Switchmode RF power amplifiers /:
A majority of people now have a digital mobile device whether it be a cell phone, laptop, or blackberry. Now that we have the mobility we want it to be more versatile and dependable; RF power amplifiers accomplish just that. These amplifiers take a small input and make it stronger and larger creatin...
Gespeichert in:
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| Weitere Verfasser: | |
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam ; Boston :
Elsevier/Newnes,
©2007.
|
| Schriftenreihe: | Communications engineering series.
|
| Schlagworte: | |
| Online-Zugang: | Volltext Volltext |
| Zusammenfassung: | A majority of people now have a digital mobile device whether it be a cell phone, laptop, or blackberry. Now that we have the mobility we want it to be more versatile and dependable; RF power amplifiers accomplish just that. These amplifiers take a small input and make it stronger and larger creating a wider area of use with a more robust signal. Switching mode RF amplifiers have been theoretically possible for decades, but were largely impractical because they distort analog signals until they are unrecognizable. However, distortion is not an issue with digital signalslike those used by WLANs and digital cell phonesand switching mode RF amplifiers have become a hot area of RF/wireless design. This book explores both the theory behind switching mode RF amplifiers and design techniques for them. *Provides essential design and implementation techniques for use in cma2000, WiMAX, and other digital mobile standards *Both authors have written several articles on the topic and are well known in the industry *Includes specific design equations to greatly simplify the design of switchmode amplifiers. |
| Beschreibung: | 1 online resource (xviii, 424 pages) : illustrations |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9780750679626 075067962X 9780080550640 0080550649 |
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| 100 | 1 | |a Grebennikov, Andrei, |d 1956- |1 https://id.oclc.org/worldcat/entity/E39PCjJ766M79C4QkKGtQ3fCV3 |0 http://id.loc.gov/authorities/names/n2002016746 | |
| 245 | 1 | 0 | |a Switchmode RF power amplifiers / |c Andrei Grebennikov, Nathan O. Sokal. |
| 260 | |a Amsterdam ; |a Boston : |b Elsevier/Newnes, |c ©2007. | ||
| 300 | |a 1 online resource (xviii, 424 pages) : |b illustrations | ||
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| 490 | 1 | |a Communications engineering series | |
| 520 | |a A majority of people now have a digital mobile device whether it be a cell phone, laptop, or blackberry. Now that we have the mobility we want it to be more versatile and dependable; RF power amplifiers accomplish just that. These amplifiers take a small input and make it stronger and larger creating a wider area of use with a more robust signal. Switching mode RF amplifiers have been theoretically possible for decades, but were largely impractical because they distort analog signals until they are unrecognizable. However, distortion is not an issue with digital signalslike those used by WLANs and digital cell phonesand switching mode RF amplifiers have become a hot area of RF/wireless design. This book explores both the theory behind switching mode RF amplifiers and design techniques for them. *Provides essential design and implementation techniques for use in cma2000, WiMAX, and other digital mobile standards *Both authors have written several articles on the topic and are well known in the industry *Includes specific design equations to greatly simplify the design of switchmode amplifiers. | ||
| 504 | |a Includes bibliographical references and index. | ||
| 588 | 0 | |a Print version record. | |
