US1042069A - Method of and apparatus for relaying high-frequency currents. - Google Patents
Method of and apparatus for relaying high-frequency currents. Download PDFInfo
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- US1042069A US1042069A US63220811A US1911632208A US1042069A US 1042069 A US1042069 A US 1042069A US 63220811 A US63220811 A US 63220811A US 1911632208 A US1911632208 A US 1911632208A US 1042069 A US1042069 A US 1042069A
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- pulsations
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- 238000000034 method Methods 0.000 title description 6
- QSHDDOUJBYECFT-UHFFFAOYSA-N mercury Chemical compound [Hg] QSHDDOUJBYECFT-UHFFFAOYSA-N 0.000 description 23
- 230000010349 pulsation Effects 0.000 description 22
- 229910052753 mercury Inorganic materials 0.000 description 17
- 238000004804 winding Methods 0.000 description 11
- 238000009877 rendering Methods 0.000 description 7
- 230000015556 catabolic process Effects 0.000 description 5
- 230000011664 signaling Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 1
- 241000143252 Idaea infirmaria Species 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 229910052799 carbon Inorganic materials 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 239000004020 conductor Substances 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 230000005284 excitation Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000979 retarding effect Effects 0.000 description 1
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Classifications
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03C—MODULATION
- H03C5/00—Amplitude modulation and angle modulation produced simultaneously or at will by the same modulating signal
Definitions
- nRNsT 1 W. ALEXANDERSON, or SCHENECTADY, NEW YoRK, ASSIGNOR To GENERAL ELECTRIC COMPANY, A CORPORATION on NEW YoRK.
- the present invention involves the application of high frequency currents to signaling and comprises a method of and apparatus for utilizing comparatively large amounts of energy in the form of high frequency pulsations for the transmission of speech, or for sending signals in general.
- My invention will be best understood when considered in connection'with its application to wireless telephony.
- a high frequency pulsating current of constant frequency and amplitude is transmitted through a telephone transmitter of variable resistance, such asthe carbon microphone
- the amplitude of the high frequency waves will vary in accordance with the variations of'resistance in the microphone.
- the tops of the, high frequency waves will define a curve corresponding with The amount of energy which can be carried through a microphone transmitter is limited, however,
- I employ the transmitter current to render conductive a device having an initial high resistance which when broken down drops to a low value, for example,-a mercury are, or similar vapor electric device, and transmit through said device high frequency Waves which are in step with the ex citing waves.
- the slope of the exciting waves varies with their amplitude, thereby varying the time interval required for the.
- portions of the waves are transmitted, these portions varying in value in accordance with the waveamplitude of the telephone current.
- These current waves can be utilized by suitable apparatus for the production of electromagnetic waves.
- Figure 1 is a diagram illustrating a high frequency generator connected to two mercury arc devices in a system of space telephony
- Fig. 2- is a modified system employing a single mercury arc, the device having two mercury electrodes
- Fig. 3 illustrates another modification in which the exciting current can be displacedin phase with respect to the main current
- Fig.4' is a diagram illustrating the variation in amplitude of the high frequency waves in the transmitter circuit
- Fig. 5 diagramma-ticallyillustrates the relation ofthe main and exciter waves when they are in phase with eacheother
- Fig. 6 illustrates the relation of main and exciter' waves when out of phase.
- vFig. 1 illustrates analternator of the' inductor type having a stationary field winding 1 connected to a suitable source of exciting current such as a direct current generator 2, and having a stationary armature winding 3 and a movable inductor 4.
- the armature winding is connected by conductor to the anode 6 of'mercury arc device 7 and the cathode 8 of mercury arc device 9.
- the antenna 10 is connected to the anode 11 of the mercury arc device9 and cathode 12 of mercury-arc device 7.
- I One end of the ar-" mature winding 3 is earthed as indicated.
- a branch circuit connected across the armature winding as indicated contains the pri- -mary 1'3 of-an air core transformer and a microphone telephone transmitter 14.
- the variation of resistance of the transmitter when sound waves are impressed upon it, produces a variation in amplitude of the waves,.a low resistance in the transmitter corresponding with a wave of'relatively great amplitude, or voltage, and. a high resistance. in the transmitter corresponding with a wave of relatively low amplitude, or voltage.
- their tops define a curve, as shown in the figure by the dotted line 19, corresponding with the variable wave current in a telephone system using direct current.
- the voltage in the secondaries 15 and 17 and the gaps from the auxiliary anodes to the corresponding cathodes in the mercury are devices are so proportioned that the Voltage ofthe high frequency:waves is sufficient to start an arc across the vacuous space in the are devices. However, this are will not be sta'rted until the voltage of the high frequency waves has arisen to a value corresponding with the break-down resistance across the gap between the auxiliary anode and the cathode.
