Define and Describe Networking Cabling Requirements
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Mod 3 – Networking Media
Mod 3 – Networking Media CCNA 1 version 3.0 Rick Graziani Cabrillo College Objectives • Discuss the electrical properties of matter. • Define voltage, resistance, impedance, current, and circuits. • Describe the specifications and performances of different types of cable. • Describe coaxial cable and its advantages and disadvantages over other types of cable. • Describe shielded twisted-pair (STP) cable and its uses. • Describe unshielded twisted-pair cable (UTP) and its uses. • Discuss the characteristics of straight-through, crossover, and rollover cables and where each is used. • Explain the basics of fiber-optic cable. • Describe how fibers can guide light for long distances. • Describe multimode and single-mode fiber. • Describe how fiber is installed. • Describe the type of connectors and equipment used with fiber-optic cable. • Explain how fiber is tested to ensure that it will function properly. • Discuss safety issues dealing with fiber-optics. Rick Graziani [email protected] 2 Basic of Electricity • Discuss the electrical properties of matter. • Define voltage, resistance, impedance, current, and circuits. Rick Graziani [email protected] 3 Atoms and electrons • Electrons – Particles with a negative charge that orbit the nucleus • Nucleus – The center part of the atom, composed of protons and neutrons • Protons – Particles with a positive charge • Neutrons – Particles with no charge (neutral) • Electrons stay in orbit, even though the protons attract the electrons. • The electrons have just enough velocity to keep orbiting and not be pulled into the nucleus, just like the moon around the Earth. Rick Graziani [email protected] 4 Atoms and electrons • Loosened electrons that stay in one place, without moving, and with a negative charge, are called static electricity. -
HP Switch Zl2 Modules Installation Guide
HP Switch zl2 Modules Installation Guide Part Number: 5998-5076a Published: July 2016 Edition: 2 © Copyright 2014, 2016 Hewlett Packard Enterprise Development LP The information contained herein is subject to change without notice. The only warranties for Hewlett Packard Enterprise products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. Hewlett Packard Enterprise shall not be liable for technical or editorial errors or omissions contained herein. Confidential computer software. Valid license from Hewlett Packard Enterprise required for possession, use, or copying. Consistent with FAR 12.211 and 12.212, Commercial Computer Software, Computer Software Documentation, and Technical Data for Commercial Items are licensed to the U.S. Government under vendor's standard commercial license. Links to third-party websites take you outside the Hewlett Packard Enterprise website. Hewlett Packard Enterprise has no control over and is not responsible for information outside the Hewlett Packard Enterprise website. Acknowledgments Intel®, Itanium®, Pentium®, Intel Inside®, and the Intel Inside logo are trademarks of Intel Corporation in the United States and other countries. Microsoft® and Windows® are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. Adobe® and Acrobat® are trademarks of Adobe Systems Incorporated. Java® and Oracle® are registered trademarks of -
Experiment Number: 01 Title: Setup a Wired
Computer Networks Lab T.E. Computer Experiment Number: 01 Title: Setup a wired LAN PROBLEM STATEMENT Setup a wired LAN using Layer 2 Switch and then IP switch of minimum four computers. It includes preparation of cable, testing of cable using line tester, configuration machine using IP addresses, testing using PING utility and demonstrate the PING packets captured traces using Wireshark Packet Analyzer Tool. OBJECTIVES: 1. To understand the structure and working of various networks including the interconnecting devices used in them. 2. To get hands on experience of making and testing cables TYPES OF NETWORK Common examples of area network types are: LAN - Local Area Network WLAN - Wireless Local Area Network WAN - Wide Area Network MAN - Metropolitan Area Network SAN - Storage Area Network, System Area Network, Server Area Network, or sometimes Small Area Network CAN - Campus Area Network, Controller Area Network, or sometimes Cluster Area Network PAN - Personal Area Network DAN - Desk Area Network LAN - Local Area Network 1 Computer Networks Lab T.E. Computer A LAN connects network devices over a relatively short distance. A networked office building, school, or home usually contains a single LAN, though sometimes one building will contain a few small LANs (perhaps one per room), and occasionally a LAN will span a group of nearby buildings. MAN-Metropolitan Area Network A network spanning a physical area larger than a LAN but smaller than a WAN, such as a city. A MAN is typically owned and operated by a single entity such as a government body or large corporation. WAN - Wide Area Network As the term implies, a WAN spans a large physical distance. -
Faculty of Engineering
