DOCSLIB.ORG

Use Style: Paper Title

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Use Style: Paper Title AICT 2018 : The Fourteenth Advanced International Conference on Telecommunications Proposal of Power Saving Techniques for Wireless Terminals Using CAZAC-OFDM Scheme Takanobu Onoda, Ryota Ishioka and Masahiro Muraguchi Department of Electrical Engineering, Tokyo University of Science 6-3-1 Niijuku, Katsushika-ku, Tokyo, 125-0051, Japan E-mail: [email protected], [email protected], [email protected] Abstract— A major drawback of Orthogonal Frequency spectral efficiency, and additional power consumption of Division Multiplexing (OFDM) signals is extremely high DSPs. Peak-to-Average Power Ratio (PAPR). Signals with high On the other approach to overcome the problem, some PAPR lead to a lowering of the energy efficiency of the circuit topology for high-efficiency OFDM power amplifier Power Amplifiers (PAs) and the shortened operation time design have been proposed [2]. Here, a polar modulation PA, causes a serious problem in battery-powered wireless or an envelope tracking PA, is the most promising one. In the terminals. In this paper, we propose a new power saving polar modulation, OFDM signal is separated into phase technique for wireless terminals. It is the combination of modulation (PM) component and amplitude modulation a polar modulation technique and Constant Amplitude (AM) one. The PM component is input to the PA as the Zero Auto-Correlation (CAZAC) equalizing technique. quadrature signal with constant amplitude. On the other, the Proposed the polar modulation technique for the PA AM component is used as envelope tracking data, which employs a current control by changing the common-gate supplies to the PA as drain DC biasing from adaptive output stage bias in a cascade amplifier circuit. The CAZAC power supply using a DC-DC converter. In general, the equalization scheme makes the PAPR of M-array efficiency of PAs operating in saturation region is higher than Quadrature Amplitude Modulation (M-QAM) OFDM one in linear region. Therefore, the polar modulation PA signals into the PAPR of M-QAM single-carrier signals. improves energy efficiency under full-time operation in the By using CAZAC-OFDM signal, proposed polar saturation region. modulation PA exhibits overall efficiency of 40% at Error In this paper, we propose a new power saving technique Vector Magnitude (EVM) of -32dB. Furthermore, a for wireless terminals. It is the coupling technique between breakthrough technique which transcends barrier of 50% envelope tracking operation of PAs and CAZAC (Constant efficiency has been proposed. A prototype of Single Ended Amplitude Zero Auto-Correlation) equalizing. Here, we had Push-Pull amplifier (SEPP AMP) exhibits power gain of reported an original polar modulation PA using a cascade 15dB over 100MHz to 1GHz, the maximum efficiency of circuit topology [3]. One can control output power by 65% without polar modulation scheme. changing common-gate stage biasing in accordance with signal envelope, which improves energy efficiency of PA by Keywords-OFDM; CAZAC; polar modulation; SEPP; full-time operation in saturation region. Since the polar modulation is a simple method of separating into amplitude I. INTRODUCTION information and phase information, it can cope with all Orthogonal Frequency Division Multiplex (OFDM) modulation schemes. We also reported that one CAZAC system for high speed and high capacity communications is sequence in cooperation with IFFT signal-process converted recently attracting attention in wireless applications, e.g., the PAPR of the M-QAM OFDM signal into the PAPR of an 3GPP LTE, Wi-Fi and WiMAX. It is well known that one of M-QAM single-carrier signal. Here, this fact was our original the most serious drawbacks of the OFDM system is its high discovery [4]. peak-to-average power ratio (PAPR), which decreases the In this paper, this coupling technology has novelty and energy efficiency of power amplifier (PA) and increases