Method of designing a flexure system for tuning the modal response of a decoupled micromachined gyroscope and a gyroscoped designed according to the method
First Claim
1. A method of setting the drive and sense frequencies of a gyroscope having a drive mass and a sense mass coupled together by a flexure assembly comprising:
- selecting a drive stiffness, Kd;
selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
d;
selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s; and
determining whether said gyroscope has obtained desired performance and size envelope characteristics;
where said flexure assembly includes at least one pair of flexures, and where selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s, comprises selecting an angle which said pair of flexures makes to each other; and
where said flexure assembly comprises two diametrically opposing pairs of flexures and where selecting an angle which said pair of flexures makes to each other comprises setting a dihedral angle between each of said flexures of said two diametrically opposing pairs.
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Abstract
For a decoupled to gyro to have high sensitivity to angular rate, it is necessary to have the design flexibility to achieve all the critical frequencies in the design. The geometry of the gyro is first estimated and is followed by a performance analysis to maximize the gyro sensitivity. If the performance requirements cannot be met, the next iteration is started by a new estimate of the geometry. For a given design iteration, the desired modal response is implemented with a predetermined or given gyro flexure system. The flexure system disclosed here has enough independent design parameters to allow the desired modal response required for high gyro performance to be selected by independent design choice of the available geometric and configurational design parameters of the gyroscope.
64 Citations
8 Claims
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1. A method of setting the drive and sense frequencies of a gyroscope having a drive mass and a sense mass coupled together by a flexure assembly comprising:
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selecting a drive stiffness, Kd;
selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
d;
selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s; and
determining whether said gyroscope has obtained desired performance and size envelope characteristics;
where said flexure assembly includes at least one pair of flexures, and where selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s, comprises selecting an angle which said pair of flexures makes to each other; and
where said flexure assembly comprises two diametrically opposing pairs of flexures and where selecting an angle which said pair of flexures makes to each other comprises setting a dihedral angle between each of said flexures of said two diametrically opposing pairs.
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2. A method of setting the drive and sense frequencies of a gyroscope having a drive mass and a sense mass coupled together by a flexure assembly comprising:
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selecting a drive stiffness, Kd;
selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
s;
selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s; and
determining whether said gyroscope has obtained desired performance and size envelope characteristics;
where selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
d, comprises selecting length, L, and width, w, of four flexures formed into two pairs comprising said flexure assembly, wherewhere E is the Young'"'"'s modulus of said flexure, t is the process thickness of said flexure, Id is the rotational moment of inertia of said drive mass about a rate axis, and R is the radius of said drive mass, where said drive mass is a ring-shaped mass. - View Dependent Claims (3)
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4. A method of setting the drive and sense frequencies of a gyroscope having a drive mass and a sense mass coupled together by a flexure assembly comprising:
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selecting a drive stiffness, Kd;
selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
d;
selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s; and
determining whether said gyroscope has obtained desired performance and size envelope characteristics;
where selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s, comprises selecting θ
inwhere E is the Young'"'"'s modulus of said flexure, t is the process thickness of said flexure, Is is the rotational moment of inertia of said sense mass about a sense axis, R is the radius of said drive mass, where said drive mass is a ring-shaped mass, L is the length of each flexure within said flexure assembly, and w is the width of each flexure within said flexure assembly which is comprised of four flexures formed into two pairs.
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5. An improvement in a gyroscope comprising:
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a drive mass;
a sense mass; and
a flexure assembly coupling said drive and sense mass together;
where said drive mass has a selecting drive stiffness, Kd obtained by selecting geometric parameters of said flexure assembly to obtain a desired drive freguency, ω
d; and
where said sense mass a sense stiffness Ks obtained by selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s, and where said gyroscope has obtained desired performance and size envelope characteristics by independent selection of said geometric and configurational parameters of said flexure assembly;
where said flexure assembly includes at least one pair of flexures, and where said configurational parameter of said flexure assembly selected to obtain a desired sense frequency, ω
s, comprises a selected angle which said pair of flexures makes to each other; and
where said flexure assembly comprises two diametrically opposing pairs of flexures and where said angle which said pair of flexures makes to each other comprises a selected dihedral angle between each of said flexures of said two diametrically opposing pairs.
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6. An improvement in a gyroscope comprising:
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a drive mass;
a sense mass; and
a flexure assembly coupling said drive and sense mass together;
where said drive mass has a selecting drive stiffness, Kd obtained by selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
d; and
where said sense mass as a sense stiffness Ks obtained by selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s, and where said gyroscope has obtained desired performance and size envelope characteristics by independent selection of said geometric and configurational parameters of said flexure assembly; and
where said geometric parameters of said flexure assembly selected to obtain a desired drive frequency, ω
d, comprises a length, L, and width, w, of four flexures formed into two pairs comprising said flexure assembly, wherewhere E is the Young'"'"'s modulus of said flexure, t is the process thickness of said flexure, Id is the rotational moment of inertia of said drive mass about a rate axis, and R is the radius of said drive mass, where said drive mass is a ring-shaped mass. - View Dependent Claims (7)
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8. An improvement in a gyroscope comprising:
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a drive mass;
a sense mass; and
a flexure assembly coupling said drive and sense mass together;
where said drive mass has a selecting drive stiffness, Kd obtained by selecting geometric parameters of said flexure assembly to obtain a desired drive frequency, ω
d; and
where said sense mass as a sense stiffness Ks obtained by selecting a configurational parameter of said flexure assembly to obtain a desired sense frequency, ω
s, and where said gyroscope has obtained desired performance and size envelope characteristics by independent selection of said geometric and configurational parameters of said flexure assembly; and
where said configurational parameter of said flexure assembly selected to obtain a desired sense frequency, ω
s, comprises a selected θ
inwhere E is the Young'"'"'s modulus of said flexure, t is the process thickness of said flexure, Is is the rotational moment of inertia of said sense mass about a sense axis, R is the radius of said drive mass, where said drive mass is a ring-shaped mass, L is the length of each flexure within said flexure assembly, and w is the width of each flexure within said flexure assembly which is comprised of four flexures formed into two pairs.
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Specification