Nokia 105S Gateway Installation Guide

Total Page:16

File Type:pdf, Size:1020Kb

Nokia 105S Gateway Installation Guide Nokia 105s Gateway Installation Guide Part No. N450000309 Rev 001 Published August 2006 COPYRIGHT ©2006 Nokia. All rights reserved. Rights reserved under the copyright laws of the United States. RESTRICTED RIGHTS LEGEND Use, duplication, or disclosure by the United States Government is subject to restrictions as set forth in subparagraph (c)(1)(ii) of the Rights in Technical Data and Computer Software clause at DFARS 252.227-7013. Notwithstanding any other license agreement that may pertain to, or accompany the delivery of, this computer software, the rights of the United States Government regarding its use, reproduction, and disclosure are as set forth in the Commercial Computer Software-Restricted Rights clause at FAR 52.227-19. IMPORTANT NOTE TO USERS This software and hardware is provided by Nokia Inc. as is and any express or implied warranties, including, but not limited to, implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall Nokia, or its affiliates, subsidiaries or suppliers be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services; loss of use, data, or profits; or business interruption) however caused and on any theory of liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this software, even if advised of the possibility of such damage. Nokia reserves the right to make changes without further notice to any products herein. TRADEMARKS Nokia is a registered trademark of Nokia Corporation. Other products mentioned in this document are trademarks or registered trademarks of their respective holders. 060101 2 Nokia 105s Gateway Installation Guide Nokia Contact Information Corporate Headquarters Web Site http://www.nokia.com Telephone 1-888-477-4566 or 1-650-625-2000 Fax 1-650-691-2170 Mail Nokia Inc. Address 313 Fairchild Drive Mountain View, California 94043-2215 USA Regional Contact Information Americas Nokia Inc. Tel: 1-877-997-9199 313 Fairchild Drive Outside USA and Canada: +1 512-437-7089 Mountain View, CA 94043-2215 email: [email protected] USA Europe, Nokia House, Summit Avenue Tel: UK: +44 161 601 8908 Middle East, Southwood, Farnborough Tel: France: +33 170 708 166 and Africa Hampshire GU14 ONG UK email: [email protected] Asia-Pacific 438B Alexandra Road Tel: +65 6588 3364 #07-00 Alexandra Technopark email: [email protected] Singapore 119968 Nokia Customer Support Web Site: https://support.nokia.com/ Email: [email protected] Americas Europe Voice: 1-888-361-5030 or Voice: +44 (0) 125-286-8900 1-613-271-6721 Fax: 1-613-271-8782 Fax: +44 (0) 125-286-5666 Asia-Pacific Voice: +65-67232999 Fax: +65-67232897 050602 Nokia 105s Gateway Installation Guide 3 4 Nokia 105s Gateway Installation Guide Contents About this Guide . .13 In this Guide . 13 Conventions this Guide Uses . 14 Notices . 14 Command-Line Conventions. 15 Text Conventions . 16 Related Documentation . 17 1 Overview . 19 About the Nokia 105s Gateway . 19 Built-In Gigabit Ethernet Ports. 21 PMC Expansion Slots . 22 System Status LEDs . 23 Managing the 105s Gateway . 24 Site Requirements, Warnings, and Cautions . 24 Software Requirements . 26 Product Disposal . 26 2 Installing the Nokia 105s Gateway . 29 Before You Begin . 29 Rack Mounting the Gateway . 30 Connecting Power . 31 Connecting to the Console or Auxiliary Port. 32 Console Port . 35 Auxiliary Port . 36 Connecting to Network Interfaces . 37 Nokia 105s Gateway Installation Guide 5 3 Performing the Initial Configuration . 39 Using a Console Connection . 40 Using Nokia Network Voyager . 43 Viewing Nokia IPSO Documentation by Using Nokia Network Voyager . 44 Using the Command-Line Interface . 45 4 Installing and Replacing Network Interface Cards . 49 Deactivating Configured Interfaces . 50 Removing, Installing, and Replacing NICs. 50 Before You Start . 51 Configuring and Activating Interfaces . 57 Monitoring Network Interface Cards. 57 5 Connecting PMC Network Interface Cards . 