US1126966A - Sending mechanism for electromagnetic waves. - Google Patents

Sending mechanism for electromagnetic waves. Download PDF

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Publication number
US1126966A
US1126966A US22230204A US1904222302A US1126966A US 1126966 A US1126966 A US 1126966A US 22230204 A US22230204 A US 22230204A US 1904222302 A US1904222302 A US 1904222302A US 1126966 A US1126966 A US 1126966A
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Prior art keywords
electromagnetic waves
sending mechanism
circuit
sending
transformer
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US22230204A
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Reginald A Fessenden
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HALSEY M BARRETT
HALSEY M BARRETT
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Individual
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03BGENERATION OF OSCILLATIONS, DIRECTLY OR BY FREQUENCY-CHANGING, BY CIRCUITS EMPLOYING ACTIVE ELEMENTS WHICH OPERATE IN A NON-SWITCHING MANNER; GENERATION OF NOISE BY SUCH CIRCUITS
    • H03B11/00Generation of oscillations using a shock-excited tuned circuit
    • H03B11/02Generation of oscillations using a shock-excited tuned circuit excited by spark

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  • WTTNESSES all INUIVENTOE fl 2 a m My R. A. FESSENDEN. SENDING MECHANISM FOR ELECTROMAGNETIC WAVES. APPLICATION FILED AUG. 26, 1904.
  • INVSNTO (m H k a e W1) mm UNITED STATES PATENT OFFICE.
  • This invention relates more particularly to complete generating, sending and receiving outfit necessary for a wireless telegraph station.
  • Figures 1 and '2 are views partly in diagram showing respectively the transmitting and receiving sides of the system.
  • the two figures are really a single view divided for convenience and parts common to both sides of the system are shown in both views.
  • Fig. 3 is a modified arrangement of call.
  • Power is furnished by the explosive motor 1 provided with a sparking dynamo 2 connected by lead covered wires 3, 4, with the spark coil 5 which in turn is connected by similar wires with the spark plug 8.
  • the spark coil connections are armored in this way to prevent stray energy excited by the violent internal reactions of this part of the plant from reaching the wave detector or its connection during receiving.
  • the motor 1 is connected by belt 9 to the alternator 10 which supplies current to the transformer 15.
  • the flow of current to said transformer is controlled by the resistance 11 and rheostat 11.
  • the sesistance 11 is made great enough to cut down the current below thepoint at which the spark gap will break down so that when said resistance 11 is in series with the transformer no oscillations take place and no waves are radiated.
  • the signaling is done by short circuiting
  • a relay 12 controlled by the makes and breaks of the sending instrument.
  • This may be a Morse key but I prefer to use a typewriter having an automatic transmitting attachment as for instance, the well-known Yettman typewriter transmitter, the transmitter part of which I have indicated diagrammatically at 15 the typewriting portion of the same being indicated at 14. A voltmeter and an ammeter conveniently placed in view of the operator indicate the conditions of this generator circuit.
  • the current is transformed to a voltage of about 25000 and passes from the transformer through heavy choke coil 16 to the condenser 18 forming part of a close circuit tuned as diagrammatically indicated at 27 to the frequency of the radiating circuit with which it is in parallel.
  • These oscillatory circuits are proportioned and adjusted in any of the ways described in my prior patents as for instance 706,735 of August 12th, 1902.
  • the choke coils 16, 17 are proportioned and designed to offer a maximum impedance to the oscillations of the condenser circuit in order that they may be kept from running back into the transformer and damaging the latter, as, for instance, by breaking down the insulation.
  • the discharge gap common to both the oscillator and radiator circuit is a multiple arrangement comprising discharge terminals 21, 22. of comparatively small cross section and an interposed comparatively massive disk 23.
  • the spark gap is closed in and muifled by a case 24, preferably two concentric spaced jars of glass, or at least provided with a transparent window. Steadiness and efliciency of the spark gap discharge is insured by ventilation throng an air inlet 26 and outlet 25. 26 and 26 preferably lead from and to points outside of the station.
  • An additional advantage of this arrangement is that all gaseous products of the discharge are carried outside of the operating room.
  • ground connection 61 Leading from the terminals of the spark gap are ground connection 61 and aerial connection 28.
  • aerial connection I In the aerial connection I place in shunt to a coil 29 of small inductance, a micrometer spark ga 30 for use as an indicator of the oscillations of the radiating circuit or sending conductor. It serves many of the purposes and is much cheaper than a hot wire ammeterwould be, though the latter may be substituted where desired.
  • a key on which obviously may be a typewriter key, may be bridged around inductance 29 and used to change the tune without interrupting the sparks.
  • the resultant currents in 46, 47 may be r ca'usedjto'act upon a second barretter 48, to
  • this latter circuit is a telephone 50 which may be shunted by a properly proportioned condenser 51 designed to balance the reacta'nce ofv the coil 50.
  • the diaphragm oftelephone 50 supports a very light aluminum wire 52 which in turn supports one end of: a steel needle 55.
  • This arrangement may be; mechanically tunedto the frequency of the wave train by sliding weight 53.
  • needle 55' is carefully adjusted so as to press "lightly against the aluminum wire support fto form a sensitive coherer contact thereith.
  • Abattery 56 is arranged supply electrical pressure to said contact and the pressure is adjusted so that the device will be normally cohered.
  • This circuit is in series with an electro-magnet 57 which holds open a carefully balanced relay switch 58.
  • the tuned reed and coherer arrangement may be substituted for the transformer 45 in which case the secondary circuits are dispensed with.
  • Apparatus for wireless telegraphy including a generator and transmitting apparatus, the latter including a typewriter and simultaneously operating code commutator, a resistance in the system, and a short circuit around the resistance, an electromagnetic circuit closer, for closing said circuit, and being controlled by said commutator.

