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Architectures for RF frequency synthesizers
Architectures for RF frequency synthesizers
Autore Vaucher Cicero S
Pubbl/distr/stampa Boston, MA : , : Springer US, , 2002
Descrizione fisica 1 online resource (XXVI, 250 p. 27 illus.)
Disciplina 621.3815/486
Collana The Kluwer international series in engineering and computer science Architectures for RF frequency synthesizers
Soggetto topico Frequency synthesizers - Design and construction
Radio frequency oscillators
Phase-locked loops
Integrated circuits
Radio frequency integrated circuits
Electrical & Computer Engineering
Engineering & Applied Sciences
Electrical Engineering
Soggetto genere / forma Electronic books.
ISBN 0-306-47955-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Tuning System Specifications -- Single-Loop Architectures -- Wide-Band Tuning System Architectures -- Adaptive PLL Architecture Combining High Spectral Purity and Fast Settling Time -- Architecture and Circuit Design of Programmable Dividers -- Conclusions.
Record Nr. UNINA-9910450040003321
Vaucher Cicero S  
Boston, MA : , : Springer US, , 2002
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Architectures for RF frequency synthesizers
Architectures for RF frequency synthesizers
Autore Vaucher Cicero S
Pubbl/distr/stampa Boston, MA : , : Springer US, , 2002
Descrizione fisica 1 online resource (XXVI, 250 p. 27 illus.)
Disciplina 621.3815/486
Collana The Kluwer international series in engineering and computer science Architectures for RF frequency synthesizers
Soggetto topico Frequency synthesizers - Design and construction
Radio frequency oscillators
Phase-locked loops
Integrated circuits
Radio frequency integrated circuits
Electrical & Computer Engineering
Engineering & Applied Sciences
Electrical Engineering
ISBN 0-306-47955-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Tuning System Specifications -- Single-Loop Architectures -- Wide-Band Tuning System Architectures -- Adaptive PLL Architecture Combining High Spectral Purity and Fast Settling Time -- Architecture and Circuit Design of Programmable Dividers -- Conclusions.
Record Nr. UNINA-9910783114603321
Vaucher Cicero S  
Boston, MA : , : Springer US, , 2002
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Fundamentals of RF circuit design : with low noise oscillators / / Jeremy Everard
Fundamentals of RF circuit design : with low noise oscillators / / Jeremy Everard
Autore Everard J (Jeremy)
Pubbl/distr/stampa Chichester, West Sussex, England : , : John Wiley & Sons, Ltd, , 2001
Descrizione fisica 1 online resource (312 p.)
Disciplina 621.38412
Soggetto topico Radio circuits - Design and construction
Radio frequency oscillators
Electronic noise
ISBN 1-280-62203-2
9786610622030
0-470-84175-3
0-470-85339-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto FUNDAMENTALS OF RF CIRCUIT DESIGN with Low Noise Oscillators; Contents; Preface; Acknowledgements; 1 Transistor and Component Models at Low and High Frequencies; 2 Two Port Network Parameters; 3 Small Signal Amplifier Design and Measurement; 4 Low Noise Oscillators; 5 Mixers; 6 Power Amplifiers; 7 'Real Time' Large Signal Modelling; Index
Record Nr. UNINA-9910142493203321
Everard J (Jeremy)  
Chichester, West Sussex, England : , : John Wiley & Sons, Ltd, , 2001
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Reverberation chambers : theory and applications to EMC and antenna measurements / / Stephen J Boyes, Yi Huang
Reverberation chambers : theory and applications to EMC and antenna measurements / / Stephen J Boyes, Yi Huang
Autore Boyes Stephen J.
Pubbl/distr/stampa West Sussex, England : , : Wiley, , 2016
Descrizione fisica 1 online resource (254 p.)
