Verfügbarkeit: Space microelectronics.

Space microelectronics.: Volume 2, Integrated circuit design for space applications /

This invaluable second volume of a two-volume set is filled with details about the integrated circuit design for space applications. Various considerations for the selection and application of electronic components for designing spacecraft are discussed. The basic constructions of submicron transist...

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Bibliographische Detailangaben
Hauptverfasser:	Belous, Anatoly (VerfasserIn), Saladukha, Vitali (VerfasserIn), Shvedau, Siarhei (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Norwood : Artech House, 2017.
Schriftenreihe:	Artech House space technology and applications library.
Schlagworte:	Astrionics. Électronique en astronautique. TECHNOLOGY & ENGINEERING > Engineering (General) Astrionics
Online-Zugang:	Volltext
Zusammenfassung:	This invaluable second volume of a two-volume set is filled with details about the integrated circuit design for space applications. Various considerations for the selection and application of electronic components for designing spacecraft are discussed. The basic constructions of submicron transistors and schottky diodes during the technological process of production are explored. This book provides details on the energy consumption minimization methods for microelectronic devices.n nSpecific topics include:n nFeatures and physical mechanisms of the effect of space radiation on all the main classes of microcircuits, including peculiarities of radiation impact on submicron integrated circuits;nSpecial design, technology, and schematic methods of increasing the resistance to various types of space radiation;nRecommendations for choosing research equipment and methods for irradiating various samples;nMicrocircuit designers on the composition of test elements for the study of the effect of radiation;nMicroprocessors, circuit boards, logic microcircuits, digital, analog, digital-analog microcircuits manufactured in various technologies (bipolar, CMOS, BiCMOS, SOI);nProblems involved with designing high speed microelectronic devices and systems based on SOS-and SOI-structures;nSystem-on-chip and system-in-package and methods for rejection of silicon microcircuits with hidden defects during mass production.
Beschreibung:	2.4.1 Physical Basics of Schottky Diode Functioning
Beschreibung:	1 online resource : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781630814694 1630814695

Internformat

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245	1	0	\|a Space microelectronics. \|n Volume 2, \|p Integrated circuit design for space applications / \|c Anatoly Belous, Vitali Saladukha, Siarhei Shvedau.
246	3	0	\|a Integrated circuit design for space applications
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504			\|a Includes bibliographical references and index.
505	0		\|a Intro; Space Microelectronics Volume 2: Integrated Circuit Design for Space Applications; Introduction; Preface; Chapter 1 Considerations for Selection and Application of Foreign Electronic Component Bases in Designing Domestic Spacecraft; 1.1 General Problems of ECB Selection for REE of Space Application; 1.2 Restriction on Export of Foreign-Made Electronic Components to Russia; 1.2.1 Restriction of ECB Exports from the United States; 1.2.2 Restriction on ECB Exports from Europe and Other Countries; 1.2.3 International Export Control Organizations
505	8		\|a 1.3 Peculiarities of Application of Foreign-Made Industrial ECB in Rocket and Space Technology1.4 Counterfeit Microelectronic Products and Methods of Their Detection; 1.4.1 Types of Counterfeit Components; 1.4.2 Effective Methods of Detecting Counterfeit Products; 1.4.3 Electric Testing of Microelectronic Products for Space Application; 1.5 Peculiarities of Selection and Application of Foreign Processors in Domestic Spacecraft; 1.5.1 Application Aspects of Foreign Processors in Domestic Spacecraft; 1.5.2 Versions and Qualifications of UT 699 and GR 712 Microprocessors
