Piezoelectric acceleration sensor and method of detecting...

Details Piezoelectric acceleration sensor and method of detecting... Piezoelectric acceleration sensor and method of detecting...

1999-04-13

2001-07-24

Kwok, Helen (Department: 2856)

Measuring and testing

Speed, velocity, or acceleration

Acceleration determination utilizing inertial element

Reexamination Certificate

active

06263734

ABSTRACT:

BACKGROUND OF THE INVENTION
(1) Field of the Invention
The present invention relates to a piezoelectric acceleration sensor for detecting acceleration, shock and vibration by using a piezoelectric body, and a method of detecting acceleration, and a manufacturing method thereof.
(2) Description of the Prior Arts
In recent years, dielectrics, particularly ferroelectrics, has been studied as a key material of piezoelectric elements such as an acceleration sensor (piezoelectric acceleration sensor) and a pressure sensor utilzing piezoelectric, an actuator utilizing reverse piezoelectric effect as well as a pyroelectric infrared detector using pyroelectric, a nonvolatile memory using polarization inversion, a capacitive element using a characteristic of high permittivity.
A piezoelectric element used for the above-mentioned acceleration sensor and a pressure sensor detects mechanical values (acceleration, pressure and the like) by utilzing ‘piezoelectric effect’ in which a piezoelectric body generates electric charge by the addition of force to a piezoelectric body, and has a characteristic of obtaining an extremely high detectivity.
The above-mentioned acceleration sensor is described below in detail. Since acceleration, shock and vibration are a similar phenomenon physically, these are chiefly named acceleration generically below.
An acceleration sensor is classified into the following three kinds of types by a direction of detecting a force (acceleration) which acts on a piezoelectric body.
(1) longitudinal effect type: detects an acceleration in a direction parallel with an electrical axis
(2) shear effect type: detects an acceleration in a direction wherein a gap in a plane parallel with an electrical axis occurs
(3) lateral effect type: detects an acceleration in a direction vertical to an electrical axis
The above-mentioned longitudinal effect type acceleration sensor is constituted by providing a weight at the end of a piezoelectric body, and utilizes the occurrence of electric charge in the piezoelectric body when the piezoelectric body expands and contracts by the inertia of the weight. This acceleration sensor can detect a large acceleration because of a high mechanical strength. Moreover, generally, the acceleration sensor can detect a vibration with a high frequency and an acceleration which changes abruptly because of a high mechanical resonance frequency.
A shear effect type acceleration sensor has the same structure as the above-mentioned longitudinal effect type, and utilizes the occurrence of electric charge in a piezoelectric body when shear force acts on the piezoelectric body by the inertia of the weight. This acceleration sensor also can detect a large acceleration as well as a vibration with a high frequency and an acceleration which changes abruptly, similarly to the longitudinal effect type.
Meanwhile, a lateral effect type acceleration sensor is constituted by sticking a piezoelectric body on an elastic plate with the structure of a cantilever or a fixed beam at both ends, and can detect a minute acceleration because of a high sensitivity. Moreover, generally, the acceleration sensor easily detects a vibration with a low frequency and an acceleration which changes gently since it is easy to lower a mechanical resonance frequency.
However, the above-mentioned longitudinal effect type acceleration sensor detects not merely an acceleration in a direction parallel with an electrical axis, but also an acceleration in a direction, wherein a gap in a plane parallel with an electrical axis occurs at a weight, by the same principle as a shear effect type. Consequently, it is difficult to decide through output voltage an acceleration in which direction acts, and the problem is that it is impossible to detect only an acceleration in a direction parallel with an electrical axis accurately. It is possible to detect a large acceleration, while it is difficult to detect a minute acceleration.
Meanwhile, generally, a lateral effect type acceleration sensor has such a problem that it is difficult to detect a vibration with a high frequency and an acceleration which changes abruptly because of a comparatively low mechanical resonance frequency. Since a piezoelectric body is stuck on an elastic plate and an acceleration is detected indirectly according to a deformation of the piezoelectric body following a flexure of the elastic plate, a dispersion in the sensitivity of the sensor tends to get larger when the elastic plate and the piezoelectric body are incompletely stuck in a manufacturing process or a dispersion occurs in a state of sticking.
SUMMARY OF THE INVENTION
The present invention is intended for providing a piezoelectric acceleration sensor, which can detect an acceleration in a predetermined direction certainly, in view of the above-mentioned regard. Moreover, it is intended for providing a piezoelectric acceleration sensor which can detect a large acceleration and a minute acceleration (make a wider dynamic range) as well as a vibration with a high frequency and with a low frequency, and an acceleration with an abrupt change and with a gentle change (make a wider band). Furthermore, it is intended for providing a piezoelectric acceleration sensor which can restrain a dispersion in detectivity and intend downsizing, lightness in weight and the reduction of manufacturing costs.
Moreover, the present invention is intended for providing a method of detecting an acceleration by using the above-mentioned piezoelectric acceleration sensor.
In addition, the present invention is intended for providing a method of manufacturing the above-mentioned piezoelectric acceleration sensor.
First, a summary of the present invention which attains the above-mentioned purposes is described. The present invention has a basic principle of detecting an acceleration in a predetermined direction and intending to make a wider dynamic range and a wider band tough the composition and the operation of a signal based on an output from a plurality of the sensors by using a piezoelectric acceleration sensor comprising a plurality of piezoelectric elements. More specifically, for instance, it is possible to detect an acceleration in a predetermined direction certainly by providing a plurality of piezoelectric elements having anisotropy in a direction of detecting an acceleration component, and disposing the above-mentioned plurality of piezoelectric elements in a different direction from each other. That is, when an acceleration component in various directions is made an unknown quantity, it is possible to calculate each acceleration component based on an output from the piezoelectric elements theoretically by providing piezoelectric elements in the same number as the unknown quantity. Moreover, it is possible to detect an acceleration in a frequency characteristic, into which a frequency characteristic of each piezoelectric element is compounded, by providing a polity of piezoelectric elements with a different frequency characteristic of detecting an acceleration from each other, and compounding an output from the above-mentioned plurality of piezoelectric elements. Furthermore, it is possible to detect an acceleration at a detectivity, into which a detectivity of each piezoelectric element is compounded, by providing a plurality of piezoelectric elements with a different detectivity of an acceleration from each other, and compounding an output from the above-mentioned plurality of piezoelectric elements.
The present invention is described below more concretely.
The present invention is characterized by comprising a longitudinal effect type piezoelectric element which has a first piezoelectric body and outputs a a voltage according to a expansion and contraction and a shear deformation of the above-mentioned first piezoelectric body, a lateral effect type piezoelectric element which has a second piezoelectric body and outputs a voltage according to a flexure of the above-mentioned second piezoelectric body, and a sensor substrate on which the above-mentioned longitudinal effect type piezoelectr

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