OptiSystem applications: Digital modulation analysis (PSK)
|
|
|
- Henry Evans
- 6 years ago
- Views:
Transcription
1 OptiSystem applications: Digital modulation analysis (PSK) 7 Capella Court Nepean, ON, Canada K2E 7X1 +1 (613) Optiwave Systems, Inc.
2 Introduction PSK modulation Digital modulation systems are used to transmit digital (quantized) information over a medium such as air or optical fiber. Transmission is achieved by mapping the information (baseband) channel onto an analog carrier channel, propagating over the medium, and then recovering the baseband channel at the receiver 1. Several techniques can be used to carry the information channel and involve changing the characteristics of its analog carrier (periodic) signal. These include 2 : Amplitude shift keying (ASK), also called pulse amplitude modulation (PAM), where different amplitudes of the carrier are used to represent the digital signal Phase shift keying (PSK), where different phase settings of the carrier are used to represent the digital signal Quadrature amplitude modulation (QAM) a combination of PAM and PSK Frequency shift keying (FSK), where different relative frequency settings (relative to the carrier frequency) are used to represent the digital signal This application note reviews common implementations for PSK modulation and includes the following models: Binary phase shift keying (Layout: BPSK) Differential binary phase shift keying (Layout: D-BPSK) Quadrature phase shift keying (Layout: QPSK) Offset quadrature phase shift keying (Layout: O-QPSK) Pi/4 quadrature phase shift keying (Layout: Pi/4-QPSK) Differential quadrature phase shift keying (Layout: D-BPSK) BPSK over analog carrier (Layout: BPSK (with Carrier)) QPSK over analog carrier (Layout: QPSK (with Carrier)) REF 1: All About Modulation Part 1, Intuitive Guide to Principles of Communications, Charan Langton (2002, revised Dec 2005). Retrieved 16 Mar 17 from REF 2: Link budget analysis: Digital Modulation Part 1, Atlanta RF (Bob Garvey, Chief Engineer), July. Retrieved (16 Mar 17) from 2
3 Binary phase shift keying (BPSK) This example demonstrates binary phase shift keying (BPSK) using the PSK Pulse Generator, Decision and PSK Sequence Decoder components. It is a two-level modulation technique where the antipodal signals are represented by phases of 0 and 180 degrees (binary 0 and binary 1, respectively). As only phase is being changed, the amplitude of the modulation envelope is constant. Layout: D-BPSK 180 phase (binary 1) subject to zero-mean Gaussian noise 180 phase (binary 1) subject to zero-mean Gaussian noise 3
4 Differential binary phase shift keying (D-BPSK) This example demonstrates differential binary phase shift keying (D-BPSK) using the DPSK Pulse Generator, M-ary Threshold and DPSK Sequence Decoder (with no analog carrier). When differential encoding is used, the phase transitions change by 180 deg compared to the previous bit if a binary 1 is transmitted and does not change if a binary 0 is transmitted REF: Phase-shift keying. (2017, January 26). In Wikipedia, The Free Encyclopedia. Retrieved 17:53, March 16, 2017, from Layout: D-BPSK 1-1 bit transition: 180 deg change in phase bit transition: No change in phase 0-1 bit transition: 180 deg change in phase 1-0 bit transition: No change in phase 4
5 Quadrature phase shift keying (QPSK) This example demonstrates quadrature phase shift keying (QPSK) using the PSK Pulse Generator, Decision and PSK Sequence Decoder (with no analog carrier). See layout "QPSK (with carrier)" for an example with includes an analog transmission channel. REF: L. Kazovsky, S. Benedetto, A. Willner, Optical Fiber Communication Systems, Artech House (1996), pp Layout: QPSK Symbol: 01 (Phase: 135 deg) Symbol: 00 (Phase: 45 deg) Symbol: 10 (Phase: 225 deg) Symbol: 11 (Phase: 315 deg) Example sequence of symbols 00, 01, 10 and 11 modulated onto a periodic carrier channel 5
