Verfügbarkeit: Microwave transmission line circuits

Microwave transmission line circuits:

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Bibliographische Detailangaben
1. Verfasser:	Joines, William T. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston Artech House [2013]
Schlagworte:	Microwave transmission lines Microwave transmission lines / Mathematical models TECHNOLOGY & ENGINEERING / Mechanical Mathematisches Modell Microwave transmission lines > Mathematical models > Microwave transmission lines
Online-Zugang:	FAW01 FAW02
Beschreibung:	Description based on print version record
Beschreibung:	1 online resource (x, 300 pages) illustrations
ISBN:	9781608075706 1608075702 9781608075690 1608075699

Internformat

MARC


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505	8		\|a ""Microwave Transmission Line Circuits""; ""Contents ""; ""Preface ""; ""Chapter 1 Introduction ""; ""1.2 Radar Systems ""; ""1.2.1 Pulse Radar ""; ""1.2.2 Doppler Radar ""; ""1.2.3 Frequency-Modulated Continuous-Wave (FMCW) Radar ""; ""1.3 Microwave Communication Systems ""; ""1.3.1 Microwave Links and Repeaters ""; ""1.3.2 Carrier Modulation ""; ""1.4 Signal-To-Noise Requirements ""; ""1.4.1 Channel Capacity and Information Content ""; ""Bibliography ""; ""Chapter 2 Microwave Transmission Lines ""; ""2.1 Useful Transmission Line Configurations ""
505	8		\|a ""2.2 Wave Equation for Voltage and Current """"2.3 Incident, Reflected, and Standing Waves ""; ""2.3.1 Voltage Reflection Coefficient ""; ""2.3.2 Power Flow ""; ""2.3.3 Voltage Standing Wave Ratio""; ""2.4 Transmission Lines with Losses ""; ""2.5 Transmission Line Parameter Calculations ""; ""2.6 Impedance Matching ""; ""2.7 Impedance Transformations and the Smith Chart ""; ""Problems ""; ""Bibliography ""; ""Chapter 3 Transmission Line Segments as Network Elements ""; ""3.1 Lumped-Element Limitations ""; ""3.2 Using Transmission Lines as Lumped Elements ""
505	8		\|a ""3.2.1 Impedance Matching Using Lumped Ls and Cs """"3.2.2 Resonant Circuits ""; ""Problems ""; ""Bibilography ""; ""Chapter 4 Matrix Representation of Microwave Networks ""; ""4.1 Z, Y, and ABCD Matrices for Connected Networks ""; ""4.1.1 Two-Port Network Parameters ""; ""4.1.2 Two-Port Network Connected in Cascade ""; ""4.2 Network Gain or Loss in Terms of ABCD Parameters ""; ""4.2.1 Insertion Gain for Complex Zs ZL ""; ""4.2.2 Tranducer Gain for Complex Zs and Zl ""; ""4.3 Scattering Parameter and the Scattering Maxtrix of a Network ""; ""4.4 Signal Flow Graphs and Mason's Gain Rule ""
505	8		\|a ""Problems """"Bibliography ""; ""Chapter 5 Synthesis and Design of Frequency-Filtering Networks ""; ""5.1 Network Synthesis and Design ""; ""5.1.1 Lowpass Filters ""; ""5.1.2 Bandpass Filters ""; ""5.1.3 Highpass and Bandstop Filters ""; ""5.1.4 Network Design Using Q Tapering of Sections ""; ""5.2 Tapped-Stub Resonator ""; ""5.2.1 The Half-Wavelength Tapped Stub as a Turnable Filter ""; ""5.3 Coupled Line Filters ""; ""Problems ""; ""Bibliography ""; ""Chapter 6 Broadband Impedance-Matching Networks ""; ""6.1 Network Model for Impedance Matching ""
505	8		\|a ""6.2 The Q and the l/4 and l/2 Tranformer Sections """"6.3 Multiple Quarter-Wavelength Transformers in Cascade ""; ""6.3.1 Two Cascaded Sections ""; ""6.3.2 Three Cascaded Sections ""; ""6.4 More Compact Impedance-Matching Networks ""; ""6.4.1 Lumped-Element Equivalent of the Quarter-Wavelength Transformer ""; ""6.4.2 The Eighth-Wavelength Transformer ""; ""6.4.3 Impedance Matching a Real Source to a Complex Load ""; ""Problems ""; ""Bibliography ""; ""Chapter 7 Combining, Dividing, and Coupling Circuits ""; ""7.1 Power Dividers and Power Combiners ""
650		7	\|a Microwave transmission lines \|2 fast
650		7	\|a Microwave transmission lines / Mathematical models \|2 fast
650		7	\|a TECHNOLOGY & ENGINEERING / Mechanical \|2 bisacsh
650		4	\|a Microwave transmission lines / Mathematical models
650		4	\|a Microwave transmission lines
650		4	\|a Mathematisches Modell
650		4	\|a Microwave transmission lines \|x Mathematical models \|a Microwave transmission lines
700	1		\|a Palmer, W. D. \|d 1957- \|e Sonstige \|4 oth
700	1		\|a Bernhard, Jennifer Lyn Truman \|d 1966- \|e Sonstige \|4 oth
776	0	8	\|i Erscheint auch als \|n Druck-Ausgabe \|a Joines, William T \|t . Microwave transmission line circuits
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Datensatz im Suchindex

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contents	""Microwave Transmission Line Circuits""; ""Contents ""; ""Preface ""; ""Chapter 1 Introduction ""; ""1.2 Radar Systems ""; ""1.2.1 Pulse Radar ""; ""1.2.2 Doppler Radar ""; ""1.2.3 Frequency-Modulated Continuous-Wave (FMCW) Radar ""; ""1.3 Microwave Communication Systems ""; ""1.3.1 Microwave Links and Repeaters ""; ""1.3.2 Carrier Modulation ""; ""1.4 Signal-To-Noise Requirements ""; ""1.4.1 Channel Capacity and Information Content ""; ""Bibliography ""; ""Chapter 2 Microwave Transmission Lines ""; ""2.1 Useful Transmission Line Configurations "" ""2.2 Wave Equation for Voltage and Current """"2.3 Incident, Reflected, and Standing Waves ""; ""2.3.1 Voltage Reflection Coefficient ""; ""2.3.2 Power Flow ""; ""2.3.3 Voltage Standing Wave Ratio""; ""2.4 Transmission Lines with Losses ""; ""2.5 Transmission Line Parameter Calculations ""; ""2.6 Impedance Matching ""; ""2.7 Impedance Transformations and the Smith Chart ""; ""Problems ""; ""Bibliography ""; ""Chapter 3 Transmission Line Segments as Network Elements ""; ""3.1 Lumped-Element Limitations ""; ""3.2 Using Transmission Lines as Lumped Elements "" ""3.2.1 Impedance Matching Using Lumped Ls and Cs """"3.2.2 Resonant Circuits ""; ""Problems ""; ""Bibilography ""; ""Chapter 4 Matrix Representation of Microwave Networks ""; ""4.1 Z, Y, and ABCD Matrices for Connected Networks ""; ""4.1.1 Two-Port Network Parameters ""; ""4.1.2 Two-Port Network Connected in Cascade ""; ""4.2 Network Gain or Loss in Terms of ABCD Parameters ""; ""4.2.1 Insertion Gain for Complex Zs ZL ""; ""4.2.2 Tranducer Gain for Complex Zs and Zl ""; ""4.3 Scattering Parameter and the Scattering Maxtrix of a Network ""; ""4.4 Signal Flow Graphs and Mason's Gain Rule "" ""Problems """"Bibliography ""; ""Chapter 5 Synthesis and Design of Frequency-Filtering Networks ""; ""5.1 Network Synthesis and Design ""; ""5.1.1 Lowpass Filters ""; ""5.1.2 Bandpass Filters ""; ""5.1.3 Highpass and Bandstop Filters ""; ""5.1.4 Network Design Using Q Tapering of Sections ""; ""5.2 Tapped-Stub Resonator ""; ""5.2.1 The Half-Wavelength Tapped Stub as a Turnable Filter ""; ""5.3 Coupled Line Filters ""; ""Problems ""; ""Bibliography ""; ""Chapter 6 Broadband Impedance-Matching Networks ""; ""6.1 Network Model for Impedance Matching "" ""6.2 The Q and the l/4 and l/2 Tranformer Sections """"6.3 Multiple Quarter-Wavelength Transformers in Cascade ""; ""6.3.1 Two Cascaded Sections ""; ""6.3.2 Three Cascaded Sections ""; ""6.4 More Compact Impedance-Matching Networks ""; ""6.4.1 Lumped-Element Equivalent of the Quarter-Wavelength Transformer ""; ""6.4.2 The Eighth-Wavelength Transformer ""; ""6.4.3 Impedance Matching a Real Source to a Complex Load ""; ""Problems ""; ""Bibliography ""; ""Chapter 7 Combining, Dividing, and Coupling Circuits ""; ""7.1 Power Dividers and Power Combiners ""
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dewey-ones	621 - Applied physics
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dewey-search	621.381/33
dewey-sort	3621.381 233
dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Electronic eBook
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spelling	Joines, William T. Verfasser aut Microwave transmission line circuits William T. Joines, W.Devereux Palmer, Jennifer T. Berhard Boston Artech House [2013] © 2013 1 online resource (x, 300 pages) illustrations txt rdacontent c rdamedia cr rdacarrier Description based on print version record ""Microwave Transmission Line Circuits""; ""Contents ""; ""Preface ""; ""Chapter 1 Introduction ""; ""1.2 Radar Systems ""; ""1.2.1 Pulse Radar ""; ""1.2.2 Doppler Radar ""; ""1.2.3 Frequency-Modulated Continuous-Wave (FMCW) Radar ""; ""1.3 Microwave Communication Systems ""; ""1.3.1 Microwave Links and Repeaters ""; ""1.3.2 Carrier Modulation ""; ""1.4 Signal-To-Noise Requirements ""; ""1.4.1 Channel Capacity and Information Content ""; ""Bibliography ""; ""Chapter 2 Microwave Transmission Lines ""; ""2.1 Useful Transmission Line Configurations "" ""2.2 Wave Equation for Voltage and Current """"2.3 Incident, Reflected, and Standing Waves ""; ""2.3.1 Voltage Reflection Coefficient ""; ""2.3.2 Power Flow ""; ""2.3.3 Voltage Standing Wave Ratio""; ""2.4 Transmission Lines with Losses ""; ""2.5 Transmission Line Parameter Calculations ""; ""2.6 Impedance Matching ""; ""2.7 Impedance Transformations and the Smith Chart ""; ""Problems ""; ""Bibliography ""; ""Chapter 3 Transmission Line Segments as Network Elements ""; ""3.1 Lumped-Element Limitations ""; ""3.2 Using Transmission Lines as Lumped Elements "" ""3.2.1 Impedance Matching Using Lumped Ls and Cs """"3.2.2 Resonant Circuits ""; ""Problems ""; ""Bibilography ""; ""Chapter 4 Matrix Representation of Microwave Networks ""; ""4.1 Z, Y, and ABCD Matrices for Connected Networks ""; ""4.1.1 Two-Port Network Parameters ""; ""4.1.2 Two-Port Network Connected in Cascade ""; ""4.2 Network Gain or Loss in Terms of ABCD Parameters ""; ""4.2.1 Insertion Gain for Complex Zs ZL ""; ""4.2.2 Tranducer Gain for Complex Zs and Zl ""; ""4.3 Scattering Parameter and the Scattering Maxtrix of a Network ""; ""4.4 Signal Flow Graphs and Mason's Gain Rule "" ""Problems """"Bibliography ""; ""Chapter 5 Synthesis and Design of Frequency-Filtering Networks ""; ""5.1 Network Synthesis and Design ""; ""5.1.1 Lowpass Filters ""; ""5.1.2 Bandpass Filters ""; ""5.1.3 Highpass and Bandstop Filters ""; ""5.1.4 Network Design Using Q Tapering of Sections ""; ""5.2 Tapped-Stub Resonator ""; ""5.2.1 The Half-Wavelength Tapped Stub as a Turnable Filter ""; ""5.3 Coupled Line Filters ""; ""Problems ""; ""Bibliography ""; ""Chapter 6 Broadband Impedance-Matching Networks ""; ""6.1 Network Model for Impedance Matching "" ""6.2 The Q and the l/4 and l/2 Tranformer Sections """"6.3 Multiple Quarter-Wavelength Transformers in Cascade ""; ""6.3.1 Two Cascaded Sections ""; ""6.3.2 Three Cascaded Sections ""; ""6.4 More Compact Impedance-Matching Networks ""; ""6.4.1 Lumped-Element Equivalent of the Quarter-Wavelength Transformer ""; ""6.4.2 The Eighth-Wavelength Transformer ""; ""6.4.3 Impedance Matching a Real Source to a Complex Load ""; ""Problems ""; ""Bibliography ""; ""Chapter 7 Combining, Dividing, and Coupling Circuits ""; ""7.1 Power Dividers and Power Combiners "" Microwave transmission lines fast Microwave transmission lines / Mathematical models fast TECHNOLOGY & ENGINEERING / Mechanical bisacsh Microwave transmission lines / Mathematical models Microwave transmission lines Mathematisches Modell Microwave transmission lines Mathematical models Microwave transmission lines Palmer, W. D. 1957- Sonstige oth Bernhard, Jennifer Lyn Truman 1966- Sonstige oth Erscheint auch als Druck-Ausgabe Joines, William T . Microwave transmission line circuits
spellingShingle	Joines, William T. Microwave transmission line circuits ""Microwave Transmission Line Circuits""; ""Contents ""; ""Preface ""; ""Chapter 1 Introduction ""; ""1.2 Radar Systems ""; ""1.2.1 Pulse Radar ""; ""1.2.2 Doppler Radar ""; ""1.2.3 Frequency-Modulated Continuous-Wave (FMCW) Radar ""; ""1.3 Microwave Communication Systems ""; ""1.3.1 Microwave Links and Repeaters ""; ""1.3.2 Carrier Modulation ""; ""1.4 Signal-To-Noise Requirements ""; ""1.4.1 Channel Capacity and Information Content ""; ""Bibliography ""; ""Chapter 2 Microwave Transmission Lines ""; ""2.1 Useful Transmission Line Configurations "" ""2.2 Wave Equation for Voltage and Current """"2.3 Incident, Reflected, and Standing Waves ""; ""2.3.1 Voltage Reflection Coefficient ""; ""2.3.2 Power