Disciplina 621.382/4
Soggetto topico Antennas (Electronics) - Design and construction - Technique
Electromagnetic measurements
Radio frequency oscillators
Electromagnetic compatibility
ISBN 1-118-90626-8
1-118-90625-X
1-118-90627-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Title Page; Copyright Page; Contents; About the Authors; Acknowledgements; Chapter 1 Introduction; 1.1 Background; 1.2 This Book; References; Chapter 2 Reverberation Chamber Cavity Theory; 2.1 Introduction; 2.2 Cavity Modes and Electromagnetic Fields; 2.3 Mode Stirring Techniques; 2.3.1 Mechanical Stirring; 2.3.2 Polarisation Stirring; 2.3.3 Platform and Position Stirring; 2.3.4 Frequency Stirring; 2.4 Plane Wave Angle of Arrival; 2.5 Average Mode Bandwidths; 2.6 Chamber Quality (Q) Factor; 2.7 Statistical Forms; 2.7.1 Statistical Methods of Analysis
2.7.2 Statistical Forms of Measured Magnitudes 2.7.3 Statistical Distribution of Complex Samples; 2.7.4 Statistical Distribution of Measured Power; 2.7.5 Statistical Distribution of Measured Phase; 2.7.6 Concluding Remarks and Recommendations; 2.8 Line of Sight Elements; 2.9 Reverberation Chamber as a Radio Propagation Channel; 2.9.1 Channel Parameters; 2.9.2 Coherence Bandwidth; 2.9.3 Doppler Shift Frequency; 2.9.4 Summary; References; Chapter 3 Mechanical Stirrer Designs and Chamber Performance Evaluation; 3.1 Introduction; 3.2 Paddle Design Methodology; 3.3 Numerical Analysis
3.3.1 Effect of the Number of Cuts 3.3.2 Effect of the Periodicity of the Cuts; 3.3.3 Effect of the Shape of the Cuts; 3.3.4 Complex Nature of the Cuts; 3.3.5 Variation in Paddle Dimensions; 3.4 Comments on Practical Validation; 3.5 Measurement Parameters for Validation; 3.6 Measurement Results; 3.6.1 Standard vs New Designs: Unloaded Chamber Uncertainty; 3.6.2 Standard vs New Designs: Loaded Chamber; 3.7 Summary; References; Chapter 4 EMC Measurements inside Reverberation Chambers; 4.1 Introduction to EMC; 4.2 EMC Standards; 4.3 EMC Measurements and Tests
4.4 EMC Measurements Inside Reverberation Chambers 4.4.1 Relevant EMC Standards Using Reverberation Chambers; 4.4.2 Chamber Characterisation; 4.4.3 Radiated Immunity Tests; 4.4.4 Radiated Emission Measurements; 4.4.5 An Example of Radiated Emission Measurements; 4.5 Comparison of Reverberation Chamber and Other Measurement Facilities for EMC Measurements; 4.6 Conclusions; Acknowledgements; References; Chapter 5 Single Port Antenna Measurements; 5.1 Introduction; 5.2 Definitions and Proof: Antenna Efficiency; 5.2.1 Radiation Efficiency; 5.2.2 Total Radiation Efficiency
5.3 Definitions: Textile Antennas 5.4 Measurement Procedures; 5.5 Free Space Measurement Investigation; 5.5.1 Free Space Performance; 5.5.2 General Problems to Avoid; 5.6 On-Body Antenna Measurements; 5.6.1 Chest (0 mm) Body Location Investigation; 5.6.2 Elbow (0 mm) Bent Location Investigation; 5.6.3 Back (0 mm) Body Location Investigation; 5.6.4 Chest 20 mm Body Location Investigation; 5.7 Theoretical and Simulated Evidence; 5.8 Measurement Uncertainty; 5.9 Summary; References; Chapter 6 Multiport and Array Antennas; 6.1 Introduction; 6.2 Multi-port Antennas for MIMO Applications
6.3 Measurement Parameters
Record Nr. UNINA-9910137221903321
Boyes Stephen J.  
West Sussex, England : , : Wiley, , 2016
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Reverberation chambers : theory and applications to EMC and antenna measurements / / Stephen J Boyes, Yi Huang
Reverberation chambers : theory and applications to EMC and antenna measurements / / Stephen J Boyes, Yi Huang
Autore Boyes Stephen J.
Pubbl/distr/stampa West Sussex, England : , : Wiley, , 2016
Descrizione fisica 1 online resource (254 p.)
