000 20599nam a2203325 i 4500
001 5263462
003 IEEE
005 20220712205633.0
006 m o d
007 cr |n|||||||||
008 100317t20151999nyua ob 001 0 eng d
020 _a9780470544884
_qelectronic
020 _z9780780334779
_qprint
020 _z0470544880
_qelectronic
024 7 _a10.1109/9780470544884
_2doi
035 _a(CaBNVSL)mat05263462
035 _a(IDAMS)0b000064810c3702
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
050 4 _aTK7870.25
_b.H542 1999eb
082 0 4 _a621.381
_222
245 0 0 _aHigh temperature electronics /
_cedited by Randall Kirschman.
264 1 _aNew York :
_bIEEE Press,
_cc1999.
264 2 _a[Piscataqay, New Jersey] :
_bIEEE Xplore,
_c[1998]
300 _a1 PDF (xvii, 893 pages) :
_billustrations.
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
504 _aIncludes bibliographical references and indexes.
505 0 _aForeword -- Preface -- Acknowledgments -- GENERAL INTRODUCTION -- General Introduction (R. Kirschman) -- The Characterization of High-Temperature Electronics for Future Aircraft Engine Digital Electronic Control Systems (J. Wiley and D. Dening) -- A Summary of High-Temperature Electronics Research and Development (F. Thome and D. King) -- An Overview of High-Temperature Electronic Device Technologies and Potential Applications (P. Dreike, et al.) -- Silicon and Gallium Arsenide in High-Temperature Electronics Applications (J. Klein) -- The Influence of Temperature on Integrated Circuit Failure Mechanisms (M. Pecht, et al.) -- Assessment of Reliability Concerns for Wide-Temperature Operation of Semiconductor Devices and Circuits (J. Kopanski, et al.) -- High-Temperature Silicon Carbide Electronic Devices (Westinghouse) -- Hot Time in Store for ICs (N. Mokhoff) -- Beat-the-heat Hybrids Ready to Go to Market (L. Lowe) -- High-Temperature Transistor and Thyristor Developed -- High-Temperature Electronics and Sensors -- New Transistors Take the Heat -- APPLICATIONS, NEEDS, AND ALTERNATIVES -- Introduction (F. Thome and D. King) -- Thermal Protection Methods for Electronics in Hot Wells (G. Bennett) -- Service Company Needs (P. Sinclair) -- Present and Future Needs in High-Temperature Electronics for the Well Logging Industry (N. Sanders) -- High-Temperature Electronics for Geothermal Energy (A. Veneruso) -- High-Temperature Electronic Requirements in Aeropropulsion Systems (W. Nieberding and J. Powell) -- The Requirements for High-Temperature Electronics in a Future High Speed Transport (C. Carlin and J. Ray) -- High-Temperature Electronics for Automobiles (M. Tamor) -- High-Temperature Automotive Electronics: An Overview (J. Erskine, et al.) -- High-Temperature Electronics Applications in Space Exploration (R. Jurgens) -- Research Activity on High-Temperature Electronics and Its Future Application in Space Exploration in Japan (M. Tajima) -- Wireless, In-vessel Neutron Monitor for Initial Core-Loading of Advanced Breeder Reactors (J. DeLorenzi, et al.).