NEAR EAST UNIVERSITY Faculty of Engineering Department of Computer Engineering LOCAL AREA NETWORKS Graduation Project COM-400 Student: Azhar Ali Awan (992292) Supervisor: Dr. Jamal Fathi Nicosia-2002 ACKNOWLEDGEMENTS Foremost I would like to pay my special thanks to my parents, who helped me on every phase of my life. They boosted me up about my studies as well as my life. I am very much thankful and grateful to my mother whose prayers and love for me has encouraged me so make this day come true. It is only because of them that today I am capable of completing my degree. Secondly I would like to thank to my supervisor Dr. Jamal Fathi, without whom this project would have not been possible, whose words of encouragement kept us doing my project. His faith in my work and me and his invaluable knowledge for the project has'made me taking keen interest in my project. He is an excellent teacher and advisor. I would also like to thank my all friends and housemate who helped me so much in doing my project. They encouraged me a lot in completing my project, as it is not single man's work. I want to thank them as they contributed their time and provided me with very helpful suggestions. CONTENTS ABSTRACT 1 1. LOCAL AREA NETWORKS IN WORKPLACE 2 1. 1 Overview 2 1 .2 How and Why Network Exists? 2 1.3 Goals of Computer Networks 4 1 .4 Classification of Computer Networks 4 1.5 Local Area Networks 7 1.6 Major Components of LANs 9 1.7 Types of Local Area Networks 10 1.7.1 Peer-to-Peer 10 1.7.2 Client-Server 10 1.8 Local Area Networks Connectivity Devices 10 1.8.1 Repeaters 10 1 .8.2 Bridges 11 1 .8.3 Routers 11 1.8.4 Brouters 11 1.8.5 Gateways 11 1.9 Local Area Networks (LAN) in the Workplace and its advantages 12 1. -
KNOW the LINGO – WHAT IS Category CABLE?
KNOW THE LINGO – WHAT IS CategoRY CABLE? By: Joseph D. Cornwall, CTS-D Technology Evangelist—Lastar, Inc. Technical lingo is a kind of shorthand that’s used to express concepts common to that specific topic or area of study. Technical lingo is important because it provides a very precise or unique “shorthand” description of a device, effect or concept. Unfortunately, if you aren’t comfortable and familiar with the lingo of a topic it can be a tall hurdle to communicate efficiently with folks who consider the jargon of their field to be “self-explanatory.” In this series of articles we’ll lift the veils of misunderstanding from the lingo of the A/V industry. WHAT IS A CAT CABLE? The concept of Category cables was first set forth by the Electronic Industries Alliance (EIA) and is now maintained by the Telecommunications Industry Association (TIA). In 1991 the TIA/EIA-568-A standard was released (now revised to TIA/EIA-568-C) in an effort to define standards for telecommunications installations. In particular, the standard worked to define elements of balanced twisted pair cabling, fiber optic cabling and coaxial cabling, along with the associated connectors. The Cat cables discussed here are of the unshielded twisted pair (UTP) variety. You can’t be in the A/V or IT industry and not have heard of Cat5e and Cat6 cables. The Cat, as you might know, is short for “Category.” The term “Category” refers to the different levels of performance in signal bandwidth, attenuation and crosstalk associated with each cable’s design. -
Product Selection Guide
PRODUCT SELECTION GUIDE RANDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE BRAIDING BRAID-REINFORCED TUBING SCOPE BRAIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUB- G REINFORCED CABLES AND STRANDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE BRAIDING STRANDS BRAID-REINFORCED TUBING SCOPE BRAIDS SINGLE- CKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUBING REINFORCED CABLES AND STRANDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE BRAIDING BRAID-REINFORCED TUB- G SCOPE BRAIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUBING REINFORCED CABLES AND STRANDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE AIDING BRAID-REINFORCED TUBING SCOPE BRAIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUBING REINFORCED CABLES AND STRANDS CUSTOM ROPE-LAY BLESTOLL BRAIDING FLAT WIRE BRAIDING BRAID-REINFORCED TUBING SCOPE BRAIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUBING REINFORCED CABLES D STRANDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE BRAIDING BRAID-REINFORCED TUBING SCOPE BRAIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY BING REINFORCED CABLES AND STRANDS BRAIDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE BRAIDING BRAID-REINFORCED TUBING CABLES SCOPE AIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUBING REINFORCED CABLES AND STRANDS CUSTOM ROPE-LAY CABLESTOLL BRAIDING FLAT WIRE BRAIDING AID-REINFORCED TUBING SCOPE BRAIDS SINGLE-THICKNESS BRAIDS BRAID-REINFORCED CAPILLARY TUBING REINFORCED CABLES AND STRANDS CUSTOM ROPE-LAY CABLESTOLL AIDING FLAT WIRE BRAIDING BRAID-REINFORCED TUBING SCOPE -
Network Cable: Networking Cables Are Used to Connect One Network
