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US2433343A - Multichannel electrical communication system - Google Patents

Multichannel electrical communication system
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US2433343A
US2433343AUS476071AUS47607143AUS2433343AUS 2433343 AUS2433343 AUS 2433343AUS 476071 AUS476071 AUS 476071AUS 47607143 AUS47607143 AUS 47607143AUS 2433343 AUS2433343 AUS 2433343A
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Prior art keywords
frequency
frequencies
communication system
carrier
channel
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US476071A
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Chatterjea Prafulla Kumar
Houghton Leslie Wilfred
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International Standard Electric Corp
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International Standard Electric Corp
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DSG 30, 1947- P. K. CHATTERJEA ET AL. 2,433,343
MULVTICHANNEL ELECTRICAL COMMUNICATION SYSTEM Filed Feb. 16, 1945 u PuLSE GENE/mme /l l 1 C 3 Y T0 F/Tf/e Mrd/e F/L Tf1? Muumrak FILTER SCLL TUR Patented Dec. 30, 1947 MULTICHANNEL ELECTRICAL COMMUNICA- TION SYSTEM Prafulla Kumar Chatterjea and Leslie Wilfred Houghton, London W. C. 2, England, assignors, by mesne assignments, to International Standard Electric Corporation, New York, N. Y., a
corporation of Delaware Application February 16, 1943, Serial No. 476,071 In Great Britain March 1,2, 1942 1 Claim.
'Ihepresent invention relates to arrangements for producing a series of frequencies equally spaced in the frequency spectrum and its application to the production of carrier frequenciesV in multi-channel lelectrical communication systems.
When the necessity arises for the transmission of a plurality of signals contemporaneously, by means of radio, carrier telephony or other like media of communication, there are two chief methods of approach to a solution of such a problem, namely, the multiplication of the carrier frequencies employed, or sub-division of the modulating frequency band applied to one carrier frequency. The first method involves multiplication of transmitting equipment, and difficulty in stabilising each carrier frequency if they are near frequencies, while the second method involves the use of rather cumbersome low frequency lter equipment or like apparatus.
The present invention has for one of its objects the generation of a plurality of carrier frequencies, rigidly separated from each other and to the modulation of each independently, employing a minimum duplication of equipment and to the transmission of the signals from all channels as one transmission.
In an arrangement for the generation of a series of frequencies equally spaced in the frequency spectrum according to the present invention, a wave rich in harmonics of the fundamental frequency thereof modulates a basic frequency thereby producing a series of modulation frequencies separated by a frequency interval equivalent to the fundamental frequency and spreading on either side of said basic frequency.
The invention will be more clearly understood from the following description of its embodiment in a multi-channel communication system given by way of example only and taken in conjunction with the accompanying drawings in which:
Fig. 1 is explanatory;
Fig. 2 shows diagrammatically the transmitting end of a multi-channel communication system embodying the invention;
Fig. 2A shows a modified transmitter system; and
Fig. 3 shows diagrammatically the receiver end of such system.
In the multi-channel electrical communication system an oscillator or other source of carrier frequency is modulated by a train of electrical pulses, preferably of short duration, which resuit in a series of frequencies, separated by a frequency interval equivalentto the pulse repetition' frequency, and spreading on either side of the carrier frequency. These frequencies are in effect the side band frequencies of the pulse train harmonics, and are as shown in Fig. l of the drawings where fc is the carrier frequency, and
f1, f2 and fs etc., are theside-band frequenciesdue to the pulse train fundamental frequency, second, third etc, harmonics respectively, the difference between any two frequencies, i. e., f1 and f2, or fc and f1 for example being equal to the pulse train repetition frequency fp. Individual frequencies are then filtered out from this series to function as separate carrier frequencies and are modulated with the signal allotted to a particular carrier frequency or channel after which they are passed through the same amplifier and transmitted as a series of modulated carriers. A receiver of the usual known type if selective enough may select any particular carrier, or`
signalchannel, or a receiver as described hereinafter may be employed.
In Fig. 2 reference I represents a pulse generator and 2 a sinusoidal waveformloscillator, the output from which is fed tounit 3 which cnsists of a buifer stage and modulator stage for modulating the output of 2 by the output of IA resulting in a series of frequencies as shown inf.y