59 Four-Port 10/100 Mbps Ethernet NICs. 59 Ethernet NIC Features . 60 Ethernet NIC Connectors and Cables. 61 Two-Port Copper Gigabit Ethernet Network Interface Card. 63 Copper Gigabit Ethernet NIC Features . 63 Copper Gigabit Ethernet Connectors and Cables. 64 Two-Port Fiber-Optic Gigabit Ethernet Network Interface Card. 66 Fiber-Optic Gigabit Ethernet NIC Features . 66 Fiber-Optic Gigabit Ethernet Connectors and Cables. 67 6 Installing and Replacing Other Components . 69 Installing or Replacing a Hard-Disk Drive . 70 Before You Start . 71 Replacing or Upgrading Memory . 76 Before You Start . 77 Replacing the Battery. 82 6 Nokia 105s Gateway Installation Guide 7 Troubleshooting . 87 General Troubleshooting Information. 87 Troubleshooting Routing Problems . 97 A Technical Specifications . 103 Physical Dimensions . 103 Space Requirements . 103 Operating Temperature . 104 NIC Interfaces . 104 B Compliance Information . 105 Declaration of Conformity. 105 Compliance Statements . 107 FCC Notice (US) . 108 Index . 109 Nokia 105s Gateway Installation Guide 7 8 Nokia 105s Gateway Installation Guide Tables Table 1 Command-Line Conventions . 15 Table 2 Text Conventions . 16 Table 3 Specifications for the 105s Gateway . 20 Table 4 PMC Network Interface Card Slots . 22 Table 5 System Status LEDs . 23 Table 6 Pin Assignments Console Connector and Cable . 36 Table 7 Pin Assignments for AUX Connector and Modem Cable 37 Nokia 105s Gateway Installation Guide 9 10 Nokia 105s Gateway Installation Guide Figures Figure 1 Component Locations Front View . 20 Figure 2 Component Locations Rear View . 21 Figure 3 Built-In Gigabit Ethernet Ports Details . 21 Figure 4 Gateway Status LEDs . 23 Figure 5 Mounting Screws Location . 30 Figure 6 Adjustable Mounting Brackets . 31 Figure 7 Back Panel Power Switch and Socket . 32 Figure 8 Nokia Network Voyager Reference Access Points . 45 Figure 9 Four-Port Ethernet NIC Front Panel Details . 60 Figure 10 Output Connector for the Ethernet Cable . 62 Figure 11 Ethernet Crossover-Cable Pin Connections . 62 Figure 12 Gigabit Ethernet Crossover Cable Pin Connections . 63 Figure 13 Two-Port Copper Gigabit Ethernet NIC . 64 Figure 14 Copper Gigabit Ethernet Cable Connector Output Pin Assignments . 65 Figure 15 Gigabit Ethernet Crossover Cable Pin Connections . 65 Figure 16 Two-Port Fiber-Optic Gigabit Ethernet NIC . 67 Figure 17 Hard-Disk Drive Location . 70 Figure 18 DIMM Socket Locations . 77 Nokia 105s Gateway Installation Guide 11 12 Nokia 105s Gateway Installation Guide About this Guide This guide describes how to install and use Nokia 105s gateways. Installation and maintenance should be performed by experienced technicians or Nokia- approved service providers only. This preface provides the following information: In this Guide Conventions this Guide Uses Related Documentation In this Guide This guide is organized into the following chapters and appendixes: Chapter 1, “Overview” presents a general overview of the 105s gateway. Chapter 2, “Installing the Nokia 105s Gateway” describes how to rack-mount the gateway and how to physically connect it to a network and power. Chapter 3, “Performing the Initial Configuration” describes how to make the gateway available on the network. Chapter 4, “Installing and Replacing Network Interface Cards” describes how to install, monitor, and replace network interface cards (NICs). Chapter 5, “Connecting PMC Network Interface Cards” describes how to connect to and use each of the supported NICs. Nokia 105s Gateway Installation Guide 13 Chapter 6, “Installing and Replacing Other Components” describes how to install or replace RAM memory and hard-disk drives. Chapter 7, “Troubleshooting” describes problems you might encounter and proposes solutions to these problems. Appendix A, “Technical Specifications” provides technical specifications such as interface characteristics. Appendix B, “Compliance Information” provides compliance and regulatory information. Conventions this Guide Uses The following sections describe the conventions this guide uses, including notices, text conventions, and command-line conventions. Notices Warning Warnings advise the user that bodily injury might occur because of a physical hazard. Caution Cautions indicate potential equipment damage, equipment malfunction, loss of performance, loss of data, or interruption of service. Note Notes provide information of special interest or recommendations. 