TY - BOOK AU - Pertijs,Michiel A.P. AU - Huijsing,Johan H. ED - SpringerLink (Online service) TI - PRECISION TEMPERATURE SENSORS IN CMOS TECHNOLOGY T2 - Analog Circuits and Signal Processing SN - 9781402052583 U1 - 621.3815 23 PY - 2006/// CY - Dordrecht PB - Springer Netherlands KW - ENGINEERING KW - WEIGHTS AND MEASURES KW - MICROWAVES KW - ELECTRONICS KW - SYSTEMS ENGINEERING KW - NANOTECHNOLOGY KW - CIRCUITS AND SYSTEMS KW - ELECTRONICS AND MICROELECTRONICS, INSTRUMENTATION KW - MICROWAVES, RF AND OPTICAL ENGINEERING KW - MEASUREMENT SCIENCE, INSTRUMENTATION N1 - 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 N2 - This book describes the analysis and design of precision temperature sensors in CMOS IC technology. It focusses on so-called smart temperature sensors, which provide a digital output signal that can be readily interpreted by a computer. The sensors described in this book are based on bipolar transistors, which are available as parasitic devices in standard CMOS technology. The relevant physical properties of these devices are described. A sigma-delta converter plays a key role in the conversion to a digital output. Both the system-level design of such a converter, and the circuit-level implementation using both continuous-time and switched-capacitor techniques are described. Special attention is paid to the application of precision interfacing techniques. Precision Temperature Sensors in CMOS Technology ends with a detailed description of three realized prototypes. The final prototype achieves an inaccuracy of only ±0.1ºC (3Sigma) over the temperature range of -55ºC to 125ºC, which is the highest performance reported to date UR - http://dx.doi.org/10.1007/1-4020-5258-8 ER -