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Basic Networking Hardware

Basic Networking Hardware. LANs. Definition – LAN "local area network"

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Basic Networking Hardware

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  1. Basic Networking Hardware

  2. LANs • Definition – LAN • "local area network" • Is a group of computers and associated devices that share a common communications line or wireless link and typically share the resources of a single processor or server within a small geographic area (for example, within an office building). • Usually, the server has applications and data storage that are shared in common by multiple computer users. • A local area network may serve as few as two or three users (for example, in a home network) or many as thousands of users. Source: http://www.dslreports.com/faq/7985

  3. LANs • Definition – Wireless LAN • A local area network that transmits over the air typically in an unlicensed frequency such as the 2.4GHz band. • A wireless LAN does not require lining up devices for line of sight transmission. • Wireless access points (base stations) are connected to an Ethernet hub or server and transmit a radio frequency over an area of several hundred to a thousand feet which can penetrate walls and other non-metal barriers. • Roaming users can be handed off from one access point to another like a cellular phone system. • Laptops use wireless network cards that plug into an existing PCMCIA slot or that are self contained on PC cards, while stand-alone desktops and servers use plug-in cards (ISA, PCI, etc.). Source: http://www.dslreports.com/faq/2262

  4. LANs • Characteristics – LAN • Topology • The geometric arrangement of devices on the network or the shape of a local-area network (LAN) or other communications system. • Protocols • The rules and encoding specifications for sending data. The protocol defines the format and meaning of the data that is exchanged. The protocols also determine whether the network uses a peer-to-peer or client/server architecture. • Media • Devices can be connected by twisted-pair wire, coaxial cables, or fiber optic cables. Some networks do without connecting media altogether, communicating instead via radio waves. Source: http://socrates.uhwo.hawaii.edu/BusAd/Flower/330/networkdefinitions.html

  5. LANs • Topology types • bus topology: All devices are connected to a central cable, called the bus or backbone. Bus networks are relatively inexpensive and easy to install for small networks. Ethernet systems use a bus topology. • star topology: All devices are connected to a central hub. Star networks are relatively easy to install and manage, but bottlenecks can occur because all data must pass through the hub. This is not much of a problem anymore with the widespread deployment of switches. • ring topology: All devices are connected to one another in the shape of a closed loop, so that each device is connected directly to two other devices, one on either side of it. Ring topologies are relatively expensive and difficult to install, but they offer high bandwidth and can span large distances. Source: http://socrates.uhwo.hawaii.edu/BusAd/Flower/330/networkdefinitions.html

  6. Network Hardware • Hub • An unintelligent network device that sends one signal to all of the stations connected to it. • All computers/devices are competing for attention because it takes the data that comes into a port and sends it out all the other ports in the hub. • Traditionally, hubs are used for star topology networks, but they are often used with other configurations to make it easy to add and remove computers without bringing down the network. • Resides on Layer 1 of the OSI model Source: http://www.practicallynetworked.com/networking/bridge_types.htm http://handsonhowto.com/lan102.html

  7. Switch Split large networks into small segments, decreasing the number of users sharing the same network resources and bandwidth. Understands when two devices want to talk to each other, and gives them a switched connection Helps prevent data collisions and reduces network congestion, increasing network performance. Most home users get very little, if any, advantage from switches, even when sharing a broadband connection. Resides on Layer 2 of the OSI model. Network Hardware Source: http://www.practicallynetworked.com/networking/bridge_types.htm http://handsonhowto.com/lan102.html

  8. Bridge Connects two LANs and forwards or filters data packets between them. Creates an extended network in which any two workstations on the linked LANs can share data. Transparent to protocols and to higher level devices like routers. Forward data depending on the Hardware (MAC) address, not the Network address (IP). Resides on Layer 2 of the OSI model. Network Hardware Source: http://www.practicallynetworked.com/networking/bridge_types.htm http://handsonhowto.com/lan102.html

  9. Repeater Used to boost the signal between two cable segments or wireless access points. Can not connect different network architecture. Does not simply amplify the signal, it regenerates the packets and retimes them. Resides on Layer 1 of the OSI model. Network Hardware Source: http://www.practicallynetworked.com/networking/bridge_types.htm http://handsonhowto.com/lan102.html

  10. Router A device that connects any number of LANs. Uses standardized protocols to move packets efficiently to their destination. More sophisticated than bridges, connecting networks of different types (for example, star and token ring) Forwards data depending on the Network address (IP), not the Hardware (MAC) address. Routers are the only one of these four devices that will allow you to share a single IP address among multiple network clients. Resides on Layer 3 of the OSI model. Network Hardware Source: http://www.practicallynetworked.com/networking/bridge_types.htm http://handsonhowto.com/lan102.html

  11. Common Network Media • Electrical (copper) • Coaxial Cable • Single copper conductor in the center surrounded by a plastic layer for insulation and a braided metal outer shield. • Twisted pair • Four pairs of wires twisted to certain specifications. • Available in shielded and unshielded versions. • Fiber-optic- A cable, consisting of a center glass core surrounded by layers of plastic, that transmits data using light rather than electricity. • Atmosphere/Wireless –Uses Electromagnetic waves. whose frequency range is above that of microwaves, but below that of the visible spectrum. • Choose Media based on : • Wiring configurations • Distance and location limitations • Speed • Reliability • Security • Budget