effectiveness in combining the features of CAZAC-OFDM transmitter power consumption. In mobile communications, which is constant amplitude and the characteristics of this PA high PAPR signal negatively affects device battery life. which is power saving, where a more power-saving system To overcome the above problem, many techniques are can be created. The coupling technique reduces the PAPR of proposed: Partial Transmit Sequence (PTS), Selected 5 dB at the 16QAM-OFDM signal while the system imposed Mapping (SLM), etc. [1]. PTS and SLM techniques choose no penalties on the BER performances. By using CAZAC- respectively the phase factor and candidate data block to OFDM signal, proposed polar modulation PA exhibits overall minimize the PAPR of transmission signal, which improves efficiency of 40% or more at error vector magnitude (EVM) PAPR performance. However, those techniques need side- of -32dB which satisfies the requirement of IEEE 802.11 ac information in the receiver side, i.e., phase factor and specification [5]. candidate number information, in order to demodulate the Moreover, a breakthrough technique, which transcends received signal correctly, which result in degradation of barrier of 50% efficiency has been proposed. As well-known, a Class-B amplifier allows operating at a power efficiency of Copyright (c) IARIA, 2018. ISBN: 978-1-61208-650-7 115 AICT 2018 : The Fourteenth Advanced International Conference on Telecommunications 2 78.5%, while a Class-A amplifier operates at a power max |푥푛| efficiency of 50%. The Class-B amplifiers, however, are 0≤푛≤푁−1 (3) 푃퐴푃푅 = 2 , strongly difficult to achieve high frequency and high linearity E[|푥푛| ] operations at the same time. where E[∙] is expectation operator. PAPR represents Our proposal of new circuit topology is certain kind of amplitude fluctuation of each symbol. In order to improve the single ended push-pull amplifier, or SEPP AMP, using a accuracy of PAPR, the OFDM signal 푥푘 is converted to 퐿- complementary MOSFET technology. The circuit topology is times oversampled time domain signal [1]. suitable for monolithic circuit configuration and easily As shown from (2), the OFDM signal is composed of a applied commercially available process of CMOS foundries. plurality of subcarrier signals, which causes an increase in A prototype of the SEPP AMP exhibits power gain of 15dB amplitude fluctuation. A high PAPR signal increases the Input over 100MHz to 1GHz and the maximum efficiency of 65% Back Off (IBO) at the power amplifier in order to amplify the with no use of polar modulation scheme. transmit signal without distortion. In general, increasing in Up to now we have shown that the polar modulation IBO causes decreasing the efficiency of PA. system is effective with various modulation schemes [3][4]. B. CAZAC equalizing technique On the other hand, the contribution of this paper is to demonstrate the achievement of unprecedented power CAZAC sequence is constant amplitude and provides a efficiency by combining CAZAC-OFDM which achieved the good cross-correlation property. Therefore, CAZAC same PAPR as the single carrier in the world and power- sequence is used in wireless communication systems such as saving polar modulation system. channel estimation and time synchronization. The Zadoff- This paper is organized as follows. SectionⅡ presents the Chu sequence 푐푘 which is one of the CAZAC sequences is represented as proposed the operating principle of the coupling technique 푗휋푘2/푁2 between envelope tracking operation of PAs and CAZAC. In 푐푘 = 푒 , (4) 2 SectionⅢ, a performance of proposed system is presented. In where 푘 = 0, 1, … , 푁 − 1 denotes the sequence index. In Section Ⅳ, the operating principle of further improvement of this paper, CAZAC 푁 × 푁 matrix 푴 is represented as OFDM-PAs with SEPP and simulation results are given. 푐0 푐1 ⋯ 푐푁−1 Finally, SectionⅤ concludes this paper. 