6 Offset quadrature phase shift keying (O-QPSK) This example demonstrates off-set quadrature phase shift keying (O-QPSK) using the PSK Pulse Generator, Threshold and PSK Sequence Decoder components. The O-QPSK modulator applies a one bit (half-symbol) period time delay to the Q channel thus creating a staggered constellation (this ensures that the maximum phase shift between symbol transitions is 90 deg compared to 180 deg for QPSK) REF 1: Phase-shift keying. (2017, January 26). In Wikipedia, The Free Encyclopedia. Retrieved 17:53, March 16, 2017, from REF 2: Link budget analysis: Digital Modulation Part 3, Atlanta RF (Bob Garvey, Chief Engineer), July. Retrieved (16 Mar 17) from Layout: O-QPSK QPSK transitions O-QPSK transitions Max phase transition of 90 deg Max phase transition of 180 deg 6
7 Pi/4 quadrature phase shift keying (Pi/4-QPSK) This example demonstrates Pi/4 quadrature phase shift keying (Pi/4 QPSK) using the Cpp Component. The Pi/4-QPSK modulator uses two separate QPSK constellations. For even numbered symbols the standard QPSK constellation is used; for odd numbered constellations a 45 deg rotated version of the QPSK constellation is used. REF 1: Phase-shift keying. (2017, January 26). In Wikipedia, The Free Encyclopedia. Retrieved 17:53, March 16, 2017, from REF 2: Link budget analysis: Digital Modulation Part 3, Atlanta RF (Bob Garvey, Chief Engineer), July. Retrieved (16 Mar 17) from Layout: Pi/4-QPSK QPSK transitions Pi/4-QPSK transitions Max phase transitions of 135 deg Max phase transitions of 180 deg 7
8 Differential quadrature phase shift keying (D-QPSK) This example demonstrates differential quadrature phase shift keying (D-BPSK) using the DPSK Pulse Generator, M-ary Threshold and DPSK Sequence Decoder (with no analog carrier). Similar to BPSK differential encoding, the phase transitions change by a defined value compared to the previous symbol based on the transmitted symbol (00, 01, 10, 11). REF: Phase-shift keying. (2017, January 26). In Wikipedia, The Free Encyclopedia. Retrieved 17:53, March 16, 2017, from Layout: D-QPSK 8
9 BPSK with carrier channel This example demonstrates binary phase shift keying (BPSK) using the PSK Pulse Generator, Decision and PSK Sequence Decoder with transmission over an analog carrier. Modulation is achieved by mixing the information (baseband) channel with an RF oscillator (30 GHz). At the receiver, the transmitted channel is mixed with a local oscillator at the same carrier frequency and low pass filtered (10 GHz) to remove the double frequency component Layout: BPSK (with carrier) Information channel modulated at 30 GHz Recovered baseband information channel after demodulation and filtering 9
10 QPSK with carrier channel This example demonstrates quadrature phase shift keying (QPSK) using the PSK Pulse Generator, Threshold and PSK Sequence Decoder with transmission over an analog carrier. Modulation is achieved by mixing the information (baseband) channel with an RF quadrature modulator (30 GHz). At the receiver, the transmitted channel is demodulated with a Quadrature demodulator with a local oscillator at the same carrier frequency and low pass filtered (10 GHz) to remove the double frequency component REF: Link budget analysis: Digital Modulation Part 3, Atlanta RF (Bob Garvey, Chief Engineer), July. Retrieved (16 Mar 17) from Layout: QPSK (with carrier) The QPSK channel (red) has twice the bandwidth efficiency compared to BPSK (blue) 10
OptiSystem applications: Digital modulation analysis (FSK)
OptiSystem applications: Digital modulation analysis (FSK) 7 Capella Court Nepean, ON, Canada K2E 7X1 +1 (613) 224-4700 www.optiwave.com 2009 Optiwave Systems, Inc. Introduction FSK modulation Digital
Optical Coherent Receiver Analysis
Optical Coherent Receiver Analysis 7 Capella Court Nepean, ON, Canada K2E 7X1 +1 (613) 224-4700 www.optiwave.com 2009 Optiwave Systems, Inc. Introduction (1) Coherent receiver analysis Optical coherent
Key Features for OptiSystem 12
12 New Features Created to address the needs of research scientists, optical telecom engineers, professors and students, OptiSystem satisfies the demand of users who are searching for a powerful yet easy
Key Features for OptiSystem 14
14.0 New Features Created to address the needs of research scientists, photonic engineers, professors and students; OptiSystem satisfies the demand of users who are searching for a powerful yet easy to
Optical PLL for homodyne detection
Optical PLL for homodyne detection 7 Capella Court Nepean, ON, Canada K2E 7X1 +1 (613) 224-4700 www.optiwave.com 2009 Optiwave Systems, Inc. Optical BPSK PLL building blocks Signal Generation and Detection
