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Modems and Beyond Chapter 5 Copyright 2001 Prentice Hall
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2 Modems n Problem – Computer is digital – Telephone line is analog – Need translation device called a modem Digital Signal Modem Analog Signal
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3 Modems n Note: – Device is digital;Transmission line is analog – Cannot just say “modem translates between analog and digital” (For analog device and digital transmission line, need something else) Digital Device Analog Transmission Line
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4 Modulation n A Modem is a Modulator and Demodulator – Modulation is converting outgoing digital device signals into analog transmission line signals – Demodulation is converting incoming analog transmission line signals into digital device signals Digital Signal Modem Analog Signal
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5 Modulation n Example: Frequency Modulation – 1 is a high-frequency vibration – 0 is a low-frequency vibration 1 0 1 1
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6 Modem Forms n Internal Modem – On printed circuit board inside PC – Does not take up desktop space – Can be complex to install--must open up computer
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7 Modem Forms n External Modem – Easy to install (just plug into serial port) – Takes up desk space – Needs wire to serial port (adds to wiring clutter) – Needs electrical power
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8 Modem Forms n PC Card Modems – Fit in PC Card slots on notebooks – Easy to install – Do not take up desktop space – Expensive – Few desktop PCs have PC Card slots
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9 Modem Connection for Internal Modem Phone Line to Telephone Phone Line to Wall Jack
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10 Modem Connection for External Modem Phone Line to Telephone Wall Power: usually uses “brick” transformer Serial Cable to Serial Port Phone Line to Wall Jack
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11 Modem Standards n Two Modems Must Follow Same Standards – Speed standards (modulation method) – Error correction and compression standards – Facsimile standards – Modern modem standards are created by the ITU-T
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12 Modem Standards n Training Period – When two modems first start talking, they negotiate standards to use; settle on highest common standards
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13 Modem Speed Standards (ITU-T) n V.90 – Receive at 56 kbps but send at only 33.6 kbps – Not all phone lines, ISPs support 56 kbps – Fall back to 33.6 kbps if cannot support n V.34 – 33.6 kbps send and receive n V.32 bis – 14.4 kbps send and receive – bis means second (version of the standard)
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14 Modem Standards: Error Correction and Compression n ITU-T – V.42: Error detection and correction – V.42 bis: Compression (up to 4:1) – Most newer modems have both n MNP Level 5 – Proprietary standard of Microcom – Once widely used – Provides both error correction and compression – Now largely superceded by V.42 and V.42 bis New
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15 Modem Standards n Facsimile Modem Standards – Most modems also act as fax modems – Facsimile requires different modulation than data transmission – V.14: 14.4 kbps – V.29: 9.6 kbps
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16 V.90 Modems n Telephone Bandwidth is Limited (Chapter 4) – Bandwidth limits speed – Limits speed to about 35 kbps – When you transmit, limited to 35 kbps 35 kbps
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17 V.90 Modems n Telephone Bandwidth is Limited – Limits occur when you transmit in analog to the phone company n Analog-to-digital converter (ADC) at the telephone company limits you to about 35 kbps Telephone Network Telephone Network ADC PC V.34 modem 33.6 kbps
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18 V.90 Modems n Receive at 56 kbps – ISP connects with digital line to the Telco – Sends at 56 kbps – No analog-to-digital converter to limit speed Telephone Network Telephone Network DAC PC 56 kbps modem ISP Digital Link No ADC! 56 kbps
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19 V.90 Modems n Receive at 56 kbps – 56 kbps digital channels inside phone network – Only local loop is analog today – Trunk lines and switches support 56 kbps transmission Telephone Network Telephone Network DAC PC 56 kbps modem ISP Digital Switches and Trunk Lines 56 kbps
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20 V.90 Modems n Receive at 56 kbps – Telephone company transmits in analog to subscriber at 56 kbps – Digital to audio converter (DAC) does not limit speed to less than 56 kbps Telephone Network Telephone Network DAC PC 56 kbps modem ISP Digital Link 56 kbps
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21 V.90 Modem n Telephone Company Does Not Have to Do Anything Differently – ADCs and DACs are already in place for ordinary voice service – Lack of change in phone system allowed fast implementation Telephone Network Telephone Network ADC PC 56 kbps modem ISP Digital Link DAC
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22 V.90 Modem n ISP Does Have to Do Things Differently – Digital line to telephone network – Special equipment at ISP – Does not use a V.90 modem – If used V.90 modem, could only send at 33.6 kbps Telephone Network Telephone Network DAC PC 56 kbps modem ISP Digital Link No V.90 Modem!