505	8		\|a 1.5.3 Architecture and Hardware Features of UT 699 and GR 712 Microprocessors of Leon 3FT Family1.5.4 Peculiarities of Microprocessor Leon 3 Programming; 1.6 Radiation-Tolerant DC Converters for Space and Military Applications; 1.6.1 Total Ionizing Dose (TID); 1.6.2 Enhanced Low-Dose Rate Sensitivity (ELDRS); 1.6.3 Single Event Effects (SEE); 1.6.4 Analysis of Parameter Limits in Worst-Case Scenarios; 1.6.5 MIL-PRF-38534 Standard Class K Requirements; 1.6.6 Absence of Optocouplers in Hybrid DC-DC Converters
505	8		\|a 1.7 Best Practices of Work Arrangement for Producing Electronic Components of Space System On-Board Equipment1.8 Accelerated Reliability Testing of ECB SA; 1.9 Analysis of Test Results for Microcircuits Purchased in Russia Between 2009 and 2011; References; Chapter 2 Peculiarities of the Technological Process of Production and Basic Constructions of Submicron Transistors and Schottky Diodes; 2.1 On the Terminology of Submicron Microelectronics; 2.2 Tendencies and Perspectives of Modern Technology Development in Microelectronics; 2.2.1 Scaling Problem
505	8		\|a 2.2.2 Modern Submicron Technology: An Example of Its Implementation for Microprocessor Production2.3 Peculiarities of Submicron MOS Transistors; 2.3.1 MOS Transistors Structures in VLSIC; 2.3.2 Methods to Improve MOS Transistor Properties; 2.3.3 MOS Transistors with the Structure Silicon on Insulator; 2.3.4 Transistors with Double, Triple, and Cylindrical Gates; 2.3.5 Other Types of Transistor Structures; 2.3.6 The Peculiarities of Transistors for Analog Applications; 2.4 Constructional-Technological Peculiarities of High-Temperature Schottky Diodes
500			\|a 2.4.1 Physical Basics of Schottky Diode Functioning
520	3		\|a This invaluable second volume of a two-volume set is filled with details about the integrated circuit design for space applications. Various considerations for the selection and application of electronic components for designing spacecraft are discussed. The basic constructions of submicron transistors and schottky diodes during the technological process of production are explored. This book provides details on the energy consumption minimization methods for microelectronic devices.n nSpecific topics include:n nFeatures and physical mechanisms of the effect of space radiation on all the main classes of microcircuits, including peculiarities of radiation impact on submicron integrated circuits;nSpecial design, technology, and schematic methods of increasing the resistance to various types of space radiation;nRecommendations for choosing research equipment and methods for irradiating various samples;nMicrocircuit designers on the composition of test elements for the study of the effect of radiation;nMicroprocessors, circuit boards, logic microcircuits, digital, analog, digital-analog microcircuits manufactured in various technologies (bipolar, CMOS, BiCMOS, SOI);nProblems involved with designing high speed microelectronic devices and systems based on SOS-and SOI-structures;nSystem-on-chip and system-in-package and methods for rejection of silicon microcircuits with hidden defects during mass production. \|c Publisher abstract.
650		0	\|a Astrionics. \|0 http://id.loc.gov/authorities/subjects/sh85008882
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Datensatz im Suchindex

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contents	Intro; Space Microelectronics Volume 2: Integrated Circuit Design for Space Applications; Introduction; Preface; Chapter 1 Considerations for Selection and Application of Foreign Electronic Component Bases in Designing Domestic Spacecraft; 1.1 General Problems of ECB Selection for REE of Space Application; 1.2 Restriction on Export of Foreign-Made Electronic Components to Russia; 1.2.1 Restriction of ECB Exports from the United States; 1.2.2 Restriction on ECB Exports from Europe and Other Countries; 1.2.3 International Export Control Organizations 1.3 Peculiarities of Application of Foreign-Made Industrial ECB in Rocket and Space Technology1.4 Counterfeit Microelectronic Products and Methods of Their