System for data transmission by means of an angle-modulated carrier of constant amplitude
First Claim
1. A system for transmitting binary data signals with a given symbol rate 1/T from a transmitter to a receiver over a transmission channel of limited bandwidth, this transmitter comprising a data signal source, a clock signal source coupled to said data signal source for synchronizing the data signal source, a modulation stage comprising a carrier oscillator connected to the data signal source for generating an angle-modulated carrier signal of a substantially constant amplitude and a continuous phase, and an output circuit for supplying the angle-modulated carrier signal to the transmission channel, the receiver comprising an input circuit for obtaining the transmitted angle-modulated carrier signal from the transmission channel, a reference carrier circuit coupled to the input circuit for recovering two reference carriers with a phase difference of π
- /2 rad., a demodulation circuit, connected to the input circuit and the reference carrier circuit, for coherently demodulating the transmitted angle-modulated carrier signal by these reference carriers and for generating first and second demodulated signals, a reference clock signal circuit coupled to the input circuit for recovering two reference clock signals of half the symbol rate 1/(2T) with a phase difference of π
rad., and a regeneration circuit comprising two sampling circuits connected to the demodulation circuit and the reference clock signal circuit for sampling the first and second demodulated signals with these reference clock signals, said receiver further comprising a logic combination circuit for obtaining regenerated binary data signals from the sampled first and second demodulated signals, wherein the modulation stage in the transmitter generates an angle-modulated carrier signal of substantially constant amplitude, whose continuous phase φ
(t) in each symbol interval of length T changes by an amount expressed in rad., from the sequence -π
/2, -π
/4, O, π
/4, π
/2, this amount being determined for the relevant symbol interval by at least two successive data symbols, the value of the phase φ
(t) for instants t within the relevant symbol interval being determined by a filtered version of at least these two successive data symbols.
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Abstract
A system having a transmitter and a receiver for transmitting binary data signals of a given symbol rate, an angle-modulated carrier signal of a substantially constant amplitude and a continuous phase being generated in the modulation stage of the transmitter, and the transmitted modulated signal being orthogonally, coherently demodulated in the receiver. The modulation stage of the transmitter is arranged so that the phase of the modulated signal changes in each symbol interval by an amount from the sequence -π/2, -π/4, 0, π/4, π/2 (rad.), which amount is determined for the relevant symbol interval by at least two successive data symbols, and the value of the phase within the relevant symbol interval is determined by a filtered version of at least these two succesive data symbols. These measures result in a system which, without sacrificing the remaining desired communication properties of FFSK-systems, utilizes the available frequency spectrum in a more efficient manner than FFSK-systems, because the modulated signal has both a narrower spectral main lobe and, for frequencies outside this spectral main lobe, considerably less power than the FFSK-signal. Consequently this system is very well suited for efficient data transmission over radio links.
156 Citations
9 Claims
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1. A system for transmitting binary data signals with a given symbol rate 1/T from a transmitter to a receiver over a transmission channel of limited bandwidth, this transmitter comprising a data signal source, a clock signal source coupled to said data signal source for synchronizing the data signal source, a modulation stage comprising a carrier oscillator connected to the data signal source for generating an angle-modulated carrier signal of a substantially constant amplitude and a continuous phase, and an output circuit for supplying the angle-modulated carrier signal to the transmission channel, the receiver comprising an input circuit for obtaining the transmitted angle-modulated carrier signal from the transmission channel, a reference carrier circuit coupled to the input circuit for recovering two reference carriers with a phase difference of π
- /2 rad., a demodulation circuit, connected to the input circuit and the reference carrier circuit, for coherently demodulating the transmitted angle-modulated carrier signal by these reference carriers and for generating first and second demodulated signals, a reference clock signal circuit coupled to the input circuit for recovering two reference clock signals of half the symbol rate 1/(2T) with a phase difference of π
rad., and a regeneration circuit comprising two sampling circuits connected to the demodulation circuit and the reference clock signal circuit for sampling the first and second demodulated signals with these reference clock signals, said receiver further comprising a logic combination circuit for obtaining regenerated binary data signals from the sampled first and second demodulated signals, wherein the modulation stage in the transmitter generates an angle-modulated carrier signal of substantially constant amplitude, whose continuous phase φ
(t) in each symbol interval of length T changes by an amount expressed in rad., from the sequence -π
/2, -π
/4, O, π
/4, π
/2, this amount being determined for the relevant symbol interval by at least two successive data symbols, the value of the phase φ
(t) for instants t within the relevant symbol interval being determined by a filtered version of at least these two successive data symbols. - View Dependent Claims (4, 5, 6, 7, 8, 9)
- /2 rad., a demodulation circuit, connected to the input circuit and the reference carrier circuit, for coherently demodulating the transmitted angle-modulated carrier signal by these reference carriers and for generating first and second demodulated signals, a reference clock signal circuit coupled to the input circuit for recovering two reference clock signals of half the symbol rate 1/(2T) with a phase difference of π
- 2. A system as claimed in 1, wherein the modulation stage in the transmitter generates a frequency-modulated carrier signal, the amount of the phase change for the relevant symbol interval being determined in correspondence with a partialresponse polynomial with integral coefficients, the phase value for instants within the relevant symbol interval being determined by the integral of the convolution of the data symbols with a filter response satisfying the third Nyquist criterion taking account of said polynomial.
Specification