Method and apparatus for converting the location and movement of a manually controlled instrument into corresponding electrical signals
First Claim
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1. A method for obtaining an electrical signal corresponding to the position of an instrument along an axis on a surface having a plurality of conductors orthogonally oriented with respect to said axis and positioned proximate said surface, said method comprising the steps of:
- a. generating a first signal having a predetermined frequency and phase;
b. advancing the phase of said first signal to generate a second signal having the predetermined frequency and a phase leading said first signal;
c. retarding the phase of said first signal to generate a third signal having the predetermined frequency and a phase lagging said first signal;
d. generating a time varying electrostatic field across said surface by applying said first signal to a first of said conductors, applying said second signal to a second of said conductors, and applying said third signal to a third of said conductors;
e. sensing the phase and frequency of the time varying electrostatic field at the position of the instrument and generating a control signal in response thereto having said predetermined frequency and a phase unique to said position;
f. comparing said control signal to said first signal;
g. changing the predetermined frequency until a first stable condition is reached in which said control signal compares to said first signal in accordance with a predetermined relationship;
h. producing a first output signal representative of said first stable condition;
i. reversing said second signal and said third signal to apply said second signal to said third conductor and said third signal to said second conductor, thereby changing the electrostatic field at the position of the instrument;
j. sensing the changed electrostatic field and changing said control signal in response thereto;
k. changing the predetermined frequency until a second stable condition is reached in which said changed control signal compares to said first signal in accordance with said predetermined relationship;
l. producing a second output signal representative of said second stable condition; and
m. combining said first output signal with said second output signal to obtain a differential output signal uniquely corresponding to the position of the instrument on said axis.
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Abstract
A system is disclosed for converting the location and movement of a manually controlled instrument into corresponding electrical signals. The manually controlled instrument responds to the phase and frequency of an electrical field that varies to represent position information on an orthogonal writing grid. A single, phase-locked loop is utilized to produce both a first signal corresponding to the instrument location along an x-axis and as second signal corresponding to the instrument location along a y-axis. The first and second signals both represent the differential between pairs of related absolute signals. The differential signals are independent of normal signal variations and other error sources.
29 Citations
10 Claims
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1. A method for obtaining an electrical signal corresponding to the position of an instrument along an axis on a surface having a plurality of conductors orthogonally oriented with respect to said axis and positioned proximate said surface, said method comprising the steps of:
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a. generating a first signal having a predetermined frequency and phase; b. advancing the phase of said first signal to generate a second signal having the predetermined frequency and a phase leading said first signal; c. retarding the phase of said first signal to generate a third signal having the predetermined frequency and a phase lagging said first signal; d. generating a time varying electrostatic field across said surface by applying said first signal to a first of said conductors, applying said second signal to a second of said conductors, and applying said third signal to a third of said conductors; e. sensing the phase and frequency of the time varying electrostatic field at the position of the instrument and generating a control signal in response thereto having said predetermined frequency and a phase unique to said position; f. comparing said control signal to said first signal; g. changing the predetermined frequency until a first stable condition is reached in which said control signal compares to said first signal in accordance with a predetermined relationship; h. producing a first output signal representative of said first stable condition; i. reversing said second signal and said third signal to apply said second signal to said third conductor and said third signal to said second conductor, thereby changing the electrostatic field at the position of the instrument; j. sensing the changed electrostatic field and changing said control signal in response thereto; k. changing the predetermined frequency until a second stable condition is reached in which said changed control signal compares to said first signal in accordance with said predetermined relationship; l. producing a second output signal representative of said second stable condition; and m. combining said first output signal with said second output signal to obtain a differential output signal uniquely corresponding to the position of the instrument on said axis.
