Energy Autonomous Micro and Nano Systems

Providing a detailed overview of the fundamentals and latest developments in the field of energy autonomous microsystems, this book delivers an in-depth study of the applications in the fields of health and usage monitoring in aeronautics, medical implants, and home automation, drawing out the main specifications on such systems. Introductory information on photovoltaic, thermal and mechanical energy harvesting, and conversion, is given, along with the latest results in these fields. This book also provides a state of the art of ultra-low power sensor interfaces, digital signal processing and wireless communications. In addition, energy optimizations at the sensor node and sensors network levels are discussed, thus completing this overview.
This book details the challenges and latest techniques available to readers who are interested in this field. A major strength of this book is that the first three chapters are application orientated and thus, by setting the landscape, introduce the technical chapters. There is also a good balance between the technical application, covering all the system-related aspects and, within each chapter, details on the physics, materials and technologies associated with electronics.

Contents

Introduction. Introduction to Energy Autonomous Micro
and Nano Systems and Presentation of Contributions, Marc Belleville and Cyril Condemine.
1. Sensors at the Core of Building Control, Gilles Chabanis, Laurent Chiesi, Hynek Raisigel,
Isabelle Ressejac and Veronique Boutin.
2. Toward Energy Autonomous MedicalImplants, Raymond Campagnolo and Daniel Kroiss.
3. Energy Autonomous Systems in Aeronautic Applications, Thomas Becker, Jirka Klaue and Martin Kluge.
4. Energy Harvesting by Photovoltaic Effect, Emmanuelle Rouviere, Simon Perraud, Cyril Condemine and
Guy Waltisperger.
5. Mechanical Energy Harvesting, Ghislain Despesse, Jean Jacques Chaillout,
Sebastien Boisseau and Claire Jean-Mistral.
6. Thermal Energy Harvesting, Tristan Caroff, Emmanuelle Rouviere and Jerome Willemin.
7. Lithium Micro-Batteries, Raphael Salot.
8. Ultra-Low-Power Sensors, Pascal Nouet, Norbert Dumas, Laurent Latorre and
Frederick Mailly.
9. Ultra-Low-Power Signal Processing in Autonomous Systems, Christian Piguet.
10. Ultra-Low-Power Radio Frequency Communications and Protocols, Eric Mercier.
11. Energy Management in an Autonomous Microsystem, Jean-Frederic Christmann, Edith Beigne, Cyril Condemine, Jerome Willemin and Christian Piguet.
12. Optimizing Energy Efficiency of 
Sensor Networks, Olivier Sentieys and Olivier Berder.

Content:
Chapter 1 Sensors at the Core of Building Control (pages 1–22): Gilles Chabanis, Laurent Chiesi, Hynek Raisigel, Isabelle Ressejac and Veronique Boutin
Chapter 2 Toward Energy Autonomous Medical Implants (pages 23–58): Raymond Campagnolo and Daniel Kroiss
Chapter 3 Energy Autonomous Systems in Aeronautic Applications (pages 59–81): Thomas Becker, Jirka Klaue and Martin Kluge
Chapter 4 Energy Harvesting by Photovoltaic Effect (pages 83–113): Emmanuelle Rouviere, Simon Perraud, Cyril Condemine and Guy Waltisperger
Chapter 5 Mechanical Energy Harvesting (pages 115–151): Ghislain Despesse, Jean Jacques Chaillout, Sebastien Boisseau and Claire Jean?Mistral
Chapter 6 Thermal Energy Harvesting (pages 153–184): Tristan Caroff, Emmanuelle Rouviere and Jerome Willemin
Chapter 7 Lithium Micro?Batteries (pages 185–205): Raphael Salot
Chapter 8 Ultra?Low?Power Sensors (pages 207–239): Pascal Nouet, Norbert Dumas, Laurent Latorre and Frederick Mailly
Chapter 9 Ultra?Low?Power Signal Processing in Autonomous Systems (pages 241–272): Christian Piguet
Chapter 10 Ultra?Low?Power Radio Frequency Communications and Protocols (pages 273–300): Eric Mercier
Chapter 11 Energy Management in an Autonomous Microsystem (pages 301–324): Jean?Frederic Christmann, Edith Beigne, Cyril Condemine, Jerome Willemin and Christian Piguet
Chapter 12 Optimizing Energy Efficiency of Sensor Networks (pages 325–359): Olivier Sentieys and Olivier Berder