Detection; 1.4.1 Types of Counterfeit Components; 1.4.2 Effective Methods of Detecting Counterfeit Products; 1.4.3 Electric Testing of Microelectronic Products for Space Application; 1.5 Peculiarities of Selection and Application of Foreign Processors in Domestic Spacecraft; 1.5.1 Application Aspects of Foreign Processors in Domestic Spacecraft; 1.5.2 Versions and Qualifications of UT 699 and GR 712 Microprocessors 1.5.3 Architecture and Hardware Features of UT 699 and GR 712 Microprocessors of Leon 3FT Family1.5.4 Peculiarities of Microprocessor Leon 3 Programming; 1.6 Radiation-Tolerant DC Converters for Space and Military Applications; 1.6.1 Total Ionizing Dose (TID); 1.6.2 Enhanced Low-Dose Rate Sensitivity (ELDRS); 1.6.3 Single Event Effects (SEE); 1.6.4 Analysis of Parameter Limits in Worst-Case Scenarios; 1.6.5 MIL-PRF-38534 Standard Class K Requirements; 1.6.6 Absence of Optocouplers in Hybrid DC-DC Converters 1.7 Best Practices of Work Arrangement for Producing Electronic Components of Space System On-Board Equipment1.8 Accelerated Reliability Testing of ECB SA; 1.9 Analysis of Test Results for Microcircuits Purchased in Russia Between 2009 and 2011; References; Chapter 2 Peculiarities of the Technological Process of Production and Basic Constructions of Submicron Transistors and Schottky Diodes; 2.1 On the Terminology of Submicron Microelectronics; 2.2 Tendencies and Perspectives of Modern Technology Development in Microelectronics; 2.2.1 Scaling Problem 2.2.2 Modern Submicron Technology: An Example of Its Implementation for Microprocessor Production2.3 Peculiarities of Submicron MOS Transistors; 2.3.1 MOS Transistors Structures in VLSIC; 2.3.2 Methods to Improve MOS Transistor Properties; 2.3.3 MOS Transistors with the Structure Silicon on Insulator; 2.3.4 Transistors with Double, Triple, and Cylindrical Gates; 2.3.5 Other Types of Transistor Structures; 2.3.6 The Peculiarities of Transistors for Analog Applications; 2.4 Constructional-Technological Peculiarities of High-Temperature Schottky Diodes
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series2	Artech house space technology and applications series
spelling	Belous, Anatoly, author. Space microelectronics. Volume 2, Integrated circuit design for space applications / Anatoly Belous, Vitali Saladukha, Siarhei Shvedau. Integrated circuit design for space applications Norwood : Artech House, 2017. 1 online resource : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Artech house space technology and applications series Print version record. Includes bibliographical references and index. Intro; Space Microelectronics Volume 2: Integrated Circuit Design for Space Applications; Introduction; Preface; Chapter 1 Considerations for Selection and Application of Foreign Electronic Component Bases in Designing Domestic Spacecraft; 1.1 General Problems of ECB Selection for REE of Space Application; 1.2 Restriction on Export of Foreign-Made Electronic Components to Russia; 1.2.1 Restriction of ECB Exports from the United States; 1.2.2 Restriction on ECB Exports from Europe and Other Countries; 1.2.3 International Export Control Organizations 1.3 Peculiarities of Application of Foreign-Made Industrial ECB in Rocket and Space Technology1.4 Counterfeit Microelectronic Products and Methods of Their Detection; 1.4.1 Types of Counterfeit Components; 1.4.2 Effective Methods of Detecting Counterfeit Products; 1.4.3 Electric Testing of Microelectronic Products for Space Application; 1.5 Peculiarities of Selection and Application of Foreign Processors in Domestic Spacecraft; 1.5.1 Application Aspects of Foreign Processors in Domestic Spacecraft; 1.5.2 Versions and Qualifications of UT 699 and GR 712 Microprocessors 1.5.3 Architecture and Hardware Features of UT 699 and GR 712 Microprocessors of Leon 3FT Family1.5.4 Peculiarities of Microprocessor Leon 3 Programming; 1.6 Radiation-Tolerant DC Converters for Space and Military Applications; 1.6.1 Total Ionizing Dose (TID); 1.6.2 Enhanced Low-Dose Rate Sensitivity (ELDRS); 1.6.3 Single Event Effects (SEE); 1.6.4 Analysis of