US1454624A - Radiotelegraphy signaling system - Google Patents

Radiotelegraphy signaling system Download PDF

Info

Publication number
US1454624A
US1454624A US376942A US37694220A US1454624A US 1454624 A US1454624 A US 1454624A US 376942 A US376942 A US 376942A US 37694220 A US37694220 A US 37694220A US 1454624 A US1454624 A US 1454624A
Authority
US
United States
Prior art keywords
circuit
shunt
antenna
frequency
oscillatory
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US376942A
Inventor
Corwin C Chapman
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AUGUSTUS TAYLOR
Original Assignee
AUGUSTUS TAYLOR
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by AUGUSTUS TAYLOR filed Critical AUGUSTUS TAYLOR
Priority to US376942A priority Critical patent/US1454624A/en
Application granted granted Critical
Publication of US1454624A publication Critical patent/US1454624A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L27/00Modulated-carrier systems
    • H04L27/02Amplitude-modulated carrier systems, e.g. using on-off keying; Single sideband or vestigial sideband modulation
    • H04L27/04Modulator circuits; Transmitter circuits

Definitions

  • This invention relates to radio signaling and particularly to single wave radio signaling.
  • signaling with continuous oscillations produced by an arc radio generator has involved the radiation of oscillations of two frequencies, one being the signaling frequency or wave, and the other being the compensating frequency or wave.
  • Signaling has usually been accomplished by variation of antenna inductance, which variation altered the frequency of the radiated wave, so that two waves of different frequency were radiated by a station during signaling.
  • An object of the invention is to provide a system of single wave radio signaling, in which waves having a frequency above the limit of audibility are. converted into signals having a frequency within the range of andibility.
  • the are radio generator produces continuous waves having a frequency above -the range of audibility, but many receiving stations are not equipped to receive and identify waves of such frequency.
  • This invention therefore contemplates so manipu- :lating the high frequency waves that signals will be received by such stations and this is preferably accomplished by converting the continuous wave into wave trains or wave groups, the frequency of the groups being within the range of audibility, so that signals so transmitted are readily received by all receiving stations. This is accomplished with the use of waves of a single frequency, thus eliminating the presence of the compensating wave.
  • my invention there is utilized an absorbing oscillatory circuit in shunt with the transmitting circuit so that intermittently this shunt circuit absorbs substantially'fall of the energy of the source.
  • Another object of the invention is .toprovide a system of signaling as above described which requires the handling of only relatively small currents.
  • Figure 1 is a diagrammatic representation of one form of system involving variation of the electrical constants of an oscillatory shunt circuit. 4
  • Figure 2 is a diagrammatic representation of modified form of the system shown in Figure l. i Y
  • Figure 3 is a diagrammatic representation of one form of system involving variation of the electrical constants ofthe antenna circuit andthe oscillatory shunt circuit.
  • the electrical constants of one or two oscillatory circuits are varied to cause the arc to oscillate intermittently on the antenna only when the signalingkey is depressed, so that groups of high frequency waves are radiated, the group frequency being within ,the
  • Thesystem shown in Figure 1 comprises a source of'continuous oscillations,such as the are 2, which operatesin a hydrogen atmosphere.
  • the are generator is grounded on one side, preferably the negative, and connected on the other side to the antenna 3 through the variable inductance 4.
  • Direct current is supplied to thearc generator by the generator 5 and combinedmagnetizing and choke coils,,78 are arranged inthe positive lead, the coils surroundingmagnetic cores arranged adjacent the arc, so that the arc is subjected to a strongtransverse magnetio field.
  • Shunting the arc is an oscillatory shunt circuit containing an inductance 12 and a capacity 13, and thiscircuit has slightly different electrical time con stants than the antenna circuit. .
  • tw .os io y ci ui ha g di ferent elect al im westerns-i the oscillatory shunt circuit.
  • the electrical constants of the shunt oscillatory circuit are such that the arc ordinarily prefers to oscillate on the shunt circuit to the practical neglect of the antenna circuit. This shunt circuit thus absorbs substantially all of the energy supplied while no energy is radiated from the antenna.
  • shunting a portion of the inductance 12 is a circuit containing a resistance l l, an interrupter l5 and a key 16. Assuming that the interrupter is eliminated, closing the key 16 will close the resistance circuit, increase the resistance of the oscillatory shunt circuitand cause the arc to oscillate practically entirely on the antenna circuit. lVhen the key is closed, a radio frequencycurrent will flow through the resistance, causing an energy loss so that the resistance has the equivalent effect of being inserted directly into lhe current through the resistance is probably not only the antenna current, but also a certain amount of induced current due to the transformer action of the inductance 12, which becomes in effect an auto-transformer. It is preferable to make the value of the resistance in ohms substantially equal to the reactance in ohms at radio frequency of the turns of the inductance shunted by the resistance circuit, in order to cause a maximum energy loss in the resistance.
  • the key is open, the arc oscillates practically entirely on the oscillatory shunt circuit and when the key is closed, the arc oscillates practically entirely on the antenna circuit consequently waves are radiated only when the key is closed.
  • the interrupter 15, in the resistance circuit is rotated by any suitable means at such speed that the resistance circuit, when closed by the key, is interrupted at a' frequency within the range of audibility. This produces the radiation from the antenna, when the key is closed, of groups of waves, the group frequency being within the range of" audibility, so that the groups may be received and detected by receiving devices which would not be responsive to the high frequency continuous waves.
  • the speed of the interrupter is, of course, sufliciently high that the resistance circuit is interrupted many times while the key is depressed during signaling.
  • FIG 2 there is shown a modified form of single wave group frequency system in which the commutator or interrupter 1'7 acts to alternately direct the current to the shunt oscillatory circuit and the antenna circuit, when the key 18 is closed, on the antenna circuit.
  • One. side of the shunt cir- Quit is connected to the commutator by two conductors 21 and 22, so that when the key isclosed on the shunt circuit the arc oscil lates continually on that circuit and when the key is closed on the antenna circuit the arc oscillates alternately on the antenna and shunt circuits, thereby producing the radiation of groups of Waves, the group quency being within the range of audibility.
  • the time the time:
  • the antenna circuit and the shunt oscillatory circuit may or may not be tuned to the same frequency.
  • Inductively connected to the antenna inductance 4 is a circuit 9A and inductively connected to the shunt circuit inductance 12 is a circuit 25, the two circuits being provided with a commonshunt including the interrupter 26, the key 27 and the resistance 28. ⁇ Vhen the key is open, the
  • a source of continuous radio oscillations comprising a source of continuous radio oscillations, a radiating circuit connected to said source, an oscillatory absorbing circuit also connected to said source, an energy abn sorbing element, and means for coupling said element alternately to one or the othe circuit at audio frequency.
  • a radio telegra-phy signaling system comprising a source of continuous rad-i0 oscillations, a radiating circuit connected-to said source, an oscillatory absorbing circuit connected to said source, an energy absorbing element, a circuit coupled to the radiating circuit, a circuit coupled to the absorbing circuit, said coupled circuits being so arranged that the energy absorbing element forms a common path for both coupled circuits, and means for alternately completing the coupled circuits at audio frequency.
  • a source of continuous radio oscillations comprising a source of continuous radio oscillations, a radiating circuit connected to said source, an oscillatory absorbing circuit connected to said source, a pair of circuits, one inductively coupled to the radiating circuit and the other to the absorbing circuit, and means for alternately completing said circuits at audio frequency.
  • a radio telegraphy signaling system comprising a source of continuous radio oscillations, an antenna circuit connected to said source, an oscillatory absorbing circuit shunting said source, a circuit inductively coupled to the antenna circuit, a circuit in ductively coupled to the absorbing circuit, and means rendering these circuits efi'ective and ineffective at audio frequency, whereby groups of radio Waves are transmitted and the shunt circuit absorbs the energy during periods of rest of the antenna circuit.

