RU97112204A - TWO-MODE COMMUNICATION SYSTEM WITH FREQUENCY MODULATION AND MULTIPLE ACCESS WITH CODE DIVISION OF CHANNELS - Google Patents

Claims (9)

1. Two-mode transmitter for transmitting an information signal using a frequency modulation (FM) signal when operating in FM mode and using a code division multiple access (CDMA) signal when operating in CDMA mode, characterized in that it contains a digital signal processor for generating digital FM audio signal, a broadband data generator associated with said digital signal processor, for generating a broadband data signal, a summing unit associated with a broadband generator data for summing a broadband data signal with a digital FM audio signal to form a composite digital FM signal, a transmitter associated with a mode switch for upconverting and transmitting the information signal, and a mode switch associated with the summing unit for receiving a composite digital FM signal and the signal mdcr data and the supply of a composite digital FM signal to the transmitter when working in FM mode and the signal of the mdcr mode when working in mdcr mode.  2. The dual-mode transmitter according to claim 1, characterized in that it further comprises an audio signal interpolation filter connected to the digital signal processor and the summing unit and included between them to increase the sampling frequency of the digital FM signal, and a multiplier associated with the summing unit and the mode switch and included between them to scale the composite digital FM signal.  3. A broadband data generator for generating a broadband data signal in a dual-mode mdcr and FM signal transmitter, characterized in that it contains a data register for receiving an input signal of the "no return to zero" type, the first multiplexer associated with the data register to form part of the broadband signal data in response to a non-return to zero input data signal, an inverter connected to the first multiplexer for inverting the generated portion of the broadband data signal and a second multiplexer coupled to an inverter, a data register, and a first multiplexer, for multiplexing said portion of a broadband data signal with an inverted portion of a broadband data signal and thereby generating a broadband data signal.  4. A dual-mode receiver for receiving an information signal, which is a composite digital FM audio signal and a broadband data signal when operating in FM mode and is a data CDMA signal when operating in CDMA mode, characterized in that it contains a down converter for down-converting the information signal, this step-down converter is designed to generate in-phase and quadrature analog FM signals when operating in FM mode, and the above-mentioned in-phase and quadrature analog signals are offset from the zero frequency by a predetermined value, and also for generating in-phase and quadrature analog CDMA signals when operating in CDMA mode, a dual-mode interface associated with a buck converter for converting in-phase and quadrature analog FM signals to in-phase and quadrature digital FM signals and for converting in-phase and quadrature analog CDMA signals to in-phase and quadrature digital CDMA signals, in addition, a dual-mode inter ys is intended for transferring in-phase and quadrature digital FM signals to a digital FM signal demodulator and for transmitting in-phase and quadrature digital CDMA signals to a CDMA signal demodulator, CDMA signal demodulator associated with a dual-mode interface, for digital demodulation of common-mode and quadrature digital CDMA signals, for restoration CDMA mode data signals, FM signal demodulator associated with a dual-mode interface for digital demodulation of in-phase and quadrature digital FM with signals for recovering a composite digital FM audio signal and a broadband data signal, a broadband data recovery unit associated with a digital FM signal demodulator for recovering a broadband data signal from a composite digital FM audio signal and a broadband data signal, and a broadband message decoder associated with the broadband data recovery unit , for decoding a broadband data signal.  5. The dual-mode receiver according to claim 4, characterized in that the digital demodulator of the FM signal contains filters for the compensation circuit of the constant component of the in-phase and quadrature signal for digital filtering of the in-phase and quadrature digital FM signals, eliminating the aforementioned predetermined offset and generating in-phase and quadrature digital FM signals baseband, digital automatic gain control (AGC) circuit for measuring the level of the received signal in-phase and quadrature digital FM signals the base band and to change the receiver’s gain in response to a measured value of the received signal level, and a frequency tracking filter for digitally filtering the composite digital FM audio signal and broadband data signal and for adjusting the receiver local oscillator frequency in response to the digital FM audio signal, digitally filtered .  6. Filter DC compensation circuit to exclude a predefined offset from digital FM signals in a digital FM signal demodulator, characterized in that it contains a first allocation register for highlighting the high order of the digital FM signal, a shift register associated with the first allocation register for adjusting the constant the time of the filter of the DC bias circuit, the drive associated with the shift register for accumulating the selected high order bits, the second allocation register associated with opitelem for separating a predetermined number of significant bits of the accumulated significant bits and the converter associated with the second register allocation, to convert the selected predetermined number of significant bits to an analog DC offset correction signal component.  7. Scheme for automatic gain control (AGC) in a digital FM demodulator using in-phase and quadrature digital FM baseband signals, characterized in that it contains a received signal level measuring unit for determining a received signal level for said in-phase and quadrature digital FM baseband signals based on at least the ratio of the maximum absolute value of either the in-phase digital FM baseband signal or the quadrature digital FM baseband signal to min the absolute value of either an in-phase digital FM baseband signal or a quadrature digital FM baseband signal, a digital subtraction unit associated with the received signal level measuring unit for subtracting the reference level from the calculated value of the received signal level, the digital subtraction unit being used to generate a digital AGC error signal, an integrator associated with the digital subtraction unit to integrate the digital AGC error signal between the upper saturation limit and the lower the saturation limit value and a converter associated with the integrator to convert the digital AGC error signal to an analog error signal.  8. The filter of the frequency tracking circuit for the digital FM signal demodulator, characterized in that it contains a digital subtraction unit for subtracting the reference frequency from the digital FM signal and generating a digital frequency error signal, a shift register associated with the digital subtraction unit for adjusting the filter time constant frequency tracking circuits in response to a gain signal, a drive associated with a shift register for accumulating a digital frequency error signal and a converter associated with the drive for converting digital ovogo frequency error signal to an analog frequency error signal.  9. Broadband data recovery unit, characterized in that it contains a digital phase-sequence circuit for reconstructing a data signal of the non-return to zero type encoded by the Manchester code from a composite digital FM audio signal and a broadband data signal and a non-return to zero decoder for decoding a data signal of the type "non-zero" encoded by the Manchester code.