Multimedia services
  • Fast Ethernet technology was designed to meet the demands of high speed multimedia applications
  • Companies currently using 10B technology can easily upgrade to to FAST Ethernet, which offers a data rate of 100 Mbps
  • Fast Ethernet is an extension of the Ethernet standards with 100 Mbps data rate, using the Ethernet protocol. It uses CSMA/CD
  • An existing 10B network can be easily upgraded to 100BT LAN with the addition of a few switching devices

FAST ETHERNET CABLING:

  • Uses either UTP or Fiber
  • There are 3 versions of Fast Ethernet

(1)100BT4(2) 100BTX (3) 100BFX

100BT4:

  • 100 stands for 100 Mbps, B stands for baseband signal, T stands for twisted pair and 4 stands for four pairs. Thus 100BT4 uses 4 pairs of twisted wiring
  • It is FDX
  • Uses 4 pairs of CAT 3 UTP. CAT 4 or 5 can also be used.
  • Uses RJ-45 Connector
  • Pairs 3 and 4 are used for data transmission.
  • One wire from pair 1 and one wire from pair 2 are used for CSMA/CD
  • Each pair transmits data at 33.33 Mbps, giving an overall rate of 100 Mbps
  • 8B6T code is used to convert 8 bits into 6 bit
  • This reduces the effective data rate of each pair to 25 Mbps.
  • This was necessary since the CAT 3 wiring can support only upto 30Mbps not 33.33MBps

100BTX:

  • 100 Mbps, Baseband signal, but uses only two pairs of CAT 5 UTP or LAT 1 – STP
  • HDX
  • CAT 5 can handle upto 100 Mbps
  • Uses 4B/5B encoding

100BFX:

  • 100 Mbps, Baseband Signal, FX stands for fiber
  • FDX
  • Uses one pair of Multimode fiber 62.5/125 with SC connector
  • Uses 4B/5B encoding with NRZ-I voltage levels

Fast Ethernet Repeaters:

Two Types:

Class 1:

  • Converts the Line signals from the incoming port to digital signal (notice this is an example of Digital to Digital Conversion- a digital signal of one form is converted into a digital signal of another format)
  • Allows different types of Fast Ethernet Technologies to be connected to the LAN Segment. For example, you can connect a 100BTX station and a 100BFX stations using a Class 1 Switch as Shown below
  • Only one class 1 repeater can be used in a Fast Ethernet Segment

Class I I Repeaters:

  • A class to repeater repeats the incoming signal, sending it to every other port on the repeater.
  • Used for connecting the same type of Fast Ethernet Media i.e either 100BTX or 100 B FX
  • Only 2 permitted /segment as shown

Fast Ethernet Diameter:

  • Network Diameter is a term used to describe the distance between two end stations connected through a Repeater or a Switch.
  • It is a function of the propagation delay (the difference between the transmission time and the receiving time ) caused by the cables, NIC, and Repeater.
  • Defined in terms of BIT TIME ( time for 1 BIT)
  • Fast Ethernet bit time =1/108 Seconds
  • In Ethernet Network, propagation delay is = 512 bit time, since the first bit of the frame must reach the destination before the last bit is transmitted by the source.
  • To Calculate the Network Diameter , the total propagation delay of the Network Components must be less than 512 bit time.
  • Fig below shows the Propagation Delay of Various Fast Ethernet Components

Component /

BIT TIME

2 TX or FX NICS

2 T4 NICS

1 T4 , 1 TX NIC
1 TX and 1 FX NIC
100 m of CAT 3 UTP
100 m of CAT 4 UTP
100 m of CAT 5 UTP
100 m of STP
Class I repeater
Class I I repeater / 100
138
127
127
114
114
111
111
140
92
  • The diameter of a FAST Ethernet using 100BTX or 100 B T4 is 204 meter
  • The table below shows the Maximum diameters for various situation

Type of Repeater

/ 100BTX/100BT4 / 100BFX
HOST-To-HOST connection (without repeaters)
One Class I repeater
One Class II repeater
Two Class II repeaters / 100m
200m
200m
205m / 412m
272m
320m
N/A
  • Following information can be used to determine the diameter of a Fast Ethernet

(a)The maximum distance between two repeaters using UTP = 5m

(b)The maximum length of all UTP Cable is 100m

(c)The maximum distance between a repeater and a switch is 1000m

(d)The maximum distance between 2 Switches connected by a fiber is 2000m

  • Figs Below show various connections

100m UTP100m UTP

100m UTP 5mUTP 100m UTP

Expanding Fast Ethernet:

  • Since Fast Ethernet allows only two repeaters, only way to expand the Fast Ethernet is to use a Switch
  • Fig below shows expansion of Fast Ethernet using switch

10/100Mbps operation

  • Note that most 100 Mbps cards can also operate at 10Mbps when connected to a 10BT HUB.
  • Thus 10 Mbps stations can still operate on a 100 Mbps Network
  • Most Hubs also operate at 10 or 100 Mbps dual speed (See Fig)
Giga bit Ethernet Networking

Introduction:

  • GB Ethernet is a new technology that is compatible with Ethernet and Fast Ethernet, and it has become a dominant technology for the backbone with GB Switches
  • DB Ethernet is used for campus or company Headquarter backbone
  • The GB Ethernet is capable of handling all types of data transmission such as voice, Data and Video and Multimedia
  • This technology is possible because of availability of high speed PCI buses and high speed CPUs. For example a 64 bit PCI bus runs at 100 MHZ and can transfer data at up to 6.4 GBPS
  • By adding Quality of Service (QoS) , the GB Ethernet will be the Next Generation of the LAN and Campus backbones