Mobile Communication An overview Lesson 03 Introduction to Modulation Methods
Mobile Communication An overview Lesson 03 Introduction to Modulation Methods Oxford University Press 2007. All rights reserved. 1 Modulation The process of varying one signal, called carrier, according
Outline / Wireless Networks and Applications Lecture 5: Physical Layer Signal Propagation and Modulation
Outline 18-452/18-750 Wireless Networks and Applications Lecture 5: Physical Layer Signal Propagation and Modulation Peter Steenkiste Carnegie Mellon University Spring Semester 2017 http://www.cs.cmu.edu/~prs/wirelesss17/
Chapter 4. Part 2(a) Digital Modulation Techniques
Chapter 4 Part 2(a) Digital Modulation Techniques Overview Digital Modulation techniques Bandpass data transmission Amplitude Shift Keying (ASK) Phase Shift Keying (PSK) Frequency Shift Keying (FSK) Quadrature
SEN366 Computer Networks
SEN366 Computer Networks Prof. Dr. Hasan Hüseyin BALIK (5 th Week) 5. Signal Encoding Techniques 5.Outline An overview of the basic methods of encoding digital data into a digital signal An overview of
DIGITAL COMMUNICATIONS SYSTEMS. MSc in Electronic Technologies and Communications
DIGITAL COMMUNICATIONS SYSTEMS MSc in Electronic Technologies and Communications Bandpass binary signalling The common techniques of bandpass binary signalling are: - On-off keying (OOK), also known as
UNIVERSITY OF BAHRAIN COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING
UNIVERSITY OF BAHRAIN COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONIC ENGINEERING EENG 373: DIGITAL COMMUNICATIONS EXPERIMENT NO. 5 BASEBAND MODULATION TECHIQUES Objective The main objectives
Thus there are three basic modulation techniques: 1) AMPLITUDE SHIFT KEYING 2) FREQUENCY SHIFT KEYING 3) PHASE SHIFT KEYING
CHAPTER 5 Syllabus 1) Digital modulation formats 2) Coherent binary modulation techniques 3) Coherent Quadrature modulation techniques 4) Non coherent binary modulation techniques. Digital modulation formats:
3/26/18. Lecture 3 EITN STRUCTURE OF A WIRELESS COMMUNICATION LINK
Lecture 3 EITN75 208 STRUCTURE OF A WIRELESS COMMUNICATION LINK 2 A simple structure Speech Data A/D Speech encoder Encrypt. Chann. encoding Modulation Key Speech D/A Speech decoder Decrypt. Chann. decoding
Digital Modulation Schemes
Digital Modulation Schemes 1. In binary data transmission DPSK is preferred to PSK because (a) a coherent carrier is not required to be generated at the receiver (b) for a given energy per bit, the probability
Lecture 12. Carrier Phase Synchronization. EE4900/EE6720 Digital Communications
EE49/EE6720: Digital Communications 1 Lecture 12 Carrier Phase Synchronization Block Diagrams of Communication System Digital Communication System 2 Informatio n (sound, video, text, data, ) Transducer
UNIT 2 DIGITAL COMMUNICATION DIGITAL COMMUNICATION-Introduction The techniques used to modulate digital information so that it can be transmitted via microwave, satellite or down a cable pair is different
Signal Encoding Techniques
2 Techniques ITS323: to Data Communications CSS331: Fundamentals of Data Communications Sirindhorn International Institute of Technology Thammasat University Prepared by Steven Gordon on 3 August 2015
Amplitude Frequency Phase
Chapter 4 (part 2) Digital Modulation Techniques Chapter 4 (part 2) Overview Digital Modulation techniques (part 2) Bandpass data transmission Amplitude Shift Keying (ASK) Phase Shift Keying (PSK) Frequency
COSC 3213: Computer Networks I: Chapter 3 Handout #4. Instructor: Dr. Marvin Mandelbaum Department of Computer Science York University Section A
COSC 3213: Computer Networks I: Chapter 3 Handout #4 Instructor: Dr. Marvin Mandelbaum Department of Computer Science York University Section A Topics: 1. Line Coding: Unipolar, Polar,and Inverted ; Bipolar;
comparasion to BPSK, to distinguish those symbols, therefore, the error performance is degraded. Fig 2 QPSK signal constellation
Study of Digital Modulation Schemes using DDS 1. Introduction Phase shift keying(psk) is a simple form of data modulation scheme in which the phase of the transmitted signal is varied to convey information.
