Arrangement for coherently generating sinusoids of different frequencies, and angle modulation data receiver using the arrangement
First Claim
1. A receiver for information signals including data angle modulated onto a data carrier, comprising:
- storage means coupled for storing said received information signals for a predetermined interval for generating delayed information signals;
frequency multiplying means coupled for multiplying the frequency of said received information signals by a first integer to generate frequency multiplied signals including a frequency multiplied carrier component;
a source of recurrent digital sawtooth signals having a recurrence frequency near the frequency of said data carrier;
first memory means coupled to receive said recurrent digital sawtooth signals for generating first sinusoidal signals at a frequency which is said first integer times said recurrence frequency;
amplitude multiplying means coupled to said first memory means and to said frequency multiplying means for multiplying said frequency multiplied signals by said first sinusoidal signals to produce first multiplied signals;
carrier phase determining means coupled to said amplitude multiplying means for determing the relative phase of said carrier during said predetermined interval for generating a carrier phase indicative signal;
second memory means coupled to said source of recurrent digital sawtooth signals for generating second sinusoidal signals at a frequency which is a second integer multiple of said recurrence frequency;
phase control means coupled to said source of recurrent digital sawtooth signals and to said carrier phase determining means for correcting the phase of said digital sawtooth signals in such a manner as to bring said first sinusoidal signals into a predetermined phase relationship with said frequency multiplied carrier component, whereby said second sinusoidal signals are in a predetermined phase relationship with said data carrier; and
demodulating means coupled to said second memory means and to said storage means for demodulating said delayed information signals by means of said second sinusoidal signals.
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Accused Products
Abstract
Data signals are angle-modulated onto a carrier in such a fashion as to suppress the carrier. Such modulation may be BPSK, MSK, QPSK, or OPQSK. The carrier may be subject to anomalous phase shifts, as may occur for example when the transmitter and receiver are in relative motion. In order to regenerate the carrier, the received signal is frequency-doubled (or quadrupled in the case of QPSK). The frequency doubled signal is demodulated by means of locally generated double-frequency demodulating signals to form baseband I and Q signals. The I and Q baseband information is evaluated over a predetermined time interval to establish the relative phase between the carrier of the double frequency signal and the double-frequency demodulating signal. At the end of each predetermined interval, the phase of the double-frequency demodulating signal is adjusted to be in-phase with the double-frequency carrier. The double-frequency demodulating signals are generated by addressing memories by at least parts of a recurrent digital sawtooth signal. Carrier-frequency demodulating signals are simultaneously generated by addressing other memories by means of the recurrent digital sawtooth signal. Because of the simultaneous addressing of the memories, the relative phases of the double-frequency and carrier-frequency signals are established by the programming of the memories. When the double-frequency demodulating signals are forced to the correct phase for demodulating the double-frequency signals at the end of each predetermined time interval, the carrier-frequency demodulating signals are also forced to correct phase for coherent low-noise demodulation of the data. The carrier-frequency demodulating signals are used to demodulate data modulated carrier delayed by the predetermined time interval.
27 Citations
20 Claims
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1. A receiver for information signals including data angle modulated onto a data carrier, comprising:
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storage means coupled for storing said received information signals for a predetermined interval for generating delayed information signals; frequency multiplying means coupled for multiplying the frequency of said received information signals by a first integer to generate frequency multiplied signals including a frequency multiplied carrier component; a source of recurrent digital sawtooth signals having a recurrence frequency near the frequency of said data carrier; first memory means coupled to receive said recurrent digital sawtooth signals for generating first sinusoidal signals at a frequency which is said first integer times said recurrence frequency; amplitude multiplying means coupled to said first memory means and to said frequency multiplying means for multiplying said frequency multiplied signals by said first sinusoidal signals to produce first multiplied signals; carrier phase determining means coupled to said amplitude multiplying means for determing the relative phase of said carrier during said predetermined interval for generating a carrier phase indicative signal; second memory means coupled to said source of recurrent digital sawtooth signals for generating second sinusoidal signals at a frequency which is a second integer multiple of said recurrence frequency; phase control means coupled to said source of recurrent digital sawtooth signals and to said carrier phase determining means for correcting the phase of said digital sawtooth signals in such a manner as to bring said first sinusoidal signals into a predetermined phase relationship with said frequency multiplied carrier component, whereby said second sinusoidal signals are in a predetermined phase relationship with said data carrier; and demodulating means coupled to said second memory means and to said storage means for demodulating said delayed information signals by means of said second sinusoidal signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An arrangement for generating coherent sinusoidal signals, comprising:
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sawtooth generating means for generating recurrent digital sawtooth signals; first memory means coupled to said sawtooth generating means for being addressed thereby, said first memory means being preprogrammed for generating a first sinusoidal signal each complete cycle of which occurs during a time equal to the duration of a first portion of one of said sawtooth signals; and second memory means coupled to said sawtooth generating means for being addressed thereby, said second memory means being preprogrammed for generating a second sinusoidal signal each complete cycle of which occurs during a time equal to the duration of a second portion of said one sawtooth signal, said duration of said second portion being less than said duration of said first portion. - View Dependent Claims (12, 14)
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13. An arrangement for generating coherent sinusoidal signals comprising:
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sawtooth generating means for generating recurrent digital sawtooth signals represented by n bits including a most significant bit and less significant bits; first memory means coupled to said sawtooth generating means for being addressed by said n bits, said first memory means being preprogrammed for generating a first sinusoidal signal each complete cycle of which occurs during a time equal to the duration of a complete cycle of recurrent of said sawtooth signals; second memory means coupled to said sawtooth generating means for being addressed by a plurality less than said n bits, said second memory means being preprogrammed for generating a second sinusoidal signal each complete cycle of which occurs during a time less than the duration of a complete cycle of recurrence of one of said sawtooth signals, whereby the effective frequency of said second sinusoidal signal exceeds the frequency of said first sinusoidal signal; third memory means coupled to said sawtooth generating means for being addressed by said n bits in synchronism with said first memory means, said third memory means being preprogrammed for generating a complete cycle of a third sinusoidal signal during a time equal to that of said complete cycle of recurrence of said first sinusoidal signal, but at a phase angle therewith other than zero degrees; and fourth memory means coupled to said sawtooth generating means for being addressed by said plurality less than n of said less significant bits representing said second portion of a complete cycle of recurrence of one of said said sawtooth signals in synchronism with said second memory means, said fourth memory means being preprogrammed for generating a complete cycle of a further sinusoidal signal during a time equal to that of said complete cycle of said second sinusoidal signal, but at a phase angle therewith other than zero degrees.
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15. A method for demodulating angle modulation carrier signals including a method for generating coherent sinusoidal signals having different frequencies, said method for generating sinusoidal signals comprising the steps of:
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recurrently generating a digital ramp signal to produce a digital sawtooth signal having a frequency related to the rate of recurrence; applying at least a portion of each of said digital ramp signals for addressing a first memory means preprogrammed at addressed locations with information relating to a complete cycle of a first sinusoidal signal for recurrently producing as an output said first sinusoidal signal to produce recurrent first sinusoidal signals having a frequency related to said rate of recurrence; applying at least said portion of each said digital ramp signal for addressing a second memory means preprogrammed at addressed locations with information relating to at least one complete cycle of a second sinusoidal signal for recurrently producing as an output said second sinusoidal signal to produce recurrent second sinusoidal signals having a frequency different from and in a fixed ratio to said first sinusoidal signals in response to recurrent simultaneous addressing of said first and second memory means.
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16. A method for demodulating angle modulated carrier signals including a method for generating coherent sinusoidal signals having different frequencies, said method for generating sinusoidal signals comprising the steps of:
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receiving said angle modulated carrier; frequency multiplying said angle modulated carrier by a predetermined integer to produce frequency multiplied carrier; recurrently generating a digital ramp signal to produce a digital sawtooth signal; applying at least a portion of each of said digital ramp signals as an address to a first memory means preprogrammed at addressed locations with information relating to a complete cycle of a first sinusoidal signal for recurrently producing as an output said first sinusoidal signal to produce first sinusoidal signals; applying at least said portion of each said digital ramp signal as an address to a second memory means preprogrammed at addressed locations with information relating to more than one complete cycle of a second sinusoidal signal for recurrently producing as an output said second sinusoidal signals, whereby said second sinusoidal signals have a frequency different from and in a fixed ratio at said first sinusoidal signals in response to recurrent addressing of said first and second memory means; producing mutually quadrature components of said second sinusoidal signals; demodulating said frequency multiplied carrier with said mutually quadrature components of said second sinusoidal signal to produce two components of demodulated frequency multiplied information; evaluating for a predetermined interval the ratio of the amplitudes of said two components of said demodulated frequency multiplied information to generate a signal representative of the phase relationship between said mutually quadrature components of said second sinusoidal signal and said frequency multiplied carrier; adjusting the phase of at least one of said mutually quadrature components of said second sinusoidal signal at the end of said predetermined interval to bring it into substantial phase coincidence with said frequency multiplied carrier; delaying said angle modulated carrier by said predetermined interval to generate a delayed carrier; and demodulating said delayed carrier by means of said first sinusoidal signals. - View Dependent Claims (17, 18, 19, 20)
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Specification