Disciplina 621.382/4
Soggetto topico Antennas (Electronics) - Design and construction - Technique
Electromagnetic measurements
Radio frequency oscillators
Electromagnetic compatibility
ISBN 1-118-90626-8
1-118-90625-X
1-118-90627-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Title Page; Copyright Page; Contents; About the Authors; Acknowledgements; Chapter 1 Introduction; 1.1 Background; 1.2 This Book; References; Chapter 2 Reverberation Chamber Cavity Theory; 2.1 Introduction; 2.2 Cavity Modes and Electromagnetic Fields; 2.3 Mode Stirring Techniques; 2.3.1 Mechanical Stirring; 2.3.2 Polarisation Stirring; 2.3.3 Platform and Position Stirring; 2.3.4 Frequency Stirring; 2.4 Plane Wave Angle of Arrival; 2.5 Average Mode Bandwidths; 2.6 Chamber Quality (Q) Factor; 2.7 Statistical Forms; 2.7.1 Statistical Methods of Analysis
2.7.2 Statistical Forms of Measured Magnitudes 2.7.3 Statistical Distribution of Complex Samples; 2.7.4 Statistical Distribution of Measured Power; 2.7.5 Statistical Distribution of Measured Phase; 2.7.6 Concluding Remarks and Recommendations; 2.8 Line of Sight Elements; 2.9 Reverberation Chamber as a Radio Propagation Channel; 2.9.1 Channel Parameters; 2.9.2 Coherence Bandwidth; 2.9.3 Doppler Shift Frequency; 2.9.4 Summary; References; Chapter 3 Mechanical Stirrer Designs and Chamber Performance Evaluation; 3.1 Introduction; 3.2 Paddle Design Methodology; 3.3 Numerical Analysis
3.3.1 Effect of the Number of Cuts 3.3.2 Effect of the Periodicity of the Cuts; 3.3.3 Effect of the Shape of the Cuts; 3.3.4 Complex Nature of the Cuts; 3.3.5 Variation in Paddle Dimensions; 3.4 Comments on Practical Validation; 3.5 Measurement Parameters for Validation; 3.6 Measurement Results; 3.6.1 Standard vs New Designs: Unloaded Chamber Uncertainty; 3.6.2 Standard vs New Designs: Loaded Chamber; 3.7 Summary; References; Chapter 4 EMC Measurements inside Reverberation Chambers; 4.1 Introduction to EMC; 4.2 EMC Standards; 4.3 EMC Measurements and Tests
4.4 EMC Measurements Inside Reverberation Chambers 4.4.1 Relevant EMC Standards Using Reverberation Chambers; 4.4.2 Chamber Characterisation; 4.4.3 Radiated Immunity Tests; 4.4.4 Radiated Emission Measurements; 4.4.5 An Example of Radiated Emission Measurements; 4.5 Comparison of Reverberation Chamber and Other Measurement Facilities for EMC Measurements; 4.6 Conclusions; Acknowledgements; References; Chapter 5 Single Port Antenna Measurements; 5.1 Introduction; 5.2 Definitions and Proof: Antenna Efficiency; 5.2.1 Radiation Efficiency; 5.2.2 Total Radiation Efficiency
5.3 Definitions: Textile Antennas 5.4 Measurement Procedures; 5.5 Free Space Measurement Investigation; 5.5.1 Free Space Performance; 5.5.2 General Problems to Avoid; 5.6 On-Body Antenna Measurements; 5.6.1 Chest (0 mm) Body Location Investigation; 5.6.2 Elbow (0 mm) Bent Location Investigation; 5.6.3 Back (0 mm) Body Location Investigation; 5.6.4 Chest 20 mm Body Location Investigation; 5.7 Theoretical and Simulated Evidence; 5.8 Measurement Uncertainty; 5.9 Summary; References; Chapter 6 Multiport and Array Antennas; 6.1 Introduction; 6.2 Multi-port Antennas for MIMO Applications
6.3 Measurement Parameters
Record Nr. UNINA-9910813469203321
Boyes Stephen J.  
West Sussex, England : , : Wiley, , 2016
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
RF and microwave oscillator design / / Micha± Odyniec, editor
RF and microwave oscillator design / / Micha± Odyniec, editor
Autore Odyniec Micha
Pubbl/distr/stampa Boston : , : Artech House, , ©2002
Descrizione fisica 1 online resource (414 p.)
Disciplina 621.38412
Altri autori (Persone) OdyniecMicha±
Collana Artech House microwave library
Soggetto topico Radio frequency oscillators
Soggetto genere / forma Electronic books.
