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ESD [[electronic resource] ] : RF technology and circuits / / Steven H. Voldman
ESD [[electronic resource] ] : RF technology and circuits / / Steven H. Voldman
Autore Voldman Steven H
Pubbl/distr/stampa Chichester, West Sussex, England ; ; Hoboken, NJ, : J. Wiley, c2006
Descrizione fisica 1 online resource (422 p.)
Disciplina 621.384
621.38412
Soggetto topico Radio frequency integrated circuits - Design and construction
Radio frequency integrated circuits - Protection
Electrostatics
Electric discharges - Prevention
Static eliminators
ISBN 1-280-72219-3
9786610722198
0-470-06140-5
0-470-06139-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ESD; Contents; Preface; Acknowledgements; Chapter 1 RF DESIGN and ESD; 1.1 Fundamental Concepts of ESD Design; 1.2 Fundamental Concepts of RF ESD Design; 1.3 Key RF ESD Contributions; 1.4 Key RF ESD Patents; 1.5 ESD Failure Mechanisms; 1.5.1 RF CMOS ESD Failure Mechanisms; 1.5.2 Silicon Germanium ESD Failure Mechanisms; 1.5.3 Silicon Germanium Carbon ESD Failure Mechanisms in Silicon Germanium Carbon Devices; 1.5.4 Gallium Arsenide Technology ESD Failure Mechanisms; 1.5.5 Indium Gallium Arsenide ESD Failure Mechanisms; 1.5.6 RF Bipolar Circuits ESD Failure Mechanisms; 1.6 RF Basics
1.7 Two-Port Network Parameters1.7.1 Z-Parameters; 1.7.2 Y-Parameters; 1.7.3. S-Parameters; 1.7.4 T-Parameters; 1.8 Stability: RF Design Stability and ESD; 1.9 Device Degradation and ESD Failure; 1.9.1 ESD-Induced D.C. Parameter Shift and Failure Criteria; 1.9.2 RF Parameters, ESD Degradation, and Failure Criteria; 1.10 RF ESD Testing; 1.10.1 ESD Testing Models; 1.10.2 RF Maximum Power-to-Failure and ESD Pulse Testing Methodology; 1.10.3 ESD-Induced RF Degradation and S-Parameter Evaluation Test Methodology; 1.11 Time Domain Reflectometry (TDR) and Impedance Methodology for ESD Testing
1.11.1 Time Domain Reflectometry (TDR) ESD Test System Evaluation1.11.2 ESD Degradation System Level Method - Eye Tests; 1.12 Product Level ESD Test and RF Functional Parameter Failure; 1.13 Combined RF and ESD TLP Test Systems; 1.14 Closing Comments and Summary; Problems; References; Chapter 2 RF ESD Design; 2.1 ESD Design Methods: Ideal ESD Networks and RF ESD Design Windows; 2.1.1 Ideal ESD Networks and the Current-Voltage d.c. Design Window; 2.1.2 Ideal ESD Networks in the Frequency Domain Design Window; 2.2 RF ESD Design Methods: Linearity
2.3 RF ESD Design: Passive Element Quality Factors and Figures of Merit2.4 RF ESD Design Methods: Method of Substitution; 2.4.1 Method of Substitution of Passive Element to ESD Network Element; 2.4.2 Substitution of ESD Network Element to Passive Element; 2.5 RF ESD Design Methods: Matching Networks and RF ESD Networks; 2.5.1 RF ESD Method - Conversion of Matching Networks to ESD Networks; 2.5.2 RF ESD Method: Conversion of ESD Networks into Matching Networks; 2.5.2.1 Conversion of ESD Networks into L-Match Networks; 2.5.2.2 Conversion of ESD Networks into Pie-Match Networks
2.5.2.3 Conversion of ESD Networks into T-Match Networks2.6 RF ESD Design Methods: Inductive Shunt; 2.7 RF ESD Design Methods: Cancellation Method; 2.7.1 Quality Factors and the Cancellation Method; 2.7.2 Inductive Cancellation of Capacitance Load and Figures of Merit; 2.7.3 Cancellation Method and ESD Circuitry; 2.8 RF ESD Design Methods: Impedance Isolation Technique Using LC Resonator; 2.9 RF ESD Design Methods: Lumped versus Distributed Loads; 2.9.1 RF ESD Distributed Load with Coplanar Wave Guides; 2.9.2 RF ESD Distribution Coplanar Waveguides Analysis Using ABCD Matrices
2.10 ESD RF Design Synthesis and Floor Planning: RF, Analog, and Digital Integration
Record Nr. UNINA-9910830973303321
Voldman Steven H  
Chichester, West Sussex, England ; ; Hoboken, NJ, : J. Wiley, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
ESD : RF technology and circuits / / Steven H. Voldman
ESD : RF technology and circuits / / Steven H. Voldman
Autore Voldman Steven H
Pubbl/distr/stampa Chichester, West Sussex, England ; ; Hoboken, NJ, : J. Wiley, c2006
Descrizione fisica 1 online resource (422 p.)