505 8 _aThe Effect of Maximum Allowable Payload Temperature on the Mass of a Multimegawatt Space Based Platform (D. Dobranich) -- SILICON DEVICES AND INTEGRATED CIRCUITS -- Introduction (F. Shoucair) -- High-Temperature Silicon Diodes Models (E. Clarke, et al.) -- High-Temperature Microelectronics -- Expanding the Applications for Smart Sensors (R. Brown, et al.) -- Extension of High-Temperature Electronics (B. Draper and D. Palmer) -- Integrated Circuit Characteristics at 260?C for Aircraft Engine-Control Applications (L. Palkuti, et al.) -- 350?C CMOS Logic Process (J. Beasom, et al.) -- Process Characteristics and Design Methods for a 300?C Quad Operational Amplifier (J. Beasom and R. Patterson III) -- A High-Temperature Precision Amplifier (I. Finvers, et al.) -- Design Considerations in High-Temperature Analog CMOS Integrated Circuits (F. Shoucair) -- Scaling, Subthreshold, and Leakage Current Matching Characteristics in High-Temperature (25?C-250?C) VLSI CMOS Devices (F. Shoucair) -- Scaling CMOS Design Rules for High-Temperature Latchup Immunity (R. Brown and K. Wu) -- Integrated Injection Logic with Extended Temperature Range Capability (D. Dening, et al.) -- Progress of High-Temperature Silicon Integrated Injection Logic (M. Migitaka and H. Naito) -- High-Temperature Behavior of MOS Devices (J. Kronberg) -- High-Temperature Operation of nMOSFET on Bonded SOI (Y. Arimoto) -- Silicon-on-insulator Technology for High-Temperature Metal Oxide Semiconductor Devices and Circuits (D. Flandre) -- High-Temperature Silicon-on-insulator Electronics for Space Nuclear Power Systems: Requirements and Feasibility (D. Fleetwood, et al.) -- A MOS Switched-Capacitor Ladder Filter in SIMOX Technology for High-Temperature Applications up to 300 C (M. Verbeck, et al.) -- The Effect of Temperature on Lateral DMOS Transistors in a Power IC Technology (G. Dolny, et al.) -- 200?C Operation of Semiconductor Power Devices (R. Johnson, et al.) -- MEDIUM-BANDGAP SEMICONDUCTOR MATERIALS AND DEVICES.
505 8 _aIntroduction (P. Dreike and T. Zipperian) -- Compound Semiconductors for High-Temperature Electronic Applications (T. Zipperian and R. Chaffin) -- Fabrication and High-Temperature Characteristics of Ion-implanted GaAs Bipolar Transistors and Ring-oscillators (F. Doerbeck, et al.) -- Microwave Characterization and Comparison of Performance of GaAs Based MESFETs, HEMTs and HBTs Operating at High Ambient Temperatures (K. Fricke, et al.) -- Evaluation of AlxGa1-x) As for High-Temperature Electronic Junction Device Applications (T. Zipperian, et al.) -- A GaAs Integrated Differential Amplifier for Operation up to 300C (G. Schweeger, et al.) -- AlGaAs/GaAs/AlGaAs DHBT's for High-Temperature Stable Circuits (K. Fricke, et al.) -- Technology Towards GaAs MESFET-based IC for High-Temperature Applications (J. Wurfl and B. Janke) -- High-Temperature Electronics Using Complementary Heterostructure FET (CHFET) Technology (S. Baier, et al.) -- Low Leakage GaAs MESFET Devices Operating to 350?C Ambient Temperature (R. Lee, et al.) -- Modelling III-V Devices Operating at 300-400?C (C. Wilson and A. O'Neill) -- High-Temperature Performance and Operation of HFET's (C. Wilson, et al.) -- Recent Advances in Gallium Phosphide Junction Devices for High-Temperature Electronic Applications (T. Zipperian, et al.) -- A GaP MESFET for High-Temperature Applications (M. Weichold, et al.) -- High-Temperature Gallium Phosphide Field Effect Transistors (Y. Zhilyaev, et al.) -- High-Temperature Characteristics of A1As/GaAs/A1As Resonant Tunneling Diodes (M. Deen) -- LARGE-BANDGAP SEMICONDUCTOR MATERIALS AND DEVICES -- Introduction (R. Davis) -- High-Temperature Point-contact Transistors and Schottky Diodes Formed on Synthetic Boron-doped Diamond (M. Geis, et al.) -- Diamond Thin-film Recessed Gate Field-Effect Transistors Fabricated by Electron Cyclotron Resonance Plasma Etching (S. Grot, et al.) -- Diamond Field-Effect Transistors (D. Dreifus, et al.) -- High-Temperature dc and RF Performance of p-type Diamond MESFET: Comparison with n-type GaAs MESFET (M. Shin, et al.).
