Method and device for radio transmission of binary data signals
First Claim
1. A method of transmitting and receiving binary data signals using different signal frequencies to represent the 1 and 0 bits of said binary data signals, comprising the steps oftransmitting each bit of said binary data signal periodically during bit intervals,transmitting a first of said different signal frequencies to represent a binary 1 during a first portion of a bit interval,transmitting a second of said different signal frequencies redundantly representing said binary 1 during a second portion of said bit interval,transmitting a third of said different signal frequencies representing a binary 0 during a first portion of a subsequent bit interval,transmitting a fourth of said different signal frequencies redundantly representing said binary 0 during a second portion of said subsequent bit interval,activating a receiver to response only to said first and third signal frequencies during the first portion of each bit interval, andactivating said receiver to respond only to said second and fourth signal frequencies during the second portion of each bit interval.
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Abstract
A method of eliminating multi-path propagation and time scattering effects on a radio transmitter channel and predominantly a short-wave channel when binary series of 1 and 0 bits are transmitted. Two frequency shift systems are used each having a 1 signal and a 0 signal frequency transmitted during a predetermined part of each bit interval, preferably half an interval. The signal frequencies are received time-selectively within a time slot having a length corresponding to the predetermined part of each bit interval. According to one embodiment a 1 bit is transmitted (received) by transmission (reception) of the 1 signal frequency of the first FSK system during the first half of the bit interval, followed by the 1 signal frequency of the second FSK system while the decision on the transmitted bit is taken on the basis of the superimposed bit information contributions of the two FSK systems. A device for carrying the method into effect is described.
20 Citations
5 Claims
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1. A method of transmitting and receiving binary data signals using different signal frequencies to represent the 1 and 0 bits of said binary data signals, comprising the steps of
transmitting each bit of said binary data signal periodically during bit intervals, transmitting a first of said different signal frequencies to represent a binary 1 during a first portion of a bit interval, transmitting a second of said different signal frequencies redundantly representing said binary 1 during a second portion of said bit interval, transmitting a third of said different signal frequencies representing a binary 0 during a first portion of a subsequent bit interval, transmitting a fourth of said different signal frequencies redundantly representing said binary 0 during a second portion of said subsequent bit interval, activating a receiver to response only to said first and third signal frequencies during the first portion of each bit interval, and activating said receiver to respond only to said second and fourth signal frequencies during the second portion of each bit interval.
- 3. A device for receiving binary signals transmitted with four different frequency signals, wherein a binary 1 is transmitted in the form of a first of said four different frequency signals during a first half of a bit interval and a second of said four different frequency signals during a second half of said bit interval, and wherein a binary 0 is transmitted in the form of a third of said four different frequency signals during a first half of a subsequent bit interval and a fourth of said four different frequency signals during a second half of said subsequent bit interval, said receiver comprising a first bandpass filter means for passing said first and third frequency signals, a second bandpass filter means for passing said second and fourth frequency signals, a first tuned circuit connected to said first bandpass filter for passing only said first frequency signal, a second tuned circuit connected to said second bandpass filter for passing only said second frequency signal, a third tuned circuit connected to said first bandpass filter for passing only said third frequency signal, a fourth tuned circuit connected to said second bandpass filter for passing only said fourth frequency signal, switching means connected to the output of each of said tuned circuits for passing the output of said first and third tuned circuits during said first half of each bit interval and for passing the output of said second and fourth tuned circuits during said second half of each bit interval, a decision circuit means for providing binary 1 and 0 outputs in response to signals on first and second inputs thereof, first circuit means connecting said first input of said decision circuit to said first and third tuned circuits through said switching means, and second circuit means connecting said second input of said decision circuit to said second and fourth tuned circuits through said switching means.
Specification
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- Resources
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Current AssigneeUS Philips Corporation (Koninklijke Philips N.V.)
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Original AssigneeUS Philips Corporation (Koninklijke Philips N.V.)
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InventorsSjostrand, Jan Roland, Zetterberg, Lars Henning
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Primary Examiner(s)Safourek, Benedict V.
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Assistant Examiner(s)Hearn, Robert
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Application NumberUS05/521,928Time in Patent Office537 DaysField of Search325/30, 325/163, 325/52, 325/56, 325/59, 325/65, 325/320, 325/154, 178/66 A, 178/66 R, 178/88, 179/15 BS, 179/15 FD, 179/15 R, 343/176, 343/179, 343/203, 343/204, 340/146.1 BAUS Class Current375/267CPC Class CodesH04L 1/04 using frequency diversity