Parameter Limits in Worst-Case Scenarios; 1.6.5 MIL-PRF-38534 Standard Class K Requirements; 1.6.6 Absence of Optocouplers in Hybrid DC-DC Converters 1.7 Best Practices of Work Arrangement for Producing Electronic Components of Space System On-Board Equipment1.8 Accelerated Reliability Testing of ECB SA; 1.9 Analysis of Test Results for Microcircuits Purchased in Russia Between 2009 and 2011; References; Chapter 2 Peculiarities of the Technological Process of Production and Basic Constructions of Submicron Transistors and Schottky Diodes; 2.1 On the Terminology of Submicron Microelectronics; 2.2 Tendencies and Perspectives of Modern Technology Development in Microelectronics; 2.2.1 Scaling Problem 2.2.2 Modern Submicron Technology: An Example of Its Implementation for Microprocessor Production2.3 Peculiarities of Submicron MOS Transistors; 2.3.1 MOS Transistors Structures in VLSIC; 2.3.2 Methods to Improve MOS Transistor Properties; 2.3.3 MOS Transistors with the Structure Silicon on Insulator; 2.3.4 Transistors with Double, Triple, and Cylindrical Gates; 2.3.5 Other Types of Transistor Structures; 2.3.6 The Peculiarities of Transistors for Analog Applications; 2.4 Constructional-Technological Peculiarities of High-Temperature Schottky Diodes 2.4.1 Physical Basics of Schottky Diode Functioning This invaluable second volume of a two-volume set is filled with details about the integrated circuit design for space applications. Various considerations for the selection and application of electronic components for designing spacecraft are discussed. The basic constructions of submicron transistors and schottky diodes during the technological process of production are explored. This book provides details on the energy consumption minimization methods for microelectronic devices.n nSpecific topics include:n nFeatures and physical mechanisms of the effect of space radiation on all the main classes of microcircuits, including peculiarities of radiation impact on submicron integrated circuits;nSpecial design, technology, and schematic methods of increasing the resistance to various types of space radiation;nRecommendations for choosing research equipment and methods for irradiating various samples;nMicrocircuit designers on the composition of test elements for the study of the effect of radiation;nMicroprocessors, circuit boards, logic microcircuits, digital, analog, digital-analog microcircuits manufactured in various technologies (bipolar, CMOS, BiCMOS, SOI);nProblems involved with designing high speed microelectronic devices and systems based on SOS-and SOI-structures;nSystem-on-chip and system-in-package and methods for rejection of silicon microcircuits with hidden defects during mass production. Publisher abstract. Astrionics. http://id.loc.gov/authorities/subjects/sh85008882 Électronique en astronautique. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Astrionics fast Saladukha, Vitali, author. Shvedau, Siarhei, author. has work: Space microelectronics Integrated circuit design for space applications Volume 2 (Text) https://id.oclc.org/worldcat/entity/E39PCXhXDTcpVWTWBVBBmTWqwC https://id.oclc.org/worldcat/ontology/hasWork Print version: Belous, Anatoly. Space microelectronics. Volume 2, Integrated circuit design for space applications. Boston : Artech House, [2017] 9781630812591 (OCoLC)1008999552 Artech House space technology and applications library. http://id.loc.gov/authorities/names/n99255579 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825907 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825907 Volltext
