ESD : Analog Circuits and Design.

A comprehensive and in-depth review of analog circuit layout, schematic architecture, device, power network and ESD design This book will provide a balanced overview of analog circuit design layout, analog circuit schematic development, architecture of chips, and ESD design. It will start at an intr...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Voldman, Steven H.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken : Wiley, 2014.
Temas:
Semiconductors > Protection.
Analog integrated circuits > Protection.
Analog integrated circuits > Design and construction.
Electrostatics.
Static eliminators.
Analog electronic systems > Design and construction.
Electric discharges.
Electronic circuit design.
Semi-conducteurs > Protection.
Circuits intégrés analogiques > Protection.
Antistatiques.
antistatic agent.
Electrostatics
Semiconductors > Protection
Static eliminators
Acceso en línea:Texto completo
Tabla de Contenidos:
  • ESD: Analog Circuits and Design; Copyright; Contents; About the Author; Preface; Acknowledgments; Chapter 1 Analog, ESD, and EOS; 1.1 ESD in Analog Design; 1.2 Analog Design Discipline and ESD Circuit Techniques; 1.2.1 Analog Design: Local Matching; 1.2.2 Analog Design: Global Matching; 1.2.3 Symmetry; 1.2.3.1 Layout Symmetry; 1.2.3.2 Thermal Symmetry; 1.2.4 Analog Design: Across Chip Linewidth Variation; 1.3 Design Symmetry and ESD; 1.4 ESD Design Synthesis and Architecture Flow; 1.5 ESD Design and Noise; 1.6 ESD Design Concepts: Adjacency; 1.7 Electrical Overstress.
  • 1.7.1 Electrical Overcurrent1.7.2 Electrical Overvoltage; 1.7.3 Electrical Overstress Events; 1.7.3.1 Characteristic Time Response; 1.7.4 Comparison of EOS versus ESD Waveforms; 1.8 Reliability Technology Scaling and the Reliability Bathtub Curve; 1.8.1 The Shrinking Reliability Design Box; 1.8.2 Application Voltage, Trigger Voltage, and Absolute Maximum Voltage; 1.9 Safe Operating Area; 1.9.1 Electrical Safe Operating Area; 1.9.2 Thermal Safe Operating Area (T-SOA); 1.9.3 Transient Safe Operating Area; 1.10 Closing Comments and Summary; References; Chapter 2 Analog Design Layout.
  • 2.1 Analog Design Layout Revisited2.1.1 Analog Design: Local Matching; 2.1.2 Analog Design: Global Matching; 2.1.3 Symmetry; 2.1.4 Layout Design Symmetry; 2.1.5 Thermal Symmetry; 2.2 Common Centroid Design; 2.2.1 Common Centroid Arrays; 2.2.2 One-Axis Common Centroid Design; 2.2.3 Two-Axis Common Centroid Design; 2.3 Interdigitation Design; 2.4 Common Centroid and Interdigitation Design; 2.5 Passive Element Design; 2.6 Resistor Element Design; 2.6.1 Resistor Element Design: Dogbone Layout; 2.6.2 Resistor Design: Analog Interdigitated Layout; 2.6.3 Dummy Resistor Layout.
  • 2.6.4 Thermoelectric Cancellation Layout2.6.5 Electrostatic Shield; 2.6.6 Interdigitated Resistors and ESD Parasitics; 2.7 Capacitor Element Design; 2.8 Inductor Element Design; 2.9 Diode Design; 2.10 MOSFET Design; 2.11 Bipolar Transistor Design; 2.12 Closing Comments and Summary; References; Chapter 3 3 Analog Design Circuits; 3.1 Analog Circuits; 3.2 Single-Ended Receivers; 3.2.1 Single-Ended Receivers; 3.2.2 Schmitt Trigger Receivers; 3.3 Differential Receivers; 3.4 Comparators; 3.5 Current Sources; 3.6 Current Mirrors; 3.6.1 Widlar Current Mirror; 3.6.2 Wilson Current Mirror.
  • 3.7 Voltage Regulators3.7.1 Buck Converters; 3.7.2 Boost Converters; 3.7.3 Buck-Boost Converters; 3.7.4 Cuk Converters; 3.8 Voltage Reference Circuits; 3.8.1 Brokaw Bandgap Voltage Reference; 3.9 Converters; 3.9.1 Analog-to-Digital Converter; 3.9.2 Digital-to-Analog Converters; 3.10 Oscillators; 3.11 Phase Lock Loop; 3.12 Delay Locked Loop; 3.13 Closing Comments and Summary; References; Chapter 4 Analog ESD Circuits; 4.1 Analog ESD Devices and Circuits; 4.2 ESD Diodes; 4.2.1 Dual Diode and Series Diodes; 4.2.2 Dual Diode-Resistor; 4.2.3 Dual Diode-Resistor-Dual Diode.

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