Method and apparatus for digitizing the location of an instrument relative to a grid
First Claim
1. Apparatus for producing an electrical signal representing the location of an instrument positioned over a plurality of spaced conductors, said apparatus comprising in combination:
- (a) means for producing a signal of predetermined amplitude and frequency;
(b) coil means supported over said spaced conductors by said instrument responsive to said signal producing means for inducing a plurality of electrical signals in said spaced conductors;
(c) means responsive to said signal producing means for sensing the electrical signals induced in said respective spaced conductors in a predetermined order;
(d) means responsive to said sensing means for detecting a phase reversal between electrical signals induced in ones of said conductors located on opposite sides of said coil means to produce a characteristic signal which changes polarity in response to said phase reversal;
(e) counter means responsive to said signal for counting in response to said signal producing means; and
(f) means responsive to said phase reversal detecting means for stopping said counter means in response to said polarity change;
whereby the digital number in said counter means after said stopping represents a location of said instrument with respect to said spaced conductors.
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Reexamination
Accused Products
Abstract
A method and apparatus are provided for converting a position of a pen to a digital number representing the pen position with respect to a grid of conductors. A coil disposed above the tip of the pen is driven by a continuous AC input voltage of fixed frequency and amplitude, thereby inducing corresponding signals in each of the conductors of the grid. Scanning circuitry sequentially scans the grid conductors, first in the X direction and then in the Y direction, thereby sequentially coupling the induced signals to the input of a differential amplifier. A position counter is reset at the beginning of scanning in each direction and is incremented at a rate proportional to and greater than the scanning rate. The outputs of the differential amplifier are inputted to a phase sensitive detector producing a characteristic output which changes polarity as grid conductors on opposite sides of the pen tip location are sequentially scanned. The characteristic output signal is filtered by a low pass filter and is then differentiated and inputted into a comparator which produces a pulse having a leading edge indicating when conductors on opposite sides of the pen tip are sequentially scanned. The comparator output is utilized to stop the position counter. The digital number then stored in the position counter represents the location of the pen tip with respect to the direction of the grid being scanned.
68 Citations
16 Claims
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1. Apparatus for producing an electrical signal representing the location of an instrument positioned over a plurality of spaced conductors, said apparatus comprising in combination:
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(a) means for producing a signal of predetermined amplitude and frequency; (b) coil means supported over said spaced conductors by said instrument responsive to said signal producing means for inducing a plurality of electrical signals in said spaced conductors; (c) means responsive to said signal producing means for sensing the electrical signals induced in said respective spaced conductors in a predetermined order; (d) means responsive to said sensing means for detecting a phase reversal between electrical signals induced in ones of said conductors located on opposite sides of said coil means to produce a characteristic signal which changes polarity in response to said phase reversal; (e) counter means responsive to said signal for counting in response to said signal producing means; and (f) means responsive to said phase reversal detecting means for stopping said counter means in response to said polarity change; whereby the digital number in said counter means after said stopping represents a location of said instrument with respect to said spaced conductors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of producing an electrical signal representing the location of an instrument with respect to a plurality of spaced conductors, said instrument including means for producing an alternating magnetic field in response to an alternating current electrical signal, said method comprising the steps of:
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(a) applying a current signal of a predetermined magnitude and frequency to said magnetic field producing means to induce a plurality of alternating current signals in said plurality of spaced conductors, respectively; (b) sensing said induced alternating current electrical signals in a predetermined order and incrementing a counter at a predetermined rate during said sensing; (c) detecting a phase reversal between the ones of said alternating current electrical signals induced in ones of said conductors located on opposite sides of said magnetic field producing means to produce a characteristic signal which changes polarity in response to the phase reversal; and (d) stopping said incrementing of said counter in response to said polarity change; whereby the digital number in said counter after said stopping of said incrementing represents a location of said instrument with respect to said plurality of spaced conductors. - View Dependent Claims (12, 13, 14, 15)
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16. A digitizer for producing a digital number representing the location of an instrument positioned over a first group of spaced conductors and a second group of spaced conductors oriented perpendicularly to said first group, said digitizer comprising in combination:
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(a) a coil supported over said conductors by said instrument; (b) an oscillator having an output; (c) an amplifier having an input coupled to the output of said oscillator and also having an output coupled to said coil for producing an alternating current in said coil, thereby inducing electrical signals in each of said conductors, respectively; (d) a differential amplifier having an input, an output, and a complementary output for sensing said induced signals in said respective conductors; (e) a divider circuit coupled to the output of said oscillator; (f) a first counter connected to the output of said divider circuit; (g) a multiplexer responsive to said first counter for sequentially coupling respective ones of said conductors to said input of said differential amplifier; (h) a position counter responsive to said oscillator for counting during said sensing, said position counter having an inhibit input; (i) a phase sensitive detector having first and second inputs coupled, respectively, to said output and said complementary output of said differential amplifier for producing an output signal of positive polarity corresponding to said signals induced in ones of said conductors located on one side of said instrument and of negative polarity corresponding to said signals induced in ones of said conductors located on an opposite side of said instrument; (j) a low pass filter coupled to the output of said phase sensitive detector; (k) a differentiating capacitor coupled to an output of said low pass filter; and (l) a comparator coupled to said differentiating capacitor for producing an output pulse, said output pulse being coupled to the inhibit input of said position counter, thereby stopping said counting, whereby the digital number in said position counter represents the location of said instrument with respect to one of said groups of conductors.
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Specification