ECE5713 : Advanced Digital Communications
ECE5713 : Advanced Digital Communications Bandpass Modulation MPSK MASK, OOK MFSK 04-May-15 Advanced Digital Communications, Spring-2015, Week-8 1 In-phase and Quadrature (I&Q) Representation Any bandpass
Chapter 6 Passband Data Transmission
Chapter 6 Passband Data Transmission Passband Data Transmission concerns the Transmission of the Digital Data over the real Passband channel. 6.1 Introduction Categories of digital communications (ASK/PSK/FSK)
Wireless Communication Fading Modulation
EC744 Wireless Communication Fall 2008 Mohamed Essam Khedr Department of Electronics and Communications Wireless Communication Fading Modulation Syllabus Tentatively Week 1 Week 2 Week 3 Week 4 Week 5
Key Features for OptiSystem 14.2
14.2 New Features Created to address the needs of research scientists, photonic engineers, professors and students; OptiSystem satisfies the demand of users who are searching for a powerful yet easy to
I-Q transmission. Lecture 17
I-Q Transmission Lecture 7 I-Q transmission i Sending Digital Data Binary Phase Shift Keying (BPSK): sending binary data over a single frequency band Quadrature Phase Shift Keying (QPSK): sending twice
CHAPTER 2. Instructor: Mr. Abhijit Parmar Course: Mobile Computing and Wireless Communication ( )
CHAPTER 2 Instructor: Mr. Abhijit Parmar Course: Mobile Computing and Wireless Communication (2170710) Syllabus Chapter-2.3 Modulation Techniques Reasons for Choosing Encoding Techniques Digital data,
9.4. Synchronization:
9.4. Synchronization: It is the process of timing the serial transmission to properly identify the data being sent. There are two most common modes: Synchronous transmission: Synchronous transmission relies
EE3723 : Digital Communications
EE3723 : Digital Communications Week 8-9: Bandpass Modulation MPSK MASK, OOK MFSK 04-May-15 Muhammad Ali Jinnah University, Islamabad - Digital Communications - EE3723 1 In-phase and Quadrature (I&Q) Representation
C06a: Digital Modulation
CISC 7332X T6 C06a: Digital Modulation Hui Chen Department of Computer & Information Science CUNY Brooklyn College 10/2/2018 CUNY Brooklyn College 1 Outline Digital modulation Baseband transmission Line
OptiSystem applications: LIDAR systems design
OptiSystem applications: LIDAR systems design 7 Capella Court Nepean, ON, Canada K2E 7X1 +1 (613) 224-4700 www.optiwave.com 2009 Optiwave Systems, Inc. Introduction Light detection and ranging (LIDAR)
MODULATION METHODS EMPLOYED IN DIGITAL COMMUNICATION: An Analysis
International Journal of Electrical & Computer Sciences IJECS-IJENS Vol: 12 No: 03 85 MODULATION METHODS EMPLOYED IN DIGITAL COMMUNICATION: An Analysis Adeleke, Oluseye A. and Abolade, Robert O. Abstract
Mobile & Wireless Networking. Lecture 2: Wireless Transmission (2/2)
192620010 Mobile & Wireless Networking Lecture 2: Wireless Transmission (2/2) [Schiller, Section 2.6 & 2.7] [Reader Part 1: OFDM: An architecture for the fourth generation] Geert Heijenk Outline of Lecture
DESIGN OF QAM MODULATOR AND GENERATION OF QAM SEQUENCE FOR ISI FREE COMMUNICATION Chethan B 1, Ravisimha B N 2, Dr. M Z Kurian 3
International Journal of Computer Engineering and Applications, Volume VI, Issue I, April 14 www.ijcea.com ISSN 2321 3469 DESIGN OF QAM MODULATOR AND GENERATION OF QAM SEQUENCE FOR ISI FREE COMMUNICATION
Department of Electronics and Communication Engineering 1
UNIT I SAMPLING AND QUANTIZATION Pulse Modulation 1. Explain in detail the generation of PWM and PPM signals (16) (M/J 2011) 2. Explain in detail the concept of PWM and PAM (16) (N/D 2012) 3. What is the
OptiSystem-MATLAB data formats (Version 1.0)
2009 Optiwave Systems, Inc. OptiSystem-MATLAB data formats (Version 1.0) 7 Capella Court Nepean, ON, Canada K2E 7X1 +1 (613) 224-4700 www.optiwave.com Optical signal data format (1) Sampled InputPort1.Sampled.Signal
Downloaded from 1
VII SEMESTER FINAL EXAMINATION-2004 Attempt ALL questions. Q. [1] How does Digital communication System differ from Analog systems? Draw functional block diagram of DCS and explain the significance of
ECE 4203: COMMUNICATIONS ENGINEERING LAB II
DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING ECE 4203: COMMUNICATIONS ENGINEERING LAB II SEMESTER 2, 2017/2018 DIGITAL MODULATIONS INTRODUCTION In many digital communication systems, cable (as for data
Channel & Modulation: Basics
