Semiconductor Modeling [electronic resource] : For Simulating Signal, Power, and Electromagnetic Integrity / by Roy G. Leventhal, Lynne Green.

By: Leventhal, Roy G [author.]Contributor(s): Green, Lynne [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Publisher: Boston, MA : Springer US, 2006Description: XX, 768 p. With CD-ROM. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780387241609Subject(s): Engineering | Computer aided design | Engineering mathematics | Microwaves | Electronics | Systems engineering | Engineering | Circuits and Systems | Computer-Aided Engineering (CAD, CAE) and Design | Microwaves, RF and Optical Engineering | Electronics and Microelectronics, Instrumentation | Appl.Mathematics/Computational Methods of Engineering | Electronic and Computer EngineeringAdditional physical formats: Printed edition:: No titleDDC classification: 621.3815 LOC classification: TK7888.4Online resources: Click here to access online
Contents:
How the Workplace Supports Successful Design -- to Modeling Concepts -- Generating Models -- Model Properties Derived from Device Physics Theory -- Measuring Model Properties in the Laboratory -- Using Statistical Data to Characterize Component Populations -- Selecting Components and Their Models -- Using Selection Guides to Compare and Contrast Components -- Using Data Sheets to Compare and Contrast Components -- Selecting the Best Model for a Simulation -- Modeling and Simulation in the Design Process Flow -- About the IBIS Model -- Key Concepts of the IBIS Specification -- Using IBIS Models in What-If Simulations -- Fixing Errors and Omissions in IBIS Models -- Using EDA Tools to Create and Validate IBIS Models from Spice -- Managing Models -- Sources of IBIS Models -- Working with the Model Library -- Model Accuracy and Verification -- Methodology for Verifying Models -- Verifying Model Accuracy by Using Laboratory Measurements -- Balancing Accuracy Against Practicality When Correlating Simulation Results -- Deriving an Equation-Based Model from a Macromodel -- Future Directions in Modeling -- The Challenge to Ibis -- Feedback to the Model Provider Improves Model Accuracy -- Future Trends in Modeling -- Using Probability: The Ultimate Future of Simulation.
In: Springer eBooksSummary: Semiconductor Modeling: For Simulating Signal, Power, and Electromagnetic Integrity gives designers and engineers a broad view of using semiconductor models to design high-speed circuit boards. Most issues in the field of designing high-frequency circuits, from the beginning of modeling and simulation using EDA tools to future trends, are discussed and integrated. The main technical focus of Semiconductor Modeling: For Simulating Signal, Power, and Electromagnetic Integrity is the use of simulation to help solve practical engineering problems. The book draws on over 90 years of diverse technical experience and brings together theory, tools, components, software, and experience to help engineers create successful electronic products. This book will help engineers understand how to approach problem solving while designing high-speed circuits. In particular, it helps engineers in the following areas: · Encountering non-existent, incomplete, and erroneous semiconductor circuit models. · Applying EDA tools to achieve practical designs despite model limitations. · Grasping the basic high-speed digital, RF, and EMC design concepts that guide design intent. · Applying EDA tools to cutting-edge digital technology. · Working with suppliers, CAD team members, and others. · Understanding the processes and procedures that enable and enhance the design process. The book presents the material in a manner that is helpful to circuit and product design engineers who have little or no specialized knowledge of high-speed digital design or semiconductors.
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How the Workplace Supports Successful Design -- to Modeling Concepts -- Generating Models -- Model Properties Derived from Device Physics Theory -- Measuring Model Properties in the Laboratory -- Using Statistical Data to Characterize Component Populations -- Selecting Components and Their Models -- Using Selection Guides to Compare and Contrast Components -- Using Data Sheets to Compare and Contrast Components -- Selecting the Best Model for a Simulation -- Modeling and Simulation in the Design Process Flow -- About the IBIS Model -- Key Concepts of the IBIS Specification -- Using IBIS Models in What-If Simulations -- Fixing Errors and Omissions in IBIS Models -- Using EDA Tools to Create and Validate IBIS Models from Spice -- Managing Models -- Sources of IBIS Models -- Working with the Model Library -- Model Accuracy and Verification -- Methodology for Verifying Models -- Verifying Model Accuracy by Using Laboratory Measurements -- Balancing Accuracy Against Practicality When Correlating Simulation Results -- Deriving an Equation-Based Model from a Macromodel -- Future Directions in Modeling -- The Challenge to Ibis -- Feedback to the Model Provider Improves Model Accuracy -- Future Trends in Modeling -- Using Probability: The Ultimate Future of Simulation.

Semiconductor Modeling: For Simulating Signal, Power, and Electromagnetic Integrity gives designers and engineers a broad view of using semiconductor models to design high-speed circuit boards. Most issues in the field of designing high-frequency circuits, from the beginning of modeling and simulation using EDA tools to future trends, are discussed and integrated. The main technical focus of Semiconductor Modeling: For Simulating Signal, Power, and Electromagnetic Integrity is the use of simulation to help solve practical engineering problems. The book draws on over 90 years of diverse technical experience and brings together theory, tools, components, software, and experience to help engineers create successful electronic products. This book will help engineers understand how to approach problem solving while designing high-speed circuits. In particular, it helps engineers in the following areas: · Encountering non-existent, incomplete, and erroneous semiconductor circuit models. · Applying EDA tools to achieve practical designs despite model limitations. · Grasping the basic high-speed digital, RF, and EMC design concepts that guide design intent. · Applying EDA tools to cutting-edge digital technology. · Working with suppliers, CAD team members, and others. · Understanding the processes and procedures that enable and enhance the design process. The book presents the material in a manner that is helpful to circuit and product design engineers who have little or no specialized knowledge of high-speed digital design or semiconductors.

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