Self-calibrating three axis angular rate sensor
First Claim
1. A three axis angular rate sensor comprising:
- a proof mass,an outer case,a set of mechanical spring elements connecting said proof mass to said outer case and having substantially equal mechanical translational spring rates along all directions,electromechanical coupling means for relating externally connected electrical voltages and electrical currents to forces upon said set of mechanical spring elements and to translational velocities of said proof mass with respect to a three axis coordinate system fixed in said outer case,electrical excitation means for applying said electrical voltages and said electrical currents as a multiplicity of additive separate frequency sinusoidal signals with respect to time to generate translational velocities of said proof mass along each axis of said coordinate system, and to generate consequent coriolis forces upon said proof mass in response to input angular rates,frequency setting means for fixing each of said frequency sinusoidal signals within a frequency band generally near a translational mode natural mechanical resonant frequency as determined by a combination of said proof mass and said equal mechanical translational spring rates of said set of mechanical spring elements,measurement means for obtaining time periodic data samples of said electrical voltages and said electrical currents of said electromechanical coupling means,electrical parameter computational means for determination from said measurement means electrical parameters of said electromechanical coupling means,mechanical spring rate computational means for determination from said measurement means direct axis and cross axis mechanical spring rate parameters of said set of mechanical spring elements,mechanical damping computational means for determination from said measurement means direct axis and cross axis mechanical damping parameters of said set of mechanical spring elements,electromechanical coupling computational means for determination from said measurement means direct axis and cross axis electromechanical coupling coefficients of said electromechanical coupling means,angular rate computational means of said outer case with respect to said three axis coordinate system from said measurement means so that said angular rate computational means are self-calibrating and self-aligning to mutually orthogonal axes, are substantially independent of variations of said electrical parameters, are substantially independent of variations of said direct axis and cross axis mechanical spring rate parameters, are substantially independent of variations of said direct axis and cross axis mechanical damping parameters, and are substantially independent of variations of said direct axis and cross axis electromechanical coupling coefficients,data validity computational means for determining validity of computed said angular rate computational means based upon computed said electrical parameters, computed said direct axis and cross axis mechanical spring rate parameters, computed said direct axis and cross axis mechanical damping parameters, and computed said direct axis and cross axis electromechanical coupling coefficients all remaining within established limits.
0 Assignments
0 Petitions
Accused Products
Abstract
A self-calibrating three axis angular rate sensor in which a single proof mass is supported from an outer case by a set of spring elements having substantially equal mechanical translational spring rates in all directions. Each axis is electromechanically coupled such that each of three sets of electrical terminals acts as a combined electrical driving and electrical detection means with respect to motion of the proof mass. The proof mass motion in combination with a general three axis angular rate input results in coriolis forces acting upon the proof mass. When the electrical terminals are driven with a multiplicity of additive sinusoidal time function electrical voltages, measurements of these voltages and resulting electrical currents comprise observable data for a computed extraction of three axis angular rate inputs. In addition, the computed extraction provides an accurate measure of variations of electrical parameters of the electromechanical coupling, of variations of mechanical translational spring rates and damping parameters, and of variations of electromechanical coupling coefficients of the set of spring elements. The computed extraction results in outputs of three axis angular rate which are substantially independent of these electrical and mechanical parameter variations. The measurements of electrical and mechanical parameter variations are compared with their respective nominal values in order to establish an overall data validity check.