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2. A method for obtaining an electrical signal corresponding to the position of an instrument on a surface having a plurality of orthogonally oriented conductors positioned proximate said surface, said method comprising the steps of:
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a. generating a first signal having a predetermined frequency and phase; b. advancing the phase of said first signal to generate a second signal having the predetermined frequency and a phase leading said first signal; c. retarding the phase of said first signal to generate a third signal having the predetermined frequency and a phase lagging said first signal; d. generating a time varying electrostatic field across said surface by applying said first signal to a first of said conductors, applying said second signal to a second of said conductors, and applying said third signal to a third of said conductors; e. sensing the phase and frequency of the time varying electrostatic field at the position of the instrument and generating a control signal in response thereto having said predetermined frequency and a phase unique to said position; f. comparing said control signal to said first signal; g. changing the predetermined frequency until a first stable condition is reached in which said control signal compares to said first signal in accordance with a predetermined relationship; h. producing a first output signal representative of said first stable condition; i. reversing said second signal and said third signal to apply said second signal to said third conductor and said third signal to said second conductor, thereby changing the electrostatic field at the position of the instrument; j. sensing the changed electrostatic field and changing said control signal in response thereto; k. changing the predetermined frequency until a second stable condition is reached in which said changed control signal compares to said first signal in accordance with said predetermined relationship; l. producing a second output signal representative of said second stable condition; m. combining said first output signal with said second output signal to obtain a differential output signal uniquely corresponding to the position of the instrument along an axis on the surface; and n. then applying said first, second, and third signals to conductors associated with the other axis of the orthogonal orientation to obtain another differential output signal indicative of the instrument position relative to the other axis.
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3. Apparatus for obtaining an electrical signal corresponding to the position of an instrument along an axis on a surface having a plurality of conductors orthogonally oriented with respect to said axis and positioned proximate said surface, said apparatus comprising in combination:
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a. means for generating a first signal having a predetermined frequency and phase; b. means for advancing the phase of said first signal to generate a second signal having the predetermined frequency and a phase leading said first signal; c. means for retarding the phase of said first signal to generate a third signal having the predetermined frequency and a phase lagging said first signal; d. means for generating a time varying electrostatic field across said surface by applying said first signal to a first of said conductors, applying said second signal to a second of said conductors, and applying said third signal to a third of said conductors; e. means for sensing the phase and frequency of the time varying electrostatic field at the position of the instrument and generating a control signal in response thereto having said predetermined frequency and a phase unique to said position; f. means for comparing said control signal to said first signal; g. means for changing the predetermined frequency until a first stable condition is reached in which said control signal compares to said first signal in accordance with a predetermined relationship; h. means for producing a first output signal representative of said first stable condition; i. means for reversing said second signal and said third signal to apply said second signal to said third conductor and said third signal to said second conductor, thereby changing the electrostatic field at the position of the instrument; j. means for sensing the changed electrostatic field and changing said control signal in response thereto; k. means for changing the predetermined frequency until a second stable condition is reached in which said changed control signal compares to said first signal in accordance with said predetermined relationship. l. means for producing a second output signal representative of said second stable condition; and m. means for combining said first output signal with said second output signal to obtain a differential output signal uniquely corresponding to the position of the instrument on the surface.