ISBN 1-58053-768-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto RF and Mircowave Oscillator Design; Contents v; Preface xi; Acknowledgments xv; 1 Development of Mircowave Oscillator Theory 1; 2 Methods of Oscillator Design 15; 3 Linearity, Time Variation, and Oscillator Phase Noise 59; 4 High-Frequency Oscillator Circuit Design 93; 5 Modern Harmonic-Balance Techniques for Oscillator Analysis and Optimization 245; About the Authors 377; Index 383
Record Nr. UNINA-9910456240803321
Odyniec Micha
Boston : , : Artech House, , ©2002
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
RF and microwave oscillator design / / Micha± Odyniec, editor
RF and microwave oscillator design / / Micha± Odyniec, editor
Autore Odyniec Micha
Pubbl/distr/stampa Boston : , : Artech House, , ©2002
Descrizione fisica 1 online resource (414 p.)
Disciplina 621.38412
Altri autori (Persone) OdyniecMicha±
Collana Artech House microwave library
Soggetto topico Radio frequency oscillators
ISBN 1-58053-768-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto RF and Mircowave Oscillator Design; Contents v; Preface xi; Acknowledgments xv; 1 Development of Mircowave Oscillator Theory 1; 2 Methods of Oscillator Design 15; 3 Linearity, Time Variation, and Oscillator Phase Noise 59; 4 High-Frequency Oscillator Circuit Design 93; 5 Modern Harmonic-Balance Techniques for Oscillator Analysis and Optimization 245; About the Authors 377; Index 383
Record Nr. UNINA-9910780483603321
Odyniec Micha  
Boston : , : Artech House, , ©2002
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
RF and microwave transistor oscillator design [[electronic resource] /] / Andrei Grebennikov
RF and microwave transistor oscillator design [[electronic resource] /] / Andrei Grebennikov
Autore Grebennikov Andrei <1956->
Pubbl/distr/stampa Chichester ; ; Hoboken, N.J., : John Wiley, c2007
Descrizione fisica 1 online resource (457 p.)
Disciplina 621.38133
621.38412
Soggetto topico Microwave transistors
Radio frequency oscillators
Oscillators, Transistor
Soggetto genere / forma Electronic books.
ISBN 1-280-85601-7
9786610856015
0-470-51209-1
1-60119-522-2
0-470-51208-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; About the Author; Preface; Acknowledgements; 1 Nonlinear circuit design methods; 1.1 SPECTRAL-DOMAIN ANALYSIS; 1.1.1 Trigonometric identities; 1.1.2 Piecewise-linear approximation; 1.1.3 Bessel functions; 1.2 TIME-DOMAIN ANALYSIS; 1.3 NEWTON-RAPHSON ALGORITHM; 1.4 QUASILINEAR METHOD; 1.5 VAN DER POL METHOD; 1.6 COMPUTER-AIDED ANALYSIS AND DESIGN; REFERENCES; 2 Oscillator operation and design principles; 2.1 STEADY-STATE OPERATION MODE; 2.2 START-UP CONDITIONS; 2.3 OSCILLATOR CONFIGURATIONS AND HISTORICAL ASPECTS; 2.4 SELF-BIAS CONDITION
2.5 OSCILLATOR ANALYSIS USING MATRIX TECHNIQUES2.5.1 Parallel feedback oscillator; 2.5.2 Series feedback oscillator; 2.6 DUAL TRANSISTOR OSCILLATORS; 2.7 TRANSMISSION-LINE OSCILLATOR; 2.8 PUSH-PUSH OSCILLATOR; 2.9 TRIPLE-PUSH OSCILLATOR; 2.10 OSCILLATOR WITH DELAY LINE; REFERENCES; 3 Stability of self-oscillations; 3.1 NEGATIVE-RESISTANCE OSCILLATOR CIRCUITS; 3.2 GENERAL SINGLE-FREQUENCY STABILITY CONDITION; 3.3 SINGLE-RESONANT CIRCUIT OSCILLATORS; 3.3.1 Series resonant circuit oscillator with constant load; 3.3.2 Parallel resonant circuit oscillator with nonlinear load
3.4 DOUBLE-RESONANT CIRCUIT OSCILLATOR3.5 STABILITY OF MULTI-RESONANT CIRCUITS; 3.5.1 General multi-frequency stability criterion; 3.5.2 Two-frequency oscillation mode and its stability; 3.5.3 Single-frequency stability of oscillator with two coupled resonant circuits; 3.5.4 Transistor oscillators with two coupled resonant circuits; 3.6 PHASE PLANE METHOD; 3.6.1 Free-running oscillations in lossless resonant LC circuits; 3.6.2 Oscillations in lossy resonant LC circuits; 3.6.3 Aperiodic process in lossy resonant LC circuits; 3.6.4 Transformer-coupled MOSFET oscillator
3.7 NYQUIST STABILITY CRITERION3.8 START-UP AND STABILITY; REFERENCES; 4 Optimum design and circuit technique; 4.1 EMPIRICAL OPTIMUM DESIGN APPROACH; 4.2 ANALYTIC OPTIMUM DESIGN APPROACH; 4.3 PARALLEL FEEDBACK OSCILLATORS; 4.3.1 Optimum oscillation condition; 4.3.2 Optimum MOSFET oscillator; 4.4 SERIES FEEDBACK BIPOLAR OSCILLATORS; 4.4.1 Optimum oscillation condition; 4.4.2 Optimum common base oscillator; 4.4.3 Quasilinear approach [23]; 4.4.4 Computer-aided design [24]; 4.5 SERIES FEEDBACK MESFET OSCILLATORS; 4.5.1 Optimum common gate oscillator; 4.5.2 Quasilinear approach [15]
4.5.3 Computer-aided design [28]4.6 HIGH-EFFICIENCY DESIGN TECHNIQUE; 4.6.1 Class C operation mode; 4.6.2 Class E power oscillators; 4.6.3 Class DE power oscillators; 4.6.4 Class F mode and harmonic tuning; 4.7 PRACTICAL OSCILLATOR SCHEMATICS; REFERENCES; 5 Noise in oscillators; 5.1 NOISE FIGURE; 5.2 FLICKER NOISE; 5.3 ACTIVE DEVICE NOISE MODELLING; 5.3.1 MOSFET devices; 5.3.2 MESFET devices; 5.3.3 Bipolar transistors; 5.4 OSCILLATOR NOISE SPECTRUM: LINEAR MODEL; 5.4.1 Parallel feedback oscillator; 5.4.2 Negative resistance oscillator; 5.4.3 Colpitts oscillator
5.5 OSCILLATOR NOISE SPECTRUM: NONLINEAR MODEL
Record Nr. UNINA-9910143583803321
Grebennikov Andrei <1956->  
Chichester ; ; Hoboken, N.J., : John Wiley, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
RF and microwave transistor oscillator design [[electronic resource] /] / Andrei Grebennikov
RF and microwave transistor oscillator design [[electronic resource] /] / Andrei Grebennikov
Autore Grebennikov Andrei <1956->
Pubbl/distr/stampa Chichester ; ; Hoboken, N.J., : John Wiley, c2007
Descrizione fisica 1 online resource (457 p.)
Disciplina 621.38133
621.38412
Soggetto topico Microwave transistors
Radio frequency oscillators
Oscillators, Transistor
ISBN 1-280-85601-7
9786610856015
0-470-51209-1
1-60119-522-2
0-470-51208-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; About the Author; Preface; Acknowledgements; 1 Nonlinear circuit design methods; 1.1 SPECTRAL-DOMAIN ANALYSIS; 1.1.1 Trigonometric identities; 1.1.2 Piecewise-linear approximation; 1.1.3 Bessel functions; 1.2 TIME-DOMAIN ANALYSIS; 1.3 NEWTON-RAPHSON ALGORITHM; 1.4 QUASILINEAR METHOD; 1.5 VAN DER POL METHOD; 1.6 COMPUTER-AIDED ANALYSIS AND DESIGN; REFERENCES; 2 Oscillator operation and design principles; 2.1 STEADY-STATE OPERATION MODE; 2.2 START-UP CONDITIONS; 2.3 OSCILLATOR CONFIGURATIONS AND HISTORICAL ASPECTS; 2.4 SELF-BIAS CONDITION