-
Citations
10 Claims
-
1. A three axis angular rate sensor comprising:
-
a proof mass, an outer case, a set of mechanical spring elements connecting said proof mass to said outer case and having substantially equal mechanical translational spring rates along all directions, electromechanical coupling means for relating externally connected electrical voltages and electrical currents to forces upon said set of mechanical spring elements and to translational velocities of said proof mass with respect to a three axis coordinate system fixed in said outer case, electrical excitation means for applying said electrical voltages and said electrical currents as a multiplicity of additive separate frequency sinusoidal signals with respect to time to generate translational velocities of said proof mass along each axis of said coordinate system, and to generate consequent coriolis forces upon said proof mass in response to input angular rates, frequency setting means for fixing each of said frequency sinusoidal signals within a frequency band generally near a translational mode natural mechanical resonant frequency as determined by a combination of said proof mass and said equal mechanical translational spring rates of said set of mechanical spring elements, measurement means for obtaining time periodic data samples of said electrical voltages and said electrical currents of said electromechanical coupling means, electrical parameter computational means for determination from said measurement means electrical parameters of said electromechanical coupling means, mechanical spring rate computational means for determination from said measurement means direct axis and cross axis mechanical spring rate parameters of said set of mechanical spring elements, mechanical damping computational means for determination from said measurement means direct axis and cross axis mechanical damping parameters of said set of mechanical spring elements, electromechanical coupling computational means for determination from said measurement means direct axis and cross axis electromechanical coupling coefficients of said electromechanical coupling means, angular rate computational means of said outer case with respect to said three axis coordinate system from said measurement means so that said angular rate computational means are self-calibrating and self-aligning to mutually orthogonal axes, are substantially independent of variations of said electrical parameters, are substantially independent of variations of said direct axis and cross axis mechanical spring rate parameters, are substantially independent of variations of said direct axis and cross axis mechanical damping parameters, and are substantially independent of variations of said direct axis and cross axis electromechanical coupling coefficients, data validity computational means for determining validity of computed said angular rate computational means based upon computed said electrical parameters, computed said direct axis and cross axis mechanical spring rate parameters, computed said direct axis and cross axis mechanical damping parameters, and computed said direct axis and cross axis electromechanical coupling coefficients all remaining within established limits. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A three axis angular rate sensor comprising:
-
a proof mass, an outer case, a set of mechanical spring elements connecting said proof mass to said outer case and having substantially equal mechanical translational spring rates along all directions, piezoelectric coupling means for relating externally connected electrical voltages and electrical currents to forces upon said set of mechanical spring elements and to translational velocities of said proof mass with respect to a three axis coordinate system fixed in said outer case, electrical excitation means for applying said electrical voltages and said electrical currents as a multiplicity of additive separate frequency sinusoidal signals with respect to time to generate translational velocities of said proof mass along each axis of said coordinate system, and to generate consequent coriolis forces upon said proof mass in response to input angular rates, frequency setting means for fixing each of said frequency sinusoidal signals within a frequency band generally near a translational mode natural mechanical resonant frequency as determined by a combination of said proof mass and said equal mechanical translational spring rates of said set of mechanical spring elements, measurement means for obtaining time periodic data samples of said electrical voltages and said electrical currents of said piezoelectric coupling means, electrical parameter computational means for determination from said measurement means electrical parameters of said piezoelectric coupling means, mechanical translational spring rate computational means for determination from said measurement means direct axis and cross axis mechanical spring rate parameters of said set of mechanical spring elements, mechanical damping computational means for determination from said measurement means direct axis and cross axis mechanical damping parameters of said set of mechanical spring elements, piezoelectric coupling computational means for determination from said measurement means direct axis and cross axis piezoelectric coupling coefficients of said piezoelectric coupling means, and angular rate computational means of said outer case with respect to said three axis coordinate system from said measurement means so that said angular rate computational means are self-calibrating and self-aligning to mutually orthogonal axes, are substantially independent of variations of said electrical parameters, are substantially independent of variations of said direct axis and cross axis mechanical spring rate parameters, are substantially independent of variations of said direct axis and cross axis mechanical damping parameters, and are substantially independent of variations of said direct axis and cross axis piezoelectric coupling coefficients, data validity computational means for determining validity of computed said angular rate computational means based upon computed said electrical parameters, computed said mechanical direct axis and cross axis translational spring rate parameters, computed said mechanical direct axis and cross axis damping parameters, and computed said direct axis and cross axis piezoelectric coupling coefficients all remaining within established limits. - View Dependent Claims (7, 8, 9, 10)
-
Specification