RU2000124870A - METHOD AND DEVICE FOR CONVERSION WITH DECREASING THE FREQUENCY OF SIGNALS TRANSMITTED USING A LOT OF MODULATION FORMATS IN THE GENERAL RANGE OF INTERMEDIATE FREQUENCIES - Google Patents

Claims (45)

1. A receiver for down-converting signals modulated using a plurality of modulation formats into a common intermediate frequency range, comprising a first band selection filter for selecting a first frequency range, a second band selection filter for selecting a second frequency range, and a third band selection filter to select the third frequency range, the first step-down converter connected to the output of the first band selection filter, for down-converting the signals from the first a frequency band to a common range of intermediate frequencies, a second step-down converter selectively connected by a switch to either the output of a second band selection filter or the output of a third band selection filter, for down-converting signals from either a second frequency range or from a third frequency range to a common a range of intermediate frequencies, the second step-down converter having an input connected to a frequency doubling circuit, a switching circuit for selectively supplying the first signal is oscillated d from the voltage controlled oscillator (VCO) having a VCO frequency range or a second oscillation signal at a second frequency that is outside the VCO frequency range to the input of the first downconverter and an input frequency doubling circuit.  2. The receiver according to claim 1, characterized in that the plurality of modulation formats include first, second, third and fourth modulation formats, the first and second modulation formats are transmitted to the receiver in the first frequency range, the third modulation format is transmitted to the receiver in the second range frequencies, and the fourth modulation format is transmitted to the receiver in the third frequency range.  3. The receiver according to claim 2, characterized in that the UNG is controlled by a control circuit and selectively generates a first oscillation signal with a communication channel frequency associated with the first modulation format, and the first downconverter mixes the output signal of the first band selection filter with the first oscillation signal with a frequency a communication channel associated with a first modulation format for down-converting signals modulated in accordance with a first modulation format from a first frequency range to a common range of intermediate frequencies.  4. The receiver according to claim 3, characterized in that the UNG additionally selectively generates a first oscillation signal with a communication channel frequency associated with the second modulation format, and the first down converter mixes the output signal of the first band selection filter with the first oscillation signal with the communication channel frequency, associated with the second modulation format for down-converting signals modulated in accordance with the second modulation format from the first frequency range to a common range of intermediate frequencies.  5. The receiver according to claim 4, characterized in that the UNG additionally selectively generates a first oscillation signal with a communication channel frequency associated with the third modulation format, the first oscillation signal with a communication channel frequency associated with the third modulation format, supplied to the frequency doubling circuit and the second buck converter mixes the output signal of the second band selection filter with the output signal of the frequency doubling circuit when the first oscillation signal with the frequency of the communication channel associated with the third modulation format is supplied I into a frequency doubling scheme for down-converting signals modulated in accordance with the third modulation format from a second frequency range to a common range of intermediate frequencies.  6. The receiver according to claim 5, characterized in that it further comprises a mixer that generates a second oscillation signal with a second frequency by shifting the frequency of the first oscillation signal.  7. The receiver according to claim 6, characterized in that the second oscillation signal is selectively supplied to the frequency doubling circuit, and the second step-down converter mixes the output signal of the third band selection filter with the output signal of the frequency doubling circuit when the second oscillation signal is supplied to the frequency doubling circuit for down-converting signals modulated in accordance with the fourth modulation format from a third frequency range to a common intermediate frequency range.  8. The receiver according to claim 7, characterized in that the first modulation format corresponds to analog modulation, the second modulation format corresponds to CDMA modulation, the third modulation format corresponds to ATP modulation, the fourth modulation format corresponds to GPS modulation, the first frequency range is 869-894 MHz, the second frequency range is 1930-1990 MHz, and the third frequency range is 1574.42-1576.42 MHz.  9. The receiver according to claim 8, characterized in that the total range of intermediate frequencies is centered at a frequency of about 183.48 MHz.  10. The receiver according to claim 8, characterized in that the oscillation signal with the frequency of the communication channel associated with the first modulation format has a frequency range from 1052.52 to 1077.45 MHz.  11. The receiver according to claim 10, characterized in that the first oscillation signal with a communication channel frequency associated with the second modulation format has a frequency range from 1052.52 to 1077.45 MHz.  12. The receiver according to claim 11, characterized in that the first oscillation signal with a communication channel frequency associated with the third modulation format has a frequency range from 1056.74 to 1086.74 MHz.  13. The receiver according to claim 12, characterized in that the second oscillation signal with a communication channel frequency associated with the fourth modulation format has a frequency range centered at a frequency of 879.45 MHz.  14. The receiver according to claim 6, characterized in that it further comprises one or more communication channel selection filters connected to the outputs of the first and second step-down converters, which filter the down-converted signals produced by the first and second step-down converters, a sampling circuit connected with the output of one or more communication channel selection filters, which selectively samples the down-converted signals by a sampling clock, which alternatively dis retiziruet signals either to a first or a second sampling frequency, the sampling clock generator is connected with the third oscillation signal of a third frequency, the third oscillation signal is output to the mixer that forms the second signal with a second oscillation frequency.  15. The receiver according to claim 14, characterized in that the first sampling frequency provided by the sampling clock is equal to the third frequency divided by x, and the second sampling frequency provided by the sampling clock is equal to the third frequency divided by y, where x and y - whole numbers.  16. The receiver according to claim 15, wherein the first sampling rate generated by the sampling clock is 1/3 of the third frequency, and the second sampling frequency generated by the sampling clock is equal to one fifteenth of the third frequency.  17. The receiver according to claim 15, characterized in that the sampling circuit samples the down-converted signals modulated in accordance with the second, third or fourth modulation formats in accordance with the first sampling frequency, and the sampling circuit samples the down-converted signals modulated in accordance with the first modulation format, in accordance with the second sampling rate.  18. The receiver according to claim 17, characterized in that or several communication channel selection filters include only one communication channel selection filter.  19. The receiver according to claim 17, characterized in that one or more communication channel selection filters include first and second communication channel filters, the first communication channel selection filter filters down-converted signals modulated in accordance with the first modulation format, issued the first down-converter, the second communication channel selection filter filters the down-converted signals modulated in accordance with the second modulation format, issued by the first down-converter, The second communication channel selection filter also filters down-converted signals modulated in accordance with the third modulation format provided by the second buck converter, and the second communication channel selection filter also filters down-converted signals modulated in accordance with the fourth modulation format, issued by the second buck converter.  20. The receiver according to claim 17, characterized in that one or more communication channel selection filters include first, second and third communication channel selection filters, the first communication channel selection filter filters down-converted signals modulated in accordance with the first format modulations provided by the first downconverter, the second communication channel selection filter filters down-converted signals modulated in accordance with the second modulation format, provided by the first downconverter by the developer, the second communication channel selection filter also filters the down-converted signals modulated in accordance with the third modulation format provided by the second down-converter, and the third communication channel selection filter filters the down-converted signals modulated in accordance with the fourth modulation format second buck converter.  21. The receiver according to claim 14, characterized in that it further comprises a plurality of spectral protection filters connected to the output of one or more communication channel selection filters and to the input of the sampling circuit.  22. The receiver according to claim 1, characterized in that it further comprises a third step-down converter connected to the output of the first band selection filter, which downconverts the signals from the first frequency range to a common range of intermediate frequencies, while the switching circuit selectively provides the first signal oscillations from the UNG second oscillation signal to the inputs of the first and third step-down converters and the input of the frequency doubling circuit.  23. The receiver according to claim 22, wherein the plurality of modulation formats include first, second, third and fourth types of modulation, wherein the first and second modulation formats are transmitted to the receiver in the first frequency range, the third modulation format is transmitted to the receiver in the second frequency range, and a fourth modulation format is transmitted to the receiver in the third frequency range.  