Flow ""; ""2.3.3 Voltage Standing Wave Ratio""; ""2.4 Transmission Lines with Losses ""; ""2.5 Transmission Line Parameter Calculations ""; ""2.6 Impedance Matching ""; ""2.7 Impedance Transformations and the Smith Chart ""; ""Problems ""; ""Bibliography ""; ""Chapter 3 Transmission Line Segments as Network Elements ""; ""3.1 Lumped-Element Limitations ""; ""3.2 Using Transmission Lines as Lumped Elements "" ""3.2.1 Impedance Matching Using Lumped Ls and Cs """"3.2.2 Resonant Circuits ""; ""Problems ""; ""Bibilography ""; ""Chapter 4 Matrix Representation of Microwave Networks ""; ""4.1 Z, Y, and ABCD Matrices for Connected Networks ""; ""4.1.1 Two-Port Network Parameters ""; ""4.1.2 Two-Port Network Connected in Cascade ""; ""4.2 Network Gain or Loss in Terms of ABCD Parameters ""; ""4.2.1 Insertion Gain for Complex Zs ZL ""; ""4.2.2 Tranducer Gain for Complex Zs and Zl ""; ""4.3 Scattering Parameter and the Scattering Maxtrix of a Network ""; ""4.4 Signal Flow Graphs and Mason's Gain Rule "" ""Problems """"Bibliography ""; ""Chapter 5 Synthesis and Design of Frequency-Filtering Networks ""; ""5.1 Network Synthesis and Design ""; ""5.1.1 Lowpass Filters ""; ""5.1.2 Bandpass Filters ""; ""5.1.3 Highpass and Bandstop Filters ""; ""5.1.4 Network Design Using Q Tapering of Sections ""; ""5.2 Tapped-Stub Resonator ""; ""5.2.1 The Half-Wavelength Tapped Stub as a Turnable Filter ""; ""5.3 Coupled Line Filters ""; ""Problems ""; ""Bibliography ""; ""Chapter 6 Broadband Impedance-Matching Networks ""; ""6.1 Network Model for Impedance Matching "" ""6.2 The Q and the l/4 and l/2 Tranformer Sections """"6.3 Multiple Quarter-Wavelength Transformers in Cascade ""; ""6.3.1 Two Cascaded Sections ""; ""6.3.2 Three Cascaded Sections ""; ""6.4 More Compact Impedance-Matching Networks ""; ""6.4.1 Lumped-Element Equivalent of the Quarter-Wavelength Transformer ""; ""6.4.2 The Eighth-Wavelength Transformer ""; ""6.4.3 Impedance Matching a Real Source to a Complex Load ""; ""Problems ""; ""Bibliography ""; ""Chapter 7 Combining, Dividing, and Coupling Circuits ""; ""7.1 Power Dividers and Power Combiners "" Microwave transmission lines fast Microwave transmission lines / Mathematical models fast TECHNOLOGY & ENGINEERING / Mechanical bisacsh Microwave transmission lines / Mathematical models Microwave transmission lines Mathematisches Modell Microwave transmission lines Mathematical models Microwave transmission lines
title	Microwave transmission line circuits
title_auth	Microwave transmission line circuits
title_exact_search	Microwave transmission line circuits
title_full	Microwave transmission line circuits William T. Joines, W.Devereux Palmer, Jennifer T. Berhard
title_fullStr	Microwave transmission line circuits William T. Joines, W.Devereux Palmer, Jennifer T. Berhard
title_full_unstemmed	Microwave transmission line circuits William T. Joines, W.Devereux Palmer, Jennifer T. Berhard
title_short	Microwave transmission line circuits
title_sort	microwave transmission line circuits
topic	Microwave transmission lines fast Microwave transmission lines / Mathematical models fast TECHNOLOGY & ENGINEERING / Mechanical bisacsh Microwave transmission lines / Mathematical models Microwave transmission lines Mathematisches Modell Microwave transmission lines Mathematical models Microwave transmission lines
topic_facet	Microwave transmission lines Microwave transmission lines / Mathematical models TECHNOLOGY & ENGINEERING / Mechanical Mathematisches Modell Microwave transmission lines Mathematical models Microwave transmission lines
work_keys_str_mv	AT joineswilliamt microwavetransmissionlinecircuits AT palmerwd microwavetransmissionlinecircuits AT bernhardjenniferlyntruman microwavetransmissionlinecircuits

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