Disciplina 621.384/12
Soggetto topico Radio frequency integrated circuits - Design and construction
Radio frequency integrated circuits - Protection
Electrostatics
Electric discharges - Prevention
Static eliminators
ISBN 1-280-72219-3
9786610722198
0-470-06140-5
0-470-06139-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ESD; Contents; Preface; Acknowledgements; Chapter 1 RF DESIGN and ESD; 1.1 Fundamental Concepts of ESD Design; 1.2 Fundamental Concepts of RF ESD Design; 1.3 Key RF ESD Contributions; 1.4 Key RF ESD Patents; 1.5 ESD Failure Mechanisms; 1.5.1 RF CMOS ESD Failure Mechanisms; 1.5.2 Silicon Germanium ESD Failure Mechanisms; 1.5.3 Silicon Germanium Carbon ESD Failure Mechanisms in Silicon Germanium Carbon Devices; 1.5.4 Gallium Arsenide Technology ESD Failure Mechanisms; 1.5.5 Indium Gallium Arsenide ESD Failure Mechanisms; 1.5.6 RF Bipolar Circuits ESD Failure Mechanisms; 1.6 RF Basics
1.7 Two-Port Network Parameters1.7.1 Z-Parameters; 1.7.2 Y-Parameters; 1.7.3. S-Parameters; 1.7.4 T-Parameters; 1.8 Stability: RF Design Stability and ESD; 1.9 Device Degradation and ESD Failure; 1.9.1 ESD-Induced D.C. Parameter Shift and Failure Criteria; 1.9.2 RF Parameters, ESD Degradation, and Failure Criteria; 1.10 RF ESD Testing; 1.10.1 ESD Testing Models; 1.10.2 RF Maximum Power-to-Failure and ESD Pulse Testing Methodology; 1.10.3 ESD-Induced RF Degradation and S-Parameter Evaluation Test Methodology; 1.11 Time Domain Reflectometry (TDR) and Impedance Methodology for ESD Testing
1.11.1 Time Domain Reflectometry (TDR) ESD Test System Evaluation1.11.2 ESD Degradation System Level Method - Eye Tests; 1.12 Product Level ESD Test and RF Functional Parameter Failure; 1.13 Combined RF and ESD TLP Test Systems; 1.14 Closing Comments and Summary; Problems; References; Chapter 2 RF ESD Design; 2.1 ESD Design Methods: Ideal ESD Networks and RF ESD Design Windows; 2.1.1 Ideal ESD Networks and the Current-Voltage d.c. Design Window; 2.1.2 Ideal ESD Networks in the Frequency Domain Design Window; 2.2 RF ESD Design Methods: Linearity
2.3 RF ESD Design: Passive Element Quality Factors and Figures of Merit2.4 RF ESD Design Methods: Method of Substitution; 2.4.1 Method of Substitution of Passive Element to ESD Network Element; 2.4.2 Substitution of ESD Network Element to Passive Element; 2.5 RF ESD Design Methods: Matching Networks and RF ESD Networks; 2.5.1 RF ESD Method - Conversion of Matching Networks to ESD Networks; 2.5.2 RF ESD Method: Conversion of ESD Networks into Matching Networks; 2.5.2.1 Conversion of ESD Networks into L-Match Networks; 2.5.2.2 Conversion of ESD Networks into Pie-Match Networks
2.5.2.3 Conversion of ESD Networks into T-Match Networks2.6 RF ESD Design Methods: Inductive Shunt; 2.7 RF ESD Design Methods: Cancellation Method; 2.7.1 Quality Factors and the Cancellation Method; 2.7.2 Inductive Cancellation of Capacitance Load and Figures of Merit; 2.7.3 Cancellation Method and ESD Circuitry; 2.8 RF ESD Design Methods: Impedance Isolation Technique Using LC Resonator; 2.9 RF ESD Design Methods: Lumped versus Distributed Loads; 2.9.1 RF ESD Distributed Load with Coplanar Wave Guides; 2.9.2 RF ESD Distribution Coplanar Waveguides Analysis Using ABCD Matrices
2.10 ESD RF Design Synthesis and Floor Planning: RF, Analog, and Digital Integration
Altri titoli varianti Electrostatic discharge
Record Nr. UNINA-9910877635203321
Voldman Steven H  
Chichester, West Sussex, England ; ; Hoboken, NJ, : J. Wiley, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui