Abstract
State-of-the-art tire pressure monitoring systems (TPMS) are wirelesssensor nodes mounted on the rim. Attaching the node on the inner liner of a tireallows sensing of important additional technical parameters, which may be used forimproved tracking and engine control, feedback to the power train and car-to-carcommunication purposes. Thus a significant step in car control appears feasible.Those new features come at a price: the maximum weight of the sensor is limited to5 g including package, power supply, and antenna. Robustness is required againstextreme levels of acceleration of up to 3,000 g (g = 9.81m/s2). The node size islimited to about 1 cm3 to avoid high force gradients due to device deformation andfinally, a 10-year power supply lifetime must be achieved. In this chapter we presenta self-sufficient tire-mounted wireless sensor node.
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• with a bulk acoustic wave (BAW)-based low-power FSK transceiver;
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• pioneered for an energy scavenger-based low-volume and low-weight powersupply; and
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• a 3D vertical chip stack for best compactness, lowest volume, and highest robustnessfor pressure, inertia, and temperature sensing.
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Ludvigsen K. (2003) Porsche. Excellence Was Expected, vol. 3. Bentley Publishers, Cambridge, MA, p 1011
Otis B et al (June 2004) An ultra-low power MEMS-based two-channel transceiver for wireless sensor network. VLSI Circuits
Kowalewski M (August–September 2004) Monitoring and managing tire pressure. IEEE Potentials 23(3):8–10
DuboisMA (July 2–4, 2003) Thin film bulk acoustic wave resonators: a technology overview. In: 4th Workshop on MEMS for Millimeterwave Communications, MEMSWAVE 2003, Toulouse, France
Dielacher M, FlatscherM, PribylW(July 2009) A low noise amplifier with on-chip matching network and integrated bulk acoustic wave resonators for high image rejection. In: Research in Microelectronics and Electronics, 2009. PRIME 2009. Ph.D., Cork, Ireland, pp 172–175
Chabloz J et al (February 6–9, 2006) A low power 2.4 GHz CMOS receiver front-end using BAWresonators. In: Solid State Circuits Conference ISSCC 2006. Digest of Technical Papers. IEEE International, San Francisco, CA, pp 1244–1253
Flatscher M, Dielacher M, Herndl T, Lentsch T, Matischek R, Prainsack J, Pribyl W, Theuss H, Weber W (February 2009) A robust wireless sensor node for in-tire-pressure monitoring. In: Solid-State Circuits Conference – Digest of Technical Papers, 2009. ISSCC 2009, IEEE International, San Francisco, CA, US, pp 286–287,287a
Flatscher M, Dielacher M, Herndl T, Lentsch T, Matischek R, Prainsack J, Pribyl W, Theuss H, Weber W (January 2010) A bulk acoustic wave (baw) based transceiver for an in-tirepressure monitoring sensor node. Solid-State Circuits, IEEE J. 45:167–177
Ramm P, Klumpp A, Weber J, Taklo M (December 2009) 3D System-on-Chip Technologies for More than Moore systems; P. Ramm, A. Klumpp, J. Weber, M. Taklo; 4 Remote Sensing of Car Tire Pressure 159 Journal of Microsystem Technologies (Springer), p. 1–5; Published online: Dec 18, 2009 http://www.springerlink.com/content/3n84397t82263112/ DOI 10.1007/s00542-009-0976-1, ISSN: 1432–1858 (Online)
Lietaer N et al (October 4–9, 2009) Meet. Abstr. – Electrochem. Soc./MA2009-02/216th ECS Meeting. In: 3D Interconnect Technologies for Advanced MEMS/NEMS Applications – An Invited Talk, Vienna, Austria
Schjølberg-Henriksen K et al (2009) Miniaturised sensor node for tire pressure monitoring (e-CUBES). In: Advanced Microsystems for Automotive Applications – Smart Systems for Safety, Sustainability, and Comfort, Meyer G, Valldorf J, Gessner W (eds.). Springer, Berlin, pp 313–332
Halvorsen E, Westby ER, Husa S, Vogl A, Østbø NP, Leonov V, Sterken T, Kvisterøy T (June 21–25 2009) An electrostatic energy harvester with electret bias. In: The IEEE 15th International Conference on Solid-State Sensors, Actuators & Microsystems, Transducers, 2009, pp 1381–1384, Denver, CO
Lietaer N, TakloM, Klumpp A,Weber J, Ramm P (November 2009) 3D integration technologies for miniaturized tire pressure monitor systems (TPMS). San Jose, CA, US. In: Proceedings of 42nd International Symposium on Microelectronics – IMAPS 2009
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Herndl, T. (2011). Remote Sensing of Car Tire Pressure. In: Kaźmierski, T., Beeby, S. (eds) Energy Harvesting Systems. Springer, New York, NY. https://doi.org/10.1007/978-1-4419-7566-9_4
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DOI: https://doi.org/10.1007/978-1-4419-7566-9_4
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