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CCNA Semester 01
Chapter 03Chap
ter 03
LAN – WANLAN – WAN
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ObjectivesObjectives
Learn about basic LAN devices and theevolution of networking devices.
Learn about the networking devices that
operate at each layer of the OSI model and how packets flow through each device asthey go through the layers of the OSI model.
Define LAN, WAN, MAN, and SAN
Explain VPNs and their advantages
Describe the differences between intranetsand extranets
Bandwidth
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Table of ContentTable of Content
1 LAN-WAN
2 BASIC LAN DEVICES
3 DATA FLOW THROUGH LANs
4 NETWORKING TERMINOLOGY
5 BANDWIDTH
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Local Area Network Local Area Network
LAN benefits• Avoid duplication of equipment andresources
• Allow user in the department quickly
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Local-area Networks (LANs)Local-area Networks (LANs)
Some common LAN technologies are: EthernetEthernet
Token RingToken Ring
FDDIFDDI
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Wide-area Networks (WANs)Wide-area Networks (WANs)
Some common WAN technologies are:
ModemsModemsDigital Subscriber Line (DSL)Digital Subscriber Line (DSL)
Frame RelayFrame Relay
Integrated Services Digital Network (ISDN)Integrated Services Digital Network (ISDN)
T1 (1.544 Mbps), E1 (2.048 Mbps)T1 (1.544 Mbps), E1 (2.048 Mbps)
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WAN: Wide Area Network WAN: Wide Area Network
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Examples of Data NetworksExamples of Data Networks
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Networking DevicesNetworking Devices
• Equipment that connects to a networksegment is called a device
• These devices are broken into twoclassifications
– End user devices—Includes computers,
printers, scanners– Network devices—Includes devices that
connect the end-user devices to allow themto communicate
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End User DevicesEnd User Devices
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Network DevicesNetwork Devices
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BASIC LAN DEVICESBASIC LAN DEVICES
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Physical Topology:Physical Topology: BusBus
• Single backbone
• All hosts directlyconnected tobackbone
• Each end of the busmust be properlyterminated
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Physical Topology:Physical Topology: RingRing
• No backbone
• A host is directlyconnected to each of
its neighbors
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Physical Topology:Physical Topology: StarStar
• All devices connectedto a central point
• Center of star isusually a hub or a
switch
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Physical Topology:Physical Topology: Extended StarExtended Star
• Connects individual star
topologies together.
• At the center of the staris a hub or a switch.
• Extends the length andsize of the network.
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Physical Topology:Physical Topology: MeshMesh
• Each host has its own
connection to everyother host.
• Used in situations where
communication must notbe interrupted.
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Logical TopologiesLogical Topologies
Broadcast
Token Passing
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Logical Topology:Logical Topology: BroadcastBroadcast
• Each host on the LAN sends its data (orbroadcasts its data) to every other host.
• First-come, first-serve.
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Logical Topology:Logical Topology: Token PassingToken Passing
• Access to media is controlled by anelectronic token.
• Possession of the token gives the host theright to pass data to its destination.
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TechnologiesTechnologies
Ethernet
FDDI
Token Ring
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Technology:Technology: Token RingToken Ring
Token Ring
Token Passing
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HostsHosts
Computer Server
Printer
NICNIC
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LAN Media SymbolsLAN Media Symbols
TokenRing
FDDIRing
EthernetLine
SerialLine
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LAN Device:LAN Device: TransceiverTransceiver
• Connect different media technologies.
• Layer 1 device.
UTP
BNC
AUI
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LAN Device:LAN Device: RepeaterRepeater
• Regenerates and repeats the signal.
• Layer 1 device.
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OSI Review:OSI Review: Layer 2Layer 2
• Responsibility:
– Provides for the reliable transfer of data cross a
physical link.
• Concerned:
– Frames.
– Physical address (HW or MAC): Flat.
– Error and flow control.
– “Segment”.
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LAN Device:LAN Device: BridgeBridge
• Keeps traffic local by filtering traffic basedon physical addresses.
• Layer 2 device.
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LAN Device:LAN Device: SwitchSwitch
• A multi-port bridge.
• Layer 2 device.