ICTP-ITU-URSI School on Wireless Networking for Development The Abdus Salam International Centre for Theoretical Physics ICTP, Trieste (Italy), 6 to 24 February 2006 Channel & Modulation: Basics Ryszard
Revision of Lecture 3
Revision of Lecture 3 Modulator/demodulator Basic operations of modulation and demodulation Complex notations for modulation and demodulation Carrier recovery and timing recovery This lecture: bits map
Data Encoding g(p (part 2)
Data Encoding g(p (part 2) CSE 3213 Instructor: U.T. Nguyen 10/11/2007 12:44 PM 1 Analog Data, Digital Signals (5.3) 2 1 Analog Data, Digital Signals Digitization Conversion of analog data into digital
ENSC327 Communication Systems 27: Digital Bandpass Modulation. (Ch. 7) Jie Liang School of Engineering Science Simon Fraser University
ENSC37 Communication Systems 7: Digital Bandpass Modulation (Ch. 7) Jie Liang School of Engineering Science Simon Fraser University 1 Outline 7.1 Preliminaries 7. Binary Amplitude-Shift Keying (BASK) 7.3
Radio Technology and Architectures. 1 ENGN4521/ENGN6521: Embedded Wireless L#1
Radio Technology and Architectures 1 ENGN4521/ENGN6521: Embedded Wireless L#1 Radio (Architectures) Spectrum plan and legal issues Radio Architectures and components 2 ENGN4521/ENGN6521: Embedded Wireless
EEE 461 Communication Systems II Lecture Presentation 2
EEE 461 Communication Systems II Lecture Presentation 2 Aykut HOCANIN Dept. of Electrical and Electronic Engineering 1/15 EEE 461 Communication Systems II 5.1: Multilevel Modulated Bandpass Signaling In
Class 4 ((Communication and Computer Networks))
Class 4 ((Communication and Computer Networks)) Lesson 5... SIGNAL ENCODING TECHNIQUES Abstract Both analog and digital information can be encoded as either analog or digital signals. The particular encoding
ADVANCE DIGITAL COMMUNICATION LAB
Model Series TCM 002 Recent advances in wideband communication channels and solid-state electronics have allowed scientists to fully realize its advantages and thereby helping digital communications grow
Digital to Digital Encoding
MODULATION AND ENCODING Data must be transformed into signals to send them from one place to another Conversion Schemes Digital-to-Digital Analog-to-Digital Digital-to-Analog Analog-to-Analog Digital to
Communication Systems
Electrical Engineering Communication Systems Comprehensive Theory with Solved Examples and Practice Questions Publications Publications MADE EASY Publications Corporate Office: 44-A/4, Kalu Sarai (Near
Recap of Last 2 Classes
Recap of Last 2 Classes Transmission Media Analog versus Digital Signals Bandwidth Considerations Attentuation, Delay Distortion and Noise Nyquist and Shannon Analog Modulation Digital Modulation What
Digital modulation techniques
Outline Introduction Signal, random variable, random process and spectra Analog modulation Analog to digital conversion Digital transmission through baseband channels Signal space representation Optimal
Communication Systems
Electronics Engineering Communication Systems Comprehensive Theory with Solved Examples and Practice Questions Publications Publications MADE EASY Publications Corporate Office: 44-A/4, Kalu Sarai (Near
Datacommunication I. Layers of the OSI-model. Lecture 3. signal encoding, error detection/correction
Datacommunication I Lecture 3 signal encoding, error detection/correction Layers of the OSI-model repetition 1 The OSI-model and its networking devices repetition The OSI-model and its networking devices
RF Basics 15/11/2013
27 RF Basics 15/11/2013 Basic Terminology 1/2 dbm is a measure of RF Power referred to 1 mw (0 dbm) 10mW(10dBm), 500 mw (27dBm) PER Packet Error Rate [%] percentage of the packets not successfully received
Digital Communication
Digital Communication (ECE4058) Electronics and Communication Engineering Hanyang University Haewoon Nam Lecture 1 1 Digital Band Pass Modulation echnique Digital and-pass modulation techniques Amplitude-shift
EC 6501 DIGITAL COMMUNICATION UNIT - IV PART A
EC 6501 DIGITAL COMMUNICATION UNIT - IV PART A 1. Distinguish coherent vs non coherent digital modulation techniques. [N/D-16] a. Coherent detection: In this method the local carrier generated at the receiver
DEPARTMENT OF COMPUTER GCE@Bodi_ SCIENCE GCE@Bodi_ AND ENIGNEERING GCE@Bodi_ GCE@Bodi_ GCE@Bodi_ Analog and Digital Communication GCE@Bodi_ DEPARTMENT OF CsE Subject Name: Analog and Digital Communication
Outline. EECS 3213 Fall Sebastian Magierowski York University. Review Passband Modulation. Constellations ASK, FSK, PSK.
