13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 1 Modems Goal: Carry data over telephone lines Modulator / Demodulator Baud rate / Bit.

Slides:



Advertisements
Similar presentations
Chapter 2: Digital Modulation
Advertisements

Physical layer: Public Switched Telephone Network (PSTN)
High Speed Digital Access
CHAPTER Modulation.
Data Communication Topics to be discussed:  Data Communication Terminology.  Data Transmission Signals.  Data Transmission Circuits.  Serial & Parallel.
Broadband local access technology
Modulation of Digital Data 1.Digital-to-Analog Conversion 2.Amplitude Shift Keying (ASK) 3.Frequency Shift Keying (FSK) 4.Phase Shift Keying (PSK) 5.Quadrature.
Chapter 5 Analog Transmission
Chapter 8 Data Transmission and Modems. Agenda Circuit Mode of transmission Digital transmission Analog transmission for digital signals - modems –Methods.
Analog Transmission.
DATA COMMUNICATION Lecture-17. Recap of Lecture 16  Analog-To-Digital Conversion  Pulse Code Modulation (PCM) – Pulse Amplitude Modulation (PAM) – Quantization.
Digital to Analog Many carrier facilities are analog Many transmission media are also analog (microwave, radio) We can carry digital values over analog.
EE302 Lesson 21: Transmission of Binary Data in Communication Systems
MODEMS. Introduction Modem is a device that converts the digital signal produced by computer into analog signal. The term Modem is a combination of 2.
Csc333 Data communication & Networking Credit: 2.
DIGITAL COMMUNICATIONS.  The modern world is dependent on digital communications.  Radio, television and telephone systems were essentially analog in.
1 Topic 4: Physical Layer - Chapter 8: Data Communication Fundamentals Business Data Communications, 4e.
Transmission of Digital Data: Interfaces and Modems NETE 0510 Dr.Apichan Kanjanavapastit.
Ch. 8 Multiplexing.
CMPE 150- Introduction to Computer Networks 1 CMPE 150 Fall 2005 Lecture 7 Introduction to Networks and the Internet.
1 K. Salah Module 3.1: Encoding and Modulating Conversion Schemes D to D Conversion A to A Conversion A to D Conversion D to A Conversion Final comments.
Learning Outcomes  Know the basic components of a network  Know data transmission methods, including types of signals, modulation, demodulation, and.
EET 450 – Advanced Digital Chapter 17 Modems. Modem Modulator – Demodulator Modulator – Demodulator –Converts digital information into audible tones –Uses.
9.1 Chapter 9 Using Telephone and Cable Networks for Data Transmission Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction.
Chapter 6 Modem Fundamentals Part II: Understanding Internet Access Technologies.
Analog and Digital Transmission Interfaces and Multiplexing (Physical Layer) Lita Lidyawati 2012.
Chapter Twelve: Digital Modulation and Modems. Introduction Digital signals have become very important in wired and wireless communications To send data.
Chapter 12 Long-Distance Digital Connection Technologies Pulse Code Modulation DSU/CSU ISDN ADSL Cable Modem.
Digital to analogue conversion. 1 DIGITAL-TO-ANALOG CONVERSION Digital-to-analog conversion is the process of changing one of the characteristics (A,
1 CCITTInternationalTelegraph and Telephone Consultative Commitee (now ITU-T) ITU-TInternational Telecommuncations Union, Telecommunication Standardization.
Analog Modem Last Update Copyright Kenneth M. Chipps Ph.D. 1.
4/11/40 page 1 Department of Computer Engineering, Kasetsart University Introduction to Computer Communications and Networks CONSYL Modem.
Data Communication and Networking
Chapter 2 Basic Communication Theory Basic Communications Theory w Understand the basic transmission theory, and figure out the maximum data rate. w.
Point-to-Point Communication. 2 Terminal-Host Communication n Components n Terminal n Host (locus of processing) n Transmission line (here, phone line.
Review: The application layer. –Network Applications see the network as the abstract provided by the transport layer: Logical full mesh among network end-points.
Communication Systems I CPE 313: Micro Processors and Interfacing.
Modems Mostly used to connect PCs to the Internet Modulates and demodulates the signal Converts analog data into digital and vice versa V.90/V.92 56K standards.
Chi-Cheng Lin, Winona State University CS 313 Introduction to Computer Networking & Telecommunication Modulation, Multiplexing, & Public Switched Telephone.
PC Maintenance: Preparing for A+ Certification Chapter 24: Modems.
MODEM J.Padmavathi. Origin of Modems The word "modem" is a contraction of the words modulator-demodulator A modem is typically used to send digital data.
Line Coding, Modem, RS232 interfacing sequences.
Using Telephone and Cable Networks
Session 3. Objectives: By the end of this session, the student will be able to: Identify a dial-up modem and cite its basic operating characteristics.
3-2008UP-Copyrights reserved1 ITGD4103 Data Communications and Networks Lecture-11:Data encoding techniques week 12- q-2/ 2008 Dr. Anwar Mousa University.
05 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 1 Modulation Conversion of digital information to analog signals –Example: Telephone lines.
CSCI 465 Data Communications and Networks Lecture 7 Martin van Bommel CSCI 465 Data Communications and Networks 1.
CS412 Introduction to Computer Networking & Telecommunication
Digital Communications. What is Digital Communications Communication using digital data –Digital Data = bits, nibbles, bytes…1’s and 0’s Two Broad Categories.
3.2 Software Fundamentals. A protocol is a formal description of digital message formats and the rules for exchanging those messages in or between computing.
Department of Industrial Engineering Sharif University of Technology Session# 10.
Transmission of Digital DATA : Interfaces and Modems
Shannon’s Theorem Nyquist Theorem Modulations Multiplexing
Copyright © 2007 Heathkit Company, Inc. All Rights Reserved PC Fundamentals Presentation 45 – Modems.
1 Chapter Overview Modems The Internet and Web Browsers.
Synchronous / Asynchronous Transmission Habib Youssef, Ph.D Department of Computer Engineering King Fahd University of Petroleum.
McGraw-Hill©2003 The McGraw-Hill Companies, Inc. Chapter 6 Physical Layer.
Kashif Bashir Chapter 5 Analog Transmission.
1 Kyung Hee University Chapter 9 Using Telephone and Cable Networks for Data Transmission.
Chapter 5 Analog Transmission.
McGraw-Hill©The McGraw-Hill Companies, Inc., 2004 Chapter 5 Analog Transmission.
Computer Networks Chapter 5 – Analog Transmission.
Data Communications: The Basics Chapter 4 The Management of Telecommunications Houston H. Carr and Charles A. Snyder.
Introduction There are two fundamentally different types of data:
Chapter 4. Digital Transmission
6장 Transmission of Digital Data: Interfaces and MODEMs
Modem Eng. M. Zamanian By Amir Taherin.
Analog Transmission Example 1
Broadband Transmission
Synchronous /Asynchronous Transmission
Presentation transcript:

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 1 Modems Goal: Carry data over telephone lines Modulator / Demodulator Baud rate / Bit rate / Bandwidth relationship Amplitude Frequency Hz for data 3000 Hz for voice Utilize this bandwidth as efficiently as possible

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 2 Theoretical Bit Rates ModulationHalf-DuplexFull-Duplex ASK FSK<2400< PSK PSK, 4-QAM PSK, 8-QAM QAM QAM QAM QAM QAM

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 3 Bell 103/113 Full-duplex on 2-wire lines Similar to CCITT V.21 specifications FSK modulation, asynchronous Data rate: 300bps Amplitude Frequency Mark Space 1270 Mark 1070 Space Upstream Downstream

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 4 Bell 202 Half-duplex over 2-wire lines FSK modulation, asynchronous Data rate: 1200bps –Space at 1200Hz, Mark at 2200Hz Uses ASK channel at 387Hz (5bps) for signaling, flow control, error control Bit rate can be improved using specially conditioned lines

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 5 Bell 201 Half-duplex over 2-wire lines at 1200bps or full-duplex over 4-wire lines at 2400bps 4-PSK modulation, synchronous 1200 baud in each direction  only half of the theoretical limit DibitsPhase Shift 0045º 01135º 11225º 10315º

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 6 Modem Features Internal vs. external modems Hayes compatible (intelligent) modem (AT command set) Flow control Synchronization –Asynchronous, synchronous, pseudo-synchronous (start and stop bits removed) Error control –Retransmissions, forward error control –Modem level vs. file transfer level Data compression –Effective data rate –Modem level vs. file transfer level

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 7 Modem Features Proprietary Modems –Modulation –Error control –Data compression Fallback rates Protocol negotiation Echo cancellation Scrambling

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 8 V or 600 bps Asynchronous or synchronous Full duplex, 4-PSK DibitsPhase Shift 0090º 010º0º 11270º 10180º At 1200bps

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 9 V.22bis 2400 bps Asynchronous or synchronous input Data synchronized between modems Full duplex, 16-QAM Includes 1200 bps at V.22 DibitsPhase Shift 0090º 010º0º 11-90º 10180º X X Quadrant Change Bits within Quadrant

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 10 V bps Asynchronous or synchronous input Data synchronized between modems Echo cancellation Full-duplex 1800 Hz carrier, 2400 baud, 32-QAM Trellis coding, 32-bit coding space, only 16 used at a time V.32bis  bps using 64-QAM

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 11 V.42 and MNP-4 Error Correction Protocols V.42 CCITT MNP – Microcom Network Protocol Assemble packets Send synchronously without start/stop bits BCC sent with packet Error recovery through retransmissions V.42 uses LAP-M (link access procedure for modems) with MNP-4 alternative

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 12 V.42bis and MNP-5 Data Compression Protocols Maximum compression of V.42: 4:1 Maximum compression of MNP-5: 2:1 Unlike V.42, V.42bis does not have MNP-5 as alternative However, some modems have both MNP-5 –Run length encoding –Adaptive frequency encoding by characters V.42bis –Lempel-Ziv-Welch compression –Replaces strings with codes

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 13 56K Modems – V.90 Traditional modems have limitation of 33.6 kbps ITU-T announced V.90 in kbps over PSTN, downstream direction V.90 replaces proprietary 56K standards by 3Com (X2) and Rockwell (K56Flex) Client side: Analog modem on analog local loop to PSTN Server side: Digital modem with digital connection to PSTN (e.g. ISDN)

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 14 56K Modems – V.90 Quantization during A/D limits rate  No user-to-user V.90 connection Pulse Code Modulation (PCM) PCM sends m bits  2 m values (Inverse) PCM m=8, baud rate = 8000  Theoretical limit = 8 x 8000 = 64 kbps V.90 Client D/A A/D Local Office PSTN V.90 Server Internet

13 - Winter 2005 ECE ECE 766 Computer Interfacing and Protocols 15 56K Modems – V.90 1 bit used by PSTN  7 bits (64k  56k) Noise, power limitations further reduces the number of distinct levels Typically, rate is ca. 40 kbps Uploads still limited to 33.6 kbps (V.34bis)

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.