24. The receiver according to claim 23, characterized in that the UNG is controlled by a control circuit and selectively generates a first oscillation signal with a communication channel frequency associated with the first modulation format, and the first step-down converter mixes the output signal of the first band selection filter with the first oscillation signal at a frequency the communication channel associated with the first modulation format, for down-converting signals modulated in accordance with the first modulation format, from the first frequency range to a common range of intermediate x frequencies.  25. The receiver according to p. 24, characterized in that the UNG additionally selectively generates a first oscillation signal with a communication channel frequency associated with the second modulation format, and a third downconverter mixes the output signal of the first band selection filter with the first oscillation signal at the frequency of the communication channel, associated with the second modulation format, for down-converting the signals modulated in accordance with the second modulation format from the first frequency range to a common range of intermediate frequencies.  26. The receiver according to p. 25, characterized in that the UNG additionally selectively generates a first oscillation signal with a communication channel frequency associated with the third modulation format, the first oscillation signal with a communication channel frequency associated with the third modulation format, is supplied to the frequency doubling circuit and the second buck converter mixes the output signal of the second band selection filter with the output signal of the frequency doubling circuit when the first oscillation signal with the frequency of the communication channel associated with the third modulation format delivers to a frequency doubling circuit for down-converting the signals modulated in accordance with the third modulation format from the second frequency range to the general range of intermediate frequencies.  27. The receiver according to p. 26, characterized in that it further comprises a mixer that generates a second oscillation signal with a second frequency by shifting the frequency of the first oscillation signal.  28. The receiver according to claim 27, characterized in that the second oscillation signal is selectively supplied to the frequency doubling circuit, and the second step-down converter mixes the output signal of the third band selection filter with the output signal of the frequency doubling circuit when the second oscillation signal is supplied to the frequency doubling circuit for down-converting signals modulated in accordance with the fourth modulation format from a third frequency range to a common intermediate frequency range.  29. The receiver according to claim 28, characterized in that the first modulation format corresponds to analog modulation, the second modulation format corresponds to CDMA modulation, the third modulation format corresponds to ATP modulation, the fourth modulation format corresponds to GPS modulation, the first frequency range is 869 - 894 MHz, the second frequency range is 1930 - 1990 MHz and the third frequency range is from 1574.42 to 1576.42 MHz.  30. The receiver according to claim 29, characterized in that the overall range of intermediate frequencies is centered at a frequency of about 183.48 MHz.  31. The receiver according to claim 29, wherein the first oscillation signal with a communication channel frequency associated with the first modulation format has a frequency range of 1052.52 - 1077.45 MHz.  32. The receiver according to claim 31, wherein the first oscillation signal with a communication channel frequency associated with the second modulation format has a frequency range of 1052.52 - 1077.45 MHz.  33. The receiver according to claim 32, wherein the first oscillation signal with a communication channel frequency associated with the third modulation format has a frequency range of 1056.74 - 1086.74 MHz.  34. The receiver according to claim 33, wherein the second oscillation signal with a communication channel frequency associated with a fourth modulation format has a frequency range centered at a frequency of 879.45 MHz.  35. The receiver according to p. 27, characterized in that it further comprises one or more filters for selecting a communication channel connected to the outputs of the first, second and third step-down converters, filtering the down-converted signals generated by the first, second and third step-down converters, a circuit a sample connected to the output of one or more communication channel selection filters, which selectively samples the down-converted signals by a sampling clock, which is alt It samples the signals either at the first or second sampling rate, and the sampling clock is connected to the third oscillation signal at the third frequency, the third oscillation signal being the input signal of the mixer, which generates the second oscillation signal with the second frequency.  36. The receiver according to claim 35, wherein the first sampling rate provided by the sampling clock is equal to the third frequency divided by x, and the second sampling frequency provided by the sampling clock is equal to the third frequency divided by y, where x and y are integers.  37. The receiver according to claim 36, wherein the first sampling frequency provided by the sampling clock is 1/3 of the third frequency, and the second sampling frequency provided by the sampling clock is one fifteenth of the third frequency.  