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OSI Review:OSI Review: Layer 3Layer 3
• Responsibility:
– Connection and path selection between two end
system across networks.• Concerned:
– Packets.
– Logical address: Hierarchical.
• Networks and Hosts addressing.
– Route , Routing table, Routing protocol.
– “Network”.
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LAN Device:LAN Device: RouterRouter
• Makes decisions based on networkaddresses (logical addresses).
• Layer 3 device.
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Devices function at LayersDevices function at Layers
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Encapsulation:Encapsulation: ExampleExample
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Host to host communicationHost to host communication
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Packet Flow:Packet Flow: Layer 3 DeviceLayer 3 Device
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Wide-Area Networks (WANs)Wide-Area Networks (WANs)
• WANs interconnect LANs, which then provide access tocomputers or file servers in other locations.
• WANs make it possible for businesses to communicateacross great distances.
• WANs allow computers, printers, and other devices ona LAN to be shared with distant locations. WANsprovide instant communications across largegeographic areas.
• Collaboration software provides access to real-timeinformation and resources and allows meetings to beheld remotely.
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Virtual Private Network (VPN)Virtual Private Network (VPN)
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Benefits of VPNsBenefits of VPNs
• A VPN is a service that offers secure, reliableconnectivity over a shared public networkinfrastructure such as the Internet. VPNs
maintain the same security and managementpolicies as a private network.
• The use of a VPN is the most cost-effectiveway to establish a point-to-point connectionbetween remote users and an enterprisenetwork.
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Benefits of VPNsBenefits of VPNs
• The three main types of VPNs:– Access VPNs provide remote access for mobile and small
office, home office (SOHO) users to an Intranet or Extranet overa shared infrastructure. Access VPNs use analog, dialup, ISDN,
DSL, mobile IP, and cable technologies to securely connectmobile users, telecommuters, and branch offices.
– Intranet VPNs use dedicated connections to link regional andremote offices to an internal network over a sharedinfrastructure. Intranet VPNs differ from Extranet VPNs in thatthey allow access only to the employees of the enterprise.
– Extranet VPNs use dedicated connections to link businesspartners to an internal network over a shared infrastructure.Extranet VPNs differ from Intranet VPNs in that they allowaccess to users outside the enterprise.
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Benefits of VPNsBenefits of VPNs
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BandwidthBandwidth
• Bandwidth is defined as the amount of information that can flow through a networkconnection in a given period of time.
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I t f B d idthI t f B d idth
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Importance of BandwidthImportance of Bandwidth
• Bandwidth is finite. Regardless of the mediaused to build a network, there are limits on thenetwork capacity to carry information. Bandwidthis limited by the laws of physics and by thetechnologies used to place information on the
media.• Bandwidth is not free. It is possible to buy
equipment for a LAN that will provide nearlyunlimited bandwidth over a long period of time.For WAN connections, it is usually necessary to
buy bandwidth from a service provider. In eithercase, individual users and businesses can save alot of money if they understand bandwidth andhow the demand will change over time.
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A l i ( f B d idth)A l i ( f B d idth)
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Analogies (of Bandwidth)Analogies (of Bandwidth)
• Bandwidth has been defined as the amountof information that can flow through a networkin a given time.
• Bandwidth is like the width of a pipe. A
network of pipes brings fresh water to homesand businesses and carries waste water away.
This water network is made up of pipes of different diameters.
• Many networking experts say that they needto put in bigger pipes when they wish to addmore information-carrying capacity.
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LimitationsLimitations
• Bandwidth varies depending upon the type of media as well as the LAN and WANtechnologies used
• The physics of the media account for some of the difference; signals travel through twisted-pair copper wire, coaxial cable, optical fiber,and air
• The physical differences in the ways signals
travel result in fundamental limitations on theinformation-carrying capacity of a givenmedium
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WAN Services and BandwidthWAN Services and Bandwidth
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WAN Services and BandwidthWAN Services and Bandwidth
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ThroughputThroughput
• The following are some of the factors thatdetermine throughput:
– Internetworking devices
– Type of data being transferred– Network topology
– Number of users on the network
– User computer
– Server computer
– Power conditions
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Digital Versus AnalogDigital Versus Analog
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Digital Versus AnalogDigital Versus Analog