spellingShingle	Belous, Anatoly Saladukha, Vitali Shvedau, Siarhei Space microelectronics. Artech House space technology and applications library. Intro; Space Microelectronics Volume 2: Integrated Circuit Design for Space Applications; Introduction; Preface; Chapter 1 Considerations for Selection and Application of Foreign Electronic Component Bases in Designing Domestic Spacecraft; 1.1 General Problems of ECB Selection for REE of Space Application; 1.2 Restriction on Export of Foreign-Made Electronic Components to Russia; 1.2.1 Restriction of ECB Exports from the United States; 1.2.2 Restriction on ECB Exports from Europe and Other Countries; 1.2.3 International Export Control Organizations 1.3 Peculiarities of Application of Foreign-Made Industrial ECB in Rocket and Space Technology1.4 Counterfeit Microelectronic Products and Methods of Their Detection; 1.4.1 Types of Counterfeit Components; 1.4.2 Effective Methods of Detecting Counterfeit Products; 1.4.3 Electric Testing of Microelectronic Products for Space Application; 1.5 Peculiarities of Selection and Application of Foreign Processors in Domestic Spacecraft; 1.5.1 Application Aspects of Foreign Processors in Domestic Spacecraft; 1.5.2 Versions and Qualifications of UT 699 and GR 712 Microprocessors 1.5.3 Architecture and Hardware Features of UT 699 and GR 712 Microprocessors of Leon 3FT Family1.5.4 Peculiarities of Microprocessor Leon 3 Programming; 1.6 Radiation-Tolerant DC Converters for Space and Military Applications; 1.6.1 Total Ionizing Dose (TID); 1.6.2 Enhanced Low-Dose Rate Sensitivity (ELDRS); 1.6.3 Single Event Effects (SEE); 1.6.4 Analysis of Parameter Limits in Worst-Case Scenarios; 1.6.5 MIL-PRF-38534 Standard Class K Requirements; 1.6.6 Absence of Optocouplers in Hybrid DC-DC Converters 1.7 Best Practices of Work Arrangement for Producing Electronic Components of Space System On-Board Equipment1.8 Accelerated Reliability Testing of ECB SA; 1.9 Analysis of Test Results for Microcircuits Purchased in Russia Between 2009 and 2011; References; Chapter 2 Peculiarities of the Technological Process of Production and Basic Constructions of Submicron Transistors and Schottky Diodes; 2.1 On the Terminology of Submicron Microelectronics; 2.2 Tendencies and Perspectives of Modern Technology Development in Microelectronics; 2.2.1 Scaling Problem 2.2.2 Modern Submicron Technology: An Example of Its Implementation for Microprocessor Production2.3 Peculiarities of Submicron MOS Transistors; 2.3.1 MOS Transistors Structures in VLSIC; 2.3.2 Methods to Improve MOS Transistor Properties; 2.3.3 MOS Transistors with the Structure Silicon on Insulator; 2.3.4 Transistors with Double, Triple, and Cylindrical Gates; 2.3.5 Other Types of Transistor Structures; 2.3.6 The Peculiarities of Transistors for Analog Applications; 2.4 Constructional-Technological Peculiarities of High-Temperature Schottky Diodes Astrionics. http://id.loc.gov/authorities/subjects/sh85008882 Électronique en astronautique. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Astrionics fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85008882
title	Space microelectronics.
title_alt	Integrated circuit design for space applications
title_auth	Space microelectronics.
title_exact_search	Space microelectronics.
title_full	Space microelectronics. Volume 2, Integrated circuit design for space applications / Anatoly Belous, Vitali Saladukha, Siarhei Shvedau.
title_fullStr	Space microelectronics. Volume 2, Integrated circuit design for space applications / Anatoly Belous, Vitali Saladukha, Siarhei Shvedau.
title_full_unstemmed	Space microelectronics. Volume 2, Integrated circuit design for space applications / Anatoly Belous, Vitali Saladukha, Siarhei Shvedau.
title_short	Space microelectronics.
title_sort	space microelectronics integrated circuit design for space applications
topic	Astrionics. http://id.loc.gov/authorities/subjects/sh85008882 Électronique en astronautique. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Astrionics fast
topic_facet	Astrionics. Électronique en astronautique. TECHNOLOGY & ENGINEERING Engineering (General) Astrionics
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825907
work_keys_str_mv	AT belousanatoly spacemicroelectronicsvolume2 AT saladukhavitali spacemicroelectronicsvolume2 AT shvedausiarhei spacemicroelectronicsvolume2 AT belousanatoly integratedcircuitdesignforspaceapplications AT saladukhavitali integratedcircuitdesignforspaceapplications AT shvedausiarhei integratedcircuitdesignforspaceapplications

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