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PRECISION TEMPERATURE SENSORS IN CMOS TECHNOLOGY [electronic resource] / by Michiel A.P. Pertijs, Johan H. Huijsing.

By: Contributor(s): Material type: TextTextSeries: Analog Circuits and Signal ProcessingPublisher: Dordrecht : Springer Netherlands, 2006Description: XII, 292 p. online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781402052583
Subject(s): Additional physical formats: Printed edition:: No titleDDC classification:
  • 621.3815 23
LOC classification:
  • TK7888.4
Online resources:
Contents:
Acknowledgment -- 1. Introduction -- 2. Characteristics of Bipolar Transistors -- 3. Ratiometric Temperature Measurement Using Bipolar Transistors -- 4. Sigma-Delta Analog-To-Digital Conversion -- 5. Precision Circuit Techniques -- 6. Calibration Techniques -- 7. Realizations -- 8. Conclusions -- Appendices. A Derivation of Mismatch-Related Errors. A.1 Errors in DVBE B Resolution Limits of Sigma-Delta Modulators with a DC Input. C Non-Exponential Settling Transients -- About the Authors -- Index.
In: Springer eBooksSummary: The low cost and direct digital output of CMOS smart temperature sensors are important advantages compared to conventional temperature sensors. This book addresses the main problem that nevertheless prevents widespread - plication of CMOS smart temperature sensors: their relatively poor absolute accuracy. Several new techniques are introduced to improve this accuracy. The effectiveness of these techniques is demonstrated using three prototypes. ? The ?nal prototype achieves an inaccuracy of±0.1 C over the military t- perature range, which is a signi?cant improvement in the state of the art. Since smart temperature sensors have been the subject of academic and industrial research for more than two decades, an overview of existing knowledge and techniques is also provided throughout the book. Inthisintroductorychapter,themotivationandobjectivesofthisworkare- scribed. ThisisfollowedbyareviewofthebasicoperatingprinciplesofCMOS smart temperature sensors, and a brief overview of previous work. The ch- lenges are then described that need to be met in order to improve the accuracy of CMOS smart temperature sensors while maintaining their cost advantage. Finally, the structure of the rest of the book is introduced.
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E-Book E-Book Central Library Available E-38560

Acknowledgment -- 1. Introduction -- 2. Characteristics of Bipolar Transistors -- 3. Ratiometric Temperature Measurement Using Bipolar Transistors -- 4. Sigma-Delta Analog-To-Digital Conversion -- 5. Precision Circuit Techniques -- 6. Calibration Techniques -- 7. Realizations -- 8. Conclusions -- Appendices. A Derivation of Mismatch-Related Errors. A.1 Errors in DVBE B Resolution Limits of Sigma-Delta Modulators with a DC Input. C Non-Exponential Settling Transients -- About the Authors -- Index.

The low cost and direct digital output of CMOS smart temperature sensors are important advantages compared to conventional temperature sensors. This book addresses the main problem that nevertheless prevents widespread - plication of CMOS smart temperature sensors: their relatively poor absolute accuracy. Several new techniques are introduced to improve this accuracy. The effectiveness of these techniques is demonstrated using three prototypes. ? The ?nal prototype achieves an inaccuracy of±0.1 C over the military t- perature range, which is a signi?cant improvement in the state of the art. Since smart temperature sensors have been the subject of academic and industrial research for more than two decades, an overview of existing knowledge and techniques is also provided throughout the book. Inthisintroductorychapter,themotivationandobjectivesofthisworkare- scribed. ThisisfollowedbyareviewofthebasicoperatingprinciplesofCMOS smart temperature sensors, and a brief overview of previous work. The ch- lenges are then described that need to be met in order to improve the accuracy of CMOS smart temperature sensors while maintaining their cost advantage. Finally, the structure of the rest of the book is introduced.

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