EECS 3213 Fall 2014 L12: Modulation Sebastian Magierowski York University 1 Outline Review Passband Modulation ASK, FSK, PSK Constellations 2 1 Underlying Idea Attempting to send a sequence of digits through
CHETTINAD COLLEGE OF ENGINEERING & TECHNOLOGY NH-67, TRICHY MAIN ROAD, PULIYUR, C.F , KARUR DT.
CHETTINAD COLLEGE OF ENGINEERING & TECHNOLOGY NH-67, TRICHY MAIN ROAD, PULIYUR, C.F. 639 114, KARUR DT. DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING COURSE MATERIAL Subject Name: Analog & Digital
DIGITAL COMMUNICATION
DIGITAL COMMUNICATION TRAINING LAB Digital communication has emerged to augment or replace the conventional analog systems, which had been used widely a few decades back. Digital communication has demonstrated
QUESTION BANK SUBJECT: DIGITAL COMMUNICATION (15EC61)
QUESTION BANK SUBJECT: DIGITAL COMMUNICATION (15EC61) Module 1 1. Explain Digital communication system with a neat block diagram. 2. What are the differences between digital and analog communication systems?
ISHIK UNIVERSITY Faculty of Science Department of Information Technology Fall Course Name: Wireless Networks
ISHIK UNIVERSITY Faculty of Science Department of Information Technology 2017-2018 Fall Course Name: Wireless Networks Agenda Lecture 4 Multiple Access Techniques: FDMA, TDMA, SDMA and CDMA 1. Frequency
Department of Electronic and Information Engineering. Communication Laboratory
Department of Electronic and Information Engineering Communication Laboratory Frequency Shift Keying (FSK) & Differential Phase Shift Keying (DPSK) & Differential Quadrature Phase Shift Keying (DQPSK)
Data Communications and Networking (Module 2)
Data Communications and Networking (Module 2) Chapter 5 Signal Encoding Techniques References: Book Chapter 5 Data and Computer Communications, 8th edition, by William Stallings 1 Outline Overview Encoding
TSEK02: Radio Electronics Lecture 3: Modulation (II) Ted Johansson, EKS, ISY
TSEK02: Radio Electronics Lecture 3: Modulation (II) Ted Johansson, EKS, ISY An Overview of Modulation Techniques chapter 3.3.2 3.3.6 2 Constellation Diagram (3.3.2) Quadrature Modulation Higher Order
Year : TYEJ Sub: Digital Communication (17535) Assignment No. 1. Introduction of Digital Communication. Question Exam Marks
Assignment 1 Introduction of Digital Communication Sr. Question Exam Marks 1 Draw the block diagram of the basic digital communication system. State the function of each block in detail. W 2015 6 2 State
Chapter 7. Multiple Division Techniques
Chapter 7 Multiple Division Techniques 1 Outline Frequency Division Multiple Access (FDMA) Division Multiple Access (TDMA) Code Division Multiple Access (CDMA) Comparison of FDMA, TDMA, and CDMA Walsh
Hani Mehrpouyan 1, Outline
Hani Mehrpouyan 1, Department of Electrical and Computer Engineering, Lecture 20 (Error Probability) February 20 th, 2013 1 Some of the lectures notes here reproduced are taken from course textbooks: Digital
Performance Analysis Of Hybrid Optical OFDM System With High Order Dispersion Compensation
Performance Analysis Of Hybrid Optical OFDM System With High Order Dispersion Compensation Manpreet Singh Student, University College of Engineering, Punjabi University, Patiala, India. Abstract Orthogonal
COMPUTER COMMUNICATION AND NETWORKS ENCODING TECHNIQUES
COMPUTER COMMUNICATION AND NETWORKS ENCODING TECHNIQUES Encoding Coding is the process of embedding clocks into a given data stream and producing a signal that can be transmitted over a selected medium.
interpolation and smoothing filter options. New graph display OFDM FFT of subcarrier indexes.