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23 V.90 Modem n User Needs a V.90 Modem – Does not need a new phone line – Not all phone lines will work, but it is never worth the cost to install a new line for V.90 modems
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24 Alternatives to Ordinary Phone Lines & Modems n Faster Speeds; Called Broadband Services n Also Higher Cost – Translation devices more expensive than modems – Faster (more expensive) transmission line to ISP – ISP may charge more because of heavier transmission load – Faster interface than 232 serial port may be needed
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25 Transmission Line Versus ISP n Transmission line may be provided by a transmission carrier, not the ISP n Users have to pay separate fees to carrier and ISP n Some ISPs also provide transmission line – But not all do – Transmission line costs must always be considered PC ISP Transmission Line
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26 Translator Devices n Device versus Line Analog LineDigital Line Analog Device Codec Digital Device ModemDSU Translator Transmission Line Device
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ISDN Integrated Services Digital Network Codecs DSUs
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28 ISDN n Get ISDN line from telephone company – Multiplexes (mixes) three channels on one UTP wire pair to the desktop 1101 B Channel B Channel 2B+D Multiplexed Onto One Set of Wires ISDN Modem D Channel: control signals
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29 ISDN n Two B Channels are 64 kbps – Original idea: one for voice, one for data 1101 B Channel B Channel
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30 ISDN n Can now “bond” the two B channels for 128 kbps data if ISP supports it n D Channel is 16 kbps (for supervisory signaling) Telephone Network Telephone Network ISP ISDN Modem ISDN Modem 128 kbps B B Bonding
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31 ISDN Costs n Must install an ISDN line – Will cost more than telephone line n Actually, could use your existing phone line – But then would would need one B channel for telephony
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32 ISDN Costs n Line is expensive – $60-$80/mo plus installation fee – ISP charge is separate; may charge more for ISDN access n Dial Up: Not always connected – Do not have to pay for full-time use n Need “ISDN modem” (expensive)
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33 ISDN Modem n ISDN “Modem” is a Misnomer – Modem is for for digital device, analog line – ISDN line is digital n ISDN modem really contains – Codec to link analog telephone to digital ISDN line – Data service unit (DSU) to translate between PC digital format and ISDN digital format (voltage levels, timing, etc.)