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4. Apparatus for obtaining an electrical signal corresponding to the position of an instrument on a surface having a plurality of orthogonally oriented conductors positioned proximate said surface, said apparatus comprising in combination:
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a. means for generating a first signal having a predetermined frequency and phase; b. means for advancing the phase of said first signal to generate a second signal having the predetermined frequency and a phase leading said first signal; c. means for retarding the phase of said first signal to generate a third signal having the predetermined frequency and a phase lagging said first signal; d. means for generating a time varying electrostatic field across said surface by applying said first signal to a first of said conductors, applying said second signal to a second of said conductors, and applying said third signal to a third of said conductors, said conductors corresponding to one axis of the orthogonal orientation; e. means for sensing the phase and frequency of the time varying electrostatic field at the position of the instrument and generating a control signal in response thereto having said predetermined frequency and a phase unique to said position; f. means for comparing said control signal to said first signal; g. means for changing the predetermined frequency until a first stable condition is reached in which said control signal compares to said first signal in accordance with a predetermined relationship; h. means for producing a first output signal representative of said first stable condition; i. means for reversing said second signal and said third signal to apply said second signal to said third conductor and said third signal to said second conductor, thereby changing the electrostatic field of the position of the instrument; j. means for sensing the changed electrostatic field and changing said control signal in response thereto; k. means for changing the predetermined frequency until a second stable condition is reached in which said changed control signal compares to said first signal in accordance with said predetermined relationship; l. means for producing a second output signal representative of said second stable condition; m. means for combining said first output signal with said second output signal to obtain a differential output signal uniquely corresponding to the position of the instrument along one axis on the surface; and n. switching means for switching said first, second, and third signals from said conductors corresponding to said one axis of the orthogonal orientation to conductors corresponding to the other axis of the orthogonal orientation to obtain another differential output signal indicative of the instrument position relative to the other axis.
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5. A system for converting the position along an axis of a manually controlled instrument into electrical signals corresponding to the position of said instrument on a surface, said system comprising, in combination:
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a. a surface on which said instrument is positioned, said surface including;
a plurality of parallel, spaced apart conductors; and
perpendicular to said axis;b. a voltage controlled oscillator for producing a reference signal having an output frequency that varies in response to a variable input voltage signal in accordance with a predetermined relationship; c. a lead phase shifter for producing a lead signal with the same frequency as said reference signal but having a leading phase relationship therewith; d. a lag phase shifter for producing a lag signal with the same frequency as said reference signal but having a lagging phase relationship therewith; e. switching means having a first switching position for applying said reference signal to one of said plurality of conductors, said lead signal to a second of said plurality of conductors and said lag signal to a third of said plurality of conductors thereby creating an electrostatic field whose phase varies across said surface relative to said plurality of conductors; f. a sensor associated with said instrument for sensing the frequency and phase of the electrostatic field at the position of the instrument and generating a control signal in response thereto having the same frequency as said reference signal and a phase unique to said position; g. a bandpass filter for translating said control signal into a servo control signal having a phase differing from the phase of said control signal by an amount related to the frequency of said control signal according to a predetermined relationship; h. a phase detector for comparing the phase of said servo control signal with the phase of said reference signal and producing a servo output signal having a variable voltage whenever the phase difference between said servo control signal and said reference signal varies from a predetermined standard; i. means for applying said servo output signal to the input of said voltage controlled oscillator to vary the output frequency thereof and obtain a stable condition in which the output frequency of said voltage controlled oscillator has a fixed relationship to said control signal; j. a first register for storing a first absolute signal representative of said stable condition obtained in response to the signals applied by said first switching means; k. said switching means having a second switching position for reversing the application of said lead signal and said lag signal so that said lead signal is applied to said third conductor and said lag signal is applied to said second conductor thereby creating another electrostatic field whose phase varies across said surface relative to said plurality of conductors; l. a second register for storing a second absolute signal representative of said stable condition obtained in response to the signals applied by said second switching means; and m. means for combining said first absolute signal with said second absolute signal to produce a unique first differential output signal corresponding to the position on said surface of said instrument relative to said first plurality of conductors. - View Dependent Claims (6, 7, 8, 9, 10)
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Specification
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Current AssigneeCalComp, Inc. (Martin Marietta Corporation)
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Original AssigneeTalos Systems, Inc.
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InventorsRodgers, James L.
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Primary Examiner(s)Robinson, Thomas A.
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Application NumberUS05/600,820Time in Patent Office425 DaysField of Search178/18, 178/19, 178/20, 340/146.3 SY, 340/347 ADUS Class Current178/20.04CPC Class CodesG06F 3/04166 Details of scanning methods...G06F 3/044 by capacitive meansG06F 3/0441 using active external devic...G06F 3/0446 using a grid-like structure...