2.5 OSCILLATOR ANALYSIS USING MATRIX TECHNIQUES2.5.1 Parallel feedback oscillator; 2.5.2 Series feedback oscillator; 2.6 DUAL TRANSISTOR OSCILLATORS; 2.7 TRANSMISSION-LINE OSCILLATOR; 2.8 PUSH-PUSH OSCILLATOR; 2.9 TRIPLE-PUSH OSCILLATOR; 2.10 OSCILLATOR WITH DELAY LINE; REFERENCES; 3 Stability of self-oscillations; 3.1 NEGATIVE-RESISTANCE OSCILLATOR CIRCUITS; 3.2 GENERAL SINGLE-FREQUENCY STABILITY CONDITION; 3.3 SINGLE-RESONANT CIRCUIT OSCILLATORS; 3.3.1 Series resonant circuit oscillator with constant load; 3.3.2 Parallel resonant circuit oscillator with nonlinear load
3.4 DOUBLE-RESONANT CIRCUIT OSCILLATOR3.5 STABILITY OF MULTI-RESONANT CIRCUITS; 3.5.1 General multi-frequency stability criterion; 3.5.2 Two-frequency oscillation mode and its stability; 3.5.3 Single-frequency stability of oscillator with two coupled resonant circuits; 3.5.4 Transistor oscillators with two coupled resonant circuits; 3.6 PHASE PLANE METHOD; 3.6.1 Free-running oscillations in lossless resonant LC circuits; 3.6.2 Oscillations in lossy resonant LC circuits; 3.6.3 Aperiodic process in lossy resonant LC circuits; 3.6.4 Transformer-coupled MOSFET oscillator
3.7 NYQUIST STABILITY CRITERION3.8 START-UP AND STABILITY; REFERENCES; 4 Optimum design and circuit technique; 4.1 EMPIRICAL OPTIMUM DESIGN APPROACH; 4.2 ANALYTIC OPTIMUM DESIGN APPROACH; 4.3 PARALLEL FEEDBACK OSCILLATORS; 4.3.1 Optimum oscillation condition; 4.3.2 Optimum MOSFET oscillator; 4.4 SERIES FEEDBACK BIPOLAR OSCILLATORS; 4.4.1 Optimum oscillation condition; 4.4.2 Optimum common base oscillator; 4.4.3 Quasilinear approach [23]; 4.4.4 Computer-aided design [24]; 4.5 SERIES FEEDBACK MESFET OSCILLATORS; 4.5.1 Optimum common gate oscillator; 4.5.2 Quasilinear approach [15]
4.5.3 Computer-aided design [28]4.6 HIGH-EFFICIENCY DESIGN TECHNIQUE; 4.6.1 Class C operation mode; 4.6.2 Class E power oscillators; 4.6.3 Class DE power oscillators; 4.6.4 Class F mode and harmonic tuning; 4.7 PRACTICAL OSCILLATOR SCHEMATICS; REFERENCES; 5 Noise in oscillators; 5.1 NOISE FIGURE; 5.2 FLICKER NOISE; 5.3 ACTIVE DEVICE NOISE MODELLING; 5.3.1 MOSFET devices; 5.3.2 MESFET devices; 5.3.3 Bipolar transistors; 5.4 OSCILLATOR NOISE SPECTRUM: LINEAR MODEL; 5.4.1 Parallel feedback oscillator; 5.4.2 Negative resistance oscillator; 5.4.3 Colpitts oscillator
5.5 OSCILLATOR NOISE SPECTRUM: NONLINEAR MODEL
Record Nr. UNINA-9910830356403321
Grebennikov Andrei <1956->  
Chichester ; ; Hoboken, N.J., : John Wiley, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
RF and microwave transistor oscillator design / / Andrei Grebennikov
RF and microwave transistor oscillator design / / Andrei Grebennikov
Autore Grebennikov Andrei <1956->
Pubbl/distr/stampa Chichester ; ; Hoboken, N.J., : John Wiley, c2007
Descrizione fisica 1 online resource (457 p.)