푐푁 푐푁+1 … 푐2푁−1 푴 = [ ⋮ ⋮ ⋱ ⋮ ]. (5) II. PROPOSED SYSTEM 푐(푁−1)푁 푐(푁−1)푁+1 … 푐푁2−1 In the proposed system, CAZAC-OFDM and polar In CAZAC-OFDM system, multiply the signal with M modulation are used together to improve energy efficiency. before the IFFT of the transmitter. frequency domain symbol ′ ′ ′ 푇 Below, we explain CAZAC-OFDM and polar modulation 푿′ = [푋0, 푋1, … , 푋푁−1] is represented as and propose a system with improved efficiency. A 푿′ = 푴푿. (6) description of OFDM system in section A, CAZAC Therefore, the CAZAC-OFDM time signal x′ is equalizing technique in section B, and polar modulation represented as technique in section C are shown. 푁−1 푗2휋푘푛 A. OFDM system 푥′ = ∑ 푋′ 푒 푁 푛 푘 (7) In OFDM system, the frequency domain symbol 푿 = 푘=0 푇 = 푁 ∙ 푐 ∙ 푋( ) . [푋0, 푋1, … , 푋푁−1] is modulated by 푁 size inverse Fast (푁/2−푛)mod 푁 푁/2−푛 mod 푁 Fourier Transform (IFFT). The discrete-time OFDM signal Receiver side can demodulate the original frequency with 푁 subcarriers is represented as domain symbol with using conjugate 푴퐻 [4]. 푁−1 Figure 1 shows PAPR performance of OFDM, CAZAC- 푗2휋푘푛/푁 푥푛 = ∑ 푋푘푒 , (1) OFDM and single carriers with using complementary 푘=0 cumulative distribution function (CCDF). Each signal has 64 subcarriers and oversampling factor 퐿 = 4. As shown from where and is discrete time index. On the other 푗 = √−1 푛 Figure 1, CAZAC equalization improves PAPR performance hand, receiver acquires frequency domain symbol by 풀 about 2.5 dB of PAPR when CCDF value is 10−3. In addition, applying FFT to received signal 풚. the PAPR of CAZAC-OFDM and M-QAM signal is same 푁−1 performance, which results from (7). −푗2휋푘푛/푁 푌푘 = ∑ 푦푛푒 C. Polar modulation technique 푛=0 (2) 푁−1 In polar modulation system, AM and PM components are −푗2휋푘푛/푁 = ∑(푥푛 + 푁표푖푠푒)푒 . input separately into PA as power voltage and quadrature 푛=0 modulation signal respectively. General polar modulation The PAPR of the OFDM signal (1) can be expressed as system supplies AM component into PA by using dc-dc Copyright (c) IARIA, 2018.
Load more

Recommended publications
  • Design and Implementation of a Broadband RF-DAC Transmitter for Wireless Communications
    Design and Implementation of a Broadband RF-DAC Transmitter for Wireless Communications Von der Fakultät für Elektrotechnik und Informationstechnik der Rheinisch-Westfälischen Technischen Hochschule Aachen zur Erlangung des akademischen Grades eines Doktors der Ingenieurwissenschaften genehmigte Dissertation vorgelegt von Diplom-Ingenieur Niklas Zimmermann aus Münster Berichter: Universitätsprofessor Dr.-Ing. Stefan Heinen Universitätsprofessor Dr.-Ing. Gerd Ascheid Tag der mündlichen Prüfung: 1. Juli 2011 Diese Dissertation ist auf den Internetseiten der Hochschulbibliothek online verfügbar. Bibliografische Information der Deutschen Nationalbibliothek Die Deutsche Nationalbibliothek verzeichnet diese Publikation in der Deutschen Nationalbibliografie; detaillierte bibliografische Daten sind im Internet über http://dnb.d-nb.de abrufbar. ISBN 978-3-8439-0042-3 D 82 (Diss. RWTH Aachen University, 2011) © Verlag Dr. Hut, München 2011 Sternstr. 18, 80538 München Tel.: 089/66060798 www.dr.hut-verlag.de Die Informationen in diesem Buch wurden mit großer Sorgfalt erarbeitet. Dennoch können Fehler nicht vollständig ausgeschlossen werden. Verlag, Autoren und ggf. Übersetzer übernehmen keine juristische Verantwortung oder irgendeine Haftung für eventuell verbliebene fehlerhafte Angaben und deren Folgen. Alle Rechte, auch die des auszugsweisen Nachdrucks, der Vervielfältigung und Verbreitung in besonderen Verfahren wie fotomechanischer Nachdruck, Fotokopie, Mikrokopie, elektronische Datenaufzeichnung einschließlich Speicherung und Übertragung auf weitere Datenträger sowie Übersetzung in andere Sprachen, behält sich der Autor vor. 1. Auflage 2011 To the memory of my father, Gebhard Zimmermann Acknowledgment First of all, I want to thank Prof. Dr.-Ing. Stefan Heinen. This thesis would not have been possible without him, as he gave me the opportunity to work on this exciting topic and shared his rich experience in the field of RF and analog circuit and system design with me.
    [Show full text]
  • UNIVERSITY of CALIFORNIA, SAN DIEGO CMOS RF Power Amplifier Design Approaches for Wireless Communications a Dissertation Submitt
    UNIVERSITY OF CALIFORNIA, SAN DIEGO CMOS RF Power Amplifier Design Approaches for Wireless Communications A dissertation submitted in partial satisfaction of the requirements for the degree Doctor of Philosophy in Electrical Engineering (Electronic Circuits and Systems) by Sataporn Pornpromlikit Committee in charge: Professor Peter M. Asbeck, Chair Professor Prabhakar R. Bandaru Professor Andrew C. Kummel Professor Lawrence E. Larson Professor Paul K.L. Yu 2010 Copyright Sataporn Pornpromlikit, 2010 All rights reserved. The dissertation of Sataporn Pornpromlikit is approved, and it is acceptable in quality and form for publication on micro- film and electronically: Chair University of California, San Diego 2010 iii DEDICATION To my family. iv EPIGRAPH ”Education is what remains after one has forgotten what one has learned in school.” — Albert Einstein v TABLE OF CONTENTS Signature Page................................... iii Dedication...................................... iv Epigraph.......................................v Table of Contents.................................. vi List of Figures.................................... viii List of Tables.................................... xi Acknowledgements................................. xii Vita......................................... xiv Abstract of the Dissertation............................. xv Chapter 1 Introduction.............................1 1.1 CMOS Technology and Scaling...............2 1.2 Toward Fully-Integrated CMOS Transceivers........4 1.3 Power Amplifier Design...................5
    [Show full text]
  • Pulse-Width Modulated RF Transmitters
    Linköping Studies in Science and Technology Thesis No 1822 Pulse-Width Modulated RF Transmitters Muhammad Fahim Ul Haque Division of Computer Engineering Department of Electrical Engineering Linköping University SE–581 83 Linköping, Sweden Linköping 2017 Linköping Studies in Science and Technology Thesis No 1822 Muhammad Fahim Ul Haque [email protected] www.da.isy.liu.se Division of Computer Engineering Department of Electrical Engineering Linköping University SE–581 83 Linköping, Sweden Copyright © 2017 Muhammad Fahim Ul Haque, unless otherwise noted. All rights reserved. ISBN 978-91-7685-598-0 ISSN 0345-7524 IEEE holds the copyright for Papers B, E, and F. Printed by LiU-Tryck, Linköping, Sweden 2017 To my mother, father, and uncle (mamoo), Abstract The market for wireless portable devices has grown significantly over the recent years. Wireless devices with ever-increased functionality require high rate data transmission and reduced costs. High data rate is achieved through communi- cation standards such as LTE and WLAN, which generate signals with high peak-to-average-power ratio (PAPR), hence requiring a power amplifier (PA) that can handle a large dynamic range signal. To keep the costs low, modern CMOS processes allow the integration of the digital, analog and radio functions on to a single chip. However, the design of PAs with large dynamic range and high efficiency is challenging due to the low voltage headroom. To prolong the battery life, the PAs have to be power-efficient as they consume a sizable percentage of the total power. For LTE and WLAN, traditional transmitters operate the PA at back-off power, below their peak efficiency, whereas pulse-width modulation (PWM) transmitters use the PA at their peak power, resulting in a higher efficiency.
