Digital radio communication system utilizing quadrature modulated carrier waves
First Claim
1. A digital radio communication system comprising a receiver which includes:
- an amplitude limiter for hard limiting a received linear quadrature modulated carrier signal, said carrier signal having signal points which are defined on a complex amplitude plane according to binary digital signals to be transmitted, said signal points defining traces each of which is non-intersective with and spaced from the origin of the complex amplitude plane;
a demodulator which determines the instantaneous angular velocity of the received signal according to the hard limited signal applied from said amplitude limiter and which integrates the instantaneous angular velocity during a time duration which corresponds to one period of the binary digital signal, said demodulator detecting an actual phase variation between two consecutive received signal points; and
a decision circuit for determining a correct phase variation between the two consecutive received signal points.
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Accused Products
Abstract
In order to achieve the spectrum economy and reduce the power consumption of a transmitter and reduce the error rate at a receiver and simplify receiver circuitry, at least one bit stream to be transmitted is quadrature modulated in a manner that the signal points do not define a trace on a complex amplitude plane which passes through the origin of the plane coordinates or in the vicinity thereof. The received signal is hard limited and frequency-discriminated to determine the instantaneous angular velocity of the received signal and is integrated to detect the phase variation between two consecutive received signals, and thereafter is decided with respect to the phase variation according to the decision threshold levels 0 and ±π radians.
108 Citations
4 Claims
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1. A digital radio communication system comprising a receiver which includes:
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an amplitude limiter for hard limiting a received linear quadrature modulated carrier signal, said carrier signal having signal points which are defined on a complex amplitude plane according to binary digital signals to be transmitted, said signal points defining traces each of which is non-intersective with and spaced from the origin of the complex amplitude plane; a demodulator which determines the instantaneous angular velocity of the received signal according to the hard limited signal applied from said amplitude limiter and which integrates the instantaneous angular velocity during a time duration which corresponds to one period of the binary digital signal, said demodulator detecting an actual phase variation between two consecutive received signal points; and a decision circuit for determining a correct phase variation between the two consecutive received signal points. - View Dependent Claims (2, 3)
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4. A digital radio communication system comprising a transmitter and a receiver, said transmitter including:
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a modulator for generating a linear quadrature modulated carrier signal, the carrier signal having signal points which are defined on a complex amplitude plane according to binary digital signals to be transmitted, said signal points defining traces each of which is non-intersective with and spaced from the origin of the complex amplitude plane; and a linear power amplifier adapted to amplify the output of said modulator, said power amplifier including means for compensating non-linearity of the amplified signal, said receiver including; an amplitude limiter for hard limiting a received linear quadrature modulated carrier signal, said carrier signal having signal points which are defined on a complex amplitude plane according to binary digital signals to be transmitted, said signal points defining traces each of which is non-intersective with and spaced from the origin of the complex amplitude plane; a demodulator which determines the instantaneous angular velocity of the received signal according to the hard limited signal applied from said amplitude limiter and which integrates the instantaneous angular velocity during a time duration which corresponds to one period of the binary digital signal, said demodulator detecting an actual phase variation between two consecutive received signal points; and a decision circuit for determining a correct phase variation between the two consecutive received signal points.
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Specification