Disciplina 621.38133
Soggetto topico Microwave transistors
Radio frequency oscillators
Oscillators, Transistor
ISBN 1-280-85601-7
9786610856015
0-470-51209-1
1-60119-522-2
0-470-51208-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; About the Author; Preface; Acknowledgements; 1 Nonlinear circuit design methods; 1.1 SPECTRAL-DOMAIN ANALYSIS; 1.1.1 Trigonometric identities; 1.1.2 Piecewise-linear approximation; 1.1.3 Bessel functions; 1.2 TIME-DOMAIN ANALYSIS; 1.3 NEWTON-RAPHSON ALGORITHM; 1.4 QUASILINEAR METHOD; 1.5 VAN DER POL METHOD; 1.6 COMPUTER-AIDED ANALYSIS AND DESIGN; REFERENCES; 2 Oscillator operation and design principles; 2.1 STEADY-STATE OPERATION MODE; 2.2 START-UP CONDITIONS; 2.3 OSCILLATOR CONFIGURATIONS AND HISTORICAL ASPECTS; 2.4 SELF-BIAS CONDITION
2.5 OSCILLATOR ANALYSIS USING MATRIX TECHNIQUES2.5.1 Parallel feedback oscillator; 2.5.2 Series feedback oscillator; 2.6 DUAL TRANSISTOR OSCILLATORS; 2.7 TRANSMISSION-LINE OSCILLATOR; 2.8 PUSH-PUSH OSCILLATOR; 2.9 TRIPLE-PUSH OSCILLATOR; 2.10 OSCILLATOR WITH DELAY LINE; REFERENCES; 3 Stability of self-oscillations; 3.1 NEGATIVE-RESISTANCE OSCILLATOR CIRCUITS; 3.2 GENERAL SINGLE-FREQUENCY STABILITY CONDITION; 3.3 SINGLE-RESONANT CIRCUIT OSCILLATORS; 3.3.1 Series resonant circuit oscillator with constant load; 3.3.2 Parallel resonant circuit oscillator with nonlinear load
3.4 DOUBLE-RESONANT CIRCUIT OSCILLATOR3.5 STABILITY OF MULTI-RESONANT CIRCUITS; 3.5.1 General multi-frequency stability criterion; 3.5.2 Two-frequency oscillation mode and its stability; 3.5.3 Single-frequency stability of oscillator with two coupled resonant circuits; 3.5.4 Transistor oscillators with two coupled resonant circuits; 3.6 PHASE PLANE METHOD; 3.6.1 Free-running oscillations in lossless resonant LC circuits; 3.6.2 Oscillations in lossy resonant LC circuits; 3.6.3 Aperiodic process in lossy resonant LC circuits; 3.6.4 Transformer-coupled MOSFET oscillator
3.7 NYQUIST STABILITY CRITERION3.8 START-UP AND STABILITY; REFERENCES; 4 Optimum design and circuit technique; 4.1 EMPIRICAL OPTIMUM DESIGN APPROACH; 4.2 ANALYTIC OPTIMUM DESIGN APPROACH; 4.3 PARALLEL FEEDBACK OSCILLATORS; 4.3.1 Optimum oscillation condition; 4.3.2 Optimum MOSFET oscillator; 4.4 SERIES FEEDBACK BIPOLAR OSCILLATORS; 4.4.1 Optimum oscillation condition; 4.4.2 Optimum common base oscillator; 4.4.3 Quasilinear approach [23]; 4.4.4 Computer-aided design [24]; 4.5 SERIES FEEDBACK MESFET OSCILLATORS; 4.5.1 Optimum common gate oscillator; 4.5.2 Quasilinear approach [15]
4.5.3 Computer-aided design [28]4.6 HIGH-EFFICIENCY DESIGN TECHNIQUE; 4.6.1 Class C operation mode; 4.6.2 Class E power oscillators; 4.6.3 Class DE power oscillators; 4.6.4 Class F mode and harmonic tuning; 4.7 PRACTICAL OSCILLATOR SCHEMATICS; REFERENCES; 5 Noise in oscillators; 5.1 NOISE FIGURE; 5.2 FLICKER NOISE; 5.3 ACTIVE DEVICE NOISE MODELLING; 5.3.1 MOSFET devices; 5.3.2 MESFET devices; 5.3.3 Bipolar transistors; 5.4 OSCILLATOR NOISE SPECTRUM: LINEAR MODEL; 5.4.1 Parallel feedback oscillator; 5.4.2 Negative resistance oscillator; 5.4.3 Colpitts oscillator
5.5 OSCILLATOR NOISE SPECTRUM: NONLINEAR MODEL
Record Nr. UNINA-9910877083203321
Grebennikov Andrei <1956->  
Chichester ; ; Hoboken, N.J., : John Wiley, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui