Angular rate sensor
First Claim
1. An angular rate sensor comprising:
- (a) a vibrating element having a base end and a pair of elongate tines extending therefrom to a free end of said element, said base end forming a nodal axis of vibrational energy for said tines, said element being fabricated to permit vibration of said tines in a drive plane of motion at a drive resonant frequency and to permit vibration of said tines transverse to said drive plane motion at a sense resonant frequency;
(b) each of tines being magnetized to have two separate magnetic systems each including a north and a south pole to provide two regions of opposite and relatively high external magnetic field, a first one of said regions situated near the free ends of each of said tines and a second one of said regions situated between said first region and said base end, the correspondingly situated regions of said tines being of opposite magnetic field;
(c) electromagnetic drive means interacting with one correspondingly situated pair of said regions for vibrating said tines in opposition relative to one another in the drive plane of motion at said drive resonant frequency;
(d) sensing means for producing an output signal in response to opposing sense motions of said tines occurring transverse to the drive plane, said output being representative of the rate of turn of said vibrating element about a central longitudinal axis thereof.
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Abstract
Angular rate sensors are disclosed. Each sensor includes a forked vibrating element having two tines extending from a base end to a free end. Each of the tines are magnetized to have two regions of opposing magnetic polarity, with the polarity of corresponding regions between the different tines being opposite. In a first embodiment, the tines are driven in complementary resonant vibration by a pair of drive coils positioned about the tines near the free ends thereof. In a second embodiment, the drive coils are located about the tines at the junction of the regions of magnetization mid-element. In the first embodiment, sense motions are detected by a pair of sense coils positioned about mid-element near the junction of the first and second regions of magnetization. In the second embodiment, sense motions are detected by capacitive sensing, which consists of two parallel plate capacitors formed of the tines and additional plates, which are connected for differential sensing. Each of the tines is configured to have a first natural frequency of resonance in the drive plane and a second natural frequency of resonance for sense motions, with the second frequency being greater than the first, in order to extend the usable bandwidth of operation of the sensor.
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Citations
23 Claims
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1. An angular rate sensor comprising:
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(a) a vibrating element having a base end and a pair of elongate tines extending therefrom to a free end of said element, said base end forming a nodal axis of vibrational energy for said tines, said element being fabricated to permit vibration of said tines in a drive plane of motion at a drive resonant frequency and to permit vibration of said tines transverse to said drive plane motion at a sense resonant frequency; (b) each of tines being magnetized to have two separate magnetic systems each including a north and a south pole to provide two regions of opposite and relatively high external magnetic field, a first one of said regions situated near the free ends of each of said tines and a second one of said regions situated between said first region and said base end, the correspondingly situated regions of said tines being of opposite magnetic field; (c) electromagnetic drive means interacting with one correspondingly situated pair of said regions for vibrating said tines in opposition relative to one another in the drive plane of motion at said drive resonant frequency; (d) sensing means for producing an output signal in response to opposing sense motions of said tines occurring transverse to the drive plane, said output being representative of the rate of turn of said vibrating element about a central longitudinal axis thereof. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An angular rate sensor comprising:
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(a) a vibrating element having a base end and a pair of elongate tines extending therefrom to a free end of said element, said base end forming a nodal axis of vibrational energy for said tines, said element being fabricated to permit vibration of said tines in a drive plane of motion at a drive resonant frequency and to permit vibration of said tines transverse to said drive plane motion at a sense resonant frequency; (b) said tines magnetized so that each one includes first and second longitudinally extending regions of oppositely polarized magnetization, each of said regions including longitudinally spaced apart north and south poles forming the opposite poles of a magnet, and so that said first and second regions are oppositely polarized as between corresponding regions of said tines, said first regions including a pole encompassing the free ends of said tines and substantilly abutting said second region at a location along said tines between said base end and said free end whereby a relatively high external magnetic field is produced; (c) electromagnetic drive means selectively energizable for vibrating said tines in opposition relative to one another in the drive plane of motion at said drive resonant frequency, said drive means being situated near the free ends of said tines to interact with one pole of each of said first regions of magnetization; (d) electromagnetic sensing means situated near said relatively high external magnetic fields for producing an output current signal in response to opposing sense motions of said tines occurring transverse to the drive plane, said output current being representative of the rate of turn of said vibrating element along a central longitudinal axis thereof. - View Dependent Claims (12, 13, 14, 15)
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16. An angular rate sensor comprising:
