Microwave transmission line circuits /:
Here's an authoritative resource that offers you valuable assistance with your work involving microwave circuit analysis and design. This practical book provides a thorough understanding of the properties of planar transmission lines for integrated circuits. It presents matrix and computer-aide...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Weitere Verfasser: | , |
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Boston :
Artech House,
[2013]
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | Here's an authoritative resource that offers you valuable assistance with your work involving microwave circuit analysis and design. This practical book provides a thorough understanding of the properties of planar transmission lines for integrated circuits. It presents matrix and computer-aided methods for analysis and design of circuit components. You find in-depth details on input, output, and interstage networks, as well as coverage of stability, noise, and signal distortion. Moreover, this unique book is the first to explore and develop the interface between lumped-element circuits and distributed element circuits. Supported with over 580 equations and 100 illustrations, this volume presents the necessary technological underpinnings and all the practical details you need to fully comprehend and work with the material. |
| Beschreibung: | 1 online resource (x, 300 pages) : illustrations |
| Bibliographie: | Includes bibliographical references. |
| ISBN: | 9781608075706 1608075702 |
Internformat
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| 505 | 0 | |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 | |
| 520 | 3 | |a Here's an authoritative resource that offers you valuable assistance with your work involving microwave circuit analysis and design. This practical book provides a thorough understanding of the properties of planar transmission lines for integrated circuits. It presents matrix and computer-aided methods for analysis and design of circuit components. You find in-depth details on input, output, and interstage networks, as well as coverage of stability, noise, and signal distortion. Moreover, this unique book is the first to explore and develop the interface between lumped-element circuits and distributed element circuits. Supported with over 580 equations and 100 illustrations, this volume presents the necessary technological underpinnings and all the practical details you need to fully comprehend and work with the material. |c Publisher abstract. | |
| 650 | 0 | |a Microwave transmission lines |x Mathematical models. | |
| 650 | 0 | |a Microwave transmission lines. |0 http://id.loc.gov/authorities/subjects/sh85084972 | |
| 650 | 6 | |a Lignes de transmission pour micro-ondes |x Modèles mathématiques. | |
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| _version_ | 1816882267076689920 |
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| author | Joines, William T. |
| author2 | Palmer, W. D. (William Devereux), 1957- Bernhard, Jennifer Lyn Truman, 1966- |
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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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| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
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| indexdate | 2024-11-27T13:25:53Z |
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| oclc_num | 875895465 |
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| publishDate | 2013 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | Artech House, |
| record_format | marc |
| spelling | Joines, William T. 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 text txt rdacontent computer c rdamedia online resource cr rdacarrier Print version record. Includes bibliographical references. 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 Here's an authoritative resource that offers you valuable assistance with your work involving microwave circuit analysis and design. This practical book provides a thorough understanding of the properties of planar transmission lines for integrated circuits. It presents matrix and computer-aided methods for analysis and design of circuit components. You find in-depth details on input, output, and interstage networks, as well as coverage of stability, noise, and signal distortion. Moreover, this unique book is the first to explore and develop the interface between lumped-element circuits and distributed element circuits. Supported with over 580 equations and 100 illustrations, this volume presents the necessary technological underpinnings and all the practical details you need to fully comprehend and work with the material. Publisher abstract. Microwave transmission lines Mathematical models. Microwave transmission lines. http://id.loc.gov/authorities/subjects/sh85084972 Lignes de transmission pour micro-ondes Modèles mathématiques. Lignes de transmission pour micro-ondes. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Microwave transmission lines fast Microwave transmission lines Mathematical models fast Palmer, W. D. (William Devereux), 1957- https://id.oclc.org/worldcat/entity/E39PBJqw7QyrPkWBPPG8wPYF8C http://id.loc.gov/authorities/names/no2003031666 Bernhard, Jennifer Lyn Truman, 1966- https://id.oclc.org/worldcat/entity/E39PCjHWRPk3yqpTd9hFpbwWfy http://id.loc.gov/authorities/names/no2007120862 has work: Microwave transmission line circuits (Text) https://id.oclc.org/worldcat/entity/E39PCGWt4b4QmY4hH68bpPwTtq https://id.oclc.org/worldcat/ontology/hasWork Print version: Joines, William T. Microwave transmission line circuits 9781608075690 (DLC) 2012275128 (OCoLC)809617142 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=753581 Volltext |
| 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 Mathematical models. Microwave transmission lines. http://id.loc.gov/authorities/subjects/sh85084972 Lignes de transmission pour micro-ondes Modèles mathématiques. Lignes de transmission pour micro-ondes. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Microwave transmission lines fast Microwave transmission lines Mathematical models fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85084972 |
| 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 Mathematical models. Microwave transmission lines. http://id.loc.gov/authorities/subjects/sh85084972 Lignes de transmission pour micro-ondes Modèles mathématiques. Lignes de transmission pour micro-ondes. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Microwave transmission lines fast Microwave transmission lines Mathematical models fast |
| topic_facet | Microwave transmission lines Mathematical models. Microwave transmission lines. Lignes de transmission pour micro-ondes Modèles mathématiques. Lignes de transmission pour micro-ondes. TECHNOLOGY & ENGINEERING Mechanical. Microwave transmission lines Microwave transmission lines Mathematical models |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=753581 |
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