    [Show full text]
  • Pseudo-Polar Modulation for Radio Transmitters Pseudopolare Modulation Für Funksender Modulation Pseudopolaire Pour Emetteurs Radio
    (19) TZZ_66_ __T (11) EP 1 661 241 B1 (12) EUROPEAN PATENT SPECIFICATION (45) Date of publication and mention (51) Int Cl.: of the grant of the patent: H03C 5/00 (2006.01) 05.12.2012 Bulletin 2012/49 (86) International application number: (21) Application number: 04778052.3 PCT/US2004/022345 (22) Date of filing: 13.07.2004 (87) International publication number: WO 2005/020430 (03.03.2005 Gazette 2005/09) (54) PSEUDO-POLAR MODULATION FOR RADIO TRANSMITTERS PSEUDOPOLARE MODULATION FÜR FUNKSENDER MODULATION PSEUDOPOLAIRE POUR EMETTEURS RADIO (84) Designated Contracting States: (72) Inventor: DENT, Paul, W. AT BE BG CH CY CZ DE DK EE ES FI FR GB GR Pittsboro, NC 27312 (US) HU IE IT LI LU MC NL PL PT RO SE SI SK TR (74) Representative: Lundqvist, Alida Maria Therése et (30) Priority: 11.08.2003 US 639164 al BRANN AB (43) Date of publication of application: P.O. Box 12246 31.05.2006 Bulletin 2006/22 102 26 Stockholm (SE) (60) Divisional application: (56) References cited: 10179396.6 / 2 278 703 EP-A- 1 035 701 GB-A- 2 363 535 US-A- 5 420 536 US-B1- 6 194 963 (73) Proprietor: Telefonaktiebolaget L M Ericsson (Publ) 12625 Stockholm (SE) Note: Within nine months of the publication of the mention of the grant of the European patent in the European Patent Bulletin, any person may give notice to the European Patent Office of opposition to that patent, in accordance with the Implementing Regulations. Notice of opposition shall not be deemed to have been filed until the opposition fee has been paid.
    [Show full text]
  • Digital Polar Transmitter for Multi-Band OFDM Ultra-Wideband
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by ScholarBank@NUS DIGITAL POLAR TRANSMITTER FOR MULTI-BAND OFDM ULTRA-WIDEBAND LOKE WING FAI A THESIS SUBMITTED FOR THE DEGREE OF MASTER OF ENGINEERING DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING NATIONAL UNIVERSITY OF SINGAPORE 2008 ABSTRACT Multi-Band Orthogonal Frequency Division Modulation (MB-OFDM) Ultra- Wideband (UWB) suffers from a large peak-to-average ratio (PAR). Systems with large PAR require the linear power amplifier (PA) to back off from its maximum output power to ensure that the peak of the power is within the linear range of operation, hence, resulting in poor efficiency. Although the problem of low power efficiency and high PAR may be solved by polar modulation, the performance of polar transmitter is often degraded by non-ideal implementations. This thesis studies the requirements for the envelope and phase signals in polar transmitter for UWB at system level. Results show that the bandwidth of the phase in the polar transmitter needs to be several times the bandwidth of in-phase (I) and quadrature phase (Q) in order to pass the Error Vector Magnitude (EVM) requirement in ECMA standard. On the other hand, the bandwidth of the amplitude does not need to have a bandwidth as large as the bandwidth of the phase – it needs to be only slightly larger than the bandwidth of I/Q. To take advantage of the advancement of deep-submicron semiconductor technology which favors more digital circuitries, a new digital polar transmitter (DPT) for MB- OFDM UWB is proposed.