Fig. 1. The number of such frequencies is governed by the shape of the modulating pulse as Well as its duration time, and can readily be made to exceed a hundred or more if desired. One frequency for each required signal channel can readily be obtained by appropriate filtering in known manner, which at the high frequencies normally used can be accomplished by normal tuned circuit technique although in some cases crystal filters may be found necessary. Four channels are shown in Fig. 2, the appropriate carrier frequencies being obtained bylters 4, 5, 6 and 1; the outputs from which are then modulated inunits 8, 9, I0 and II respectively, the modulating voltages being the signals which it is required to transmit through each channel and are applied at terminals 81, 91, |01 and II1 respectively. The outputs from all of these channels are then combined by unit l2 and amplified before being fed to a radiating system TAIZ. It is of course essential that the frequency response of unit I2 be sufficient for the frequency spectrum required. If desired, in the case of a large number of channels separate final amplifiers may be Correction can also be applied to` eachchannel 3 so that the final signals radiated are all of the same amplitude.
When the carrier frequencies to be radiated are very high frequencies it may be difficult in some cases to separate the individual carrier frequencies bylters 4', 5, 6 and I Fig. 2 and it will therefore, be an advantage to carry out the whole of the operation as explained for Fig. 2 at a convenient intermediate frequency; then after combining the individual modulated carriers they may be heterodyned by a local oscillator so as t produce the required high frequencies which may then be radiated after the necessary amplification.
A simple receiver of known type may be used for selecting any particular carrier frequency, and therefore signal channel, In the case Where the various carriers are very close to each other however, it is essential to have a band spread system incorporated in the receiver tuning arrangement.
Alternative receivers which may be used where flexibility of channel selection is essential, may include any pre-tuned circuit selection device, or an arrangement as shown schematically in Fig. 3 where the Whole band of signals is picked up by aerial system RAI3 and amplified by unit I3 which is an amplifier with the requisite Wideband frequency characteristic. The signals are then heterodyned by the local oscillator I4 and the produced I. F. signals are again amplified by unit I5, after which the various channels are separated out by filters, or tuned circuits I6, I1, I8 and I9 and the resulting signals are rectified by thecorresponding units 20, 2l, 22 and 23 so that the signal transmitted by each channel can be obtained fromterminals 201, 211, 221 and 231 respectively.
When it is desired to send the same signal through all the channels, as for example, in the case of an emergency, such signal may be transmitted in each channel by modulating the durations of the initial pulses generated in I Fig. 2A in known manner. Energy from asignal source 25 is applied simultaneously With energy from pulse generator I topulse duration modulator 24. As will be Well understood by those versed in the art such a modulation is equivalent to an ampli- 4 tude modulation of the component frequencies making up the pulse and can be received by any of the receivers tuned to one of the carrier frequencies in the outputs of filters 4'I.
Whilst a specific embodiment of the invention has been described by way of example, others which fall within the scope of the appended claim Will occur to those skilled in the art.
What is claimed is:
In a multi-channel electrical communication system, means for producing a series of separate carrier frequency Waves including a generator of a series of electrical waves each having a form rich in harmonics of the fundamental frequency thereof and comprising a, generator of electric pulses of repetition frequency equal to the desired separation of the carrier frequency Waves, an oscillation generator producing an electrical f sinusoidal wave of a basic frequency, a modulating device to which are fed said wave rich in harmonics and said sinusoidal wave, and means for` modulating the durations of said pulses in accordance with the amplitudes of a signal wave, thereby effectively amplitude-modulating the different carrier frequency waves with the same signal wave.
PRAFULLA KUMAR CHATTERJEA.
LESLIE WILFRED HOUGHTON.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 1,447,204 Espenschied Mar, 6, 1923 1,461,064 Martin July 10, 1923A 2,037,799 Koch Apr. 21, 1936 2,266,526 White Dec. 16, 1941 2,226,459 Bingley Dec. 24, 1940 1,851,721 Moles Mar. 29, 1932 A1,854,986 Fitch Apr. 19, 1932 1,985,046 Marrison et al Dec. 18, 1934 FOREIGN PATENTS Number Country Date 733,626 France July 12, 1932
US476071A1942-03-121943-02-16Multichannel electrical communication systemExpired - LifetimeUS2433343A (en)

Applications Claiming Priority (1)