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Transmitters (AREA)

Description

May 8, 1923.
C. C. CHAPMAN RADIO TELEGRAPHY SIGNALING SYSTEM Filed April 27, 1920 Patented May 8, 1923.
CORWIN C. CHAPMAN, OF rALO ALTO, CALIFORNIA, ASSIGLNOR TO AUGUSTUS TAYLOR,
OF SAN FRANCISCO, CALIFORNIA. v I
RADIOTELEGBAPHY SIGNALENG SYSTEM.
Application filed April 27, 1920. Serial No. 376,942.
To all whom it may concern:
Be it known that I, Conwm C. CHAPMAN,
a citizen of the United States, and a resident of Palo Alto, county of Santa Clara, and State of California, have invented certain new and useful Improvements in Radiotelegraphy Signaling Systems, of which the following is a specification.
This invention relates to radio signaling and particularly to single wave radio signaling.
Heretofore, signaling with continuous oscillations produced by an arc radio generator has involved the radiation of oscillations of two frequencies, one being the signaling frequency or wave, and the other being the compensating frequency or wave. Signaling has usually been accomplished by variation of antenna inductance, which variation altered the frequency of the radiated wave, so that two waves of different frequency were radiated by a station during signaling. In order to avoid interference, it was necessary to assign two wave lengths to each station and as the number of stations have multiplied, confusion and interference has been caused by the radiation of oscillations of two different wave lengths from each station.
An object of the invention is to provide a system of single wave radio signaling, in which waves having a frequency above the limit of audibility are. converted into signals having a frequency within the range of andibility. The are radio generator produces continuous waves having a frequency above -the range of audibility, but many receiving stations are not equipped to receive and identify waves of such frequency. This invention, therefore contemplates so manipu- :lating the high frequency waves that signals will be received by such stations and this is preferably accomplished by converting the continuous wave into wave trains or wave groups, the frequency of the groups being within the range of audibility, so that signals so transmitted are readily received by all receiving stations. This is accomplished with the use of waves of a single frequency, thus eliminating the presence of the compensating wave. With my invention, there is utilized an absorbing oscillatory circuit in shunt with the transmitting circuit so that intermittently this shunt circuit absorbs substantially'fall of the energy of the source.
Another object of the invention is .toprovide a system of signaling as above described which requires the handling of only relatively small currents.
The invention possesses other advantageous features, some of which, with the foregoing, will be set forth at length in the following description, where those several embodiments of the invention which have been selected for illustration in theaccompanying drawings, will be outlined in full. It is to be understood, however, that the invention as expressed in the claims is not limited to the specific embodiments shown in the drawings. I I
Referring to said drawings:
Figure 1 is a diagrammatic representation of one form of system involving variation of the electrical constants of an oscillatory shunt circuit. 4
Figure 2 is a diagrammatic representation of modified form of the system shown in Figure l. i Y
Figure 3 is a diagrammatic representation of one form of system involving variation of the electrical constants ofthe antenna circuit andthe oscillatory shunt circuit.
In accordance withthis invention, ,the electrical constants of one or two oscillatory circuits are varied to cause the arc to oscillate intermittently on the antenna only when the signalingkey is depressed, so that groups of high frequency waves are radiated, the group frequency being within ,the
range of audibility.
Thesystem shown in Figure 1 comprises a source of'continuous oscillations,such as the are 2, which operatesin a hydrogen atmosphere. The are generator is grounded on one side, preferably the negative, and connected on the other side to the antenna 3 through the variable inductance 4. Direct current is supplied to thearc generator by the generator 5 and combinedmagnetizing and choke coils,,78 are arranged inthe positive lead, the coils surroundingmagnetic cores arranged adjacent the arc, so that the arc is subjected to a strongtransverse magnetio field. Shunting the arc is an oscillatory shunt circuit containing an inductance 12 and a capacity 13, and thiscircuit has slightly different electrical time con stants than the antenna circuit. .When an a shunted by tw .os io y ci ui ha g di ferent elect al im westerns-i the oscillatory shunt circuit.
may be made to oscillate principally on one circuit, to the practical neglect of the other. The electrical constants of the shunt oscillatory circuit are such that the arc ordinarily prefers to oscillate on the shunt circuit to the practical neglect of the antenna circuit. This shunt circuit thus absorbs substantially all of the energy supplied while no energy is radiated from the antenna.