| 505 | 0 | |a Cover -- Table of Contents -- About Andrei Grebennikov -- About Nathan O. Sokal -- Preface -- Acknowledgments -- Chapter 1: Power-Amplifier Design Principles -- 1.1 Spectral-Domain Analysis -- 1.2 Basic Classes of Operation: A, AB, B, and C -- 1.3 Active Device Models -- 1.4 High-Frequency Conduction Angle -- 1.5 Nonlinear Effect of Collector Capacitance -- 1.6 Push-Pull Power Amplifiers -- 1.7 Power Gain and Stability -- 1.8 Parametric Oscillations -- References -- Chapter 2: Class-D Power Amplifiers -- 2.1 Switched-Mode Power Amplifiers with Resistive Load -- 2.2 Complementary Voltage-Switching Configuration -- 2.3 Transformer-Coupled Voltage-Switching Configuration -- 2.4 Symmetrical Current-Switching Configuration -- 2.5 Transformer-Coupled Current-Switching Configuration -- 2.6 Voltage-Switching Configuration with Reactive Load -- 2.7 Drive and Transition Time -- 2.8 Practical Class-D Power Amplifier Implementation -- References -- Chapter 3: Class-F Power Amplifiers -- 3.1 Biharmonic Operation Mode -- 3.2 Idealized Class-F Mode -- 3.3 Class F with Maximally Flat Waveforms -- 3.4 Class F with Quarter-wave Transmission Line -- 3.5 Effect of Saturation Resistance and Shunt Capacitance -- 3.6 Load Networks with Lumped Elements -- 3.7 Load Networks with Transmission Lines -- 3.8 LDMOSFET Power-Amplifier Design Examples -- 3.9 Practical RF and Microwave Class-F Power Amplifiers -- References -- Chapter 4: Inverse Class F -- 4.1 Biharmonic Operation Mode -- 4.2 Idealized Inverse Class-F Mode -- 4.3 Inverse Class F with Quarter-wave Transmission Line -- 4.4 Load Networks with Lumped Elements -- 4.5 Load Networks with Transmission Lines -- 4.6 LDMOSFET Power-Amplifier Design Examples -- 4.7 Practical Implementation -- References -- Chapter 5: Class E with Shunt Capacitance -- 5.1 Effect of Detuned Resonant Circuit -- 5.2 Load Network with Shunt Capacitor and Series Filter -- 5.3 Matching with Standard Load -- 5.4 Effect of Saturation Resistance -- 5.5 Driving Signal and Finite Switching Time -- 5.6 Effect of Nonlinear Shunt Capacitance -- 5.7 Push-Pull Operation Mode -- 5.8 Load Network with Transmission Lines -- 5.9 Practical RF and Microwave Class-E Power Amplifiers and Applications -- References -- Chapter 6: Class E with Finite dc-Feed Inductance -- 6.1 Class E with One Capacitor and One Inductor -- 6.2 Generalized Class-E Load Network with Finite dc-Feed Inductance -- 6.3 Subharmonic Class E -- 6.4 Parallel-Circuit Class E -- 6.5 Even-Harmonic Class E -- 6.6 Effect of Bondwire Inductance -- 6.7 Load Network with Transmission Lines -- 6.8 Broadband Class E -- 6.9 Power Gain -- 6.10 CMOS Class-E Power Amplifiers -- References -- Chapter 7: Class E with Quarter-wave Transmission Line -- 7.1 Load Network with Parallel Quarter-wave Line -- 7.2 Optimum Load Network Parameters -- 7.3 Load Network with Zero Series Reactance -- 7.4 Matching Circuit with Lumped Elements -- 7.5 Matching Circui. | |
| 650 | 0 | |a Power amplifiers. |0 http://id.loc.gov/authorities/subjects/sh85105977 | |
| 650 | 0 | |a Microwave amplifiers. |0 http://id.loc.gov/authorities/subjects/sh85084952 | |
| 650 | 6 | |a Amplificateurs de puissance. | |
| 650 | 6 | |a Amplificateurs micro-ondes. | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING |x Electronics |x Circuits |x General. |2 bisacsh | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING |x Electronics |x Circuits |x Integrated. |2 bisacsh | |
| 650 | 7 | |a Microwave amplifiers |2 fast | |
| 650 | 7 | |a Power amplifiers |2 fast | |
| 700 | 1 | |a Sokal, Nathan O. |1 https://id.oclc.org/worldcat/entity/E39PBJy8t79gV6GhBqc3KbXfMP |0 http://id.loc.gov/authorities/names/n90704381 | |
| 758 | |i has work: |a Switchmode RF power amplifiers (Text) |1 https://id.oclc.org/worldcat/entity/E39PCGY9thKWFmvpRjMK3kVVyb |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
