Method and apparatus for producing a subcarrier signal for transmission by an inductively coupled transponder
First Claim
1. A method of generating an electromagnetic identifying signal in response to receipt of a transmitted electromagnetic interrogating signal alternating at a first frequency, comprising:
- converting the received interrogating signal into a power signal and a modulating signal including a series of pulses occurring at a second frequency;
using said power signal to retrieve at a predetermined bit rate a stored identifying digitally coded signal comprised of a string of "1" bits of a first logic state and "0" bits of a second logic state;
using said digitally coded signal to shift the phase of a block of said modulating signal pulses when the state of a particular bit of said coded signal is of said first state, and to not shift the phase of a like block of said modulating signal pulses when the state of a bit is of said second state; and
using the phase-shifted modulating signal to amplitude-modulate said interrogating signal and to cause the resulting electromagnetic identifying signal to be retransmitted in the form of a subcarrier signal the phase of which is shifted by 180°
when a "1" bit is retransmitted and is not shifted when a "0" bit is retransmitted.
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0 Petitions
Accused Products
Abstract
A transponder system including a transponder and an interrogator having a transmission coil for producing a high-intensity electromagnetic field for inductively powering the transponder and two receiver coils for receiving a low-intensity electromagnetic field reradiated by the transponder. The transmission coil includes one or more conductive windings circumscribing a substantially polygonal volume of space. The receiver coils are diametrically disposed opposite one another within the volume space of the transmitter and are electrically connected to each other in a differential circuit relationship, the output of which is at a minimum when the two receiver coils receive approximately equal quantities of energy and is at a maximum when one of the receiver coils receives more electromagnetic energy from the transponder than the other receiver coil. The transponder uses a coil to derive both a power source and a clock pulse from the high-intensity field for powering and driving an identification circuit. The frequency of the clock pulse is then divided by 8 to drive the memory array and logic network of the identification circuit so that it clocks out a new data bit every 16 cycles of the carrier frequency. The output of the memory array is then used to phase modulate a subcarrier, which is at 1/2 the frequency of the carrier frequency. The subcarrier frequency of 1/2 the carrier frequency is chosen to maximize the amplitude of the transmitted subcarrier. The transponder also includes a double pulse lockout circuit which prevents rapid consecutive short-outs of the transponder'"'"'s coil.
45 Citations
12 Claims
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1. A method of generating an electromagnetic identifying signal in response to receipt of a transmitted electromagnetic interrogating signal alternating at a first frequency, comprising:
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converting the received interrogating signal into a power signal and a modulating signal including a series of pulses occurring at a second frequency; using said power signal to retrieve at a predetermined bit rate a stored identifying digitally coded signal comprised of a string of "1" bits of a first logic state and "0" bits of a second logic state; using said digitally coded signal to shift the phase of a block of said modulating signal pulses when the state of a particular bit of said coded signal is of said first state, and to not shift the phase of a like block of said modulating signal pulses when the state of a bit is of said second state; and using the phase-shifted modulating signal to amplitude-modulate said interrogating signal and to cause the resulting electromagnetic identifying signal to be retransmitted in the form of a subcarrier signal the phase of which is shifted by 180°
when a "1" bit is retransmitted and is not shifted when a "0" bit is retransmitted. - View Dependent Claims (2, 3)
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4. A transponder for generating an electromagnetic identifying signal in response to receipt of a transmitted electromagnetic interrogating signal alternating at a first frequency, comprising:
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first means for receiving and converting the received interrogating signal into a power signal, a clock signal, and a modulating signal including a series of pulses occurring at a second frequency equal to one half said first frequency; data storage means for storing an identifying, digitally coded signal comprised of a string of "1" bits of a first logic state and "0" bits of a second logic state; second means responsive to said power signal and said clock signal and operative to retrieve the stored digitally coded signal from said storage means and to output said digitally coded signal at a predetermined bit rate; third means responsive to the retrieved digitally coded signal and operative to shift the phase of a block of said modulating signal pulses when the state of a particular bit of said coded signal is of said first logic state, and to not shift the phase of a like block of said modulating signal pulses when the state of another bit of said coded signal is of said second logic state; and fourth means responsive to the shifted and unshifted blocks of modulating signal pulses and operative to cause said first means to amplitude modulate the received interrogating signal and cause an electromagnetic identifying signal to be retransmitted in the form of a subcarrier signal at said second frequency the phase of which is shifted by 180°
when a "1" bit is being retransmitted and the phase of which is not shifted when a "0" bit is being retransmitted. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12)
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Specification