What s New in 9.0 Created to address the needs of research scientists, optical telecom engineers, professors and students, OptiSystem satisfies the demand of users who are searching for a powerful yet
EXPERIMENT WISE VIVA QUESTIONS
EXPERIMENT WISE VIVA QUESTIONS Pulse Code Modulation: 1. Draw the block diagram of basic digital communication system. How it is different from analog communication system. 2. What are the advantages of
Phase Modulator for Higher Order Dispersion Compensation in Optical OFDM System
Phase Modulator for Higher Order Dispersion Compensation in Optical OFDM System Manpreet Singh 1, Karamjit Kaur 2 Student, University College of Engineering, Punjabi University, Patiala, India 1. Assistant
Lecture 10. Digital Modulation
Digital Modulation Lecture 10 On-Off keying (OOK), or amplitude shift keying (ASK) Phase shift keying (PSK), particularly binary PSK (BPSK) Frequency shift keying Typical spectra Modulation/demodulation
Digital Modulation Lecture 01. Review of Analogue Modulation Introduction to Digital Modulation Techniques Richard Harris
Digital Modulation Lecture 01 Review of Analogue Modulation Introduction to Digital Modulation Techniques Richard Harris Objectives You will be able to: Classify the various approaches to Analogue Modulation
Objectives. Presentation Outline. Digital Modulation Lecture 01
Digital Modulation Lecture 01 Review of Analogue Modulation Introduction to Digital Modulation Techniques Richard Harris Objectives You will be able to: Classify the various approaches to Analogue Modulation
Basic Concepts in Data Transmission
Basic Concepts in Data Transmission EE450: Introduction to Computer Networks Professor A. Zahid A.Zahid-EE450 1 Data and Signals Data is an entity that convey information Analog Continuous values within
Digital Communication
Digital Communication (ECE4058) Electronics and Communication Engineering Hanyang University Haewoon Nam Lecture 15 1 Quadrature Phase Shift Keying Constellation plot BPSK QPSK 01 11 Bit 0 Bit 1 00 M-ary
The secondary MZM used to modulate the quadrature phase carrier produces a phase shifted version:
QAM Receiver 1 OBJECTIVE Build a coherent receiver based on the 90 degree optical hybrid and further investigate the QAM format. 2 PRE-LAB In the Modulation Formats QAM Transmitters laboratory, a method
28. What is meant by repetition rate of the AM envelope? (ADC,AU-2010) 29. Describe the upper and lower sidebands. (ADC, AU-2010) 30.
Institute of Road and Transport Technology, Erode Department of Electronics and Communication Engineering Class/Sem: 2 nd Year Information Technology-3rd Semester Subject: Principles of Communication (IT)
Columbia University. Principles of Communication Systems ELEN E3701. Spring Semester May Final Examination
1 Columbia University Principles of Communication Systems ELEN E3701 Spring Semester- 2006 9 May 2006 Final Examination Length of Examination- 3 hours Answer All Questions Good Luck!!! I. Kalet 2 Problem
Revision of Previous Six Lectures
Revision of Previous Six Lectures Previous six lectures have concentrated on Modem, under ideal AWGN or flat fading channel condition multiplexing multiple access CODEC MODEM Wireless Channel Important
Revision of Previous Six Lectures
Revision of Previous Six Lectures Previous six lectures have concentrated on Modem, under ideal AWGN or flat fading channel condition Important issues discussed need to be revised, and they are summarised
Outline : Wireless Networks Lecture 6: Physical Layer Coding and Modulation 1. Basic Modulation Techniques. From Signals to Packets.