Network cable: Networking Cables are used to connect one network device to other or to connect two or more computers to share printers, scanners etc. Different types of network cables like Coaxial cable, optical fiber cable, Twisted Pair cables are used depending on the network's topology, protocol and size. The devices can be separated by a few meters (e.g. via Ethernet) or nearly unlimited distances (e.g. via the interconnections of the Internet). While wireless may be the wave of the future, most computer networks today still utilize cables to transfer signals from one point to another. Network card: A network card is a an adapter card, pc card, express card module, USB network adapter ,or flash card that enables a computer or device that not have networking capability to access a network. The network card coordinates the transmission and receipt of data, instruction , and information to and from the computer or devices containing the network card. Network cards are available in a variety of style. A network card for a desktop computer is an adapter card that has a port to which a cable connects. A network card for mobile computers and devices is in the form of a pc card ,express card module, USB network adapter, or a flash card. Network cards that provide wireless data transmission also are available. This type of card, sometimes called a wireless network card ,often has an antenna. A network card follow the guidelines of a particular network communication standard, such as Ethernet or token ring. An Ethernet card is the most common type of network card. -
Vi2401a Ethernet Extender Over Coax Installation Manual
Vi2401A Ethernet Extender over Coax Installation Manual Ethernet Extenders The MaxiiCopper Model Vi2401A is a revolutionary data transmission device that extends full-duplex High-Speed Ethernet over existing coax WARNING! - To reduce the risk of fire or electric shock, do not expose infrastructures. It extends 10BaseT signals up to 5,000 ft (1,524m) and this apparatus to rain or moisture. This apparatus shall not be exposed to 100BaseT up to 1,800 ft (548m). With Pass Through PoE (PTP™), it dripping or splashing and no objects filled with liquids, such as vases shall extends up to 30W PoE power. It employs MaxiiCopper™ innovative and be placed on the apparatus. unique Ethernet extension technology that is designed to take full advan- tage of high-bandwidth networking cables and maintain a full-duplex 10 or WARNING! - This apparatus is a Class I product. This product must 100Mb/s Ethernet connection up to the maximum range with minimum be connected to a mains socket outlet thru an AC to DC Power supply. transmission error and latency. WARNING! - The mains plug is used as the disconnect device and Vi2401A can connect multiple remote network devices such as Mega-pixel shall remain readily operable. IP cameras or VoIP to a central LAN switching fabric with ease. Its dual-rate capability feature provides an easy way to balance the best possible network throughput and long-reach distance design. Application Drawing The Vi2401A is a transceiver device and needs to be deployed on both ends of the coaxial cable. The data rate between the remote and central locations is automatically set based on the distance. -
Lab - Building an Ethernet Crossover Cable
Lab - Building an Ethernet Crossover Cable Topology Addressing Table Device Interface IP Address Subnet Mask Default Gateway PC-A NIC 192.168.10.1 255.255.255.0 N/A PC-B NIC 192.168.10.2 255.255.255.0 N/A Objectives Part 1: Analyze Ethernet Cabling Standards and Pinouts Analyze diagrams and tables for the TIA/EIA 568-A standard Ethernet cable. Analyze diagrams and tables for the TIA/EIA 568-B standard Ethernet cable. Part 2: Build an Ethernet Crossover Cable Build and terminate a TIA/EIA 568-A cable end. Build and terminate a TIA/EIA 568-B cable end. Part 3: Test an Ethernet Crossover Cable Test an Ethernet crossover cable with a cable tester. Connect two PCs together using an Ethernet crossover cable. Background / Scenario In this lab, you will build and terminate an Ethernet crossover cable and test it by connecting two PCs together and pinging between them. You will first analyze the Telecommunications Industry Association/Electronic Industries Association (TIA/EIA) 568-A and 568-B standards and how they apply to Ethernet cables. You will then construct an Ethernet crossover cable and test it. Finally, you will use the cable you just constructed to connect two PCs together and test it by pinging between them. Note: With autosensing capabilities available on many devices, such as the Cisco 1941 Integrated Services Router (ISR) switch, you may see straight-through cables connecting like devices. Required Resources One length of cable, either Category 5 or 5e. Cable length should be 0.6 to 0.9m (2 to 3 ft.) 2 RJ-45 connectors RJ-45 crimping tool Wire cutter Wire stripper © 2013 Cisco and/or its affiliates. -
Conet Module 1 Ethernet Based I/O Systems Lecture
