Measuring and testing – Speed – velocity – or acceleration – Angular rate using gyroscopic or coriolis effect
Reexamination Certificate
1998-10-23
2001-04-03
Kwok, Helen C. (Department: 2856)
Measuring and testing
Speed, velocity, or acceleration
Angular rate using gyroscopic or coriolis effect
C073S504120
Reexamination Certificate
active
06209394
ABSTRACT:
TECHNICAL FIELD
The present invention relates to an integrated angular speed sensor device and the production method thereof.
As is known, an angular speed sensor, or gyroscope, or yaw sensor, is a device which can measure the variation of direction of the speed vector of a moving body.
BACKGROUND OF THE INVENTION
Angular sensors can be used in the car industry, for ABS, active suspensions, ASR, dynamic control of the vehicle and ineitial navigation systems; in consumer goods, for image stabilization systems in cinecameras, in sports equipment, in three-dimensional “mice”; in industrial process control, for example in the control of industrial machines, in robotics; in the medical field; and in the military field, for new weapons systems.
Conventional gyroscopes, which are based on conservation of the angular moment of a rotating mass, are too costly and bulky, and are insufficiently reliable for the new applications. In addition, although optical fiber and laser gyroscopes have excellent performance levels, they are too costly for the applications indicated.
The increasing need for small, inexpensive gyroscopes has stimulated development activity in many industrial and academic research centers. In about the 1950s, the first vibrating gyroscopes were thus produced: they measure the angular speed of the systems on which they are fitted, by detecting the effect of the Coriolis force on a mass which vibrates in the non-inertial rotating system. In these sensors it is essential for the sensing mass to be kept moving by means of an actuation mechanism. The first gyroscope produced in the 1950s used a magnetic field for excitation of the sensing mass and detection of the Coriolis force; subsequently in the 1960s, the piezoelectric effect, which is now the most commonly used type, was employed (see for example B. Johnson, “Vibrating Rotation Sensors”, Sensors and Actuators, 1995, SAE, SP-1066, pages 41-47).
At present, there is need for vibrating gyroscopes in which the motion-sensing device comprises a silicon microstructure. In fact, the possibility of using machinery and production processes which are typical of the microelectronics industry should make it possible to produce gyroscopes in large volumes and at a low cost, which are essential requirements for car industry and consumer goods applications.
SUMMARY OF THE INVENTION
In one aspect, the present invention provides a motion-sensing device that is a vibrating-type, integrated angular speed sensor and a production method that results in a motion-sensing device at a low cost, and with a high level of performance and reliability.
In one aspect, the integrated angular speed sensor device includes a mobile structure anchored to a semiconductor material body and having first mobile excitation electrodes which are intercalated with first fixed excitation electrodes. The first mobile and first fixed excitation electrodes have a first direction of extension. The speed sensor device also includes second mobile detection electrodes which are intercalated with second fixed detection electrodes. The second mobile and second fixed detection electrodes have a second direction of extension which is substantially perpendicular to said first direction.
In another aspect, the present invention includes a method for production of an integrated angular speed sensor device. The method includes forming a mobile structure having first mobile excitation electrodes which are intercalated with first fixed excitation electrodes and which extend in a first direction of extension and forming second mobile detection electrodes which are intercalated with second fixed detection electrodes which extend in a second direction of extension which is substantially perpendicular to said first direction.
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Bernstein, J. et al., “A Micromachined Comb-Drive Tuning Form Rate Gyroscope”,IEEE Proceedings Micro Electro Mechanical System, Robotics and Automation Society, Fort Lauderdale, Florida, Feb. 7-10, 1993, pp. 143-148.
Tanaka, K. et al., “A micromachined vibrating gyroscope”,Sensors and Actuators, A 50, 1995, pp. 111-115.
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Cuccia Aurea
Ferrari Paolo
Ferrera Marco
Montanini Pietro
Vigna Benedetto
Galanthay Theodore E.
Iannucci Robert
Kwok Helen C.
Seed IP Law Group PLLC
STMicroelectronics S.r.l.
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