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Bestseller
BestsellerE-book
Author Niedermayer, Michael, 1971-

Title Cost-driven design of smart microsystems / Michael Niedermayer.

Publication Info. Boston : Artech House, [2012]
©2012

Item Status

Description 1 online resource : illustrations.
text file
Series Artech House integrated microsystems series
Artech House integrated microsystems series.
Summary Today's professionals are constantly striving to create sensor technology and systems with lower cost and higher efficiency. Miniaturization and standardization have become critical drivers for cost reduction in the design and development process, giving rise to a new era of smart sensors and actuators. These devices contain more components, but normally provide significant cost savings due to wider applicability and mass production. This first-of-its-kind resource presents methods for cost optimization of smart microsystems to help you select highly cost-efficient implementation variants.
Bibliography Includes bibliographical references and index.
Contents Machine generated contents note: 1. Introduction -- References -- 2. Design Methodologies -- 2.1. Design Strategies -- 2.2. Design of Embedded Systems -- 2.2.1. Design Strategies for Digital Circuits -- 2.2.2. Design Strategies for Analog Circuits -- 2.3. Design of Electronic Components and Microsystems -- 2.4. Design of Modules with Heterogeneous Components -- 2.5. Design of Communication Protocols -- 2.6. Design Models for Smart Microsystems -- References -- 3. Fabrication Processes -- 3.1. Semiconductor Technologies -- 3.1.1. Wafer Fabrication -- 3.1.2. Wafer Test -- 3.1.3. Chip Packaging and Class Test -- 3.2. Module Integration Technologies -- 3.2.1. Fabrication of Module Substrates -- 3.2.2. Assembly and Interconnection -- 3.2.3. Passivation and Encapsulation Technologies -- 3.3. Process Modeling -- References -- 4. Physical Design Decisions -- 4.1. Basic Elements of Module Integration -- 4.1.1. Wiring Capacity of Substrates -- 4.1.2. Module Systems -- 4.2. Placement and Routing -- 4.2.1.Component Arrangement -- 4.2.2.Component Wiring -- 4.2.3. Ensuring the Signal Integrity -- 4.3. Determination of the Miniaturization Potential -- 4.3.1. Volume Aggregation Lists -- 4.3.2. Simplified Geometry Models -- 4.3.3. Adapted Geometry Models -- References -- 5. Structural Design Trade-Offs -- 5.1. Data Processing -- 5.1.1.Computing Architectures -- 5.1.2. Implementation of System Functions -- 5.2. Ambient Interface -- 5.2.1. Sensor and Actuators -- 5.2.2. Processing of Sensor Data -- 5.3. Power Supply -- 5.3.1. Power Consumption of the Functional Components -- 5.3.2. Energy Storage and Power Conversion -- 5.4.Communication Interface -- 5.4.1. Radio Architectures -- 5.4.2. Layout of Transmitter and Receiver Circuitry -- 5.5. Modeling and Simulation of System Architectures -- 5.5.1. Optimization of Analog Architectural Elements -- 5.5.2. Optimization of Digital Architectural Elements -- References -- 6. Leverage Effects of the Functional Design -- 6.1. Properties of the Surrounding Medium -- 6.1.1. Concentrated and Distributed Phenomena -- 6.1.2. Signal Propagation -- 6.1.3. Interferences -- 6.1.4. Modeling of Environmental Influences -- 6.2. Radio Communications -- 6.2.1. Modulation Schemes -- 6.2.2. Media Access Schemes -- 6.2.3. Logical Link Control -- 6.2.4.Network Control -- 6.3. Distributed Data Acquisition -- 6.3.1. Localization -- 6.3.2. Synchronization and Calibration -- 6.4. Determination of Functional Optimization Potential -- 6.4.1. Aggregation Lists of System Parameters -- 6.4.2. Simplified System Models -- 6.4.3. Adapted System Models -- References -- 7. Cost Fundamentals -- 7.1. Basic Cost Categories -- 7.2. Approaches of Cost Estimation -- 7.2.1. Cost Determination of Fabrication Processes -- 7.2.2. Cost Determination of System Components -- 7.3. Direct Component Costs -- 7.3.1. Determination of Cost-Driving Function Components -- 7.3.2. Determination of Costs for Module Integration -- 7.4. Indirect Costs of Product Development -- 7.4.1. Development Effort of Hardware -- 7.4.2. Development Effort of Software -- 7.4.3. Generalized Cost Modeling of Development Activities -- 7.4.4. Influence of Expectations -- References -- 8. Cost Reduction Strategies -- 8.1. Model-Based Cost Optimization -- 8.1.1. Determination of Potential Cost Reduction -- 8.1.2. Design Flow -- 8.2. Smart Microsystems with Tailored Architectures -- 8.3. Smart Microsystems with Universal Architectures -- 8.4. Smart Microsystems with Modular Architectures -- References -- 9. Application Examples -- 9.1. Smart Microsystems for Tracking Transport Goods -- 9.1.1. Functional Design Decisions -- 9.1.2. Physical Design Decisions -- 9.2. Smart Microsystems for Condition Monitoring -- 9.2.1. Functional Design Decisions -- 9.2.2. Physical Design Decisions.
Local Note eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America
Subject Microelectromechanical systems.
Microelectromechanical systems.
Genre/Form Electronic books.
Electronic books.
Other Form: Print version: Niedermayer, Michael, 1971- Cost-driven design of smart microsystems. Boston : Artech House, ©2012 9781608070848 (DLC) 2012360919 (OCoLC)749873361
ISBN 9781608070855 (electronic book)
1608070859 (electronic book)
9781608070848
1608070840