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| contents | Cover -- Table of Contents -- About Andrei Grebennikov -- About Nathan O. Sokal -- Preface -- Acknowledgments -- Chapter 1: Power-Amplifier Design Principles -- 1.1 Spectral-Domain Analysis -- 1.2 Basic Classes of Operation: A, AB, B, and C -- 1.3 Active Device Models -- 1.4 High-Frequency Conduction Angle -- 1.5 Nonlinear Effect of Collector Capacitance -- 1.6 Push-Pull Power Amplifiers -- 1.7 Power Gain and Stability -- 1.8 Parametric Oscillations -- References -- Chapter 2: Class-D Power Amplifiers -- 2.1 Switched-Mode Power Amplifiers with Resistive Load -- 2.2 Complementary Voltage-Switching Configuration -- 2.3 Transformer-Coupled Voltage-Switching Configuration -- 2.4 Symmetrical Current-Switching Configuration -- 2.5 Transformer-Coupled Current-Switching Configuration -- 2.6 Voltage-Switching Configuration with Reactive Load -- 2.7 Drive and Transition Time -- 2.8 Practical Class-D Power Amplifier Implementation -- References -- Chapter 3: Class-F Power Amplifiers -- 3.1 Biharmonic Operation Mode -- 3.2 Idealized Class-F Mode -- 3.3 Class F with Maximally Flat Waveforms -- 3.4 Class F with Quarter-wave Transmission Line -- 3.5 Effect of Saturation Resistance and Shunt Capacitance -- 3.6 Load Networks with Lumped Elements -- 3.7 Load Networks with Transmission Lines -- 3.8 LDMOSFET Power-Amplifier Design Examples -- 3.9 Practical RF and Microwave Class-F Power Amplifiers -- References -- Chapter 4: Inverse Class F -- 4.1 Biharmonic Operation Mode -- 4.2 Idealized Inverse Class-F Mode -- 4.3 Inverse Class F with Quarter-wave Transmission Line -- 4.4 Load Networks with Lumped Elements -- 4.5 Load Networks with Transmission Lines -- 4.6 LDMOSFET Power-Amplifier Design Examples -- 4.7 Practical Implementation -- References -- Chapter 5: Class E with Shunt Capacitance -- 5.1 Effect of Detuned Resonant Circuit -- 5.2 Load Network with Shunt Capacitor and Series Filter -- 5.3 Matching with Standard Load -- 5.4 Effect of Saturation Resistance -- 5.5 Driving Signal and Finite Switching Time -- 5.6 Effect of Nonlinear Shunt Capacitance -- 5.7 Push-Pull Operation Mode -- 5.8 Load Network with Transmission Lines -- 5.9 Practical RF and Microwave Class-E Power Amplifiers and Applications -- References -- Chapter 6: Class E with Finite dc-Feed Inductance -- 6.1 Class E with One Capacitor and One Inductor -- 6.2 Generalized Class-E Load Network with Finite dc-Feed Inductance -- 6.3 Subharmonic Class E -- 6.4 Parallel-Circuit Class E -- 6.5 Even-Harmonic Class E -- 6.6 Effect of Bondwire Inductance -- 6.7 Load Network with Transmission Lines -- 6.8 Broadband Class E -- 6.9 Power Gain -- 6.10 CMOS Class-E Power Amplifiers -- References -- Chapter 7: Class E with Quarter-wave Transmission Line -- 7.1 Load Network with Parallel Quarter-wave Line -- 7.2 Optimum Load Network Parameters -- 7.3 Load Network with Zero Series Reactance -- 7.4 Matching Circuit with Lumped Elements -- 7.5 Matching Circui. |
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Sokal.</subfield></datafield><datafield tag="260" ind1=" " ind2=" "><subfield code="a">Amsterdam ;</subfield><subfield code="a">Boston :</subfield><subfield code="b">Elsevier/Newnes,</subfield><subfield code="c">©2007.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (xviii, 424 pages) :</subfield><subfield code="b">illustrations</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="490" ind1="1" ind2=" "><subfield code="a">Communications engineering series</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">A majority of people now have a digital mobile device whether it be a cell phone, laptop, or blackberry. Now that we have the mobility we want it to be more versatile and dependable; RF power amplifiers accomplish just that. These amplifiers take a small input and make it stronger and larger creating a wider area of use with a more robust signal. Switching mode RF amplifiers have been theoretically possible for decades, but were largely impractical because they distort analog signals until they are unrecognizable. However, distortion is not an issue with digital signalslike those used by WLANs and digital cell phonesand switching mode RF amplifiers have become a hot area of RF/wireless design. This book explores both the theory behind switching mode RF amplifiers and design techniques for them. *Provides essential design and implementation techniques for use in cma2000, WiMAX, and other digital mobile standards *Both authors have written several articles on the topic and are well known in the industry *Includes specific design equations to greatly simplify the design of switchmode amplifiers.</subfield></datafield><datafield tag="504" ind1=" " ind2=" "><subfield code="a">Includes bibliographical references and index.</subfield></datafield><datafield tag="588" ind1="0" ind2=" "><subfield code="a">Print version record.</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Cover -- Table of Contents -- About Andrei Grebennikov -- About Nathan O. Sokal -- Preface -- Acknowledgments -- Chapter 1: Power-Amplifier Design Principles -- 1.1 Spectral-Domain Analysis -- 1.2 Basic Classes of Operation: A, AB, B, and C -- 1.3 Active Device Models -- 1.4 High-Frequency Conduction Angle -- 1.5 Nonlinear Effect of Collector Capacitance -- 1.6 Push-Pull Power Amplifiers -- 1.7 Power Gain and Stability -- 1.8 Parametric Oscillations -- References -- Chapter 2: Class-D Power Amplifiers -- 2.1 Switched-Mode Power Amplifiers with Resistive Load -- 2.2 Complementary Voltage-Switching Configuration -- 2.3 Transformer-Coupled Voltage-Switching Configuration -- 2.4 Symmetrical Current-Switching Configuration -- 2.5 Transformer-Coupled Current-Switching Configuration -- 2.6 Voltage-Switching Configuration with Reactive Load -- 2.7 Drive and Transition Time -- 2.8 Practical Class-D Power Amplifier Implementation -- References -- Chapter 3: Class-F Power Amplifiers -- 3.1 Biharmonic Operation Mode -- 3.2 Idealized Class-F Mode -- 3.3 Class F with Maximally Flat Waveforms -- 3.4 Class F with Quarter-wave Transmission Line -- 3.5 Effect of Saturation Resistance and Shunt Capacitance -- 3.6 Load Networks with Lumped Elements -- 3.7 Load Networks with Transmission Lines -- 3.8 LDMOSFET Power-Amplifier Design Examples -- 3.9 Practical RF and Microwave Class-F Power Amplifiers -- References -- Chapter 4: Inverse Class F -- 4.1 Biharmonic Operation Mode -- 4.2 Idealized Inverse Class-F Mode -- 4.3 Inverse Class F with Quarter-wave Transmission Line -- 4.4 Load Networks with Lumped Elements -- 4.5 Load Networks with Transmission Lines -- 4.6 LDMOSFET Power-Amplifier Design Examples -- 4.7 Practical Implementation -- References -- Chapter 5: Class E with Shunt Capacitance -- 5.1 Effect of Detuned Resonant Circuit -- 5.2 Load Network with Shunt Capacitor and Series Filter -- 5.3 Matching with Standard Load -- 5.4 Effect of Saturation Resistance -- 5.5 Driving Signal and Finite Switching Time -- 5.6 Effect of Nonlinear Shunt Capacitance -- 5.7 Push-Pull Operation Mode -- 5.8 Load Network with Transmission Lines -- 5.9 Practical RF and Microwave Class-E Power Amplifiers and Applications -- References -- Chapter 6: Class E with Finite dc-Feed Inductance -- 6.1 Class E with One Capacitor and One Inductor -- 6.2 Generalized Class-E Load Network with Finite dc-Feed Inductance -- 6.3 Subharmonic Class E -- 6.4 Parallel-Circuit Class E -- 6.5 Even-Harmonic Class E -- 6.6 Effect of Bondwire Inductance -- 6.7 Load Network with Transmission Lines -- 6.8 Broadband Class E -- 6.9 Power Gain -- 6.10 CMOS Class-E Power Amplifiers -- References -- Chapter 7: Class E with Quarter-wave Transmission Line -- 7.1 Load Network with Parallel Quarter-wave Line -- 7.2 Optimum Load Network Parameters -- 7.3 Load Network with Zero Series Reactance -- 7.4 Matching Circuit with Lumped Elements -- 7.5 Matching Circui.</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Power amplifiers.</subfield><subfield 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| id | ZDB-4-EBA-ocn162593827 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:16:07Z |