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34 ISDN Modem n Codec – Translates analog device signal into digital signal for propagation – Constantly samples the intensity of the voice analog signal Sample 1/8,000 sec 0110010
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35 ISDN Modem n Codec – Divides each second into 8,000 sampling periods – Only measures intensity of voice signal in each Sample 1/8,000 sec Sampling Period Intensity Value 0110010
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36 ISDN Modem n Codec – Measures voice intensity as an 8-bit intensity value (0-255) – Overall, sends 8 bits 8,000 times per second (64 kbps) Sample 1/8,000 sec Sampling Period Intensity Value 0110010
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37 ISDN Modem n Codec – This is why telephone channels are 64 kbps n Designed for digitized voice n Often steal 8 kbps for supervisory signaling, so 56 kbps Sample 1/8,000 sec Sampling Period Intensity Value 0110010
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38 DSU (Data Service Unit) n DSU translates between different digital formats – Device and line are both digital, but still must have translator n Different bit rates n Different number of possible states n Different voltage levels for the states n Different ways to represent ones and zeros DSU Digital Line
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Cable Modem Service Broadband Internet Access
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40 Cable Modem Service n Service of Cable Television Companies – Deliver 10 Mbps downstream to the home – Capacity is shared by multiple subscribers, so real speed is more limited – Limited to about 64 kbps to 256 kbps upstream – Does not tie up telephone line – Always available Cable TV Network Cable TV Network Also ISP Functions Also ISP Functions Cable Modem Cable Modem
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41 Cable Modem Sharing in Perspective n Sharing is Not as Extreme as it May First Appear – Usually, shared within Blocks of 500 Houses – Only Some Households in Block will Subscribe – Only Some Subscribers will be Online at Any Moment – Only Some of Online Subscribers will Send and Receive at Any Moment – Only these will Share the Capacity n So Sharing Does Not Reduce Speed Unless the Adoption Rate is Large
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42 Cable Modem Service n Cost is about $50 per Month – Includes ISP service! – Installation usually costs $100 to $150 and includes a cable modem and a network interface card – Best alternative today beyond V.90 modem – Cost-competitive with adding a second phone line to handle your modem communication
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DSLs Digital Subscriber Lines
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44 Digital Subscriber Lines (DSLs) n Offered by Telephone Companies – Lines to customer premises are subscriber lines, which connect subscribers to the telephone system – These are digital – Hence “digital subscriber line” Telephone Network Telephone Network ISP DSL Modem DSL Modem DSL
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45 Digital Subscriber Lines (DSLs) n Offered by Telephone Companies – Several types of digital lines for subscribers n Some are for homes, others for businesses – For residential customers, usually multiplexes regular phone, high-speed data n Can use existing phone line coming into house n Can use Internet without tying up phone Telephone Network Telephone Network ISP DSL Modem DSL Modem Existing Phone Line
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46 Digital Subscriber Lines n Most common for home is Asymmetric DSL (ADSL) – Upstream and downstream speeds are different – Upstream at 64 kbps or more – Downstream at 256 kbps to a few Mbps – Asymmetric speed is good for WWW – About $50 per month incl. ISP; more for faster service Telephone Network Telephone Network ISP DSL Modem DSL Modem ADSL 64 or more kbps 256 kbps-a few Mbps
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47 Digital Subscriber Lines n G.Lite (G.992.2) Standard – New ADSL standard from ITU-T – Up to 1.5 Mbps downstream speed – No carrier installation is necessary – Not being widely adopted by ADSL vendors yet Telephone Network Telephone Network ISP DSL Modem DSL Modem ADSL 64 or more kbps Up to 1.5 Mbps New
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48 Digital Subscriber Lines n Digital Subscriber Line Access Multiplexer – Telco must install a DSLAM at end switching office Telephone Network Telephone Network ISP DSLAM DSL
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49 Digital Subscriber Lines n Splitting Voice and Data – Voice and data are split at home by the DSL modem – Voice and data are also split at the telephone company’s first switching office DSL Modem DSL Splitter DSL DSLAM Voice Network Computer Phone New
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50 DSLs Versus Cable Modem Service n Both Expected to Sell Well n Forecast for Worldwide Installations in 2004 – Cable modem lines: 9 million – DSLs: 10 million – Source: Insight Research n Cable is Available Mostly in Residential Areas n Cable is only widespread in some countries, especially the United States
