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Hybrid Microcircuit Reliability Data

  • 1st Edition - January 1, 1976
  • Latest edition
  • Author: Sam Stuart
  • Language: English

Hybrid Microcircuit Reliability Data provides test and operational data on the hybrid device in both highly summarized and detailed format. Organized into five sections, this book… Read more

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Description

Hybrid Microcircuit Reliability Data provides test and operational data on the hybrid device in both highly summarized and detailed format. Organized into five sections, this book begins with a comparison of hybrid device users' experienced failure rate with predicted failure rate. Subsequent chapters focus on the screening summary for the hybrid devices, as well as the failure classifications involved. A tabulated test data on the device is also shown. This book will provide helpful data for government and industrial use.

Table of contents


Introduction

Section 1

Experienced vs Predicted Failure Rates

Figure 1 User Experience vs Predicted Failure Rates

Table 1 User Data

Section 2

Screening Summary

Table 2 Screening Fallout Rejected/Tested

Table 3 Distribution of Fallouts by Test Method(%)

Table 4 Rejected/Tested

Table 5 Normalized Distribution of Fallout(%)

Table 6 Environmental Sequence Results

Table 7 Summary of Screening Results

Section 3

Failure Classifications

Table 8 Thin Film Failure Analysis Summary

Table 9 Thick Film Failure Analysis Summary

Section 4

Cross Reference Index

Section 5

Detailed Test Data Tabulation

Beckman Inst. Inc.

Thick Film Linear

Centralab (Div of Globe Union)

Thick Film Resistor Array

Thick Film Digital

Circuit Technology Inc.

Thick Film Digital

Thick Film Linear

Collins Radio Co

Thin Film Digital

Semiconductor Digital

Thin Film Linear

Semiconductor Linear

Crystalonics

Thin Film Digital

CTS Microelectronics

Thick Film Digital

Thick Film Linear

Thick Film N/A

Dale Electronics Inc

Thick Film N/A

Thin Film N/A

Dupont Electric Prods

Thick Film N/A

Electro-Materials Corp.

Thick Film N/A

Electronic Communications Inc.

Thin Film Linear

Fairchild Semiconductor

Thin Film Digital

Thin Film Linear

Thin Film N/A

General Instruments

Thick Film Linear

GTE Sylvania

Semiconductor Digital

Halex

Thin Film Linear

Thin Film Digital/Linear

Hewlett Packard

Thin Film Digital

Hughes Aircraft Co.

Thick Film Linear

Thin Film Linear

Intersil Inc.

Thin Film Digital

Lockheed Electronics

Thick Film Digital

Micro Network Corp

Thin Film Digital

Semiconductor Digital

Motorola Semiconductor

Thin Film Digital

Thin Film Linear

Thick Film Linear

Semiconductor Linear

National Semiconductor

Thick Film Digital

Thick Film Linear

Philco Ford Corp

Thin Film Digital

Thin Film Linear

Precision Monolithics

Thin Film Linear

Raytheon Corporation

Thick Film Digital

SCS Micro Systems

Semiconductor Digital

Siliconix

Thin Film Digital

Sprague Electric Co

Semiconductor Digital

Thin Film Linear

Thin Film N/A

Sylvania Electric Prod

Semiconductor Digital

Teledyne Philbrick

Thin Film Linear

Teledyne Semiconductor (AMELCO)

Thin Film

Thin Film Linear

Texas Instruments

Thin Film Digital

Thin Film Linear

TRW Electronics

Thick Film Digital

Proprietary

Thick Film Digital

Thin Film Digital

Semiconductor Digital

Thick Film Linear

Thin Film Linear

Appendix

Hybrid Microcircuit Descriptor Code Interpretations


Product details

  • Edition: 1
  • Latest edition
  • Published: January 1, 1976
  • Language: English

About the author

SS

Sam Stuart

Dr. Sam Stuart is a physiotherapist and a research Fellow within the Balance Disorders Laboratory, OHSU. His work focuses on vision, cognition and gait in neurological disorders, examining how technology-based interventions influence these factors. He has published extensively in world leading clinical and engineering journals focusing on a broad range of activities such as real-world data analytics, algorithm development for wearable technology and provided expert opinion on technology for concussion assessment for robust player management. He is currently a guest editor for special issues (sports medicine and transcranial direct current stimulation for motor rehabilitation) within Physiological Measurement and Journal of NeuroEngineering and Rehabilitation, respectively.
Affiliations and expertise
Senior Research Fellow, Department of Sport, Exercise and Rehabilitation, Northumbria University, UK Honorary Physiotherapist, Northumbria Healthcare NHS Foundation Trust, North Shields, UK

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