| institution | BVB |
| isbn | 9780750679626 075067962X 9780080550640 0080550649 |
| language | English |
| oclc_num | 162593827 |
| open_access_boolean | |
| owner | MAIN DE-863 DE-BY-FWS |
| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource (xviii, 424 pages) : illustrations |
| psigel | ZDB-4-EBA |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Elsevier/Newnes, |
| record_format | marc |
| series | Communications engineering series. |
| series2 | Communications engineering series |
| spelling | Grebennikov, Andrei, 1956- https://id.oclc.org/worldcat/entity/E39PCjJ766M79C4QkKGtQ3fCV3 http://id.loc.gov/authorities/names/n2002016746 Switchmode RF power amplifiers / Andrei Grebennikov, Nathan O. Sokal. Amsterdam ; Boston : Elsevier/Newnes, ©2007. 1 online resource (xviii, 424 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Communications engineering series A majority of people now have a digital mobile device whether it be a cell phone, laptop, or blackberry. Now that we have the mobility we want it to be more versatile and dependable; RF power amplifiers accomplish just that. These amplifiers take a small input and make it stronger and larger creating a wider area of use with a more robust signal. Switching mode RF amplifiers have been theoretically possible for decades, but were largely impractical because they distort analog signals until they are unrecognizable. However, distortion is not an issue with digital signalslike those used by WLANs and digital cell phonesand switching mode RF amplifiers have become a hot area of RF/wireless design. This book explores both the theory behind switching mode RF amplifiers and design techniques for them. *Provides essential design and implementation techniques for use in cma2000, WiMAX, and other digital mobile standards *Both authors have written several articles on the topic and are well known in the industry *Includes specific design equations to greatly simplify the design of switchmode amplifiers. Includes bibliographical references and index. Print version record. Cover -- Table of Contents -- About Andrei Grebennikov -- About Nathan O. Sokal -- Preface -- Acknowledgments -- Chapter 1: Power-Amplifier Design Principles -- 1.1 Spectral-Domain Analysis -- 1.2 Basic Classes of Operation: A, AB, B, and C -- 1.3 Active Device Models -- 1.4 High-Frequency Conduction Angle -- 1.5 Nonlinear Effect of Collector Capacitance -- 1.6 Push-Pull Power Amplifiers -- 1.7 Power Gain and Stability -- 1.8 Parametric Oscillations -- References -- Chapter 2: Class-D Power Amplifiers -- 2.1 Switched-Mode Power Amplifiers with Resistive Load -- 2.2 Complementary Voltage-Switching Configuration -- 2.3 Transformer-Coupled Voltage-Switching Configuration -- 2.4 Symmetrical Current-Switching Configuration -- 2.5 Transformer-Coupled Current-Switching Configuration -- 2.6 Voltage-Switching Configuration with Reactive Load -- 2.7 Drive and Transition Time -- 2.8 Practical Class-D Power Amplifier Implementation -- References -- Chapter 3: Class-F Power Amplifiers -- 3.1 Biharmonic Operation Mode -- 3.2 Idealized Class-F Mode -- 3.3 Class F with Maximally Flat Waveforms -- 3.4 Class F with Quarter-wave Transmission Line -- 3.5 Effect of Saturation Resistance and Shunt Capacitance -- 3.6 Load Networks with Lumped Elements -- 3.7 Load Networks with Transmission Lines -- 3.8 LDMOSFET