505 8 _aCubic Boron Nitride pn Junction Diode Made at High Pressure as a High-Temperature Diode and an Ultraviolet LED (O. Mishima, et al.) -- GaN FETs for Microwave and High-Temperature Applications (S. Binari, et al.) -- GaN Based Transistors for High-Temperature Applications (M. Khan and M. Shur) -- 500?C Operation of a GaN/SiC Heterojunction Bipolar Transistor (S. Chang, et al.) -- Whatever Happened to Silicon Carbide (R. Campbell) -- Characterization of Device Parameters in High-Temperature Metal-Oxide-Semiconductor Field-Effect Transistors in aL-SiC Thin Films (J. Palmour, et al.) -- Status of Silicon Carbide (SiC) as a Wide-Bandgap Semiconductor for High-Temperature Applications: A Review (J. Casady and R. Johnson) -- Analysis of Silicon Carbide Power Device Performance (M. Bhatnagar and B. Baliga) -- Analysis of Neutron Damage in High-Temperature Silicon Carbide JFETs (F. McLean, et al.) -- Dynamic Charge Storage in 6H Silicon Carbide (C. Gardner, et al.) -- Monolithic NMOS Digital Integrated Circuits in 6H-SiC (W. Xie, et al.) -- METALLIZATIONS FOR SEMICONDUCTOR DEVICES -- Introduction (E. Kolawa) -- Amorphous Metallizations for High-Temperature Semiconductor Device Applications (J. Wiley, et al.) -- Reliability of High-Temperature I2L Integrated Circuits (D. Dening, et al.) -- Gallium Phosphide Devices (O. Eknoyan, et al.) -- Reliability of High-Temperature Metallizations with Amorphous Ternary Diffusion Barriers (E. Kolawa, et al) -- Metal-GaAs Interaction and Contact Degradation in Microwave MESFETs (E. Zanoni, et al.) -- A New GaAs Technology for Stable FET's at 300?C (K. Fricke, et al.) -- New Technology Developments for III-V Semiconductor Devices Operating Above 300?C (K. Fricke, et al.) -- Refractory Self-Aligned-Gate GaAs FET Based Circuit Technology for High Ambient Temperatures (S. Swirhun, et al.) -- High-Temperature Ohmic and Schottky Contacts to N-Type 6H-SiC Using Nickel (J. Williams, et al.) -- High-Temperature Contacts to Chemically Vapour Deposited Diamond Films.
505 8 _aReliability Issues (C. Johnston, et al.) -- PASSIVE COMPONENTS -- Introduction (R. Kirschman) -- Batteries for High-Temperature Electronics (W. Clark) -- Hybrid Microcircuitry for 300? Operation (D. Palmer) -- Investigations in Thick Film Components for High-Temperature Systems (R. Dittmann, et al.) -- Fabrication of Passive Components for High-Temperature Instrumentation (L. Raymond, et al.) -- Thermal Degradation and Termination Behavior of Thick Film Resistors (T. Nordstrom) -- Thermal Aging of Thick-Film Resistors (B. Morten and M. Prudenziati) -- Electrical Characterization of Glass, Teflon, and Tantalum Capacitors at High-Temperatures (A. Hammoud, et al.) -- Development of Temperature-Stable Thick-Film Dielectrics: II. Medium-K Dielectric (B.-S. Chiou) -- High-Temperature Performance of Polymer Film Capacitors (R. Grzybowski and F. McCluskey) -- Materials for 300-500?C Magnetic Components (M. Weichold, et al.) -- A Zero-Insertion-Force Hybrid Circuit Connector for Severe Environments (P. Sinclair) -- HYBRID MATERIALS, ASSEMBLY, AND PACKAGING -- Introduction (R. Johnson) -- Pushing the Limit -- The Rise of High-Temperature Electronics (P. McCluskey and M. Pecht) -- Metallurgical Bonding Systems for High-Temperature Electronics (G. Harman) -- High-Temperature Electronics Packaging (D. Palmer) -- Extreme Temperature Range Microelectronics (D. Palmer and R. Heckman) -- A-55?C to + 200?C 12-bit Analog-to-Digital Converter (P. Prazak) -- Hybrid A/D Converter for 200?C Operation (M. Sullivan and J. Toth) -- High-Temperature Hybrids for Use up to 275?C -- Drift and Lifetime (A. Veneruso, et al.) -- A Hybrid Silicon Carbide Differential Amplifier for 350?C Operation (M. Tomana, et al.) -- High-Temperature Aluminum Nitride Packaging (T. Martin and T. Bloom) -- High-Temperature Applications for IC Plastic Encapsulated Packages (A. Chen and R. Lo) -- Electronics Packaging and Test Fixturing for the 500? C Environment. (R. Grzybowski and M. Gericke) -- ALTERNATIVE TECHNOLOGIES.