38. The receiver of claim 36, wherein the sample circuit samples the down-converted signals modulated in accordance with the second, third or fourth modulation formats in accordance with the first sampling frequency, and the sample circuit samples the down-converted signals modulated in accordance with the first modulation format in accordance with the second sampling rate.  39. The receiver according to claim 38, wherein one or more communication channel selection filters include only one communication channel selection filter.  40. The receiver according to claim 38, characterized in that one or more communication channel selection filters include first and second communication channel selection filters, the first communication channel selection filter filters down-converted signals modulated in accordance with the first modulation format, issued by the first downconverter, the second communication channel selection filter filters down-converted signals modulated in accordance with the second modulation format, issued by the third downconverter by the body, the second communication channel selection filter also filters down-converted signals modulated in accordance with the third modulation format provided by the second down-converter, and the second communication channel selection filter also filters down-converted signals modulated in accordance with the fourth modulation, issued by the second buck converter.  41. The receiver according to claim 38, wherein one or more communication channel selection filters include first, second and third communication channel selection filters, the first communication channel selection filter filters down-converted signals modulated in accordance with the first format modulations provided by the first downconverter, the second communication channel selection filter filters down-converted signals modulated in accordance with the second modulation format, provided by the third downconverter By the browser, the second communication channel selection filter also filters the down-converted signals modulated in accordance with the third modulation format provided by the second downconverter and the third communication channel selection filter filters the down-converted signals modulated in accordance with the fourth modulation format second buck converter.  42. The receiver according to claim 35, characterized in that it further comprises a plurality of anti-aliasing filters connected to the output of one or more communication channel selection filters and to the input of the sampling circuit.  43. A method of down-converting signals modulated using a plurality of modulation formats into a common range of intermediate frequencies, comprising the steps of supplying input signals to a first band selection filter that selects a first frequency range, supplying input signals to a second band selection filter that selects a second frequency range, supplying input signals to a third band selection filter that selects a third frequency range, selective supply, or a first oscillation signal from a controlled voltage a generator (UNG) having a frequency range of a UNG, or a second oscillation signal with a second frequency that is outside the frequency range of a UNG, to the input of the first step-down converter and to the input of the frequency doubling circuit, down-conversion by the first step-down converter of signals from the first frequency range into the general range of intermediate frequencies, downconversion by the second step-down signal converter either from the second frequency range or from the third frequency range to the general range intermediate frequencies, the second step-down converter has an input connected to the frequency doubling circuit, and the second step-down converter is selectively connected by a switch to either the output of the second band selection filter or the third band selection filter.  44. A device for converting down-frequency signals modulated using a plurality of modulation formats into a common range of intermediate frequencies, comprising means for supplying input signals to a first band selection filter that selects a first frequency range, means for supplying input signals to a second selection filter a band that selects a second frequency range, means for supplying input signals to a third band selection filter that selects a third frequency band, means for selectively supplying either the first oscillation signal of the voltage-controlled generator (UNG), which often has a UNG range, or the second oscillation signal with a second frequency, which is outside the UNG frequency range, to the input of the first step-down converter and to the frequency doubling input, downconversion by the first step-down signal converter from the first frequency range to the general range of intermediate frequencies, downconversion by the second step-down signal converter either from the second frequency range, or from the third frequency range into the common range of intermediate frequencies, the second step-down converter having an input connected to the frequency doubling circuit, and the second step-down converter selectively connected by a switch either to the output of the second band selection filter or to the output of the third band selection filter. 45. A receiver that down-converts a signal modulated using a plurality of modulation formats into an intermediate frequency range, comprising at least one downconverter that down-converts signals modulated using a plurality of modulation formats into an intermediate frequency range, wherein the intermediate frequency range is centered on the intermediate frequency (f _IF ), and a sampling circuit connected to at least one buck converter that downconverts signals with a sampling clock that operates at a sampling rate (F _S ), where f _IF = [(2k + 1) / 4] • (F _S ) and k is an integer greater than or equal to 0.