Method and apparatus for communicating data with a transponder
First Claim
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1. A method for communicating data between controller and a transponder comprising the steps of:
- providing a transponder including a processor powered by current received from an antenna; and
modulating the impedance of the antenna by altering the current used by a processor within the transponder by altering the clock speed of the processor.
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Abstract
A method and system for communicating data between controller and a transponder where the processor is powered by current received from an antenna. The controller is magnetically coupled to the transponder to sense impedance variations in the transponder. The impedance of the transponder is altered by varying current used by a processor within the transponder. The processor current is controlled by varying the processor clock rate.
53 Citations
15 Claims
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1. A method for communicating data between controller and a transponder comprising the steps of:
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providing a transponder including a processor powered by current received from an antenna; and
modulating the impedance of the antenna by altering the current used by a processor within the transponder by altering the clock speed of the processor. - View Dependent Claims (2, 3, 4, 5)
further modulating the impedance of the antenna by switching an impedance coupled in parallel with the processor.
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4. The method of claim 1 further comprising:
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deriving a direct current power supply from the antenna; and
coupling current from the direct current supply to the processor.
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5. The method of claim 1 further comprising a step of:
detecting the antenna'"'"'s impedance modulation using the base station to receive data from the transponder.
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6. A method for communicating data between controller having a controller antenna and a transponder having a processor and a transponder antenna, the method comprising the steps of:
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sending a radio frequency (RF) signal from the controller antenna to the transponder antenna;
deriving a power supply voltage from the signal as received by the transponder antenna;
coupling the power supply voltage to the processor, wherein an effective impedance of the transponder antenna is partially determined by a current consumed by the processor;
while the transponder is in a receive mode, operating the processor at a steady state operating frequency; and
while the transponder is in a transmit mode, varying the processor operating frequency to vary the effective transponder antenna impedance to create a transponder carrier signal on the transponder antenna. - View Dependent Claims (7, 8, 9)
generating a data signal in the processor; and
modulating the carrier signal with the data signal.
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8. The method of claim 6 wherein the step of varying the processor operating frequency comprises lowering the processor operating frequency to increase the effective antenna impedance.
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9. The method of claim 6 further comprising:
while the transponder is in the transmit mode, further varying the effective transponder impedance by coupling an impedance in parallel with the transponder antenna to decrease the effective impedance and decoupling the impedance to increase the effective impedance.
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10. A transponder for communicating data to a magnetically coupled controller, the transponder comprising:
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an antenna for receiving energy while in an RF field generated by the controller;
a power supply circuit coupled to the antenna and generating a power supply voltage from the received energy;
a clock generator circuit coupled to the antenna and generating a clock signal from the received energy;
a processor coupled to receive power from the power supply circuit and coupled to the clock generator circuit to receive the clock signal, wherein the processor operating speed is determined from the received clock signal; and
a transmit circuit coupled to the clock generator for generating an impedance modulated signal on the antenna by selectively altering frequency of the clock signal. - View Dependent Claims (11, 12, 13, 14)
a receiver circuit coupled to the antenna for extracting a first data signal from the received energy and supplying the first data signal to the processor.
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12. The transponder of claim 10 further comprising:
an impedance modulation circuit coupled to the antenna and the transmit circuit.
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13. The transponder of claim 10 further comprising:
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computer program code devices operating in the processor to cause the processor to generate a second data signal; and
a modulator within the transmit circuit and coupled to receive the second data signal, the modulator operable to encode the second data signal on the impedance modulated signal.
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14. The transponder of claim 13 wherein the modulator comprises an exclusive OR gate having a first data input coupled to the second data signal, a second data input coupled to the clock signal.
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15. A smartcard system comprising:
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a controller unit generating a controller field, the controller field having data and signal information encoded therein;
a smartcard unit having an antenna for receiving the controller field and a processor for processing data and signal information extracted from the controller field and to produce a response data signal;
a transmit unit within the smartcard coupled to receive the response data signal and modulate the antenna impedance by controllably varying current used by the processor by altering the clock speed of the processor to encode the response data signal in the controller field.
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Specification