07190nam 2200601 450 991082696370332120240219154448.01-118-97573-11-118-97574-X10.1002/9781118975732(CKB)3710000000960607(DLC) 2016035371(CaBNVSL)mat07794180(IDAMS)0b000064859d9398(IEEE)7794180(Au-PeEL)EBL4748400(CaPaEBR)ebr11302910(CaONFJC)MIL972915(PPN)257966412(MiAaPQ)EBC4748400(OCoLC)954720032(EXLCZ)99371000000096060720170118d2017 uy engurcnu||||||||rdacontentrdamediardacarrierSynthesized transmission lines design, circuit implementation, and phased array applications /Tzyh-Ghuang Ma, Chao-Wei Wang, Chi-Hui Lai, Ying-Cheng TsengSingapore ;Hoboken, NJ :John Wiley & Sons,2017.[Piscataqay, New Jersey] :IEEE Xplore,[2017]1 online resource (217 pages)1-118-97572-3 Includes bibliographical references at the end of each chapters and index.-- Preface xi -- 1 Introduction to Synthesized Transmission Lines 1 /C. W. Wang and T. G. Ma -- 1.1 Introduction 1 -- 1.2 Propagation Characteristics of a TEM Transmission Line 2 -- 1.2.1 Wave Equations 2 -- 1.2.2 Keys to Miniaturization 5 -- 1.3 Analysis of Synthesized Transmission Lines 7 -- 1.3.1 Bloch Theorem and Characterization of a Periodic Synthesized Transmission Line 7 -- 1.3.2 Characterization of a Non?-Periodic Synthesized Transmission Line 9 -- 1.3.3 Extraction of Line Parameters from S?-Parameters 10 -- 1.4 Lumped and Quasi?-Lumped Approaches 11 -- 1.4.1 Lumped Networks 11 -- 1.4.2 Shunt?-Stub Loaded Lines 14 -- 1.5 One?-Dimensional Periodic Structures 16 -- 1.5.1 Complementary?-Conducting?-Strip Lines 19 -- 1.6 Photonic Bandgap Structures 20 -- 1.7 Left?-Handed Structures 21 -- References 24 -- 2 Non?-Periodic Synthesized Transmission Lines for Circuit Miniaturization 26 /C. W. Wang and T. G. Ma -- 2.1 Introduction 26 -- 2.2 Non?-Periodic Synthesized Microstrip Lines and Their Applications 27 -- 2.2.1 Design Details and Propagation Characteristics 27 -- 2.2.2 90À and 180À Hybrid Couplers 30 -- 2.2.3 Application to Butler Matrix as Array Feeding Network 32 -- 2.3 Non?-Periodic Synthesized Coplanar Waveguides and Their Applications 34 -- 2.3.1 Synthesis and Design 34 -- 2.3.2 180À Hybrid Using Synthesized CPWs 37 -- 2.3.3 Dual?-Mode Ring Bandpass Filters 38 -- 2.4 Non?-Periodic Quasi?-Lumped Synthesized Coupled Lines 42 -- 2.4.1 Basics of Coupled Transmission Lines 42 -- 2.4.2 Miniaturization of Coupled Lines and the Directional Couplers 44 -- 2.4.3 Marchand Baluns Using Synthesized Coupled Lines 49 -- 2.4.4 Lumped Directional Coupler and the Phase Shifter 53 -- 2.5 Non?-Periodic Synthesized Lines Using Vertical Inductors 55 -- References 60 -- 3 Dual/Tri?-Operational Mode Synthesized Transmission Lines: Design and Analysis 62 /C. H. Lai and T. G. Ma -- 3.1 Introduction 62 -- 3.2 Equivalent Circuit Models and Analysis 63 -- 3.2.1 Ladder?-Type Approximation in the Passband 63.3.2.2 Half?-Circuit Model at Resonance 64 -- 3.3 Dual?-Operational Mode Synthesized Transmission Lines 65 -- 3.3.1 Design Concept 65 -- 3.3.2 Dual?-Mode Synthesized Line Using a Series Resonator 66 -- 3.3.3 Dual?-Mode Synthesized Line Using Open-Circuited Stubs 70 -- 3.3.4 Dual?-Mode Synthesized Line Using Parallel Resonators 72 -- 3.4 Tri?-Operational Mode Synthesized Lines Using Series Resonators 74 -- 3.4.1 Design Concept 74 -- 3.4.2 Tri?-Mode Synthesized Line as Category?-1 Design 75 -- 3.4.3 Tri?-Mode Synthesized Line as Category?-2 Design 79 -- 3.4.4 Tri?-Mode Synthesized Line as Category?-3 Design 83 -- 3.5 Multi?-Operational Mode Synthesized Lines as Diplexer and Triplexer 87 -- 3.5.1 Diplexer 87 -- 3.5.2 Triplexer 89 -- References 94 -- 4 Applications to Heterogeneous Integrated Phased Arrays 95 /C. H. Lai and T. G. Ma -- 4.1 Introduction 95 -- 4.2 Dual?-Mode Retrodirective Array 96 -- 4.2.1 Design Goal 96 -- 4.2.2 System Architecture 97 -- 4.2.3 Circuit Realization 98 -- 4.2.4 Bistatic Radiation Patterns 102 -- 4.2.5 Alternative Architecture 103 -- 4.3 Dual?-Mode Integrated Beam?-Switching/Retrodirective Array 106 -- 4.3.1 Design Goal 106 -- 4.3.2 System Architecture 106 -- 4.3.3 Circuit Realization 109 -- 4.3.4 Radiation Characteristics 111 -- 4.3.5 Complementary Design 111 -- 4.4 Tri?-Mode Heterogeneous Integrated Phased Array 115 -- 4.4.1 Design Goal 115 -- 4.4.2 System Architecture 116 -- 4.4.3 Operation and System Implementation 117 -- 4.4.4 Circuit Responses and Radiation Patterns 119 -- 4.4.4.1 Beam?-Switching Mode 120 -- 4.4.4.2 Van Atta Mode 122 -- 4.4.4.3 PCA Mode 122 -- 4.5 Simplified Dual?-Mode Integrated Array Using Two Elements 122 -- References 124 -- 5 On?-Chip Realization of Synthesized Transmission Lines Using IPD Processes 126 /Y. C. Tseng and T. G. Ma -- 5.1 Introduction 126 -- 5.2 Integrated Passive Device (IPD) Process 127 -- 5.3 Tight Couplers Using Synthesized CPWs 128 -- 5.3.1 Quadrature Hybrid 128 -- 5.3.2 Wideband Rat?-Race Coupler 129.5.3.3 Dual?-Band Rat?-Race Coupler 132 -- 5.3.4 Coupled?-Line Coupler 137 -- 5.3.5 Butler Matrix 139 -- 5.4 Bandpass/Bandstop Filters Using Synthesized CPWs 142 -- 5.4.1 Bandpass Filter Using Synthesized Stepped?-Impedance Resonators 143 -- 5.4.2 Transformer?-Coupled Bandpass Filter 146 -- 5.4.3 Bridged T?-Coils as Common?-Mode Filter 147 -- 5.5 Chip Designs Using Multi?-Mode Synthesized CPWs 151 -- 5.5.1 Diplexer 151 -- 5.5.2 Dual?-Mode Rat?-Race Coupler 154 -- 5.5.3 Triplexer 157 -- 5.5.4 On?-Chip Liquid Detector 161 -- References 166 -- 6 Periodic Synthesized Transmission Lines with Two?-Dimensional Routing 168 /T. G. Ma -- 6.1 Introduction 168 -- 6.2 Design of the Unit Cells 169 -- 6.2.1 Formulation 169 -- 6.2.2 Quarter?-Wavelength Lines 172 -- 6.3 Power Divider and Couplers 174 -- 6.4 Broadside Directional Coupler 178 -- 6.4.1 Design Principle 178 -- 6.4.2 Circuit Realization 180 -- 6.5 Common?-Mode Rejection Filter 184 -- 6.5.1 Design Principle 184 -- 6.5.2 Circuit Realization 187 -- 6.6 On?-Chip Implementation 189 -- 6.6.1 Unit Cells and Quarter?-Wavelength Lines 189 -- 6.6.2 Circuit Implementations and Compensation 192 -- References 194 -- Index 196.Microwave transmission linesDesign and constructionPhased array antennasDesign and constructionMicrowave transmission linesDesign and construction.Phased array antennasDesign and construction.621.3841/35Ma Tzyh-Ghuang1973-Wang Chao-Wei1982-Lai Chi-Hui1985-Tseng Ying-Cheng1987-CaBNVSLCaBNVSLCaBNVSLBOOK9910826963703321Synthesized transmission lines4027819UNINA04508nam 22006255 450 991073486910332120251008162051.09783031347931303134793510.1007/978-3-031-34793-1(MiAaPQ)EBC30622111(Au-PeEL)EBL30622111(DE-He213)978-3-031-34793-1(PPN)272253162(CKB)27531930400041(OCoLC)1390561702(EXLCZ)992753193040004120230707d2023 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierBusiness Model Innovation for Energy Transition A Path Forward Towards Sustainability /edited by Milton M. Herrera1st ed. 2023.Cham :Springer International Publishing :Imprint: Palgrave Macmillan,2023.1 online resource (123 pages)Palgrave Studies in Democracy, Innovation, and Entrepreneurship for Growth,2662-365XPrint version: Herrera, Milton M. Business Model Innovation for Energy Transition Cham : Springer International Publishing AG,c2023 9783031347924 Chapter 1: Dynamics of Energy Transitions and Innovation Studies for Sustainability (Mauricio Uriona Maldonado) -- Chapter 2: System Dynamics Modelling for Green Business Model Innovation (Milton M. Herrera) -- Chapter 3: Towards a Green Technologies Index for Business Model Innovation (Alberto Méndez-Morales) -- Chapter 4: Coupling System Dynamics with Green Innovation for Energy Transitions (Milton M. Herrera, Mauricio Uriona Maldonado, Alberto Méndez-Morales) -- Chapter 5: Conclusion and Future Research (Alberto Méndez-Morales).“This book provides a novel perspective and modelling-based solutions for energy transitions. The book is an essential read for decision makers and policymakers which seek sustainability transition.” – Mauricio Becerra-Fernandez, Director of the Master in Smart and Sustainable Cities, Universidad del Rosario, Bogotá, Colombia. This book presents a dynamics model-based perspective for attaining the energy transitions by business model innovation. It examines how dynamic business modelling and innovation studies can assist in the sustainability transitions field, highlighting the role of technological innovation system (TIS) and dynamic performance management (DPM). In the last decade, renewables have operated in the context of emerging societal transitions. Indeed, one of the current challenges for the energy sector is to transform business models in tune with shifting societal and market conditions. This work shows how dynamic business modelling captures the feedbackloops and the behaviour of performance measures to contribute the energy transitions. Besides, this book offers an in-depth discussion on innovation measurement to designing index of green technology, which it will prove useful to those studying management sciences, energy, innovation, and sustainability. Milton M. Herrera is a Professor of Logistics and Business Management at the Faculty of Economic Sciences, Universidad Militar Nueva Granada, Colombia, where he is also Senior Research Fellow in system dynamics and the Director of Contemporary Studies Group in Organization Management at the Economic Sciences Research Centre. He has published in highlighted scientific journals such as Renewable Energy, Utilities Policy, Electricity Journal and Energy. He has a scientific interest in energy transitions, business model innovation, and supply chain performance.Palgrave Studies in Democracy, Innovation, and Entrepreneurship for Growth,2662-365XTechnological innovationsIndustriesPolitical planningInnovation and Technology ManagementIndustriesPublic PolicyTechnological innovations.Industries.Political planning.Innovation and Technology Management.Industries.Public Policy.658.4062658.514333.794Herrera Milton M1373595MiAaPQMiAaPQMiAaPQBOOK9910734869103321Business Model Innovation for Energy Transition3404701UNINA01823oas 2200613 a 450 991089098640332120251106213014.0(DE-599)ZDB2197006-3(OCoLC)42893482(CONSER)sn 99023450 (CKB)991042754203282(EXLCZ)9999104275420328219991129a19999999 sy aengurcnu||||||||txtrdacontentcrdamediacrrdacarrierThe journal of liberal religionChicago, IL Meadville/Lombard Theological School1999-"An online theological journal devoted to the study of liberal religion."Title from homepage (viewed Nov. 29, 1999).1527-9324 Meadville-Lombard journal of liberal religionLiberal religionJ. lib. religionUnitarianismPeriodicalsUniversalismPeriodicalsLiberalism (Religion)PeriodicalsLiberalism (Religion)fast(OCoLC)fst00997200Unitarianismfast(OCoLC)fst01161454Universalismfast(OCoLC)fst01161574Periodicals.fastUnitarianismUniversalismLiberalism (Religion)Liberalism (Religion)Unitarianism.Universalism.210Meadville/Lombard Theological SchoolEYMEYMNSDOCLCQOCLCFOCLCOOCLCQOCLCLOCLCQJOURNAL9910890986403321The journal of liberal religion4243961UNINA