Outline 18-759 : Wireless Networks Leure 6: Physial Layer Coding and Modulation 1 Peter Steenkiste Departments of Computer Siene and Elerial and Computer Engineering Spring Semester 2016 http://www.s.mu.edu/~prs/wirelesss16/
Lecture (07) Digital Modulation Digital data transmission through analog signals
Lecture (07) Digital Modulation Digital data transmission through analog signals Dr. Ahmed ElShafee Agenda Aspects of Digital Modulation Amplitude Shift Keying Frequency Shift Keying Phase Shift Keying
UNIT I Source Coding Systems
SIDDHARTH GROUP OF INSTITUTIONS: PUTTUR Siddharth Nagar, Narayanavanam Road 517583 QUESTION BANK (DESCRIPTIVE) Subject with Code: DC (16EC421) Year & Sem: III-B. Tech & II-Sem Course & Branch: B. Tech
AN INTRODUCTION OF ANALOG AND DIGITAL MODULATION TECHNIQUES IN COMMUNICATION SYSTEM
AN INTRODUCTION OF ANALOG AND DIGITAL MODULATION TECHNIQUES IN COMMUNICATION SYSTEM Rashmi Pandey Vedica Institute of Technology, Bhopal Department of Electronics & Communication rashmipandey07@rediffmail.com
Principles of Communication Systems Part II Prof. Aditya K. Jagannatham Department of Electrical Engineering Indian Institute of Technology, Kanpur
Principles of Communication Systems Part II Prof. Aditya K. Jagannatham Department of Electrical Engineering Indian Institute of Technology, Kanpur Lecture 22 M-ary QAM (Quadrature Amplitude Modulation)
Modulation and Coding Tradeoffs
0 Modulation and Coding Tradeoffs Contents 1 1. Design Goals 2. Error Probability Plane 3. Nyquist Minimum Bandwidth 4. Shannon Hartley Capacity Theorem 5. Bandwidth Efficiency Plane 6. Modulation and
Digital Signal Analysis
Digital Signal Analysis Objectives - Provide a digital modulation overview - Review common digital radio impairments Digital Modulation Overview Signal Characteristics to Modify Polar Display / IQ Relationship
Satellite Communications: Part 4 Signal Distortions & Errors and their Relation to Communication Channel Specifications. Howard Hausman April 1, 2010
Satellite Communications: Part 4 Signal Distortions & Errors and their Relation to Communication Channel Specifications Howard Hausman April 1, 2010 Satellite Communications: Part 4 Signal Distortions
Modulations Analog Modulations Amplitude modulation (AM) Linear modulation Frequency modulation (FM) Phase modulation (PM) cos Angle modulation FM PM Digital Modulations ASK FSK PSK MSK MFSK QAM PAM Etc.
Digital communication
Chapter 4 Digital communication A digital is a discrete-time binary m : Integers Bin = {0, 1}. To transmit such a it must first be transformed into a analog. The is then transmitted as such or modulated
Real and Complex Modulation
Real and Complex Modulation TIPL 4708 Presented by Matt Guibord Prepared by Matt Guibord 1 What is modulation? Modulation is the act of changing a carrier signal s properties (amplitude, phase, frequency)
Wireless Communication
Wireless Communication Systems @CS.NCTU Lecture 2: Modulation and Demodulation Reference: Chap. 5 in Goldsmith s book Instructor: Kate Ching-Ju Lin ( 林靖茹 ) 1 Modulation From Wikipedia: The process of varying
21. Orthonormal Representation of Signals
1. Orthonormal Representation of Signals Introduction An analogue communication system is designed for the transmission of information in analogue form. he source information is in analogue form. In practice,
Digital Communication System
Digital Communication System Purpose: communicate information at certain rate between geographically separated locations reliably (quality) Important point: rate, quality spectral bandwidth requirement
AM, PM and FM mo m dula l ti t o i n
AM, PM and FM modulation What is amplitude modulation In order that a radio signal can carry audio or other information for broadcasting or for two way radio communication, it must be modulated or changed
Payload measurements with digital signals. Markus Lörner, Product Management Signal Generation Dr. Susanne Hirschmann, Signal Processing Development
Payload measurements with digital signals Markus Lörner, Product Management Signal Generation Dr. Susanne Hirschmann, Signal Processing Development Agenda ı Why test with modulated signals? ı Test environment
Chapter 7 Multiple Division Techniques for Traffic Channels
Introduction to Wireless & Mobile Systems Chapter 7 Multiple Division Techniques for Traffic Channels Outline Introduction Concepts and Models for Multiple Divisions Frequency Division Multiple Access
Digital Communication System
Digital Communication System Purpose: communicate information at required rate between geographically separated locations reliably (quality) Important point: rate, quality spectral bandwidth, power requirements
GOPALAN COLLEGE OF ENGINEERING AND MANAGEMENT Electronics and communication Department
Appendix - F GOPALAN COLLEGE OF ENGINEERING AND MANAGEMENT Electronics and Department Academic Year: 2016-17 Semester: EVEN 6. COURSE PLAN Semester: VI Subject Code: 10EC61 Name of Subject: Digital Communication