shunting a portion of the inductance 12 is a circuit containing a resistance l l, an interrupter l5 and a key 16. Assuming that the interrupter is eliminated, closing the key 16 will close the resistance circuit, increase the resistance of the oscillatory shunt circuitand cause the arc to oscillate practically entirely on the antenna circuit. lVhen the key is closed, a radio frequencycurrent will flow through the resistance, causing an energy loss so that the resistance has the equivalent effect of being inserted directly into lhe current through the resistance is probably not only the antenna current, but also a certain amount of induced current due to the transformer action of the inductance 12, which becomes in effect an auto-transformer. It is preferable to make the value of the resistance in ohms substantially equal to the reactance in ohms at radio frequency of the turns of the inductance shunted by the resistance circuit, in order to cause a maximum energy loss in the resistance.
\Vhen the key is open, the arc oscillates practically entirely on the oscillatory shunt circuit and when the key is closed, the arc oscillates practically entirely on the antenna circuit consequently waves are radiated only when the key is closed. The interrupter 15, in the resistance circuit, is rotated by any suitable means at such speed that the resistance circuit, when closed by the key, is interrupted at a' frequency within the range of audibility. This produces the radiation from the antenna, when the key is closed, of groups of waves, the group frequency being within the range of" audibility, so that the groups may be received and detected by receiving devices which would not be responsive to the high frequency continuous waves. The speed of the interrupter is, of course, sufliciently high that the resistance circuit is interrupted many times while the key is depressed during signaling.
In Figure 2 there is shown a modified form of single wave group frequency system in which the commutator or interrupter 1'7 acts to alternately direct the current to the shunt oscillatory circuit and the antenna circuit, when the key 18 is closed, on the antenna circuit. One. side of the shunt cir- Quit is connected to the commutator by two conductors 21 and 22, so that when the key isclosed on the shunt circuit the arc oscil lates continually on that circuit and when the key is closed on the antenna circuit the arc oscillates alternately on the antenna and shunt circuits, thereby producing the radiation of groups of Waves, the group quency being within the range of audibility. In the system shown in Figure 3, the time:
constants of the antenna and of the shunt oscillatory circuit are oppositely varied by the closing of the key, so that conditions in one circuit are made more favorable for oscillation and conditions in the other circuit are made less favorable. In this system, the antenna circuit and the shunt oscillatory circuit may or may not be tuned to the same frequency. Inductively connected to the antenna inductance 4 is a circuit 9A and inductively connected to the shunt circuit inductance 12 is a circuit 25, the two circuits being provided with a commonshunt including the interrupter 26, the key 27 and the resistance 28. \Vhen the key is open, the
arc oscillates on the shunt oscillatory cir- 1. A radio telegraphy signaling system,
comprising a source of continuous radio oscillations, a radiating circuit connected to said source, an oscillatory absorbing circuit also connected to said source, an energy abn sorbing element, and means for coupling said element alternately to one or the othe circuit at audio frequency.
2. A radio telegra-phy signaling system, comprising a source of continuous rad-i0 oscillations, a radiating circuit connected-to said source, an oscillatory absorbing circuit connected to said source, an energy absorbing element, a circuit coupled to the radiating circuit, a circuit coupled to the absorbing circuit, said coupled circuits being so arranged that the energy absorbing element forms a common path for both coupled circuits, and means for alternately completing the coupled circuits at audio frequency.
3. A radio telegraphy signaling system,
comprising a source of continuous radio oscillations, a radiating circuit connected to said source, an oscillatory absorbing circuit connected to said source, a pair of circuits, one inductively coupled to the radiating circuit and the other to the absorbing circuit, and means for alternately completing said circuits at audio frequency.
4. A radio telegraphy signaling system, comprising a source of continuous radio oscillations, an antenna circuit connected to said source, an oscillatory absorbing circuit shunting said source, a circuit inductively coupled to the antenna circuit, a circuit in ductively coupled to the absorbing circuit, and means rendering these circuits efi'ective and ineffective at audio frequency, whereby groups of radio Waves are transmitted and the shunt circuit absorbs the energy during periods of rest of the antenna circuit.
In testimony whereof, I have hereunto set my hand.
OORWIN o. oHArMAN.
US376942A 1920-04-27 1920-04-27 Radiotelegraphy signaling system Expired - Lifetime US1454624A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US376942A US1454624A (en) 1920-04-27 1920-04-27 Radiotelegraphy signaling system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US376942A US1454624A (en) 1920-04-27 1920-04-27 Radiotelegraphy signaling system

