Active tag having one diode for modulation and demodulation
First Claim
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1. A tag system comprising:
- an antenna configured to receive a carrier-wave modulated with data, said antenna including a first antenna terminal and a second antenna terminal, said first antenna terminal being configured to have a higher ohmic impedance value than the second antenna terminal;
a diode having a first diode terminal coupled to the first antenna terminal to receive the carrier wave modulated with data and a second diode terminal providing a demodulated first data output;
a source of earth potential;
a capacitive element coupling said second diode terminal to the source of earth potential;
an inductive element coupling said second antenna terminal to the source of earth potential;
a tag circuit further coupled to said second diode terminal, said tag circuit comprising,an activating portion coupled to said second diode terminal and configured to receive said demodulated first data output and to selectively produce an activation signal based upon a characteristic of said demodulated first data output to activate control circuitry,a generator portion selectively coupled to the second diode terminal in response to activation of the control circuitry, said generator portion having an oscillator circuit configured to generate a tag signal of varying frequency or phase in response to the activation of the control circuitry, said tag signal having a first amplitude level and a second amplitude level; and
wherein said first amplitude level of the tag signal renders the diode nonconducting and the second amplitude level of the tag signal renders the diode conducting when the tag signal is selectively applied to the second diode terminal by the generator portion.
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Abstract
Known tags which are capable of receiving and demodulating signals by way of one and the same antenna and by way of one and the same diode, as well as being capable of modulating and transmitting signals, often have a poor efficiency, particularly if the antenna is implemented in the form of a flat plate. By coupling a high-ohm first terminal of the antenna to the diode, and coupling a low-ohm second terminal to earth by way of an inductive element, there is obtained a tag which has a good efficiency, both regarding the reception and demodulation of signals and regarding the modulation and transmission of signals.
51 Citations
8 Claims
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1. A tag system comprising:
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an antenna configured to receive a carrier-wave modulated with data, said antenna including a first antenna terminal and a second antenna terminal, said first antenna terminal being configured to have a higher ohmic impedance value than the second antenna terminal; a diode having a first diode terminal coupled to the first antenna terminal to receive the carrier wave modulated with data and a second diode terminal providing a demodulated first data output; a source of earth potential; a capacitive element coupling said second diode terminal to the source of earth potential; an inductive element coupling said second antenna terminal to the source of earth potential; a tag circuit further coupled to said second diode terminal, said tag circuit comprising, an activating portion coupled to said second diode terminal and configured to receive said demodulated first data output and to selectively produce an activation signal based upon a characteristic of said demodulated first data output to activate control circuitry, a generator portion selectively coupled to the second diode terminal in response to activation of the control circuitry, said generator portion having an oscillator circuit configured to generate a tag signal of varying frequency or phase in response to the activation of the control circuitry, said tag signal having a first amplitude level and a second amplitude level; and wherein said first amplitude level of the tag signal renders the diode nonconducting and the second amplitude level of the tag signal renders the diode conducting when the tag signal is selectively applied to the second diode terminal by the generator portion. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification