03961nam 2200697 450 991082090700332120240219160146.01-118-87479-X1-118-87481-11-118-87480-310.1002/9781118874813(CKB)3710000000248748(EBL)1800878(SSID)ssj0001348511(PQKBManifestationID)12437646(PQKBTitleCode)TC0001348511(PQKBWorkID)11396397(PQKB)10749021(PQKBManifestationID)16114550(PQKB)24001115(CaBNVSL)mat08039752(IDAMS)0b00006485f0da3a(IEEE)8039752(DLC) 2014021999(Au-PeEL)EBL1800878(CaPaEBR)ebr10944997(CaONFJC)MIL651296(OCoLC)892243827(CaSebORM)9781118874820(MiAaPQ)EBC1800878(PPN)189825677(EXLCZ)99371000000024874820171024d2008 uy engur|n|---|||||txtccrWireless transceiver architecture bridging RF and digital communications /Pierre Baudin1st editionChichester, West Sussex, United Kingdom :Wiley,2015.[Piscataqay, New Jersey] :IEEE Xplore,[2014]1 online resource (754 p.)Description based upon print version of record.1-322-20016-5 1-118-87482-X Includes bibliographical references (pages 719-722) and index.Machine generated contents note: Foreword ix Glossary xiv I Somewhere between Maxwell and Shannon 1 Chapter 1 -- The digital communications point of view 3 1.1 Bandpass signal representation 4 1.2 Bandpass noise representation 36 1.3 Digital modulations examples 48 1.4 First transceivers architecture 73 Chapter 2 -- The Electromagnetism point of view 79 2.1 Free space radiation 79 2.2 Conducted propagation 107 2.3 The propagation channel 126 Chapter 3 -- The wireless standards point of view 161 3.1 Medium access strategies 161 3.2 Metrics for transmitters 169 3.3 Metrics for receivers 187 II Implementation limitations 205 Chapter 4 -- Noise 207 4.1 Analogue electronic noises 208 4.2 Noisy devices characterization 211 4.3 LO phase noise 259 4.4 Linear EVM 294 4.5 Quantization noise 298 4.6 Analogue vs. digital worlds conversions 322 Chapter 5 -- Nonlinearity 345 5.1 Smooth AM-AM conversion 346 5.2 Hard AM-AM conversion 440 5.3 AM-PM conversion, memory effect 449 5.4 Baseband devices 464 Chapter 6 -- RF Impairments 467 6.1 Frequency conversion 468 6.2 Gain and phase imbalance 489 6.3 Mixers implementation 508 6.4 Frequency planning 540 6.5 DC offset, LO leakage 548 III Transceivers dimensioning 553 Chapter 7 -- Transceivers budgets 555 7.1 Considered transceiver architecture 556 7.2 Budgeting a transmitter 557 7.3 Budgeting a receiver 599 Chapter 8 -- Transceivers architectures 661 8.1 Transmitters 661 8.2 Receivers 717 Chapter 9 -- Algorithms for transceivers 735 9.1 Transmit side 735 9.2 Receive side 774 Appendix 1 -- Correlations 799 Appendix 2 -- Stationarity 809 Appendix 3 -- Moments of normal random vectors 815 Bibliography 821 Index 829 ."Presents transceiver system design and architecture in terms of budgeting a transceiver, transceivers architectures, and algorithms for transceivers"--Provided by publisher.RadioTransmitter-receiversRadioTransmitter-receivers.621.384TEC061000bisacshBaudin Pierre(Electrical engineer)83695CaBNVSLCaBNVSLCaBNVSLBOOK9910820907003321Wireless transceiver architecture4021573UNINA04584nam 22007335 450 991091981480332120250605090820.09783031676710303167671810.1007/978-3-031-67671-0(CKB)37115979900041(MiAaPQ)EBC31867741(Au-PeEL)EBL31867741(DE-He213)978-3-031-67671-0(OCoLC)1482818106(EXLCZ)993711597990004120241231d2024 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierModern Physics An Invitation to Statistical and Quantum Mechanics /by Luca Salasnich, Francesco Lorenzi2nd ed. 2024.Cham :Springer Nature Switzerland :Imprint: Springer,2024.1 online resource (261 pages)UNITEXT for Physics,2198-78909783031676703 303167670X Classical Statistical Mechanics -- Special and General Relativity -- Quantum Properties of Light -- Quantum Properties of Matter -- Wavefunction of a Quantum Particle -- Axiomatization of Quantum Mechanics -- Solvable Problems in Quantum Mechanics -- Modern Quantum Physics of Atoms -- Quantum Mechanics of Many-Body Systems -- Quantum Statistical Mechanics.-Quantum Information.-Path Integral Formulation.This textbook offers an introduction to statistical mechanics, special relativity, and quantum physics, developed from lecture notes for the "Quantum Physics" course at the University of Padua. Beginning with a brief review of classical statistical mechanics in the first chapter, the book explores special and general relativity in the second chapter. The third chapter delves into the historical analysis of light quantization, while the fourth chapter discusses Niels Bohr's quantization of energy levels and electromagnetic transitions. The Schrödinger equation is investigated in the fifth chapter. Chapter Six covers applications of quantum mechanics, including the quantum particle in a box, quantum particle in harmonic potential, quantum tunneling, stationary perturbation theory, and time-dependent perturbation theory. Chapter Seven outlines the basic axioms of quantum mechanics. Chapter Eight focuses on quantum atomic physics, emphasizing electron spin and utilizing the Dirac equation for theoretical justification. The ninth chapter explains quantum mechanics principles for identical particles at zero temperature, while Chapter Ten extends the discussion to quantum particles at finite temperature. Chapter Eleven provides insights into quantum information and entanglement, and the twelfth chapter explains the path integral approach to quantum mechanics. The Authors Luca Salasnich was awarded an M.Sc. in Physics by the University of Padua in 1991, and his Ph.D. in Theoretical Physics by the University of Florence in 1995. He is a full professor of Theoretical Physics at the University of Padua. His fields of research are condensed matter and statistical physics. Francesco Lorenzi was awarded a B.Sc. in Information Engineering by the University of Padua in 2020, and an M.Sc. in ICT and Photonics Engineering by the same University in 2022. He is now a Ph.D. fellow in Physics at the University of Padua, Italy. His fields of research are nonlinear optical fibers, ultracold atoms, and scattering theory. .UNITEXT for Physics,2198-7890Quantum theoryStatistical physicsGravitationAtomsMoleculesQuantum statisticsQuantum PhysicsStatistical PhysicsGravitational PhysicsAtomic, Molecular and Chemical PhysicsQuantum Gases and CondensatesQuantum theory.Statistical physics.Gravitation.Atoms.Molecules.Quantum statistics.Quantum Physics.Statistical Physics.Gravitational Physics.Atomic, Molecular and Chemical Physics.Quantum Gases and Condensates.530.12Salasnich Luca602994Lorenzi Francesco1781598MiAaPQMiAaPQMiAaPQBOOK9910919814803321Modern Physics4306442UNINA