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(a) a pair of vibrating elements each having first and second ends; (b) means for mounting said pair of elements for physical vibration in direct opposition to one another about a nodal axis, each of said elements being mounted at the first ends thereof; (c) each of said elements being magnetized to have two regions of opposite and relatively high external magnetic field, a first one of said regions situated near the second ends of each of said elements and a second other one of said regions situated between said one region and said first ends, the correspondingly situated regions of said elements being of opposite magnetic field. (d) electromagnetic drive means for interacting with said first regions of magnetization situated near the second ends of said elements for causing said sensor elements to vibrate in a first plane of opposing motion relative to one another about said nodal axis; and (e) electromagnetic sensing means situated to sense the magnetic fields of said second regions of magnetization of said elements for producing a sensed output signal in response to a change by said sensor element from its first plane of vibrating motion. - View Dependent Claims (17)
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18. An angular rate sensor comprising:
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(a) a forked vibrating element having a first mounting end and a pair of elongate tines extending therefrom to a free end of said element, said mounting end forming a nodal axis of vibrational energy for said tines; (b) means for magnetizing each of said tines to provide first and second longitudinally extending regions of oppositely polarized magnetization, each of said regions including longitudinally spaced apart north and south poles forming opposite poles of a magnet, said first and second regions being oppositely polarized as between said tines, said first region including a pole encompassing the free end of said tines and substantially abutting said second region at a location along said tines between said mounting end and said free end;
whereby a relatively high external magnetic field is produced;(c) electromagnetic drive means situated about the free end of said element for vibrating said tines in opposition relative to one another in a drive plane of motion by interaction with the poles said first regions of magnetization encompassing the free end of said tines; and (d) means situated near said relatively high external magnetic fields for sensing the magnetic flux thereabout to produce a sense output signal in response to a change by said tines from their drive plane of motion.
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19. An angular rate sensor comprising:
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(a) a pair of elongate elements each having first and second ends; (b) means for mounting said pair of elements at said first ends in substantial parallelism for physical vibration in direct opposition to one another about a nodal axis; (c) each of said elements being magnetized to include first and second longitudinally extending regions of oppositely polarized magnetization, each of said regions including longitudinally spaced apart north and south poles forming the opposite poles of a magnet, said first and second regions of a tine substantially abutting one another to provide a relatively high external magnetic field situated between said ends, said external magnetic fields being of opposite polarity as between said elements; (d) electromagnetic drive means interacting with the forces of said relatively high external magnetic fields of said elements for energizing said sensor elements to vibrate at a resonant frequency in a first plane of opposing motion relative to one another about said nodal axis; and (e) capacitive sensing means situated to sense the movement of said second ends of said elements for producing a sensed output signal in response to a change by said sensor element from its first plane of vibrating motion. - View Dependent Claims (20, 21)
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22. An angular rate sensor comprising:
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(a) a vibrating element having a base and a pair of elongate tines extending therefrom to a free end of said element, said base forming a nodal axis of vibrational energy for said tines, said base including a mounting end, said element being fabricated to permit vibration of said tines in a drive plane of motion at a drive resonant frequency and to permit vibration of said tines transverse to said drive plane motion at a sense resonant frequency; (b) drive means selectively energizable for vibrating said tines in opposition relative to one another in the drive plane of motion at said drive resonant frequency; (c) sensing means for producing an output signal in response to opposing sense motions of said tines occurring transverse to the drive plane, said output being representative of the rate of turn of said vibrating element along a central longitudinal axis thereof; (d) said sense resonant frequency being greater than said drive resonant frequency by an amount approximately 4/3 times the desired output response bandwidth of the sensor.
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23. An angular rate sensor comprising:
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(a) a vibrating element of unitary construction formed from a single block of material having a base and a pair of elongate tines extending therefrom to a free end of said element, said base forming a nodal axis of vibrational energy for said tines, said base including a mounting end, said element being fabricated to permit vibration of said tines in a drive plane of motion at a drive resonant frequency and to permit vibration of said tines transverse to said drive plane motion at a sense resonant frequency; (b) drive means selectively energizable for vibrating said tines in opposition relative to one another in the drive plane of motion at said drive resonant frequency; (c) sensing means for producing an output signal in response to opposing sense motions of said tines occurring transverse to the drive plane, said output being representative of the rate of turn of said vibrating element along a central longitudinal axis thereof; (d) the base of said element including stress relief notches cut from said base on opposite sides thereof between said mounting end and where said tines extend from said base for isolating vibrational stresses in said element from said mounting end of said base, said notches positioned and sized to cause the vibratory node of the element to be longitudinally displaced toward the free end of said element relative to the position of the vibratory node of the element without the notches so that vibrational noise is isolated from the mouting end of said base.
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Specification