Application NumberPriority DateFiling DateTitle
GB3295/42AGB556079A (en)1942-03-121942-03-12Improvements relating to multi-channel electrical communication systems

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US2433343Atrue US2433343A (en)1947-12-30

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2481516A (en)*1946-03-221949-09-13Lance R JacobsenMobile telephone system
US2504986A (en)*1948-03-171950-04-25Prestole CorpSnap-in spring fastener
US2574326A (en)*1947-12-021951-11-06Rca CorpGenerating groups of currents
US2575993A (en)*1948-11-271951-11-20Bell Telephone Labor IncMultiple carrier transmission system
US2595876A (en)*1944-02-021952-05-06Gen ElectricRadio pulse-echo locating equipment
US2609438A (en)*1947-01-241952-09-02Sun Oil CoSeismic exploration apparatus
US2645680A (en)*1946-10-031953-07-14Int Standard Electric CorpPulse distributor, including electric discharge devices
US2681949A (en)*1950-02-091954-06-22Nederlanden StaatReceiver for voice frequency telegraph systems
US2700753A (en)*1948-06-281955-01-25Phillips Petroleum CoMethod of and apparatus for seismic prospecting
US2866970A (en)*1956-05-311958-12-30IttPulse communication system

Citations (9)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1447204A (en)*1919-09-301923-03-06American Telephone & TelegraphPlural modulation and demodulation circuits
US1461064A (en)*1921-02-101923-07-10American Telephone & TelegraphMultiplex transmission circuit
US1851721A (en)*1930-05-221932-03-29Gen ElectricOscillation generator
US1854986A (en)*1930-05-171932-04-19Gen ElectricMethod and means for producing high frequencies
FR733626A (en)*1930-01-021932-10-08Materiel Telephonique Improvements to signaling systems using modulated waves
US1985046A (en)*1934-03-021934-12-18Bell Telephone Labor IncElectrical wave production
US2037799A (en)*1934-02-281936-04-21Rca CorpUltrahigh frequency device
US2226459A (en)*1935-11-231940-12-24Philco Radio & Television CorpSignal-deriving circuit
US2266526A (en)*1938-04-111941-12-16Emi LtdElectrical oscillation generator

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1447204A (en)*1919-09-301923-03-06American Telephone & TelegraphPlural modulation and demodulation circuits
US1461064A (en)*1921-02-101923-07-10American Telephone & TelegraphMultiplex transmission circuit
FR733626A (en)*1930-01-021932-10-08Materiel Telephonique Improvements to signaling systems using modulated waves
US1854986A (en)*1930-05-171932-04-19Gen ElectricMethod and means for producing high frequencies
US1851721A (en)*1930-05-221932-03-29Gen ElectricOscillation generator
US2037799A (en)*1934-02-281936-04-21Rca CorpUltrahigh frequency device
US1985046A (en)*1934-03-021934-12-18Bell Telephone Labor IncElectrical wave production
US2226459A (en)*1935-11-231940-12-24Philco Radio & Television CorpSignal-deriving circuit
US2266526A (en)*1938-04-111941-12-16Emi LtdElectrical oscillation generator

Cited By (10)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2595876A (en)*1944-02-021952-05-06Gen ElectricRadio pulse-echo locating equipment
US2481516A (en)*1946-03-221949-09-13Lance R JacobsenMobile telephone system
US2645680A (en)*1946-10-031953-07-14Int Standard Electric CorpPulse distributor, including electric discharge devices
US2609438A (en)*1947-01-241952-09-02Sun Oil CoSeismic exploration apparatus
US2574326A (en)*1947-12-021951-11-06Rca CorpGenerating groups of currents
US2504986A (en)*1948-03-171950-04-25Prestole CorpSnap-in spring fastener
US2700753A (en)*1948-06-281955-01-25Phillips Petroleum CoMethod of and apparatus for seismic prospecting
US2575993A (en)*1948-11-271951-11-20Bell Telephone Labor IncMultiple carrier transmission system
US2681949A (en)*1950-02-091954-06-22Nederlanden StaatReceiver for voice frequency telegraph systems
US2866970A (en)*1956-05-311958-12-30IttPulse communication system

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Publication numberPublication date
FR928802A (en)1947-12-09
GB556079A (en)1943-09-20

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