Characteristics of GB Ethernet:

  • GB Ethernet is used to connect Ethernet and Fast Ethernet Switches and for interconnecting High Speed Servers
  • GB Ethernet allows corporations and organizations to to upgrade their Network to 1000 MBPS ( 1 GBPS) while using the same Operating System and same application software
  • Operates at 1000 Mbps
  • Uses IEEE 802.3 frame format
  • Uses IEEE 802.3 maximum frame parameters
  • Supports FDX and HDX operation
  • Uses CSMS/CD for HDX and supports one repeater per collision domain
  • Uses fiber and copper wire
  • Supports 200 m diameter

GB Ethernet Network Componenets:

(a)GB Ethernet NIC

(b)Switches 100Mbps/1000 Mbps

(c)GB Ethernet repeaters

(d)GB Switch

GB Ethernet Protocol Architecture:

  • Fig on the Next page shows GB Ethernet protocol Stack

Physical Interface layer:

Defines the physical characteristics of the interface media, connector type, cable type, Transmitter and receiver characteristics Etc. Offers 4 varieties

(1)1000BLX: - Designed for Long Wave LASER (LW) over SM and MM Fiber at a wavelength of 1300nm up to 5 KM . Used for long distance transmission. For SM fiber 9/125, MM fiber 50/125

(2)1000 BSX : -Designed for Short Wave ( SW) LASER at 850nm over MM fiber. 50/125, 62.5/125. Used for short distances – upto 500 meter

(3)1000 BCX: - Uses Twin ax cable ( 150 ohm balanced shielded cable. Supports 9 pin D- connector

(4)1000BT: - Uses 4 pairs of CAT 5 or CAT 6 UTP cable with RJ-45 connector. 4 pairs of UTP upto 100 meter

Serializer/Deserializer:

  • At the TX side, accepts data in parallel from the 8B/10B encoder and converts it into serial form
  • At the RX side, accepts serial data from the physical layer and converts it into parallel form for the 8B/10B encoder

8B/10B Encoder/Decoder:

  • Used for Fiber optic transmission. Converts 8bit data into 10 bit code

MAC LAYER:

  • GB Ethernet supports both HDX and FDX operation
  • HDX uses CSMS/CD for Media Access
  • FDX operation uses 802.3x point to point connection protocol
  • GB Ethernet uses a minimum frame size of 512 bytes by adding carrier extension to the frame as shown below.

Min 64 bytes for regular Ethernet

Min 512 Bytes for GB Ethernet

FDX Transmission:

  • In FDX signals travel in both directions simultaneously
  • The Data rate is therefore doubled
  • FDX is used only in point –to – point configuration
  • Requires a FDX Switch as shown

MAC AND PHYSICAL LAYER ARCHITECTURE:

  • Fig below shows the GB Ethernet Architecture

8 bit bus

8 BIT BUS

100 m UTP

SMFMM Fiber Twin ax cable

5KM 500 M 25 meter

GB WORK STATIONS

GB Ethernet Diameter:

  • GB Ethernet does not support Repeaters
  • GB Ethernet supports point to point connection using Fiber Optic cable, twinax cable or UTP cable
  • In GB Ethernet, the Network Diameter can be extended by using only the GB Ethernet Switches
  • Table below shows GB Ethernet cable types and distances

Standard / Cable type / Diameter
(Microns) / Modal BW
MHZKM / Distance
(Meters)
1000BSX / MMF / 62.5 / 160 / 220
MMF / 62.5 / 200 / 270
MMF / 50 / 400 / 500
MMF / 50 / 500 / 550
1000BLX / MMF / 62.5 / 500 / 550
MMF / 50 / 400 / 550
MMF / 50 / 500 / 550
SMF / 9 / 5000
1000BCX / Twinax / 25
1000BT / UTP CAT 5e
Or
CAT 6 / 100

Buffered Distributer Device :

  • It is a FDX multiport HUB
  • It connects several GB Ethernet together
  • Operates like a Repeater, except it stores GB Ethernet frames and then broadcast the frame to all other ports of the device.
  • Capable of storing more than one frame in its buffer before forwarding.

GB Ethernet Applications:

  • Most organizations are currently using regular Ethernet or Fast Ethernet, which can be easily upgraded to GB Ethernet.
  • GB Ethernet is used for Campus ( e.g a Company, College or University ), Corporate Headquarters or buildings that require very high Data Rates for high end graphics, Multimedia Applications, Voice/Data/Video Integration Etc.
  • GB Ethernet Applications are

(a)Switch – to - Switch

(b)Switch – to – Server

(c)Repeater – to – Switch

(a)Upgrading Fast Ethernet Switch to GB Ethernet Switch and installing GB Ethernet cards in high Speed Server as shown in the fig below

100MBPS100 MBPS1000MBPS

CARD CARD CARD

(b)Upgrading a Switch to a Server link at 1000Mbps:

1000 MBPS LINK

1000 MBPS LINK

100 MBPS10 MBPS 100

© Upgrading a FAST Ethernet back bone Switch from 100MBPS to 1000 MBPS

1000 MBPS1000MBPS1000MBPS

10 MBPS WS100 MBPS WS1000 MBPS

(d) Upgrading the Switch to Switch Link:

Hyder KhojaPage 110/06/2018