Power-Amplifier Design Examples -- 3.9 Practical RF and Microwave Class-F Power Amplifiers -- References -- Chapter 4: Inverse Class F -- 4.1 Biharmonic Operation Mode -- 4.2 Idealized Inverse Class-F Mode -- 4.3 Inverse Class F with Quarter-wave Transmission Line -- 4.4 Load Networks with Lumped Elements -- 4.5 Load Networks with Transmission Lines -- 4.6 LDMOSFET Power-Amplifier Design Examples -- 4.7 Practical Implementation -- References -- Chapter 5: Class E with Shunt Capacitance -- 5.1 Effect of Detuned Resonant Circuit -- 5.2 Load Network with Shunt Capacitor and Series Filter -- 5.3 Matching with Standard Load -- 5.4 Effect of Saturation Resistance -- 5.5 Driving Signal and Finite Switching Time -- 5.6 Effect of Nonlinear Shunt Capacitance -- 5.7 Push-Pull Operation Mode -- 5.8 Load Network with Transmission Lines -- 5.9 Practical RF and Microwave Class-E Power Amplifiers and Applications -- References -- Chapter 6: Class E with Finite dc-Feed Inductance -- 6.1 Class E with One Capacitor and One Inductor -- 6.2 Generalized Class-E Load Network with Finite dc-Feed Inductance -- 6.3 Subharmonic Class E -- 6.4 Parallel-Circuit Class E -- 6.5 Even-Harmonic Class E -- 6.6 Effect of Bondwire Inductance -- 6.7 Load Network with Transmission Lines -- 6.8 Broadband Class E -- 6.9 Power Gain -- 6.10 CMOS Class-E Power Amplifiers -- References -- Chapter 7: Class E with Quarter-wave Transmission Line -- 7.1 Load Network with Parallel Quarter-wave Line -- 7.2 Optimum Load Network Parameters -- 7.3 Load Network with Zero Series Reactance -- 7.4 Matching Circuit with Lumped Elements -- 7.5 Matching Circui. Power amplifiers. http://id.loc.gov/authorities/subjects/sh85105977 Microwave amplifiers. http://id.loc.gov/authorities/subjects/sh85084952 Amplificateurs de puissance. Amplificateurs micro-ondes. TECHNOLOGY & ENGINEERING Electronics Circuits General. bisacsh TECHNOLOGY & ENGINEERING Electronics Circuits Integrated. bisacsh Microwave amplifiers fast Power amplifiers fast Sokal, Nathan O. https://id.oclc.org/worldcat/entity/E39PBJy8t79gV6GhBqc3KbXfMP http://id.loc.gov/authorities/names/n90704381 has work: Switchmode RF power amplifiers (Text) https://id.oclc.org/worldcat/entity/E39PCGY9thKWFmvpRjMK3kVVyb https://id.oclc.org/worldcat/ontology/hasWork Print version: Grebennikov, Andrei, 1956- Switchmode RF power amplifiers. Amsterdam ; Boston : Elsevier/Newnes, ©2007 9780750679626 075067962X (DLC) 2007017121 (OCoLC)137324976 Communications engineering series. http://id.loc.gov/authorities/names/no2004015741 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=205482 Volltext FWS01 ZDB-4-EBA FWS_PDA_EBA https://www.sciencedirect.com/science/book/9780750679626 Volltext |
| spellingShingle | Grebennikov, Andrei, 1956- Switchmode RF power amplifiers / Communications engineering series. Cover -- Table of Contents -- About Andrei Grebennikov -- About Nathan O. Sokal -- Preface -- Acknowledgments -- Chapter 1: Power-Amplifier Design Principles -- 1.1 Spectral-Domain Analysis -- 1.2 Basic Classes of Operation: A, AB, B, and C -- 1.3 Active Device Models -- 1.4 High-Frequency Conduction Angle -- 1.5 Nonlinear Effect of Collector Capacitance -- 1.6 Push-Pull Power Amplifiers -- 1.7 Power Gain and Stability -- 1.8 Parametric Oscillations -- References -- Chapter 2: Class-D Power Amplifiers -- 2.1 Switched-Mode Power Amplifiers with Resistive Load -- 2.2 Complementary Voltage-Switching Configuration -- 2.3 Transformer-Coupled Voltage-Switching Configuration -- 2.4 Symmetrical Current-Switching Configuration -- 2.5 Transformer-Coupled Current-Switching Configuration -- 2.6 Voltage-Switching Configuration with Reactive Load -- 2.7 Drive and Transition Time -- 2.8 Practical Class-D Power Amplifier Implementation -- References -- Chapter 3: Class-F Power Amplifiers -- 3.1 Biharmonic