RU2002103506A - Passive transponder identification system and credit card transponder - Google Patents

Claims (22)

1. A passive transponder identification system for detecting and tracking the presence of cars or other objects in the detection zone, comprising a transmitter emitting in the indicated area two different RF signals to the receiving antenna, or signals modulated by a fixed low frequency low frequency, and an antenna modulated by two different medium frequencies, in which a semiconductor circuit with a non-linear impedance is mounted, summing up the two RF signals, while this identification system also contains a transponder p having a resonant circuit with a resonant frequency equal to the sum of two different frequencies, which re-emits a carrier signal tone modulated with data at a specified total frequency and a narrow-band receiver including a receiving antenna for receiving and demodulating the specified carrier signal by subtracting the RF signal and its harmonics with detection modulating low frequency signal. 2. The system according to claim 1, characterized in that it detects signals containing digital data falling into the band of a narrow-band receiver that creates a digital data stream and is designed to detect the presence of a passive transponder in the detection zone when the intensity and duration of the signal generated by the said transponder and adopted by said narrow-band receiver will exceed the minimum values of these parameters. 3. The system according to claim 1, characterized in that the LF modulation as one of the transmitted RF signals is a tonal-modulated high-frequency oscillation fl generated by narrow-band frequency modulation, and the other of the above-mentioned RF signals transmits one of the undamped RF oscillations, having a fixed frequency. 4. The system according to claim 3, characterized in that the low frequency modulation contains undamped tone-modulated RF signals within a given frequency range. 5. The system according to claim 1, characterized in that said transponder comprises a charge pump circuit connected to a longitudinal part located in a region surrounded by a closed loop, opposite each other, forming a resonant circuit tuned to the resonant frequency of the second harmonic formed by the dielectric loop vibrator and semiconductor circuit with non-linear impedance. 6. The system according to claim 5, characterized in that said non-linear impedance circuitry connects both sides of the closed loop region at one end of the antenna to form a tunable resonant circuit having its own resonant frequency that is twice as high as the selected frequency. 7. The system according to claim 1, characterized in that said narrow-band receiver comprises a carrier-frequency receiving antenna, a filter for cutting off all signals except the narrow-band signal generated at the resonant frequency of said transponder, a demodulator that determines the signal width by comparing with the width of the filtered signal and controlling the comparison output detecting the specified LF modulation only if the intensity of the comparison signal exceeds a preset level, and reacting depending on the result and comparisons on a comparator. 8. The system according to claim 7, characterized in that the modulation detection system responds to LF modulation by activating the output data stream for a minimum period of time after the start of detection of the specified LF modulation. 9. The system according to claim 7, characterized in that it includes a band-pass filter that prevents the passage of signals received by the receiving antenna, with the exception of the signal located in a narrow frequency band and generated in the resonator circuit of the specified transponder, a series of devices for generating an intermediate frequency ( IF), used to demodulate signals falling into the passband of the said band-pass filter, AC amplifiers, used to compare and determine the width of the IF signal that corrects the narrowband an axial discriminator that reacts depending on the output of comparing the signal width and demodulating the IF signal so that the comparator generates an LF signal only when the signal width at the output of the comparison of the signal width exceeds a predetermined threshold. 10. The system according to claim 9, characterized in that the low frequency modulation is one of the components of the RF signal within a narrow range of deviations of the RF includes constant tone modulation, while the aforementioned narrow-band receiver can operate in phase synchronization due to a voltage-controlled oscillator (VCO) ), which allows tuning to the specified constant tonal frequency and activating the amplifier associated with the output and providing the formation of a digital data stream for a constant period of time. 11. A system for detecting cars or other objects located in the detection zone, comprising a transmitter located in said detection zone and emitting a narrowband RF signal in the form of a carrier frequency modulated by a low frequency tone signal, characterized in that said system includes a transponder, responding to a frequency signal emitted by the transmitter, with the possibility of irradiation with the specified transmitter in order to generate and re-emit a carrier frequency signal at a frequency of its various harmonics, at The volume of the re-emitted signal contains a signal at a fixed tonal frequency, obtained by adding a data stream to the low-frequency signal, and it also contains a receiving system consisting of a narrow-band filter that cuts off the re-emitted signal at the frequencies of such carrier harmonics in order to form a filtered response to the received antenna said re-emitted signal and a signal having a frequency not limited by a narrow band and a demodulation circuit operating by the level of the comparison signal in such a way that and ensures the formation of the LF signal and demodulating said filter response only when the comparator is triggered on exceeding a preset level signal. 