Information transmission
First Claim
1. An arrangement for information transmission in which at the transmitting end a band spread is effected with a pseudo-noise sequence and at the receiving end the band spread is cancelled by an identical pseudo-noise sequence prior to actual demodulation, said arrangement comprising:
- transmitting means includingan input signal source,first modulator means connected to said source to modulate input signals,band spread means connected to said first modulator means, including a first pseudo-noise generator for causing a band spread of the modulated input signal,an upwards mixer connected to said band spread means,a first converter generator connected to said upwards mixer to provide carrier thereto, anda first clock generator connected to and controlling said pseudo-noise generator and said first converter generator,said first converter generator comprising a low frequency oscillator, a further mixer, a frequency multiplier connected to said first clock generator and to said further mixer, a Gunn oscillator connected to said further mixer, the outputs of said Gunn oscillator and said frequency multiplier mixed in said further mixer to form a difference signal, a phase comparator connected to said low frequency oscillator and to said mixer to compare the low frequency oscillations and the difference signal to produce a control signal, said Gunn oscillator including a frequency control input connected to said phase comparator to receive said control signal; and
receiving means includinga downwards mixer for receiving the band spread transmitted signals and transforming received signals to an intermediate frequency level,a second converter generator connected to said downwards mixer for providing carrier thereto,band spread cancellation means connected to said downwards mixer including a second pseudo-noise generator, for causing cancellation of the band spread,synchronizing means including a second clock generator connected to and controlling said second pseudo-noise generator and said second converter generator, and the synchronizing circuit connected between said downwards mixer and said second clock generator to control said second clock generator in accordance with the received signals, anddemodulation means connected to said third modulator means to recover the input signals.
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Accused Products
Abstract
The invention relates to information transmission systems in which the band is spread at the transmitting end by means of a pseudo-noise sequence and is returned to normal at the receiving end by a similar sequence. In such systems it is essential that the frequency of the various oscillators used for the frequency conversions should be kept constant, or alternatively that the oscillators at the receiving end should be synchronized with the oscillators at the transmitting end. In accordance with the present invention the oscillators at the transmitting end are synchronized by the clock frequency of the code generator and at the receiving end this clock frequency is extracted from the received signal and used to synchronize the oscillators in the various conversions. One of the oscillators at the receiving end may be a Gunn oscillator which is synchronized by applying the output of the pulse generator to its synchronizing input terminal through a frequency multiplier. In another arrangement the frequency of the Gunn oscillator is controlled by comparing the phase of the output with the phase of the output of a frequency multiplier supplied by the pulse generator. In yet another arrangement the outputs of the Gunn oscillator and the frequency multiplier are mixed to form a difference signal which is compared in phase with the outputs of a low frequency reference oscillator.
83 Citations
2 Claims
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1. An arrangement for information transmission in which at the transmitting end a band spread is effected with a pseudo-noise sequence and at the receiving end the band spread is cancelled by an identical pseudo-noise sequence prior to actual demodulation, said arrangement comprising:
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transmitting means including an input signal source, first modulator means connected to said source to modulate input signals, band spread means connected to said first modulator means, including a first pseudo-noise generator for causing a band spread of the modulated input signal, an upwards mixer connected to said band spread means, a first converter generator connected to said upwards mixer to provide carrier thereto, and a first clock generator connected to and controlling said pseudo-noise generator and said first converter generator, said first converter generator comprising a low frequency oscillator, a further mixer, a frequency multiplier connected to said first clock generator and to said further mixer, a Gunn oscillator connected to said further mixer, the outputs of said Gunn oscillator and said frequency multiplier mixed in said further mixer to form a difference signal, a phase comparator connected to said low frequency oscillator and to said mixer to compare the low frequency oscillations and the difference signal to produce a control signal, said Gunn oscillator including a frequency control input connected to said phase comparator to receive said control signal; and receiving means including a downwards mixer for receiving the band spread transmitted signals and transforming received signals to an intermediate frequency level, a second converter generator connected to said downwards mixer for providing carrier thereto, band spread cancellation means connected to said downwards mixer including a second pseudo-noise generator, for causing cancellation of the band spread, synchronizing means including a second clock generator connected to and controlling said second pseudo-noise generator and said second converter generator, and the synchronizing circuit connected between said downwards mixer and said second clock generator to control said second clock generator in accordance with the received signals, and demodulation means connected to said third modulator means to recover the input signals.
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2. An arrangement for information transmission in which at the transmitting end a band spread is effected with a pseudo-noise sequence and at the receiving end the band spread is cancelled by an identical pseudo-noise sequence prior to actual demodulation, said arrangement comprising:
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transmitting means including an input signal source; first modulator means connected to said source to modulate input signals, band spread means connected to said first modulator means, including a first pseudo-noise generator for causing a band spread of the modulated input signal, an upwards mixer connected to said band spread means, a first converter generator connected to said upwards mixer to provide carrier thereto, and a first clock generator connected to and controlling said pseudo-noise generator and said first converter generator, and receiving means including a downwards mixer for receiving the band spread transmitted signals and transforming received signals to an intermediate frequency level, a second converter generator connected to said downwards mixer for providing carrier thereto, band spread cancellation means connected to said downwards mixer including a second pseudo-noise generator, for causing cancellation of the band spread, synchronizing means including a second clock generator connected to and controlling said second pseudo-noise generator and said second converter generator, and a synchronizing circuit connected between said downwards mixer and said second clock generator to control said second clock generator in accordance with the received signals, said second converter generator comprising a low frequency oscillator, a further mixer, a frequency multiplier connected to said second clock generator and to said further mixer, a Gunn oscillator connected to said further mixer, the outputs of said Gunn oscillator and said frequency multiplier mixed in said further mixer to form a difference signal, a phase comparator connected to said low frequency oscillator and to said mixer to compare the low frequency oscillations and the difference signal to produce a control signal, said Gunn oscillator including a frequency control input connected to said phase comparator to receive said control signal, and demodulation means connected to said third modulator means to recover the input signals.
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Specification