TY - CHAP
T1 - Design, fabrication and testing of miniaturised wireless Inertial Measurement Units (IMU)
AU - Barton, J.
AU - Gonzalez, A.
AU - Buckley, J.
AU - O'Flynn, B.
AU - O'Mathuna, S. C.
PY - 2007
Y1 - 2007
N2 - This paper will describe the design, fabrication, operation, and test results of a miniature Wireless Inertial Measurement Unit (WIMU) with a form factor of 10mm. Many types of Inertial Measurement Units(IMU) have been designed and manufactured by prominent companies such as Crossbow, Xsens, O NAVI and Honeywell, among many others. American GNC Corporation currently claims to have the world's smallest IMU[1]. Most of these IMUs are aimed at aerospace and other types of navigation, which is why miniaturisation has not been a priority. However, with the onset and development of MEMS technology, novel applications have been found for those MEMS sensors employed in an IMU. Head mounted displays, Segways and mobile phones are among the new products taking advantage of miniaturised MEMS inertial sensors. The current WIMU development is a step along the roadmap of the AES team at Tyndall National Institute towards miniaturisation and works from the current standard, the 25mm platform [2]. A 25mm stacked SMT IMU has been successfully developed and tested [3,4]. The goal now is to develop an even smaller version of this IMU by using advanced technology such as flexible substrates and flip-chip technique. These miniaturised IMU's are required for wearable and medical applications where size and weight are priorities. Our WIMU uses bare-die versions of off-the-shelf MEMS sensors. The Inertial Measurement Unit itself is designed to give full six degrees of freedom with 3-axis for each of the sensors-accelerometers, gyroscopes and magnetometers
AB - This paper will describe the design, fabrication, operation, and test results of a miniature Wireless Inertial Measurement Unit (WIMU) with a form factor of 10mm. Many types of Inertial Measurement Units(IMU) have been designed and manufactured by prominent companies such as Crossbow, Xsens, O NAVI and Honeywell, among many others. American GNC Corporation currently claims to have the world's smallest IMU[1]. Most of these IMUs are aimed at aerospace and other types of navigation, which is why miniaturisation has not been a priority. However, with the onset and development of MEMS technology, novel applications have been found for those MEMS sensors employed in an IMU. Head mounted displays, Segways and mobile phones are among the new products taking advantage of miniaturised MEMS inertial sensors. The current WIMU development is a step along the roadmap of the AES team at Tyndall National Institute towards miniaturisation and works from the current standard, the 25mm platform [2]. A 25mm stacked SMT IMU has been successfully developed and tested [3,4]. The goal now is to develop an even smaller version of this IMU by using advanced technology such as flexible substrates and flip-chip technique. These miniaturised IMU's are required for wearable and medical applications where size and weight are priorities. Our WIMU uses bare-die versions of off-the-shelf MEMS sensors. The Inertial Measurement Unit itself is designed to give full six degrees of freedom with 3-axis for each of the sensors-accelerometers, gyroscopes and magnetometers
UR - https://www.scopus.com/pages/publications/35348907840
U2 - 10.1109/ECTC.2007.373939
DO - 10.1109/ECTC.2007.373939
M3 - Chapter
AN - SCOPUS:35348907840
SN - 1424409853
SN - 9781424409853
T3 - Proceedings - Electronic Components and Technology Conference
SP - 1143
EP - 1148
BT - Proceedings - 57th Electronic Components and Technology Conference 2007, ECTC '07
T2 - 57th Electronic Components and Technology Conference 2007, ECTC '07
Y2 - 29 May 2007 through 1 June 2007
ER -