- a wa e of comparatively great amplitude or voltage will, because of its steeper slope, rise in value to the breakdown voltage sooner than a wave of lower amplitude and gentler slope.
- the variation in resistance in the telephone transmitter 14 therefore times "the starting of the main arcs in the mercury are devices 7 and 9, thereby determines the relative amounts of energy transmitted and in that manner controls the intensity ofthe electromagnetic waves radiated from the antenna 10.
- the variation in the electromagnetic waves is, of
- the secondary 15 of the transformer is connected to an auxiliary anode 27 of a mercury arc device 28 and to. a" mercury'- electrode 29.
- the secondary 17 is connected an auxiliary anode 30 and to a second mercury electrode 31.
- the antenna 10 is connected to the mercur electrode 29.
- The'armature'winding 3 1s co nected to the mercury electrode 31.
- the mercury electrodes 29 and 31 both alternate in polarity according to the direction of the alternating current, the electrode 31 being positive and the electrode 29 negative during one-half Wave and each electrode being reversed in sign during the other half wave.
- the operation'of this device is similar to thatalready described in connection with Fig. 1, the electrodes 27 andBO acting alternately as anodes to strike an auxiliary arc to whichever mercury electrode is negative, thus rendering the device conductive and starting the main arc.
- Fig. 3 illustrates the telephone. transmitter 14: as being placed in circuit with a separate armature winding 32 which is' movable with respect to the main armature winding 3.
- the exciting current may'be displaced 'in phase with respect to the main current.
- the method of controlling the energy of high frequency pulsations for signaling or other purposes which consists in rendering a high breakdown resistance by high euency pulsations occurring in step with the pulsations to becontrolled, attaining a, voltage high enough to break down the resistance of said said circuit, and means for controlling the from said source inaccordance with said vatransmission of hig-hfrequency pulsations" riations of slope of the pulsations in the control circuit.
Description
E. F. W. ALEXANDERSON.
METHOD OF AND APPARATUS FOR RELAYING HIGH FREQUENCY GURRENTS.
- APPLIGATION FILED JUNE 9, 1911.
1,042,069, Patented Oct. 22, 1912.
2 SHBETSSHEET 1.
Fig.1.
- I I jTNESSEEJ firs ATTfiBNEJ t E. P. W. ALBXANDERSON. METHOD OF AND APPARATUS FOR RELAYING HIGH FREQUENGI GURRENTS.
APPLIQATION FILED JUNE 9, 1911.
1,042,069. Patented 0@t.22,1912.
2 SHEETS-SHEET 2 Fig.
Fig. 6.
1925' ATTORNEY.
UNITED STATES PATENT OFFICE.
nRNsT 1. W. ALEXANDERSON, or SCHENECTADY, NEW YoRK, ASSIGNOR To GENERAL ELECTRIC COMPANY, A CORPORATION on NEW YoRK.
METHOD.OF AND APPARATUS FOR RELAYING HIGH-FREQUENCY CURRENTS.
-Frequency Currents, of which the following is a specification.
The present invention involves the application of high frequency currents to signaling and comprises a method of and apparatus for utilizing comparatively large amounts of energy in the form of high frequency pulsations for the transmission of speech, or for sending signals in general.
My invention will be best understood when considered in connection'with its application to wireless telephony. When a high frequency pulsating current of constant frequency and amplitude is transmitted through a telephone transmitter of variable resistance, such asthe carbon microphone, the amplitude of the high frequency waves will vary in accordance with the variations of'resistance in the microphone. The tops of the, high frequency waves will define a curve corresponding with The amount of energy which can be carried through a microphone transmitter is limited, however,
by the conductivity and heat radiating ca pacity' of the transmitter. In accordance with my invention, larger amounts of energy than can be carried by the microphone with out heating can'be transmitted.
I employ the transmitter current to render conductive a device having an initial high resistance which when broken down drops to a low value, for example,-a mercury are, or similar vapor electric device, and transmit through said device high frequency Waves which are in step with the ex citing waves. The slope of the exciting waves varies with their amplitude, thereby varying the time interval required for the.
voltage of the exciting wave to rise to the value necessary for rendering the vapor de-' vice conductive by the starting of a high voltage spark, a side branch arc, orwhatevermeans may be used. As the main arc' will not start until the ionizing discharge occurs, and ceases when the voltage falls below the value necessary to maintain an arc,t'hat1s, at the end of each wave-varying Specification of Letters Patent.
Application filed June 9, 1911.
Patented Oct. 22,1912.
Serial No. 632,208,
portions of the waves are transmitted, these portions varying in value in accordance with the waveamplitude of the telephone current. These current waves can be utilized by suitable apparatus for the production of electromagnetic waves.