    [Show full text]
  • A 2.4 Ghz Phase Modulator for a Wlan Ofdm Polar Transmitter in 0.18 Um Cmos
    A 2.4 GHZ PHASE MODULATOR FOR A WLAN OFDM POLAR TRANSMITTER IN 0.18 UM CMOS A Dissertation by SHOKOUFEH ARBABI Submitted to the Office of Graduate and Professional Studies of Texas A&M University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE Chair of Committee, Kamran Entesari Committee Members, Sunil Khatri Samuel Palermo Ben Zoghi Head of Department, Chanan Singh December 2014 Major Subject: Electrical Engineering Copyright 2014 Shokoufeh Arbabi ABSTRACT This research focuses on the design and implementation of a digital active phase modulator path of a polar transmitter in the case of orthogonal frequency division multiplex WLAN application. The phase modulation path of the polar transmit- ter provides a constant envelope phase modulated signal to the Power amplifier (PA) , operating in nonlinear high efficient switching mode. The core design of the phase modulator is based on linear vector-sum phase shifting topology to differential quadrature input signals. The active phase shifter consists of a DAC that generates binary weighted currents for I and Q branches and differential signed adder that vector-sums the generated quadrature currents to generate the phase at the output.6 bits control the phase shifter, creating 64 states with the resolution of 5:625 ◦ for the whole 360 ◦. The linear (binary weighted) vector-sum technique generates a reduc- tion in the resultant amplitude that should be taken into consideration in case of nonlinear PA in polar transmission. On the other hand, the digital phase informa- tion is applied as the control bits to the phase shifter that determine the weightings and the signs of the I and Q vectors.
    [Show full text]
  • Class E Amplifiers and Their Modulation Behaviour
    Class E Amplifiers and their Modulation Behaviour David Paul Kimber A thesis submitted to The University of Birmingham for the degree of DOCTOR OF PHILOSOPHY Electronic, Electrical and Computer Engineering School of Engineering The University of Birmingham December 2005 University of Birmingham Research Archive e-theses repository This unpublished thesis/dissertation is copyright of the author and/or third parties. The intellectual property rights of the author or third parties in respect of this work are as defined by The Copyright Designs and Patents Act 1988 or as modified by any successor legislation. Any use made of information contained in this thesis/dissertation must be in accordance with that legislation and must be properly acknowledged. Further distribution or reproduction in any format is prohibited without the permission of the copyright holder. ABSTRACT The Class E power amplifier has very high drain efficiency under quasi-static conditions, and is a good candidate for Envelope Elimination and Restoration (EER) or other polar techniques. Unfortunately it has an unusual carrier frequency response, for which no analytic expression was known; this may have limited commercial use of the circuit. Two new steady state analyses are presented, which give the carrier frequency response in simple form, together with expressions for component values. Good agreement with measured data and existing numerical solutions is seen. Previous attempts at characterising the amplitude modulation (AM) behaviour of this circuit have assumed that it can be modelled as a first order low pass filter. It is shown that Class E AM can be modelled as an equivalent circuit, which behaves as a second order low pass filter.