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Description

R. A. FESSENDEN. SENDING MECHANISM FOR BLEGTROMAGNETIG WAVES. APPLICATION FILED AUG. 26, 1904.
EJ283660 Patented Feb. 2, 1915.
2 SHEETS-SHEET l.
WTTNESSES: all INUIVENTOE fl 2 a m My R. A. FESSENDEN. SENDING MECHANISM FOR ELECTROMAGNETIC WAVES. APPLICATION FILED AUG. 26, 1904.
1, 1 26,966, Patented Feb. 2, 1915.
2 SHEETS-SHEET 2.
FIEEL WITNESSES:
INVSNTO (m H k a e W1) mm UNITED STATES PATENT OFFICE.
manure: A. rnssnnnmv, or WASHINGTON, nis'rnio'r or cennxnre, nssienon, ,BY mnsnn ASSIGNMENTS, 'ro SAMUEL M. KINTNEB, or r rrsnunerr, PENNSYLVANIA, Ann HAISEY M. BARRETT, or BLOOMFIELD, new JEBsnY, RECEIVERS.
SENDING MECHANISM FOR ELECTROMAGNETIC WAVES.
Specification of Letters Patent.
Pa n Feb-2,1915.
Application filed August 26, 1904. Serial No. 222,802.
T 0 all whom it may concern Be it known that I, REGINALD A. Fnssnx- DEN, a citizen of the United States, residing at WVashington, in the District of Columbia, have invented certain new and useful Improvements in Sending Mechanism for Electromagnetic Waves, of which the following is a specification.
This invention relates more particularly to complete generating, sending and receiving outfit necessary for a wireless telegraph station.
It comprises many new and useful separate details as well as the organization and combination of said details in a complete practical outfit for a station of the class described.
In the annexed drawings Figures 1 and '2 are views partly in diagram showing respectively the transmitting and receiving sides of the system. The two figures are really a single view divided for convenience and parts common to both sides of the system are shown in both views. Fig. 3 is a modified arrangement of call.
Power is furnished by the explosive motor 1 provided with a sparking dynamo 2 connected by lead covered wires 3, 4, with the spark coil 5 which in turn is connected by similar wires with the spark plug 8. :The spark coil connections are armored in this way to prevent stray energy excited by the violent internal reactions of this part of the plant from reaching the wave detector or its connection during receiving.
The motor 1 is connected by belt 9 to the alternator 10 which supplies current to the transformer 15. The flow of current to said transformer is controlled by the resistance 11 and rheostat 11. The sesistance 11 is made great enough to cut down the current below thepoint at which the spark gap will break down so that when said resistance 11 is in series with the transformer no oscillations take place and no waves are radiated.
The signaling is done by short circuiting,
said resistance by means of a relay 12 controlled by the makes and breaks of the sending instrument. This may be a Morse key but I prefer to use a typewriter having an automatic transmitting attachment as for instance, the well-known Yettman typewriter transmitter, the transmitter part of which I have indicated diagrammatically at 15 the typewriting portion of the same being indicated at 14. A voltmeter and an ammeter conveniently placed in view of the operator indicate the conditions of this generator circuit.
The current is transformed to a voltage of about 25000 and passes from the transformer through heavy choke coil 16 to the condenser 18 forming part of a close circuit tuned as diagrammatically indicated at 27 to the frequency of the radiating circuit with which it is in parallel. These oscillatory circuits are proportioned and adjusted in any of the ways described in my prior patents as for instance 706,735 of August 12th, 1902. The choke coils 16, 17 are proportioned and designed to offer a maximum impedance to the oscillations of the condenser circuit in order that they may be kept from running back into the transformer and damaging the latter, as, for instance, by breaking down the insulation.
The discharge gap common to both the oscillator and radiator circuit is a multiple arrangement comprising discharge terminals 21, 22. of comparatively small cross section and an interposed comparatively massive disk 23. The spark gap is closed in and muifled by a case 24, preferably two concentric spaced jars of glass, or at least provided with a transparent window. Steadiness and efliciency of the spark gap discharge is insured by ventilation throng an air inlet 26 and outlet 25. 26 and 26 preferably lead from and to points outside of the station. An additional advantage of this arrangement is that all gaseous products of the discharge are carried outside of the operating room.