14 Nokia 105s Gateway Installation Guide Conventions this Guide Uses Command-Line Conventions You might encounter one or more of the following elements on a command- line path. Table 1 Command-Line Conventions Convention Description command This required element is usually the product name or other short word that invokes the product or calls the compiler or preprocessor script for a compiled Nokia product. It might appear alone or precede one or more options. You must spell a command exactly as shown and use lowercase letters. Italics Indicates a variable in a command that you must supply. For example: delete interface if_name Supply an interface name in place of the variable. For example: delete interface nic1 angle brackets < > Indicates arguments for which you must supply a value: retry-limit <1–100> Supply a value. For example: retry-limit 60 Square brackets [ ] Indicates optional arguments. delete [slot slot_num] For example: delete slot 3 Nokia 105s Gateway Installation Guide 15 Table 1 Command-Line Conventions Convention Description -flag A flag is usually an abbreviation for a function, menu, or option name, or for a compiler or preprocessor argument. You must enter a flag.
Recommended publications
  • 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.
    [Show full text]
  • 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.
    [Show full text]
  • 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
    [Show full text]
  • 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.
    [Show full text]
  • 800 MIB Dave Speltz Les Ehrlich S/N Affected Approval: Reviewed By: All Ray Attwell Dave Case
    Number: DSS200201 Issue Date: 12/13/01 Page 1 of 6 SERVICE BULLETIN Model Number: Originator: Reviewed By: Star 800 MIB Dave Speltz Les Ehrlich S/N Affected Approval: Reviewed By: All Ray Attwell Dave Case *** INFORMATION ONLY *** HELPFUL DOCUMENTATION AND FREQUENTLY ASKED QUESTIONS FOR THE STAR 800 MIB A few months ago, the Star 800 MIB was introduced to replace the aging ADC board. To help the field in learning how to install and configure the Star 800, first read the attached “Star 800 Installation Instructions” which is also included with the Star 800 MIB. To learn more about connecting the Star 800 with other Varian device controlled through Ethernet communication, please read the “Installing Ethernet Chromatography Devices”. To answer your most common questions regarding the Star 800 MIB, please read through the FAQs below. Other resources for the Star 800 MIB can also be found at. http://thecreek.csb.varianinc.com/techsupport/index.html From the “search” box, type in “Star 800 MIB” and click on “go”. STAR 800 MIB Frequently Asked Questions What part numbers do I need for full serial control of the 3400 with 2 detectors? 03-907938-11 Star 800 MIB w/serial & 2 ADC channels 03-907938-04* Analog Cable, 3-pin Molex, 3 meter Contains: 1 Cable – 3 pin molex to Star MIB (signal) 1 Cable – P23 (molex) to bare wire (start signal) 1 Cable - P16(molex) to bard wire (ready signal) 03-907938-13 Serial Cable to 3000 series GC, 3 meter Contains: 1 Cable - RJ45 Star 800 serial to 3400/3600 serial 1 Jumper for Serial I/O PWA in 3400/3600 * Order one 03-907938-04 for every detector channel you need.
    [Show full text]
  • 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 192.168.10.1 255.255.255.00 N/A PC-B NIC 192.168.10.2 255.255.255.00 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 sttandards 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.
    [Show full text]
  • Define and Describe Networking Cabling Requirements
    Define And Describe Networking Cabling Requirements Is Whittaker narcotizing when Temp convince crassly? Is Maurits cancrizans when Brad embattle commutatively? Appointed Christophe interpenetrating, his altimeter swatting marches annually. From the Computer Technical Tutorials Directory Network Cabling Tutorials. Chapter 3 Cabling and Topology Flashcards Quizlet. By someone of links wires Ethernet cables fibre optics Wi-Fi that retrieve data rapidly. Modern ones plug directly into a mains socket and sock no other connections. Computers and other devices can connect from a network using cables or wirelessly. Called P2P describes an Internet network something which users access each day's hard disks and. Higher frequencies require more twists in his cable pairs and that braid is more expensive Also it. Every computer and network device is connected to obtain cable. Each device server or workstation will contract a unique address 3. Message into devices require an ap and requirements required for describing how is. Exploring the Modern Computer Network Types Cisco Press. Each end nodes connected nodes, designed and wans allows you define a building a variety had different rooms. Who controls the Internet backbone? Ethernet Cat 5 cables have eight wires four pairs but under 10BaseT and 100BaseT. Ethernet Tutorial Part I Networking Basics Lantronix. Because it is artificial intelligence advantage is a ring fails, allowing for describing networks are a star, software is being transmitted from businesses. Following an me-depth network topology definition this mother will. Less cabling is required Cost-efficient to implement Following instead the disadvantages of Bus topology Efficiency is honey when nodes are more. It's ideal for streaming high-definition video cloud computing.
    [Show full text]
  • Transparent Ready 31006929 10/2009
    31006929 10/2009 Transparent Ready User Guide 10/2009 31006929.02 www.schneider-electric.com The information provided in this documentation contains general descriptions and/or technical characteristics of the performance of the products contained herein. This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications. It is the duty of any such user or integrator to perform the appropriate and complete risk analysis, evaluation and testing of the products with respect to the relevant specific application or use thereof. Neither Schneider Electric nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information contained herein. If you have any suggestions for improvements or amendments or have found errors in this publication, please notify us. No part of this document may be reproduced in any form or by any means, electronic or mechanical, including photocopying, without express written permission of Schneider Electric. All pertinent state, regional, and local safety regulations must be observed when installing and using this product. For reasons of safety and to help ensure compliance with documented system data, only the manufacturer should perform repairs to components. When devices are used for applications with technical safety requirements, the relevant instructions must be followed. Failure to use Schneider Electric software or approved software with our hardware products may result in injury, harm, or improper operating results. Failure to observe this information can result in injury or equipment damage. © 2009 Schneider Electric. All rights reserved. 2 31006929 10/2009 Table of Contents Safety Information .
    [Show full text]
  • Ethernet - Wikipedia, the Free Encyclopedia Página 1 De 12
    Ethernet - Wikipedia, the free encyclopedia Página 1 de 12 Ethernet From Wikipedia, the free encyclopedia The five-layer TCP/IP model Ethernet is a family of frame-based computer 5. Application layer networking technologies for local area networks (LANs). The name comes from the physical concept of DHCP · DNS · FTP · Gopher · HTTP · the ether. It defines a number of wiring and signaling IMAP4 · IRC · NNTP · XMPP · POP3 · standards for the physical layer, through means of SIP · SMTP · SNMP · SSH · TELNET · network access at the Media Access Control RPC · RTCP · RTSP · TLS · SDP · (MAC)/Data Link Layer, and a common addressing SOAP · GTP · STUN · NTP · (more) format. 4. Transport layer Ethernet is standardized as IEEE 802.3. The TCP · UDP · DCCP · SCTP · RTP · combination of the twisted pair versions of Ethernet for RSVP · IGMP · (more) connecting end systems to the network, along with the 3. Network/Internet layer fiber optic versions for site backbones, is the most IP (IPv4 · IPv6) · OSPF · IS-IS · BGP · widespread wired LAN technology. It has been in use IPsec · ARP · RARP · RIP · ICMP · from the 1990s to the present, largely replacing ICMPv6 · (more) competing LAN standards such as token ring, FDDI, 2. Data link layer and ARCNET. In recent years, Wi-Fi, the wireless LAN 802.11 · 802.16 · Wi-Fi · WiMAX · standardized by IEEE 802.11, is prevalent in home and ATM · DTM · Token ring · Ethernet · small office networks and augmenting Ethernet in FDDI · Frame Relay · GPRS · EVDO · larger installations. HSPA · HDLC · PPP · PPTP · L2TP · ISDN
