Introduction to Digital Subscriber Line (DSL) EE4220 Communications system Dr. Hassan Yousif Electrical Engineering Department College of Engineering Salman Bin Abdulaziz University Lect no-5
Digital Subscriber Line (DSL) Broadband Access Customer Premises downstream upstream Voice Switch Central Office DSLAM DSL modem LPF Internet DSLAM - Digital Subscriber Line Access Multiplexer LPF – Low Pass Filter (passes voiceband frequencies) Telephone Network Introduction
DSL Flavors DSL is often called xDSL since there are many varieties (different x) e.g. ADSL, HDSL, SHDSL, VDSL, IDSL, etc. There were once many unconnected types but now we divide them into three main families The differentiation is by means of the application scenario HDSL (high bit rate, mainly business, data + telephony) ADSL (asymmetric, mainly residential, Internet access) VDSL (very high rate, but short distance)
More xDSL flavors
More xDSL flavors (cont.) Not DSL
History of wireless communication Guglielmo Marconi invented the wireless telegraph in 1896 Communication by encoding alphanumeric characters in analog signal Sent telegraphic signals across the Atlantic Ocean 1914 – first voice communication over radio waves Communications satellites launched in 1960s Advances in wireless technology Radio, television, mobile telephone, communication satellites More recently Satellite communications, wireless networking, cellular technology
What is Wireless Communication ? Transmitting voice and data using electromagnetic waves in open space (atmosphere) Electromagnetic waves Travel at speed of light (c = 3x10 8 m/s) Has a frequency (f) and wavelength ( ) c = f x Higher frequency means higher energy photons The higher the energy photon the more penetrating is the radiation
Types of wireless communication celullarwireless computer network radio service
Electromagnetic radiation spectrum
Wavelength of Some Technologies GSM Phones: frequency ~= 900 Mhz wavelength ~= 33cm PCS Phones frequency ~= 1.8 Ghz wavelength ~= 17.5 cm Bluetooth: frequency ~= 2.4Gz wavelength ~= 12.5cm
Types of electromagnetic carriers when the distance between the sender and receiver is short (e.g. TV box and a remote control) infrared waves are used for long range distances between sender and receiver (e.g. TV broadcasting and cellular service) both microwaves and radio waves are used radio waves are ideal when large areas need to be coverd and obstacles exist in the transmission path microwaves are good when large areas need to be coverd and no obstacles exist in the transmission path
Wireless applications (services)
Advantages and disadvantages of wireless communication advantages: mobility a wireless communication network is a solution in areas where cables are impossible to install (e.g. hazardous areas, long distances etc.) easier to maintain disadvantages: has security vulnerabilities high costs for setting the infrastructure unlike wired comm., wireless comm. is influenced by physical obstructions, climatic conditions, interference from other wireless devices
Frequency Carries/Channels The information from sender to receiver is carrier over a well defined frequency band. This is called a channel Each channel has a fixed frequency bandwidth (in KHz) and Capacity (bit-rate) Different frequency bands (channels) can be used to transmit information in parallel and independently.
16 Wireless System Architecture
17 Evolution of Wireless Technology Nikola Tesla Invented radio communications Guglielmo Marconi Sent telegraphic signals across the Atlantic Ocean Communications satellites launched in 1960s Advances in wireless technology Radio, television, mobile telephone, communication satellites More recently Satellite communications, wireless networking, cellular technology
18 Broadband Wireless Technology Higher data rates achievable with broadband wireless technology Graphics, video, audio Shares same advantages of all wireless services
19 Wireless Technologies Unlicensed Frequency Spectrum Industrial, Scientific and Medical (ISM) 915 MHz 2.45 GHz 5.8 GHz Wireless Fidelity (Wi-Fi) Based on IEEE standards Refers to compatible products certified as interoperable by the Wi-Fi Alliance Covers office and home based LANs as well as hotspots
21 Comparison of Wi-Fi Standards IEEE StandardData RateFrequency BandNotes Mbps 2 Mbps 2.4 GHzFirst standard (1997). Used both DSSS & FHSS aUp to 54 Mbps5 GHzSecond standard (1999). Products not released until late b5.5 Mbps 11 Mbps 2.4 GHzThird standard but second wave of products (1999). Most common.
22 Comparison of Wi-Fi Standards IEEE StandardData RateFrequency BandNotes gUp to 54 Mbps2.4 GHzStandard approved in June nUp to 600 Mbps MIMO (multiple input multiple output) 5 GHz and/or 2.4 GHz Released in Full approval expected in December Next generation?
23 Wireless Technologies (cont.) Unlicensed Frequency Spectrum Unlicensed National Information Infrastructure (U- NII) U-NII devices do not require licensing Designated to provide short-range, high-speed wireless networking communication at low cost Three frequency bands (100 MHz each) were set aside by the FCC in 1997 Objective was to help schools connect to the Internet without the need for hard wiring
24 Wireless Technologies (cont.) Unlicensed Frequency Spectrum Unlicensed National Information Infrastructure (U- NII) DesignationFrequency Band Maximum Output Power Use U-NII – 5.25GHz 50 mW Indoor only U-NII – 5.35 GHz 250 mW Outdoor and indoor U-NII-2e* 5.47 – GHz 250 mW Outdoor and indoor U-NII – GHz 1 W Outdoor only
25 Wireless Technologies (cont.) Worldwide Interoperability for Microwave Access (WiMAX) Similar to Wi-Fi Range of Km Wireless alternative to cable, DSL, and T1/E1 for last-mile broadband access Initial developments were in fixed locations but a mobile version was also developed
26 Wireless Technologies (cont.) ZigBee Standard ratified on Dec 9, 2004 Enables reliable, cost-effective, low-power, wirelessly networked, monitoring and control products based on an open global standard Targeted to sensors and control devices that do not require high bandwidths but do require low latency and very low power consumption Initial markets Home control Building Automation Industrial Automation
27 Wireless Technologies (cont.) Ultrawideband According to the FCC, ultrawideband is any radio technology with a spectrum that occupies greater than 20% of the center frequency or a minimum of 500MHz An UWB system provides a wireless PAN Data payload communication capabilities of 53.3, 80, 110, 160, 200, 320, 400, and 480 Mb/s Employs orthogonal frequency division multiplexing (OFDM) Technology specification developed by MultiBand OFDM Alliance (MBOA) Over 170 member companies
28 Limitations and Difficulties Limitations as well as political and technical difficulties inhibit wireless technologies Lack of an industry-wide standard Device limitations Small LCD on a mobile telephone can only display a few lines of text Browsers of most mobile wireless devices use wireless markup language (WML) instead of HTML
29 Standards Organizations National Technical Standard-Setting Organizations: American National Standards Institute Institute of Electrical and Electronic Engineers, Inc National Institute of Standards and Technology International Standard-Setting Organizations: International Telecommunication Union International Standards Organization European Telecommunications Standards Institute
30 Wireless Technology & Governance Federal Communications Commission National Telecommunications and Information Administration Cellular Telecommunications Industry Association