Your search keyword '"Tire-pressure monitoring system"' showing total 2 results

1. Design of a Weighted-Rotor Energy Harvester Based on Dynamic Analysis and Optimization of Circular Halbach Array Magnetic Disk

Author

Yu-Jen Wang, Yu-Ti Hao, and Hao-Yu Lin

Subjects

weighted-rotor energy harvester, natural frequency, optimization of Halbach array, tire-pressure monitoring system, Mechanical engineering and machinery, TJ1-1570

Abstract

This paper proposes the design of a weighted-rotor energy harvester (WREH) in which the oscillation is caused by the periodic change of the tangential component of gravity, to harvest kinetic energy from a rotating wheel. When a WREH is designed with a suitable characteristic length, the rotor’s natural frequency changes according to the wheel rotation speed and the rotor oscillates at a wide angle and high angular velocity to generate a large amount of power. The magnetic disk is designed according to an optimized circular Halbach array. The optimized circular Halbach array magnetic disk provides the largest induced EMF for different sector-angle ratios for the same magnetic disk volume. This study examined the output voltage and power by considering the constant and accelerating plate-rotation speeds, respectively. This paper discusses the effects of the angular acceleration speed of a rotating wheel corresponding to the dynamic behaviors of a weighted rotor. The average output power is 399 to 535 microwatts at plate-rotation speeds from 300 to 500 rpm, enabling the WREH to be a suitable power source for a tire-pressure monitoring system.

Published

2015

2. On-Chip Integration of Pressure Plus 2-Axis (X/Z) Acceleration Composite TPMS Sensors with a Single-Sided Bulk-Micromachining Technique

Author

Jiachou Wang and Fang Song

Subjects

Bulk micromachining, Fabrication, Materials science, business.industry, Wafer bonding, Mechanical Engineering, lcsh:Mechanical engineering and machinery, on-chip integration, Silicon on insulator, two-axis (X/Z) accelerometer, Hardware_PERFORMANCEANDRELIABILITY, Pressure sensor, Article, Surface micromachining, single-side bulk-micromachining process, Control and Systems Engineering, Hardware_INTEGRATEDCIRCUITS, Optoelectronics, Tire-pressure monitoring system, Wafer, lcsh:TJ1-1570, tire pressure monitoring system (TPMS), pressure sensor, Electrical and Electronic Engineering, business

Abstract

A novel on-chip integration of pressure plus 2-axis (X/Z) acceleration composite sensors for upgraded production of automobile tire pressure monitoring system (TPMS) is proposed, developed, and characterized. Herein, the X-axis accelerometer is with the cantilever beam-mass structure and is used for automatically identifying and positioning each of the four wheels. The IC-Foundry-Compatible low-cost batch fabrication technique of MIS (i.e., Micro-openings Inter-etch and Sealing) is employed to only fabricate the device from the front side of (111) silicon wafer, without double-sided micromachining, wafer bonding, complex Cavity-SOI (Silicon on Insulator) processing, and expensive SOI-wafer needed. Benefited from the single-wafer front-side fabrication technique on ordinary single-polished wafers, the fabricated composite TPMS sensor has the advantages of a small chip-size of 1.9 mm &times, 1.9 mm, low cross-talk interference, low-cost, and compatible process with IC-foundries. The fabricated pressure sensors, X-axis accelerometer and Z-axis accelerometer, show linear sensing outputs, with the sensitivities as about 0.102 mV/kPa, 0.132 mV/kPa, and 0.136 mV/kPa, respectively. Fabricated with the low-cost front-side MIS process, the fabricated composite TPMS sensors are promising in automotive electronics and volume production.

Published

2019