12. The system according to claim 11, characterized in that said receiving system has several demodulation schemes that are triggered to detect said modulating low-frequency signal after a minimum time after the start of registration of low-frequency signal demodulation. 13. The system according to claim 11, characterized in that the RF signal having a narrow passband consists of a constant carrier frequency modulated by a fixed tonal signal in the audio range, and the narrow-band filter includes a local oscillator, a mixer for generating an IF signal and a correction filter for IF processing, two or more comparison-determining signals in the passband by determining their width and IF signal amplification schemes for demodulating the signal from the correction filter, demodic circuits a combination of a binding circuit that performs a comparison-determination function and adjusts the output of a narrow-band RF discriminator and a corrective discriminator in such a way that a demodulated signal of a fixed frequency is generated at this output, and a comparison-determination is made by a comparator when the determined signal value exceeds threshold level. 14. The system according to any one of paragraphs.11 or 13, characterized in that the receiving system includes demodulation means, generating at its output a digital data stream for a constant period of time, while said digital data stream can vary from 64 bits to 16 kilobits, depending on the parameters of the memory circuit installed inside the passive transponder. 15. A credit card transponder, which is a radio frequency identification transponder operating at a high frequency of 400 MHz-25 GHz, and consisting of a vibrating antenna, a slot antenna and a semiconductor circuit element, wherein said RFID transponder is placed inside a conventional credit card. 16. A credit card transponder according to claim 15, characterized in that it comprises an antenna made in the form of a slit in a thin plate and used in a radio frequency identification system at a high frequency of 400 MHz-25 GTZ, another antenna for radio frequency identification, made in in the form of a vibrator and a semiconductor chip located in the Central part of the aforementioned gap, moreover, the said credit card is divided by a magnetic strip into two unequal parts, most of which contain the microcircuit. 17. The credit card transponder of claim 15, wherein said credit card is provided with a slot antenna made of a thin plate conductor and has a width equal to 1/4 of the wavelength in its central part and a horn wedge-shaped slot antenna with a slot width diverging to an angle of 90 °. 18. A credit card transponder according to claim 17, characterized in that there are two slot antennas therein arranged perpendicular to each other, with the formation of a double polarization, which increases the transmission coefficient and reduces the difficulties associated with the orientation of the antenna, and both of these are vibration antennas placed at different ends of the transponder. 19. A system for transponders having the form of a credit card, comprising an interrogating device for directly identifying a credit card of a radio frequency identification system placed in a moving car, a device for detecting and classifying a type of car, a video system for photographing a license plate of an illegally passing car, and an identification and control computer, identifying a credit card with an RF tag of a car driving through a checkpoint, characterized in that the data from the identification computer is transmitted to a known control computer for charging, the central computer and the VAN 46 network. 20. The system for transponders having the form of a credit card according to claim 19, characterized in that it allows you to easily pick up a credit card with radio frequency identification in any payment system and return it to the user in various ways, for example, by inserting or storing the card in the card holder’s rack and placing the stand on the dashboard of the car, installing card fasteners made of PVC plastic behind the mirror in the passenger compartment or inserting the card into a pocket made of transparent vinyl plastic, providing a demonstration on driver measures to pay the fare. 21. The system for transponders having the form of a credit card according to claim 19, characterized in that said interrogating device for radio frequency identification is located at a level of 4.5 m from the roadbed in the upper central part, and the camera of the video system is located at the same level, but at 20 m behind him, and at the intersection, both interrogating devices are located so that the interrogating signals are directed in opposite directions to minimize mutual interference. 22. The system according to claim 1, characterized in that it further comprises an interrogating device for remote radio frequency identification for the direct identification of a credit card in a moving car, and a control computer for charging, and which can be used in any automatic charging system for parking and / or gas station.