  12. Copper - Twisted Pair • Dialup over telephone line. • DSL (Digital Subscriber Line) • High-speed (256 Kbps – 55 Mbps), Full-duplex. • Asymmetric Digital Subscriber Line (ADSL) and High-bit-rate Digital Subscriber Line (HDSL) • CAT5 • Ethernet cable standard defined by the Electronic Industries Association and Telecommunications Industry Association (EIA/TIA). • Speeds up to 100 Mbps. • Connector • RJ-45 - Standard connectors used for unshielded twisted-pair cable. Source : http://depts.washington.edu/sacg/facilities/workshops/networking/network_adv/hardware.shtml

  13. Categories of UTP • Category 3 – Telephone Cable or 10 Mbps data • Category 5 – 10/100 Mbps • Category 5e – 10/100 Mbps or 1000 Mbps (1 Gbps) for short distances • Category 6 & 7 – 10/100/1000 Mbps

  14. Tools & Materials for Making Patch Cables • Crimp Tool • Cable Stripper (Cyclops) • Cat 5 or 5e UTP cable • RJ-45 – Cat-5e modular plugs • Cable tester

  15. What kinds of things can go wrong when making a a cable? • Not all wires made a connection • Wires were in the wrong order • Too much of the cabling jacket was cut off • Wires were untwisted too much, causing interference between wires.

  16. Making patch cables Patch Cable Assembly Instructions 1. Skin off the cable jacket approximately 1" or slightly more.2. Un-twist each pair, and straighten each wire between the fingers.3. Place the wires in the order of one of the two diagrams shown above (568A or 568B). Bring all of the wires together, until they touch.4. At this point, recheck the wiring sequence with the diagram. http://www.lanshack.com/make-cat5E.aspx

  17. Making patch cables Patch Cable Assembly Instructions 5. Optional: Make a mark on the wires at 1/2" from the end of the cable jacket. 6. Hold the grouped (and sorted) wires together tightly, between the thumb, and the forefinger. 7. Cut all of the wires at a perfect 90 degree angle from the cable at 1/2" from the end of the cable jacket. This is a very critical step. If the wires are not cut straight, they may not all make contact. We suggest using a pair of scissors for this purpose. 7B. Conductors should be at a straight 90 degree angle, and be 1/2" long, prior to insertion into the connector. 8. Insert the wires into the connector (pins facing up).

  18. Making patch cables Patch Cable Assembly Instructions (cont.) 9. Push moderately hard to assure that all of the wires have reached the end of the connector. Be sure that the cable jacket goes into the back of the connector by about 3/16". 9. Place the connector into a crimp tool, and squeeze hard so that the handle reaches it's full swing.10. Repeat the process on the other end. For a straight through cable, use the same wiring. For a "crossover" cable, wire one end 568A, and the other end 568B.11. Use a cable tester to test for proper continuity.

  19. Tools for Punching Down • 110 Punch down tool • 110 blade • Patch panel or jack • Cable Stripper • Cable • Wire cutter • Cable Tester

  20. Twisted-Pair Cables • If the pair of wires are not twisted, electromagnetic noises from, e.g., motors, will affect the closer wire more than the further one, thereby causing errors

  21. Optical Fiber • Infrared light is transmitted through fiber and confined due to total internal reflection. • Fibers can be made out of either plastic or glass. • Used for high speed backbones and pipes over long distances. • Comparatively expensive. Source : http://en.wikipedia.org/wiki/Optical_fiber

  22. Wireless Media • Wireless LAN or WLAN • Wireless local area network that uses radio waves as its carrier • Wi-Fi ("Wireless Fidelity“) • A set of standards for WLANs based on IEEE 802.11 • Wi-Max • Emerging technology that can cover ranges up to 10 miles or more • Satellite/Microwave • High speed media used for longer distances and remote locations Source : http://en.wikipedia.org/wiki/Wireless_LAN

  23. Sample LAN ImplementationHome Configuration Source: http://homenethelp.com/home-network.asp http://danbricklin.com/homenetwork.htm

  24. Sample LAN ImplementationBusiness Configuration Source: http://www.internalauditing.mnscu.edu/NetworkSecurity/FEBCONFB.PDF

  25. Sample LAN ImplementationBusiness Configuration Source: http://www.uccs.edu/~is681/data_signals_w2.ppt

  26. Clients and Servers • Network Clients(Workstation) • Computers that request network resources or services • Network Servers • Computers that manage and provide network resources and services to clients • Usually have more processing power, memory and hard disk space than clients • Run Network Operating System that can manage not only data, but also users, groups, security, and applications on the network • Servers often have a more stringent requirement on its performance and reliability

  27. Advantages of client/server networks • Facilitate resource sharing – centrally administrate and control • Facilitate system backup and improve fault tolerance • Enhance security – only administrator can have access to Server • Support more users – difficult to achieve with peer-to-peer networks • Disadvantages of client/server networks • High cost for Servers • Need expert to configure the network • Introduce a single point of failure to the system

  28. Fault Tolerant Feature for Servers • RAID storage technology • A system based on multiple disk • Hot-swappable disks • Redundant power supply • Hot-swappable power supply

  29. Thank you all

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