Presentation is loading. Please wait.

Presentation is loading. Please wait.

EE345S Real-Time Digital Signal Processing Lab Fall 2006 Lecture 16 Quadrature Amplitude Modulation (QAM) Receiver Prof. Brian L. Evans Dept. of Electrical.

Published byCecily Whitehead Modified over 8 years ago

Similar presentations

Presentation on theme: "EE345S Real-Time Digital Signal Processing Lab Fall 2006 Lecture 16 Quadrature Amplitude Modulation (QAM) Receiver Prof. Brian L. Evans Dept. of Electrical."— Presentation transcript:

1 EE345S Real-Time Digital Signal Processing Lab Fall 2006 Lecture 16 Quadrature Amplitude Modulation (QAM) Receiver Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin

2 16 - 2 Introduction Channel has linear distortion, additive noise, and nonlinear distortion Adaptive digital FIR filter used to equalize linear distortion (magnitude/phase distortion in channel) Channel equalizer coefficients adapted during modem startup At startup, transmitter sends known PN training sequence Receiver Filter A/D Symbol Clock Recovery LPF Carrier DetectAGC X X 90 o r 0 (t ) r 1 (t ) r(t)r(nT) I(nT) Q(nT)

3 16 - 3 QAM Receiver Automatic gain control –Scales analog input voltage to appropriate level for A/D –Increase gain when received signal level is low Carrier detection –Determines whether or not a QAM signal is present Symbol clock recovery –Track clock frequency In-phase/quadrature (I/Q) demodulation –Recover baseband in-phase/quadrature signal

4 16 - 4 Carrier Detection If receiver is not currently receiving a signal, then it listens for known training sequence Detect energy of received signal –c is a constant where 0 < c < 1 –r[n] is received signal Check if received energy is larger than threshold If receiver is currently receiving signal, then it detects when transmission has stopped –Detect energy of received signal –Check whether it is smaller than a smaller threshold Transfer function?

5 16 - 5 Symbol Clock Recovery Two single-pole bandpass filters in parallel –One tuned to upper Nyquist frequency  u =  c + 0.5  sym –Other tuned to lower Nyquist frequency  l =  c – 0.5  sym –Bandwidth is B/2 (100 Hz for 2400 baud modem) A recovery method –Multiply upper bandpass filter output with conjugate of lower bandpass filter output and take the imaginary value –Sample at symbol rate to estimate timing error  –Smooth timing error estimate to compute phase advancement when Lowpass IIR filter Pole locations? See Reader handout M

6 16 - 6 In-Phase/Quadrature Demodulation QAM transmit signal QAM demodulation by modulation then filtering –Construct in-phase i(t) and quadrature q(t) signals –Lowpass filter them to obtain baseband signals a(t) and b(t) baseband high frequency component centered at 2  c baseband high frequency component centered at 2  c

Download ppt "EE345S Real-Time Digital Signal Processing Lab Fall 2006 Lecture 16 Quadrature Amplitude Modulation (QAM) Receiver Prof. Brian L. Evans Dept. of Electrical."

Similar presentations

1 Helsinki University of Technology,Communications Laboratory, Timo O. Korhonen Data Communication, Lecture6 Digital Baseband Transmission.

1 Helsinki University of Technology,Communications Laboratory, Timo O. Korhonen Data Communication, Lecture6 Digital Baseband Transmission.
1. INTRODUCTION In order to transmit digital information over * bandpass channels, we have to transfer the information to a carrier wave of.appropriate.

1. INTRODUCTION In order to transmit digital information over * bandpass channels, we have to transfer the information to a carrier wave of.appropriate.
EE445S Real-Time Digital Signal Processing Lab Spring 2014 Lecture 15 Quadrature Amplitude Modulation (QAM) Transmitter Prof. Brian L. Evans Dept. of Electrical.

EE445S Real-Time Digital Signal Processing Lab Spring 2014 Lecture 15 Quadrature Amplitude Modulation (QAM) Transmitter Prof. Brian L. Evans Dept. of Electrical.
Physical Layer – Part 2 Data Encoding Techniques

Physical Layer – Part 2 Data Encoding Techniques
EE302 Lesson 21: Transmission of Binary Data in Communication Systems

EE302 Lesson 21: Transmission of Binary Data in Communication Systems
2-14-2002 Constellations Demystified Presented by Sunrise Telecom Broadband … a step ahead.

Constellations Demystified Presented by Sunrise Telecom Broadband … a step ahead.
Lecture 7 AM and FM Signal Demodulation

Lecture 7 AM and FM Signal Demodulation
Integrated Circuits Design for Applications in Communications Dr. Charles Surya Department of Electronic and Information Engineering DE636  6220

Integrated Circuits Design for Applications in Communications Dr. Charles Surya Department of Electronic and Information Engineering DE636  6220
School of Electrical, Electronics and Computer Engineering University of Newcastle-upon-Tyne Baseband Digital Modulation Baseband Digital Modulation Prof.

School of Electrical, Electronics and Computer Engineering University of Newcastle-upon-Tyne Baseband Digital Modulation Baseband Digital Modulation Prof.
דר אורי מחלב Digital communication- student version Dr. Uri Mahlab.

ד"ר אורי מחלב Digital communication- student version Dr. Uri Mahlab.
IT-101 Section 001 Lecture #15 Introduction to Information Technology.

IT-101 Section 001 Lecture #15 Introduction to Information Technology.
Electronics Involves the use of devices and circuits to control the flow of electric current to achieve some purpose. These circuits contain: Resistors,

Electronics Involves the use of devices and circuits to control the flow of electric current to achieve some purpose. These circuits contain: Resistors,
Anthony Gaught Advisors: Dr. In Soo Ahn and Dr. Yufeng Lu Department of Electrical and Computer Engineering Bradley University, Peoria, Illinois May 7,

Anthony Gaught Advisors: Dr. In Soo Ahn and Dr. Yufeng Lu Department of Electrical and Computer Engineering Bradley University, Peoria, Illinois May 7,
Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin EE345S Real-Time Digital Signal Processing Lab Spring.

Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin EE345S Real-Time Digital Signal Processing Lab Spring.
Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin EE345S Real-Time Digital Signal Processing Lab Fall.

Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin EE345S Real-Time Digital Signal Processing Lab Fall.
Digital Communication I: Modulation and Coding Course

Digital Communication I: Modulation and Coding Course
Review for Midterm #2 Wireless Networking and Communications Group 14 September 2015 Prof. Brian L. Evans EE 445S Real-Time Digital Signal Processing Laboratory.

Review for Midterm #2 Wireless Networking and Communications Group 14 September 2015 Prof. Brian L. Evans EE 445S Real-Time Digital Signal Processing Laboratory.
Chapter 2. Signals Husheng Li The University of Tennessee.

Chapter 2. Signals Husheng Li The University of Tennessee.
Digital Pulse Amplitude Modulation (PAM)

Digital Pulse Amplitude Modulation (PAM)
Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin EE445S Real-Time Digital Signal Processing Lab Fall.

Prof. Brian L. Evans Dept. of Electrical and Computer Engineering The University of Texas at Austin EE445S Real-Time Digital Signal Processing Lab Fall.

Similar presentations

Ads by Google