    [Show full text]
  • Energy Efficient Wireless Transmitters: Polar and Direct-Digital Modulation Architectures
    Energy Efficient Wireless Transmitters: Polar and Direct-Digital Modulation Architectures Jason Thaine Stauth Seth R. Sanders Electrical Engineering and Computer Sciences University of California at Berkeley Technical Report No. UCB/EECS-2009-22 http://www.eecs.berkeley.edu/Pubs/TechRpts/2009/EECS-2009-22.html February 4, 2009 Copyright 2009, by the author(s). All rights reserved. Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. To copy otherwise, to republish, to post on servers or to redistribute to lists, requires prior specific permission. Energy Efficient Wireless Transmitters: Polar and Direct-Digital Modulation Architectures by Jason Thaine Stauth B.A. (Colby College) 1999 B.E. (Dartmouth College) 2000 M.S. (University of California, Berkeley) 2006 A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Engineering – Electrical Engineering and Computer Sciences in the GRADUATE DIVISION of the UNIVERSITY OF CALIFORNIA, BERKELEY Committee in Charge Professor Seth R. Sanders, Chair Professor Ali M. Niknejad Professor Paul K. Wright Fall 2008 The dissertation of Jason Thaine Stauth is approved: Chair Date Date Date University of California, Berkeley Fall 2008 JV`$7``1H1VJ 1`VCV`:JI1 V`7QC:`:JR1`VH R1$1 :CQR%C: 1QJ `H.1 VH %`V Q]7`1$. 7 :QJ.:1JV :% . 1 G `:H JV`$7``1H1VJ 1`VCV`:JI1 V`7QC:`:JR 1`VH R 1$1 :C"QR%C: 1QJ #`H.1 VH %`V 7 :QJ.:1JV :% .
    [Show full text]
  • A Fully-Integrated All-Digital Outphasing Transmitter for Wireless
    A Fully-Integrated All-Digital Outphasing Transmitter for Wireless Communications A Dissertation Presented to The Academic Faculty by Kwan-Woo Kim In Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy in the School of Electrical and Computer Engineering Georgia Institute of Technology December 2009 Copyright 2009 by Kwan-Woo Kim A Fully-Integrated All-Digital Outphasing Transmitter for Wireless Communications Approved by: Dr. Joy Laskar, Advisor Dr. Emmanouil M. Tentzeris School of Electrical and Computer School of Electrical & Computer Engineering Engineering Georgia Institute of Technology Georgia Institute of Technology Dr. Chang-Ho Lee Dr. David E. Schimmel School of Electrical & Computer School of Electrical & Computer Engineering Engineering Georgia Institute of Technology Georgia Institute of Technology Dr. Ravi V. Bellamkonda Department of Biomedical Engineering Date Approved: Nov. 06, 2009 Georgia Institute of Technology ACKNOWLEDGEMENTS First, I would like to appreciate the enthusiastic supervision of my research advisor, Professor Joy Laskar. He has always supported my research with great motivation and provided an excellent research environment. Without his guidance and support, this research would not be completed. I am also grateful to my committee members, Professor Emmanouil M. Tentzeris, Professor Chang-Ho Lee, Professor David E. Schimmel, and Professor Ravi V. Bellamkonda for their time in reviewing my thesis. I would like to specially thank Dr. Kyutae Lim for his helpful guidance, deep discussion through the research work. I also would like to thank Dr. Chang-Ho Lee again for his generous support for my research. I am greatly indebted my colleague members in Microwave Application Group (MAG) for making good environment as a team supporting each other.
    [Show full text]
  • AD9914 (Rev. E)
    3.5 GSPS Direct Digital Synthesizer with 12-Bit DAC Data Sheet AD9914 FEATURES FUNCTIONAL BLOCK DIAGRAM 3.5 GSPS internal clock speed AD9914 HIGH SPEED PARALLEL Integrated 12-bit DAC MODULATION Frequency tuning resolution to 190 pHz PORT 16-bit phase tuning resolution 12-bit amplitude scaling Programmable modulus Automatic linear and nonlinear frequency sweeping LINEAR SWEEP 3.5GSPS DDS CORE 12-BIT DAC capability BLOCK 32-bit parallel datapath interface 8 frequency/phase offset profiles Phase noise: −128 dBc/Hz (1 kHz offset at 1396 MHz) Wideband SFDR < −50 dBc Serial or parallel input/output control REF CLK 1.8 V/3.3 V power supplies MULTIPLIER TIMING AND CONTROL Software and hardware controlled power-down 88-lead LFCSP package PLL REF CLK multiplier SERIAL OR PARALLEL Phase modulation capability DATA PORT Amplitude modulation capability 10836-001 APPLICATIONS Figure 1. Agile LO frequency synthesis Programmable clock generator FM chirp source for radar and scanning systems Test and measurement equipment Acousto-optic device drivers Polar modulator Fast frequency hopping Rev. E Document Feedback Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Tel: 781.329.4700 ©2012–2016 Analog Devices, Inc.
