INERTIAL FORCE SENSOR
2 Assignments
0 Petitions
Accused Products
Abstract
An inertial force sensor includes a fixed part, a beam connected to the fixed part, a plummet connected to another end of the beam and being displaceable due to inertial force to cause the beam to deform, a conductive part provided at the plummet, a strain-sensitive resistor provided at the beam for detecting a deformation of the first beam, first and second fault diagnostic electrodes provided at the fixed part, a first fault diagnostic wiring for connecting the first fault diagnostic electrode to the conductive part through the beam, and a second fault diagnostic wiring for connecting the second fault diagnostic electrode to the conductive part through the beam. The inertial force sensor does not continue to output an erroneous output signal when a crack occurs in the plummet, thus having high reliability.
18 Citations
21 Claims
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1-10. -10. (canceled)
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11. An inertial force sensor configured to detect an inertial force applied thereto, comprising:
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a first fixed part; a first beam having one end and another end, the one end of the first beam being connected to the first fixed part; a first plummet connected to the another end of the first beam, the first plummet being displaceable due to the inertial force to cause the first beam to deform; a first conductive part provided at the first plummet; a first strain-sensitive resistor provided at the first beam, for detecting a deformation of the first beam a first fault diagnostic electrode provided at the first fixed part; a second fault diagnostic electrode provided at the first fixed part; a first fault diagnostic wiring for connecting the first fault diagnostic electrode to the first conductive part through the first beam; and a second fault diagnostic wiring for connecting the second fault diagnostic electrode to the first conductive part through the first beam, wherein the first fault diagnostic electrode is configured to be connected to a non-inverting input terminal of a comparator to have a voltage applied to the first fault diagnostic electrode, and wherein the second fault diagnostic electrode is configured to be connected to an inverting input terminal of the comparator. - View Dependent Claims (12, 13)
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14. An inertial force sensor for detecting an inertial force applied thereto, comprising:
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a first fixed part; a first beam having one end and another end, the one end of the first beam being connected to the first fixed part; a first plummet connected to the another end of the first beam, the first plummet being displaceable due to the inertial force to cause the first beam to deform; a first conductive part provided at the first plummet; a first strain-sensitive resistor provided at the first beam, for detecting a deformation of the first beam; a second fixed part; a second beam having one end and another end, the one end of the second beam being connected to the second fixed part; a second plummet connected to the another end of the second beam, the second plummet being displaceable due to the inertial force to cause a deformation of the second beam; a second conductive part provided at the second plummet; a second strain-sensitive resistor provided at the second beam, for detecting a deformation of the second beam; a first fault diagnostic electrode provided at the first fixed part; a second fault diagnostic electrode provided at one of the first fixed part and the second fixed part; and a plurality of fault diagnostic wirings for connecting the first conductive part and the second conductive part in series between the first fault diagnostic electrode and the second fault diagnostic electrode through the first beam and the second beam. - View Dependent Claims (15)
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16. An inertial force sensor for detecting an inertial force applied thereto, comprising:
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a fixed part; a first beam having one end and another end, the one end of the first beam being connected to the fixed part; a second beam having one end and another end, the one end of the second beam being connected to the fixed part; a first plummet connected to the another end of the first beam and the another end of the second beam, the first plummet being displaceable due to the inertial force to cause the first beam and the second beam to deform; a first plummet-displacement electrode provided at the first plummet; a first counter electrode facing the first plummet-displacement electrode with a predetermined space between the first counter electrode facing the first plummet-displacement electrode; a fault diagnostic electrode provided at the fixed part; and a first fault diagnostic wiring extending from the fault diagnostic electrode and connected to the first plummet-displacement electrode through the first beam and the second beam. - View Dependent Claims (17, 18, 19, 20, 21)
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Specification