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51 Broadband Access Lines in Perspective n Limited to Transmission Between Customer Premises and the ISP – ISP Speed can Limit Service Speed – Internet Backbone Speed can Limit Service Speed – Server Host Access Line Speed can Limit Service Speed – Server Host Processing Speed can Limit Service Speed n Broadband Access Lines are Not Panaceas
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52 Wireless Internet Access n Reach the Internet by Radio – Terrestrial (uses earth stations) – Satellite-based ISP
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53 GEO Satellites n In geosynchronous orbit – Appear to be stationary in the sky n Far from the ground – 36,000 km (22,300 miles) – Need much power to send/receive – Need dish antennas to concentrate signals – Must point dish at the satellite – Impractical for portable computers
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54 VSATs n Very Small Aperture Terminals (VSATs) – Small dishes (1 meter in diameter or less) – Do not concentrate signal as well as large dishes, so inefficient – Do not focus as precisely as large dishes, so satellites cannot be spaced closely together – However, inexpensive – Used when there must be many ground stations
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55 LEO Satellites n Low Earth Orbit (LEO) Satellites – Below First Van Allen Radiation band, which peaks at 3,000 km (1,800 miles) – A typical orbit is 1,000 km or 600 miles Omnidirectional Antenna New: Not in Book
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56 LEO Satellites n Low Earth Orbit (LEO) Satellites – Need far less power to reach than 36,000 km (22,300 mile) geosynchronous satellites – So can get by with omnidirectional antenna – Can use phone of reasonable size, cost – Access anywhere is the world, although local laws may limit legality Omnidirectional Antenna
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57 MEO Satellites n Medium Earth Orbit (MEO) Satellites – Between First and Second Van Allen Radiation Band, which peaks at 15,000 km (about 9,000 miles) – Typical distance is 6,000 km or 4,000 miles – Farther away than LEOs, so need more power – But travel more slowly across sky, so fewer hand-offs, fewer satellites needed New
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58 Ports n Need port fast enough for line n 232 Serial port to 115.2 kbps: only V.34, V.90 or ISDN n USB (universal serial bus) – 12 Mbps – Available on all new PCs – Fast enough for DSLs, cable modems – Faster version coming (USB-2, ~480 Mbps)
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59 Ports n Firewire (IEEE 1394) – 400 Mbps and faster – Not available on most new PCs – Fast enough for DSLs, cable modems n Ethernet NIC (10 Mbps) – Network interface card used in PC networks – Printed circuit board – Must be installed inside PC systems unit – Fast enough for DSLs, cable modems
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60 Small Office Service n Serial Router Connects Internal Stations to Shared Broadband Access Service Small Office Serial Router Shared Broadband Line ISP
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61 Small Office Service n Serial Routers are Very Simple – One or more ports to connect the serial port to the LAN – One port to connect to the high-speed access line, which is serial – Much less expensive than general-purpose routers because no complex router forwarding decision caused by multiple possible output ports Serial Router
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62 Small Office Service n Serial Router Connects Internal Stations to Shared Broadband Access Service – Companies with several stations pay much more for line than when connecting a single PC – Each machine gets its own IP address via DHCP – Serial router may be a user PC with added software – Often, router is called a gateway (the old name for router)
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63 Connecting Two PCs at Home n Physically, One PC (the Gateway PC) Connects to the Hub or Switch and to the Broadband Line – Gateway (router) PC needs two Network Interface Cards, one for hub, one for broadband modem Gateway PC Broadband Line to ISP ADSL/Cable Modem Hub or Switch NIC
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64 Connecting Two PCs at Home n Gateway PC Needs Gateway Software – On NIC to broadband line, acts like a single station – Gets temporary IP address from ISP DHCP – Sends and receives to ISP using this IP address Gateway PC Send, Receive with Temporary IP Address
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65 Connecting Two PCs at Home n Gateway PC Needs Gateway Software – Each PC is set up with a permanent IP address – So gateway PC has two addresses, one bound to each NIC Gateway Program Temporary IP Address Permanent IP Address Permanent IP Address
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66 Connecting Two PCs at Home n Gateway Software Does Network Address Translation (NAT) – When a PC sends using permanent IP address – Gateway software replaces source IP permanent address with temporary IP address ISP expects Gateway PC Temporary IP Address Permanent IP Address Permanent IP Address
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67 Connecting Two PCs at Home n Gateway Software Does Network Address Translation (NAT) – When a PC receives – Gateway software replaces ISP temporary IP destination address with receiver’s permanent IP address, passes on to PC Gateway PC Temporary IP Address Permanent IP Address Permanent IP Address
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