    [Show full text]
  • (12) United States Patent (10) Patent No.: US 7,826,554 B2 Haque Et Al
    US007826554B2 (12) United States Patent (10) Patent No.: US 7,826,554 B2 Haque et al. (45) Date of Patent: Nov. 2, 2010 (54) DIGITAL TRANSMITTER 6,560,296 B1 5/2003 Glaset al. 6,587,010 B2 * 7/2003 Wagh et al. ................. 332,105 (75) Inventors: Tanbir Haque, Jackson Heights, NY 6,801,784 B1 10, 2004 Rozenblit et al. ... 455,522 (US); Leonid Kazakevich, Plainview, 7,092,269 B1* 8/2006 Westberg .................... 363 132 NY (US) 7,158,494 B2 1/2007 Sander et al. 2004/0081252 A1 4/2004 Hsu 2004/0203472 A1* 10, 2004 Chien .......................... 455.68 (73) Assignee: estigital Technology Corporation, 2005/0123029 A1* 6/2005 Vorenkamp et al. ......... 375.222 Wilmington, DE (US) 2005/0135282 A1* 6/2005 Miyoshi et al. ............. 370,278 (*) Notice: Subject to any disclaimer, the term of this 2007/0030.19657. A1A 6'572/2007 Jenkins"... et al. ........... 3427357.1 455,522 patent is extended or adjusted under 35 2009/0034660 A1* 2/2009 May et al. ................... 375/340 U.S.C. 154(b) by 665 days. 2009/0275290 A1* 11/2009 Hosokawa ............... 455/67.13 (21) Appl. No.: 11/685,003 * cited by examiner 1-1. Primary Examiner David C Payne (22) Filed: Mar 12, 2007 Assistant Examiner—Leon-Viet Q Nguyen (65) Prior Publication Data (74) Attorney, Agent, or Firm Volpe and Koenig PC US 2007/0211821 A1 Sep. 13, 2007 (57) ABSTRACT Related U.S. Application Data In a digital Cartesian modulation transmitter, an encodergen erates 1-bit logic signals from in-phase and quadrature sig (60) Provisional application No.
    [Show full text]
  • Design and Analysis of Digitally Modulated Transmitters for Efficiency Enhancement
    Design and Analysis of Digitally Modulated Transmitters for Efficiency Enhancement Lu Ye Electrical Engineering and Computer Sciences University of California at Berkeley Technical Report No. UCB/EECS-2013-99 http://www.eecs.berkeley.edu/Pubs/TechRpts/2013/EECS-2013-99.html May 17, 2013 Copyright © 2013, by the author(s). All rights reserved. Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. To copy otherwise, to republish, to post on servers or to redistribute to lists, requires prior specific permission. Design and Analysis of Digitally Modulated Transmitters for Efficiency Enhancement by Lu Ye A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Engineering - Electrical Engineering and Computer Science in the Graduate Division of the University of California, Berkeley Committee in charge: Professor Ali M. Niknejad, Chair Professor Elad Alon Professor Paul Wright Spring 2013 The dissertation of Lu Ye, titled Design and Analysis of Digitally Modulated Transmitters for Efficiency Enhancement, is approved: Chair Date Date Date University of California, Berkeley Design and Analysis of Digitally Modulated Transmitters for Efficiency Enhancement Copyright 2013 by Lu Ye 1 Abstract Design and Analysis of Digitally Modulated Transmitters for Efficiency Enhancement by Lu Ye Doctor of Philosophy in Engineering - Electrical Engineering and Computer Science University of California, Berkeley Professor Ali M. Niknejad, Chair The last decade has witnessed a tremendous growth in wireless communications.
    [Show full text]