My invention is explained more fully by the following description takenin connection withthe accompanying drawings which illustrate a systememploying alternating current, but it. will be understood that the inventionis equally applicable to a pulsating current .which does not "rver'sein sign.
Figure 1 is a diagram illustrating a high frequency generator connected to two mercury arc devices in a system of space telephony; Fig. 2- is a modified system employing a single mercury arc, the device having two mercury electrodes; Fig. 3 illustrates another modification in which the exciting current can be displacedin phase with respect to the main current;"Fig.4' is a diagram illustrating the variation in amplitude of the high frequency waves in the transmitter circuit; Fig. 5 diagramma-ticallyillustrates the relation ofthe main and exciter waves when they are in phase with eacheother; and Fig. 6 illustrates the relation of main and exciter' waves when out of phase.
vFig. 1 illustrates analternator of the' inductor type having a stationary field winding 1 connected to a suitable source of exciting current such as a direct current generator 2, and having a stationary armature winding 3 and a movable inductor 4. The armature winding is connected by conductor to the anode 6 of'mercury arc device 7 and the cathode 8 of mercury arc device 9. The antenna 10 is connected to the anode 11 of the mercury arc device9 and cathode 12 of mercury-arc device 7. I One end of the ar-" mature winding 3 is earthed as indicated. A branch circuit connected across the armature winding as indicated contains the pri- -mary 1'3 of-an air core transformer and a microphone telephone transmitter 14. One
of-the secondary windings 15-of the transcuit containing the microphone transmitter 14, the variation of resistance of the transmitter, when sound waves are impressed upon it, produces a variation in amplitude of the waves,.a low resistance in the transmitter corresponding with a wave of'relatively great amplitude, or voltage, and. a high resistance. in the transmitter corresponding with a wave of relatively low amplitude, or voltage. As the frequency of the waves is higher than the audible frequency, their tops define a curve, as shown in the figure by the dotted line 19, corresponding with the variable wave current in a telephone system using direct current. The voltage in the secondaries 15 and 17 and the gaps from the auxiliary anodes to the corresponding cathodes in the mercury are devices are so proportioned that the Voltage ofthe high frequency:waves is sufficient to start an arc across the vacuous space in the are devices. However, this are will not be sta'rted until the voltage of the high frequency waves has arisen to a value corresponding with the break-down resistance across the gap between the auxiliary anode and the cathode. A wa e of comparatively great amplitude or voltage will, because of its steeper slope, rise in value to the breakdown voltage sooner than a wave of lower amplitude and gentler slope. In other words, referring to Fig. 5, if the line 20 represents zero voltage and the line 21' the break-down y,oltage, and assuming voltage and current to be in phase, it will be seen that it will require a somewhat longer time interval for an exciting wave having the shape of wave 22 to attain a voltage equal in value to the breakdown voltage than will be required for curve 23. 1 As the'main wave 24.- will not start until the space in the mercury arc device has been rendered conductive by the auxiliary are, a larger portion of the main wave will pass through the device and to the antenna when the exciting wave has a steep slope than when its slope is gentle. This is clearly indicated in F 1g. 5. by the shaded portions of the main wave bounded respectively by lines 25 and 26. The variation in resistance in the telephone transmitter 14 therefore times "the starting of the main arcs in the mercury are devices 7 and 9, thereby determines the relative amounts of energy transmitted and in that manner controls the intensity ofthe electromagnetic waves radiated from the antenna 10. The variation in the electromagnetic waves is, of
course, receivable by appropriate receiving devices at a distant point as speech or other signals. Y
As shown inF g. 2, the secondary 15 of the transformer is connected to an auxiliary anode 27 of a mercury arc device 28 and to. a" mercury'- electrode 29. The secondary 17 is connected an auxiliary anode 30 and to a second mercury electrode 31. The antenna 10 is connected to the mercur electrode 29. The'armature'winding 3 1s co nected to the mercury electrode 31. The mercury electrodes 29 and 31 both alternate in polarity according to the direction of the alternating current, the electrode 31 being positive and the electrode 29 negative during one-half Wave and each electrode being reversed in sign during the other half wave. The operation'of this device is similar to thatalready described in connection with Fig. 1, the electrodes 27 andBO acting alternately as anodes to strike an auxiliary arc to whichever mercury electrode is negative, thus rendering the device conductive and starting the main arc.
Fig. 3 illustrates the telephone. transmitter 14: as being placed in circuit with a separate armature winding 32 which is' movable with respect to the main armature winding 3. By giving an angular displacement to the winding 32 with respect to the winding 3, the exciting current may'be displaced 'in phase with respect to the main current.