    [Show full text]
  • Installation Guide Smartbits 600X/6000X October 2004
    Full-service, independent repair center -~ ARTISAN® with experienced engineers and technicians on staff. TECHNOLOGY GROUP ~I We buy your excess, underutilized, and idle equipment along with credit for buybacks and trade-ins. Custom engineering Your definitive source so your equipment works exactly as you specify. for quality pre-owned • Critical and expedited services • Leasing / Rentals/ Demos equipment. • In stock/ Ready-to-ship • !TAR-certified secure asset solutions Expert team I Trust guarantee I 100% satisfaction Artisan Technology Group (217) 352-9330 | [email protected] | artisantg.com All trademarks, brand names, and brands appearing herein are the property o f their respective owners. Find the Spirent / NetCom 620-0019-001 at our website: Click HERE Installation Guide SmartBits 600x/6000x October 2004 P/N 340-1309-001 REV B Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com Spirent Communications, Inc. 26750 Agoura Road Calabasas, CA 91302 USA Support Contacts E-mail: [email protected] Web: http://support.spirentcom.com Toll Free: 1-800-SPIRENT (1-800-774-7368) Phone: + 1 818-676-2300 Fax: +1 818-880-9154 Copyright © 2004 Spirent Communications, Inc. All Rights Reserved. All of the company names and/or brand names and/or product names referred to in this document, in particular, the name “Spirent” and its logo device, are either registered trademarks or trademarks of Spirent plc and its subsidiaries, pending registration in accordance with relevant national laws. All other registered trademarks or trademarks are the property of their respective owners. The information contained in this document is subject to change without notice and does not represent a commitment on the part of Spirent Communications.
    [Show full text]
  • CS435-Lecture07 2020
    CS-435 Network Technology & Programming Laboratory spring semester 2020 University of Crete Computer Science Department Stefanos Papadakis CS-435 Lecture #7 preview • Ethernet physical media • Structured Cabling • Installations <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Ethernet • Ethernet: the first drawing <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Ethernet: major milestones IEEE year TIA data rate medium 802.3a 1985 10BASE2 10Mbps COAX 802.3i 1990 10BASE-T 10Mbps UTP 802.3u 1995 100BASE-TX 100Mbps UTP 802.3z 1998 1000BASE-X 1Gbps FIBER 802.3ab 1999 1000BASE-T 1Gbps UTP 802.3ae 2003 10GBASE-SR 10Gbps FIBER 802.3an 2006 10GBASE-T 10Gbps UTP <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Ethernet: the early years <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Twisted Pair Cables Types old name new name cable screening pair shielding UTP U/UTP - - FTP F/UTP foil - STP U/FTP - foil S-FTP SF/UTP foil + braiding - S-STP S/FTP braiding foil <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Twisted Pair Cables U/UTP F/UTP SF/UTP S/FTP <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Twisted Pair Cables F/UTP U/UTP S/FTP <CS-435> Network Technology and Programming Laboratory CSD.UoC Stefanos Papadakis spring 2020 Twisted Pair Cables Categories • CAT5: 100MHz (up
    [Show full text]
  • Notes-Cn-Unit-1
    1 UNIT – 1 INTRODUCTION OF NETWORKS Unit-01/Lecture-01 Introduction & Definition[RGPV/Dec 2010/ Jun 2014] A network is a set of devices (often referred to as nodes) connected by communication links. A node can be a computer, printer, or any other device capable of sending and/or receiving data generated by other nodes on the network. FIGURE 1.1: NETWORK Network Criteria A network must be able to meet a certain number of criteria. The most important of these are performance, reliability, and security. Performance Performance can be measured in many ways, including transit time and response time. Transit time is the amount of time required for a message to travel from one device to another. Response time is the elapsed time between an inquiry and a response. The performance of a network depends on a number of factors, including the number of users, the type of transmission medium, the capabilities of the connected hardware, and the efficiency of the software. Performance is often evaluated by two networking metrics: throughput and delay. We often need more throughput and less delay. If we try to send more data to the network, we may increase throughput but we increase the delay because of traffic congestion in the network. Reliability In addition to accuracy of delivery, network reliability is measured by the frequency of failure, the time it takes a link to recover from a failure, and the network's robustness in a catastrophe. Security Network security issues include protecting data from unauthorized access, protecting data from damage and development, and implementing policies and procedures for recovery from breaches and data losses.
    [Show full text]