CONET MODULE 1 ETHERNET BASED I/O SYSTEMS LECTURE NOTES Onur Akbatı Levent Ucun Galip Cansever 1 Contents 1. ETHERNET ....................................................................................................................................................................................4 1.1 FOUR BASICS OF ETHERNET ....................................................................................................................................................5 1.1.1. NETWORK CORE : CIRCUIT SWITCHING & PACKET SWITCHING CIRCUIT SWITCHING ................................................................13 1.1.2. OVERVIEW OF DELAY IN PACKET SWITCHED NETWORKS .........................................................................................................17 2. LAYERS ......................................................................................................................................................................................18 2.1. OSI REFERENCE MODEL ........................................................................................................................................................18 2.1.1. SEVEN LAYER ISO-OSI REFERENCE MODEL .........................................................................................................................20 2.1.1.1. APPLICATION LAYER .........................................................................................................................................................20 2.1.1.2. PRESENTATION LAYER ......................................................................................................................................................20 -
University of Technology Principles of Computer Engineering And
University of Technology Biomedical Engineering Department First year 2nd lecture Of Principles of computer engineering and Programming methodology Asst. Lect. Amar A. Mahawish Data Communication & Computer Network Data communications refers to the transmission of data between two or more computers. A computer network is a telecommunications network that allows computers to exchange data. The physical connection between networked computing devices is established using either cable media or wireless media. The best-known computer network is the Internet. 1. Computer Network Types Generally, networks are distinguished based on their geographical span. A network can be as small as distance between your mobile phone and its Bluetooth headphone and as large as the internet itself, covering the whole geographical world. 1) Personal Area Network A Personal Area Network (PAN) is smallest network which is very personal to a user. PAN has connectivity range up to 10 meters. PAN may include wireless computer keyboard and mouse, Bluetooth enabled headphones and wireless printers. 2) Local Area Network Local Access Network (LAN) is a short-distance network. It connects computers that are close together, usually within a room or a building. Very rarely, a LAN network will span a couple of buildings. An example of a LAN network is the network in a school or an office building. A LAN network doesn’t need a router to operate. 3) Wide Area Network Wide Area Network (WAN) cover a huge geographical area. A WAN is a collection of LAN networks. LANs connect to other LANs with the help of a router to create WAN. 2. Computer Network Topologies A Network Topology is the arrangement with which computer systems or network devices are connected to each other. -
2. NETWORKING TELEPHONE NETWORK What Is
Technological FOUNDATIONS FOR CONVERGENCE(2) 1. Digitization/Digital storage 2. NETWORKING/BROADBAND 3. WIRELESS/WI-FI 4. Spectrum management 2. NETWORKING TELEPHONE NETWORK What is Telecommunication? http://www.assignmenthelp.net/assignment_help/What-is-Telecommunication Telecommunication systems is a specialized system for communicating at a distance. The term telecommunication sometimes also referred as telecom. A Device refers to the exchange of information by electronic and electrical medium over a significant distance. An arrangement which is made up of two or more station with equal number of transmitter and receiver devices is a telecommunication system. Telecommunication devices are telephones, telegraph, radio, microwave communication arrangements, fibre optics, satellites and the internet. Telecommunication is a vast range of information-transmitting technology such as mobile phones, land lines telephone, VOIP and broadcast network. Data transmitted in the form of electrical signals known as carrier waves, which are modulated into analog or digital signals to transmit information. Components of Telecommunication Telecommunication systems is emphasis of some of the essential components that transmit data from one end to another through an electronic medium and each component perform different task. Now learn what they component exactly do and the task perform by each component. One of the most important component required is computers to process information. Then input or output devices to send and receive data which are also referred as terminals. Input and output are starting and stopping poles of any communication. In network these terminals known as nodes which can be a computer or peripheral devices and if we take real life example then mobile phone/landline is as example of terminals.