High Temperature Electronics Design for Aero Engine Controls and Health Monitoring

High Temperature Electronics Design for Aero Engine Controls and Health Monitoring

River Publishers Series in Electronic Materials, Circuits and Devices

High Temperature Electronics Design for Aero Engine Controls and Health Monitoring

Authors:
Lucian Stoica, GE Global Research Germany
Steve Riches, Tribus-D Ltd UK
Colin Johnston, University of Oxford UK

ISBN: 9788793379251

Available: September 2016

doi: https://doi.org/10.13052/rp-9788793379244


There is a growing desire to install electronic power and control systems in high temperature harsh environments to improve the accuracy of critical measurements, reduce the amount of cabling and to eliminate cooling systems. Typical target applications include electronics for energy exploration, power generation and control systems.

Technical topics presented in this book include:

  • High temperature electronics market
  • High temperature devices, materials and assembly processes
  • Design, manufacture and testing of multi-sensor data acquisition system for aero-engine control
  • Future applications for high temperature electronics
High Temperature Electronics Design for Aero Engine Controls and Health Monitoring contains details of state of the art design and manufacture of electronics targeted towards a high temperature aero-engine application.

High Temperature Electronics Design for Aero Engine Controls and Health Monitoring is ideal for design, manufacturing and test personnel in the aerospace and other harsh environment industries as well as academic staff and master/research students in electronics engineering, materials science and aerospace engineering.
High temperature electronics, ASIC design, silicon on insulator devices, electronic packaging, aero-engine control, sensor signal conditioning, Aeronautical rotating systems, CMOS SOI, peak detector, operational amplifiers, ARINC, instrumentation amplifier, single-ended to differential converter, current mirror

Chapter 1: High Temperature Electronics Background
by Lucian Stoica, Steve Riches, Colin Johnston


873

Chapter 2: High Temperature Integrated Technologies
by Lucian Stoica, Steve Riches and Colin Johnston


936

Chapter 3: Development of Multi-Sensor Data Acquisition System
by Lucian Stoica, Valentyn Solomko, Ozan Iskilibli, Renato Del Regno, Reece Beigh, Thorsten Baumheinrich, Steve Riches, Colin Johnston, Geoff Rickard, PaulWilliams


999

Chapter 4: Design and Characterization of HIGHTECS Signal Channels and Building Blocks
by Lucian Stoica, Steve Riches and Colin Johnston


1114

Chapter 5: Characterization of Prototypes
by Lucian Stoica, Steve Riches and Colin Johnston


1057

Chapter 6: Reliability, Failure Rates and Lifetime Prediction
by Lucian Stoica, Steve Riches and Colin Johnston


855

Chapter 7: Future Directions for High Temperature Electronics
by Lucian Stoica, Steve Riches and Colin Johnston


1111