Operation Mode -- 3.2 Idealized Class-F Mode -- 3.3 Class F with Maximally Flat Waveforms -- 3.4 Class F with Quarter-wave Transmission Line -- 3.5 Effect of Saturation Resistance and Shunt Capacitance -- 3.6 Load Networks with Lumped Elements -- 3.7 Load Networks with Transmission Lines -- 3.8 LDMOSFET Power-Amplifier Design Examples -- 3.9 Practical RF and Microwave Class-F Power Amplifiers -- References -- Chapter 4: Inverse Class F -- 4.1 Biharmonic Operation Mode -- 4.2 Idealized Inverse Class-F Mode -- 4.3 Inverse Class F with Quarter-wave Transmission Line -- 4.4 Load Networks with Lumped Elements -- 4.5 Load Networks with Transmission Lines -- 4.6 LDMOSFET Power-Amplifier Design Examples -- 4.7 Practical Implementation -- References -- Chapter 5: Class E with Shunt Capacitance -- 5.1 Effect of Detuned Resonant Circuit -- 5.2 Load Network with Shunt Capacitor and Series Filter -- 5.3 Matching with Standard Load -- 5.4 Effect of Saturation Resistance -- 5.5 Driving Signal and Finite Switching Time -- 5.6 Effect of Nonlinear Shunt Capacitance -- 5.7 Push-Pull Operation Mode -- 5.8 Load Network with Transmission Lines -- 5.9 Practical RF and Microwave Class-E Power Amplifiers and Applications -- References -- Chapter 6: Class E with Finite dc-Feed Inductance -- 6.1 Class E with One Capacitor and One Inductor -- 6.2 Generalized Class-E Load Network with Finite dc-Feed Inductance -- 6.3 Subharmonic Class E -- 6.4 Parallel-Circuit Class E -- 6.5 Even-Harmonic Class E -- 6.6 Effect of Bondwire Inductance -- 6.7 Load Network with Transmission Lines -- 6.8 Broadband Class E -- 6.9 Power Gain -- 6.10 CMOS Class-E Power Amplifiers -- References -- Chapter 7: Class E with Quarter-wave Transmission Line -- 7.1 Load Network with Parallel Quarter-wave Line -- 7.2 Optimum Load Network Parameters -- 7.3 Load Network with Zero Series Reactance -- 7.4 Matching Circuit with Lumped Elements -- 7.5 Matching Circui. Power amplifiers. http://id.loc.gov/authorities/subjects/sh85105977 Microwave amplifiers. http://id.loc.gov/authorities/subjects/sh85084952 Amplificateurs de puissance. Amplificateurs micro-ondes. TECHNOLOGY & ENGINEERING Electronics Circuits General. bisacsh TECHNOLOGY & ENGINEERING Electronics Circuits Integrated. bisacsh Microwave amplifiers fast Power amplifiers fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85105977 http://id.loc.gov/authorities/subjects/sh85084952 |
| title | Switchmode RF power amplifiers / |
| title_auth | Switchmode RF power amplifiers / |
| title_exact_search | Switchmode RF power amplifiers / |
| title_full | Switchmode RF power amplifiers / Andrei Grebennikov, Nathan O. Sokal. |
| title_fullStr | Switchmode RF power amplifiers / Andrei Grebennikov, Nathan O. Sokal. |
| title_full_unstemmed | Switchmode RF power amplifiers / Andrei Grebennikov, Nathan O. Sokal. |
| title_short | Switchmode RF power amplifiers / |
| title_sort | switchmode rf power amplifiers |
| topic | Power amplifiers. http://id.loc.gov/authorities/subjects/sh85105977 Microwave amplifiers. http://id.loc.gov/authorities/subjects/sh85084952 Amplificateurs de puissance. Amplificateurs micro-ondes. TECHNOLOGY & ENGINEERING Electronics Circuits General. bisacsh TECHNOLOGY & ENGINEERING Electronics Circuits Integrated. bisacsh Microwave amplifiers fast Power amplifiers fast |
| topic_facet | Power amplifiers. Microwave amplifiers. Amplificateurs de puissance. Amplificateurs micro-ondes. TECHNOLOGY & ENGINEERING Electronics Circuits General. TECHNOLOGY & ENGINEERING Electronics Circuits Integrated. Microwave amplifiers Power amplifiers |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=205482 https://www.sciencedirect.com/science/book/9780750679626 |
| work_keys_str_mv | AT grebennikovandrei switchmoderfpoweramplifiers AT sokalnathano switchmoderfpoweramplifiers |