RU99110189A - DATA-TRANSFER DIAGRAM WITH STATION AND WITH RESPONSE DIAGRAM - Google Patents

Claims (21)

1. A data transmission circuit comprising a station (1) and, in particular, for a card with an integrated microprocessor, a response circuit (2), the station (1) having a primary coil (4) with a signal generator (3) to create an alternating magnetic field with a carrier frequency, as well as an amplitude demodulator, and the response circuit (2) has a secondary coil (7), as well as an amplitude modulator (13) to influence the load of the secondary coil (7), and the amplitude modulator (13) is designed so that modulation of the variable is provided field signal information signal, characterized in that the response circuit (2) has a phase modulator (14) to influence the electrical properties of the secondary coil (7), and the amplitude modulator (13) and / or phase modulator (14) is made with the possibility of control each at least one modulating signal.  2. A data transmission circuit comprising a station (1) and, in particular, for a card with an integrated microprocessor, a response circuit (2), the station (1) having a primary coil (4) with a signal generator (3) to create an alternating magnetic field with a carrier frequency, as well as a demodulator, and the response circuit (2) has a secondary coil (7), as well as an amplitude modulator (13) to influence the electrical properties of the secondary coil (7), and the amplitude modulator (13) is designed so that variable modulation is provided magnetic field information signal, characterized in that the response circuit (2) has a phase modulator (14) to influence the electrical properties of the secondary coil (7), and the amplitude modulator (13) and / or phase modulator (14) is configured to control each at least one modulating signal, and that the demodulator (6) is designed as a phase demodulator.  3. The data transmission scheme according to claim 1 or 2, characterized in that the response circuit (2) is designed so that it is possible to control the amplitude modulator (13) and / or phase modulator (14) so that the phase modulation is phase shifted relative to amplitude modulation. 4. The data transmission scheme according to claim 3, characterized in that the response circuit (2) is designed so that it is possible to control the amplitude modulator (13) and / or phase modulator (14) so that the phase modulation is ahead, respectively, behind relative amplitude modulation at 90 ^o period of the modulating signal.  5. A data transmission circuit according to any one of the preceding paragraphs, characterized in that the response circuit (2) is configured so that the amplitude modulator (13) is made in the form of a resistance mounted with the possibility of connecting in parallel to the secondary coil (7).  6. Data transmission scheme according to any one of the preceding paragraphs, characterized in that the response circuit (2) is designed so that the phase modulator (14) is made in the form of a capacitor mounted with the ability to connect in parallel to the secondary coil (7).  7. A data transmission scheme according to any one of the preceding paragraphs, characterized in that the response circuit has at least one intermediate modulation device (24, 25) for modulating an auxiliary carrier signal with an information signal.  8. Data transmission scheme according to any one of the preceding paragraphs, characterized in that the response circuit (2) has a device (23, 24) for extracting a clock signal for extracting an auxiliary carrier signal from an alternating magnetic field.  9. A data transmission scheme according to any one of the preceding paragraphs, characterized in that the response circuit (2) has a phase shift device (24) that is configured to provide at least one first and at least one of a system clock signal the second auxiliary carrier signals, phase shifted relative to each other by a certain amount.  10. A data transmission scheme according to any one of the preceding paragraphs, characterized in that the phase shifter has at least one frequency divider (24).  11. Data transmission scheme according to any one of the preceding paragraphs, characterized in that the demodulator (6) has a band-pass filter on the input side.  12. The data transmission scheme according to claims 10 and 11, characterized in that the average frequency of the band-pass filter is basically equal to the sum or difference of the frequencies of the carrier signal and the auxiliary carrier signal.  13. The data transmission scheme according to any one of the preceding paragraphs, characterized in that the response circuit and / or station is made in the form of circuits for processing digital signals.  14. A response circuit, in particular for use in a repeater or in a card with an integrated microprocessor, comprising a secondary coil (7) and an amplitude modulator (13) to influence the electrical properties of the secondary coil (7), the amplitude modulator (13 ) is made so that it is possible to modulate an external alternating magnetic field with an information signal, characterized in that the response circuit (2) has a phase modulator (14) to influence the electrical properties of the secondary coil (7), and litudny modulator (13) and / or the phase modulator (14) are arranged to control each of the at least one modulating signal.  15. The method of modulating the external variable magnetic field of the station (1) using a modulating signal generated by the response circuit (2) based on the information signal, characterized in that the modulation is performed so that one side band of the modulated alternating magnetic field is stronger than the other side strip.  16. The method according to clause 15, characterized in that the modulation of the alternating magnetic field is performed using both amplitude modulation and phase modulation.  17. The method according to clause 16, wherein the amplitude modulation is performed with a phase shift relative to phase modulation.  18. The method according to 17, characterized in that the phase shift is 90 °, namely in the direction of advancing or lagging.  19. The method according to any one of claims 15 to 18, characterized in that the amplitude modulation is performed using an amplitude modulator controlled by an amplitude-modulated signal (13), and that phase modulation is performed using a phase modulator (14) controlled by a phase-modulated signal, wherein -modulated signal and / or phase-modulated signal is created by modulating the corresponding auxiliary carrier signal with an information signal.  20. The method according to claim 19, characterized in that the auxiliary carrier signal, respectively, auxiliary carrier signals are extracted from an alternating magnetic field by dividing the frequency.  21. The method according to claim 19 or 20, characterized in that the auxiliary carrier signals are created so that between them there is a phase shift of, in particular, equal to 90 °.