505 8 _aIntroduction (R. Kirschman) -- Design Approaches for Core Memories Operating to 200 C (B. Kaufman) -- Thermionic Integrated Micromodules (J. Beggs, et al.) -- Tube Design News (General Electric) -- Development of Integrated Thermionic Circuits for High-Temperature Applications (J. McCormick, et al.) -- An Electrochemical Transistor Using a Solid Electrolyte (R. Hetrick, et al.) -- BIBLIOGRAPHY (R. Kirschman) -- Author Index -- Subject Index -- Reprint Reference-Code Index -- Editor's Biography.
506 1 _aRestricted to subscribers or individual electronic text purchasers.
520 _a"HIGH-TEMPERATURE ELECTRONICS provides expert coverage of the applications, characteristics, design, selection, and operation of electronic devices and circuits at temperatures above the conventional limit of 125 degrees Celsius. This edited volume contains approximately 100 key reprinted papers covering a wide range of topics related to high-temperature electronics, eight invited papers, extensive references, and a comprehensive bibliography. Containing more than 200 pages of new material, it brings the reader a well-rounded review of high-temperature electronics from its beginnings decades ago through the present and beyond to possible future technologies. The scope of HIGH TEMPERATURE ELECTRONICS includes active components from standard and advanced semiconductor materials, passive components, as well as technologies for metallizations, interconnections, and the assembly and packaging of electronic components. This book will provide active researchers, technology developers, managers, materials scientists, and advanced students with a sound fundamental grounding in high-temperature electronics technology." Sponsored by: IEEE Components, Packaging, and Manufacturing Technology Society.
530 _aAlso available in print.
538 _aMode of access: World Wide Web
588 _aDescription based on PDF viewed 12/21/2015.
650 0 _aElectronic apparatus and appliances
_xThermal properties.
_926666
650 0 _aMaterials at high temperatures.
_94260
655 0 _aElectronic books.
_93294
695 _aSystem-on-a-chip
695 _aTemperature
695 _aTemperature control
695 _aTemperature dependence
695 _aTemperature distribution
695 _aTemperature measurement
695 _aTemperature sensors
695 _aTesting
695 _aThermal resistance
695 _aThermal stability
695 _aThermistors
695 _aThick films
695 _aThreshold voltage
695 _aThyristors
695 _aTitanium
695 _aTopology
695 _aTransconductance
695 _aTransistors
695 _aTuners
695 _aTungsten
695 _aTurbines
695 _aUS Department of Energy
695 _aVehicles
695 _aVenus
695 _aVoltage control
695 _aVoltage measurement
695 _aWaste heat
695 _aWire
695 _aWires
695 _aZinc
695 _aAcoustics
695 _aActuators
695 _aAerospace control
695 _aAerospace electronics
695 _aAging
695 _aAircraft
695 _aAircraft propulsion
695 _aAirplanes
695 _aAluminum
695 _aAmorphous magnetic materials
695 _aAnnealing
695 _aArgon
695 _aArrays
695 _aAtmosphere
695 _aAtmospheric measurements
695 _aAutomotive electronics
695 _aBatteries
695 _aBibliographies
695 _aBiographies
695 _aBonding
695 _aBooks
695 _aBoron
695 _aCMOS integrated circuits
695 _aCapacitance
695 _aCapacitors
695 _aCathodes
695 _aCeramics
695 _aCharge carrier density
695 _aCharge carrier processes
695 _aChemicals
695 _aChemistry
695 _aClocks
695 _aCoatings
695 _aCompanies
695 _aCompounds
695 _aComputational modeling
695 _aConductivity
695 _aConductors
695 _aConnectors
695 _aConsumer electronics
695 _aContact resistance
695 _aContacts
695 _aConverters
695 _aCooling
695 _aCopper
695 _aCrystallization
695 _aCrystals
695 _aCurrent density
695 _aCurrent measurement
695 _aDH-HEMTs
695 _aData models
695 _aDegradation
695 _aDiamond-like carbon
695 _aDielectric constant
695 _aDielectrics
695 _aDifferential amplifiers
695 _aDigital integrated circuits
695 _aDischarges
695 _aDoping
695 _aDriver circuits
695 _aElectrical resistance measurement
695 _aElectromigration
695 _aElectron tubes
695 _aElectronic components
695 _aElectronic packaging thermal management
695 _aElectronics packaging
695 _aEngines
695 _aEpitaxial layers
695 _aEquations
695 _aEtching
695 _aExtraterrestrial measurements
695 _aFETs
695 _aFabrication
695 _aFailure analysis
695 _aFilms
695 _aFingers
695 _aFiring
695 _aFitting
695 _aFixtures
695 _aFluids
695 _aForce
695 _aFuels
695 _aGain
695 _aGallium
695 _aGallium arsenide
695 _aGallium nitride
695 _aGlass
695 _aGold
695 _aHEMTs
695 _aHeating
695 _aHeterojunction bipolar transistors
695 _aHeterojunctions
695 _aIce
695 _aImmune system
695 _aIndexes
695 _aInductors
695 _aIndustries
695 _aInk
695 _aInstruments
695 _aInsulated gate bipolar transistors
695 _aInsulation
695 _aIntegrated circuit modeling
695 _aIntegrated circuit reliability
695 _aIntegrated circuits
695 _aIntelligent sensors
695 _aIntermetallic
695 _aIonization
695 _aJFETs
695 _aJunctions
695 _aLaboratories
695 _aLaser stability
695 _aLattices
695 _aLayout
695 _aLead
695 _aLeakage current
695 _aLibraries
695 _aLight emitting diodes
695 _aLimiting
695 _aLithium
695 _aLogic gates
695 _aMESFETs
695 _aMODFETs
695 _aMODIS
695 _aMOS devices
695 _aMOSFET circuits
695 _aMOSFETs
695 _aMagnetic cores
695 _aMagnetic hysteresis
695 _aMagnetic levitation
695 _aMaintenance engineering
695 _aMaterials
695 _aMathematical model
695 _aMetallization
695 _aMetals
695 _aMicroelectronics
695 _aMicrowave FETs
695 _aMilitary aircraft
695 _aMixers
695 _aMonitoring
695 _aNeodymium
695 _aNeutrons
695 _aNickel
695 _aNitrogen
695 _aNoise
695 _aOcean temperature
695 _aOhmic contacts
695 _aOperational amplifiers
695 _aOptical fibers
695 _aOscillators
695 _aOxidation
695 _aPackaging
695 _aPayloads
695 _aPerformance evaluation
695 _aPetroleum
695 _aPhotonic band gap
695 _aPins
695 _aPlasma temperature
695 _aPlastics
695 _aPolymers
695 _aPower conversion
695 _aPower system reliability
695 _aPower transformers
695 _aProbes
695 _aPropulsion
695 _aPrototypes
695 _aRNA
695 _aRadiation detectors
695 _aRadiation effects
695 _aRadio frequency
695 _aRectifiers
695 _aRefrigerators
695 _aRegulators
695 _aRelays
695 _aReliability
695 _aReliability engineering
695 _aResistance
695 _aResistors
695 _aResonant tunneling devices
695 _aSPICE
695 _aSchottky barriers
695 _aSchottky diodes
695 _aSeals
695 _aSemiconductor device modeling
695 _aSemiconductor devices
695 _aSemiconductor diodes
695 _aSemiconductor process modeling
695 _aSensor arrays
695 _aSensors
695 _aSilicon
695 _aSilicon carbide
695 _aSockets
695 _aSolids
695 _aSolvents
695 _aSpace vehicles
695 _aSprings
695 _aSteady-state
695 _aStrain
695 _aStress
695 _aSubstrates
695 _aSurface morphology
695 _aSwitches
700 1 _aKirschman, Randall K.
_926667
710 2 _aJohn Wiley & Sons,
_epublisher.
_96902
710 2 _aIEEE Xplore (Online service),
_edistributor.
_926668
776 0 8 _iPrint version:
_z9780780334779
856 4 2 _3Abstract with links to resource
_uhttps://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5263462
942 _cEBK
999 _c73844
_d73844