Publications (1)

Publication Number Publication Date
US1454624A true US1454624A (en) 1923-05-08

Family

ID=23487125

Family Applications (1)

Application Number Title Priority Date Filing Date
US376942A Expired - Lifetime US1454624A (en) 1920-04-27 1920-04-27 Radiotelegraphy signaling system

Country Status (1)

Country Link
US (1) US1454624A (en)

Similar Documents

Publication Publication Date Title
US1454624A (en) Radiotelegraphy signaling system
US1732741A (en) Duplex radio transmission system
US730246A (en) Space telegraphy.
US2031103A (en) Ultra short wave receiver
US1924303A (en) Phase shifting reactor
US1418066A (en) Rabiotraitsmitting system
US1507016A (en) Radiosignaling system
US1379184A (en) Shielding radio apparatus
USRE12149E (en) Beissited aug
US876165A (en) Wireless telegraph transmitting system.
US1394560A (en) Apparatus for transmitting radiant energy
US1621062A (en) Radio system
US1623745A (en) Transmitting system for radiant energy
US1844941A (en) Signaling
US2824955A (en) Radio transmitting system
US717771A (en) Signaling system.
US1473719A (en) Radiotelegraphy
US1373931A (en) Radio-receiving system
US1243705A (en) Method of and means for transmitting signals.
US1009106A (en) Receiving apparatus.
US714756A (en) Method of selective electric signaling.
US1626856A (en) Circuit arrangement for multiplex communication
USRE14760E (en) Leonard p
US1884536A (en) Radio signaling
US1524629A (en) Modulating system for oscillation generators