This makes it possible to.obtain even greater f differences in the fractions. of the waves of the main current transmitted to the antenna through the mercury arc device with a variation in the amplitude of the exciting telethe portion. of the main wave bounded by the line 33 and the zero line 34 is transmitted when the exciting wave has the slo e ofwave 35 and the portion bounded by line 36 and the zero line34 is transmitted when the exciting wave has the slope of wave 37 What I claim as new and desire to secure by Letters Patent of the United States, is
1. The method of controlling high frequency current for signaling and thelike electrodes ofsaid mercury vapor device a. pulsating current of considerableenergyflhe periods of said current being in step with the exciting pulsations, thereby causing variable port ons of said high energy current to be transmitted, y
2. The method of signaling through space, which consists in impressing upon a vapor electric. device high frequency pulsations phone current. As' sli'own by Fig. 6, only which periodically fall to a voltage less than f that required to sustain an arc, rendering the space in said device conductive to current during eachwave of. current, retarding or advancing the'point the wave interval at which the space is rendered 'condctive in accordance with the signal to, be sent, thus conductive a device having r transmitting variable portions of the pulsar. tions and utilizing said pulsations for the production of electromagnetic waves.
3. The method of controlling the energy of high frequency pulsations for signaling or other purposes, which consists in rendering a high breakdown resistance by high euency pulsations occurring in step with the pulsations to becontrolled, attaining a, voltage high enough to break down the resistance of said said circuit, and means for controlling the from said source inaccordance with said vatransmission of hig-hfrequency pulsations" riations of slope of the pulsations in the control circuit.
5. The combination of 'a source of high frequency pulsatingcurrent of considerable energy, means characterized by a high initial resistance subject to reduction bythe passage of electrical energy therethrough, means for furnishing high voltage exciting pulsations in step with the main pulsating current for rendering said device conductive for current from said source during each pulsation, and means for varying-the slope of the wave form of said exciting pulsations .at
will, thereby varying the time with respect to the beginning of each wave of main current that said means is rendered conductive and thus controlling the amount of energy transmitted. a
6. In a system of space telephonyc, the com-, bination of a source of high frequency pulsating'current, a mercury vapor device hav ing a cathode and an anode connected thereto, an auxiliary anode cooperatingwithsaid anode, exciting means connected thereto for furnishing a high voltage pulsating current; for rendering said device conductive during each pulsation of current fromsaidsource by a discharge from the auxiliary anode to the cathode, and a telephone transm tter in the circuit of theexciting means for varyin its resistance, thereby timing the starting 0 the vauxiliary arcs with respect to the time that the voltage of the pulsationsof said source fall below a value sufficient to maintain an arc. 3 In a system the combination of a source of high he q"- ency pulsating current, a vapor electric device included in circuit therewith, means for rendering the space in said vapor device conductive during each pulsation from said source by high frequency pulsations which are in step with the pulsations in the main supply circuit of said device, and means for varying the wave formof said exciting pulsations in accordance with the signals to be sent, whereby varying portions of the pulsations from said source are transmitted by the mercury vapor device.
of aerial communication,
8. In a system of Wave telephony, the com- ,bination of a source of highfrequency-pulsating current, a mercury vapor device in circuit therewith, means for supporting'an auxiliary exciting arc in said device, a cir-. cuit connected thereto-carrying high frequency pulsations which are in step with the pulsations in the supply circuit of said vapor device, and a microphone in electric circuit withsaid auxiliary are for varying the resistance encountered by the exciting arc pulsations,'thereby varying the time intervals during which said mercury vapor device is excited or rendered conductive.
9. The combination of a source of high frequency pulsations, a mercury vapor de-' vice having main electrodes electrically connected thereto, an auxiliary electrode, exciting means connected thereto for furnishing a current pulsating in step with the pulsa-.
tions of said main high frequency source, a variable resistance in circuit with said exciting means for varying the slope of the exciting waves in accordance with the signals to be sent, thereby timing the instant of excitation with respect to the beginning of each current wave and thus varying the amount of energy transmitted by the me r' cury vapor device.
In'wltness whereof, I have hereunto set my hand this 8th day of June, 1911.
' ERNST F. W. ALEXANDERSON.
lVitnesses:
-BENJAMiN B; HULL, HELEN On'ronn.
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US63220811A US1042069A (en) | 1911-06-09 | 1911-06-09 | Method of and apparatus for relaying high-frequency currents. |
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US63220811A US1042069A (en) | 1911-06-09 | 1911-06-09 | Method of and apparatus for relaying high-frequency currents. |
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US63220811A Expired - Lifetime US1042069A (en) | 1911-06-09 | 1911-06-09 | Method of and apparatus for relaying high-frequency currents. |
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- 1911-06-09 US US63220811A patent/US1042069A/en not_active Expired - Lifetime
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