Leading from the terminals of the spark gap are ground connection 61 and aerial connection 28. In the aerial connection I place in shunt to a coil 29 of small inductance, a micrometer spark ga 30 for use as an indicator of the oscillations of the radiating circuit or sending conductor. It serves many of the purposes and is much cheaper than a hot wire ammeterwould be, though the latter may be substituted where desired. A key on which obviously may be a typewriter key, may be bridged around inductance 29 and used to change the tune without interrupting the sparks.
" therefore tuned to a frequency twice that i From the micrometer spark gap indica- 41, to the ground 21. The received oscillations built'up by resonance are thus accumulated and finally dissipated as heat in the solid wire barretter 43. This receiver as fully explained in my prior Patents Numbers 706,742 August 12th, 1902 and 706,744
waves of one wave train. 'As will be obvious August 12th, 1902 is cumulatively acting and gives a single maximum impulse or effeet for each complete wave train which represents the sum of the energies of all the the flow from the battery and potentiometer 44 "fiuctuates'once for each wave train and are these wave trains occur twice for each period of the generator 10. The fluctuations vuni-directional but after passing through the transformer 45, 46, the fluctuations appear as complete alternations in the secondary circuits 46, 47. These circuits are ofthe' generator.
.The resultant currents in 46, 47 may be r ca'usedjto'act upon a second barretter 48, to
battery current in 49.
produce still more magnified fluctuations of In, this latter circuitis a telephone 50 which may be shunted by a properly proportioned condenser 51 designed to balance the reacta'nce ofv the coil 50. The diaphragm oftelephone 50 supports a very light aluminum wire 52 which in turn supports one end of: a steel needle 55. This arrangement may be; mechanically tunedto the frequency of the wave train by sliding weight 53. The
, "needle 55' is carefully adjusted so as to press "lightly against the aluminum wire support fto form a sensitive coherer contact thereith. Abattery 56 is arranged supply electrical pressure to said contact and the pressure is adjusted so that the device will be normally cohered. This circuit is in series with an electro-magnet 57 which holds open a carefully balanced relay switch 58.
and these acting on the reed 52, 53, timed to' the same period ultimately. produce sufficient vibration of the latter to cause decoherence of the contact 54, 55, opening the circuit of battery 56 and, sounding the call 59. In answer the operator may throw the switch 60 to cut in the receiving telephone 62 and to cut out the call.
46, 47 a in Fig. 3 are resonant to the group frequency and a coherer is arranged to be operated by the resonantrise of potential and it in turn controls a battery circuit which operates a call. I
The tuned reed and coherer arrangement may be substituted for the transformer 45 in which case the secondary circuits are dispensed with.
I claim herein as my invention: I
1. Apparatus for wireless telegraphy including a generator and transmitting apparatus, the latter including a typewriter and simultaneously operating code commutator, a resistance in the system, and a short circuit around the resistance, an electromagnetic circuit closer, for closing said circuit, and being controlled by said commutator.
2. In wireless telegraphy apparatus, the combination with a sending conductorof a small inductance in series therewith and a micrometer spark gap shunting said inductance, substantially as describe In witness whereof I hereunto set my signature in the presence of two subscribing witnesses, April 20th 1904.
REGINALD A. FESSENDEN. 5
Witnesses: v
ALICE E. HABwoon. Jnssm E. BENT.
US22230204A 1904-08-26 1904-08-26 Sending mechanism for electromagnetic waves. Expired - Lifetime US1126966A (en)

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