US1695058A - High-frequency signaling - Google Patents

High-frequency signaling Download PDF

Info

Publication number
US1695058A
US1695058A US680810A US68081023A US1695058A US 1695058 A US1695058 A US 1695058A US 680810 A US680810 A US 680810A US 68081023 A US68081023 A US 68081023A US 1695058 A US1695058 A US 1695058A
Authority
US
United States
Prior art keywords
tube
tubes
circuit
oscillator
modulation
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
US680810A
Inventor
Peterson Eugene
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.)
AT&T Corp
Original Assignee
Western Electric Co Inc
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 Western Electric Co Inc filed Critical Western Electric Co Inc
Priority to US680810A priority Critical patent/US1695058A/en
Application granted granted Critical
Publication of US1695058A publication Critical patent/US1695058A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03CMODULATION
    • H03C1/00Amplitude modulation

Definitions

  • EUGENE PETERSON OF NEW YORK; N. Y., ASSIGNOR TO WESTERN ELECTRIC COM- PANY, INCORPORATED, OF NEW YORK, N. Y., A CORPORATION OF NEW YORK.
  • This invention relates to high frequency signaling and particularly to Wavemodifying systems.
  • the invention relates to a systemin which a high frequency carrier wave is modulated in accordance with currents of'speech frequency, thereby giving to the high frequency oscillations a speech sig" nal wave form, some or all of the products of modulation then being impressed upon the transmission line.
  • a modulating system having a speech amplifier tube, an oscillator tube and if desired a third tube serving as an am I plifier for the side band.
  • the speech ampliing upon the phase relation between the side bands produced in the two tubes.
  • Fig. 1 is a diagrammatic illustration of a carrier transmission system showing the method of coupling the speech amplifier and oscillator tubes to the transmission line when the side bands produced in the two tubes are in phase.
  • Fig. 2 represents a carrier transmission system showing the method of coupling the two tubes when the side bands produced in the tubes are out of phase.
  • Fig. 3 illustrates a modification of tem shown in Fig. 2.
  • amicrophone 1 is included in a circuit 2, such as a telephone the syslinc, in which are produced low frequency 1 signaling waves to be transmitted'by modu lating a high frequency carrier'wave.
  • the low frequency circuit 2 is coupled by means of a transformer 3.to the input circuit of a modulating system including a speech amplifying tube 4, an oscillator tube 5; and an amplifier tube 6 serving as an amplifier for the side band.
  • Plate voltage issupplied to the speech amplifier tube 4 by a source of current 7 through one'winding of a transformer 8. and plate. voltage is supplied to the oscillator tube 5 by a similar source 9 through the other winding of the transformer.
  • the transformer 8 serves to couple the plate circuits for the variation currents so that the speech variations are impressed on the oscillator; and the carrier oscillations are impressed on thespeech amplifier. The purposeand effect of this coupling will be pointedout herein- 5 after.
  • the oscillator may have any desired circuit arrangement for the production of continuous waves tobe modulated.” As shown, the
  • the input circuit of the oscillator tube 5 includes a coil 10 which'is connected between its cath ode and control element.
  • the coil 11 is coupled to the coil 10 and, as indi-.
  • the condenser 12 may be adjusted to vary the period of the tuned circuit and hence the frequency of theoscillations generated.
  • a resistance 13- is included between the oscillator anode and the tuned oscillatory circuit to limit the amplitude of the high frequency waves supplied from-the oscillator output terminals to the" tuned circuit 11, 12 inaccordance with usual practice;
  • the high frequency carrier current generated in the oscillator tube 5 is transmitted tothe' speech amplifier tube 4, and the amplified speech 'currents'are likewise transmitted to the oscillator tube '5. Consequently modulation takes place; in
  • IVhere modulation is produced in each of a plurality of tubes, in accordance with the invention, however, it is necessary to connect the load circuit to the two tubes in such a way that the modulating effect of one tube aids that of the other in producing useful modulation components in the load circuit.
  • the tubes 4 and 5 are connected in parallel with the outgoing circuit, this being the type of connection to be used when the side bands produced by modulation in the tubes 4 and 5 are in phase. Under these conditions the side bands are impressed on the input circuit of the tube 6 in phase addition.
  • the output circuit of the tubes 4 and 5 is connected to the terminals of a potentiometer resistance 14 across which the amplifier tube 6 may be variably connected.
  • the usual blocking condenser 15 is included in circuit with the potentiometer 14 to prevent the fiow of direct current in the grid circuit of the tube 6.
  • the wave resulting from the combination of the side bands produced in the tubes 4 and 5, is amplified in the tube 6 from which the amplified wave is then transmitted to the high frequency line 17 which is inductively coupled to the output of the tube 6 by means of a transformer 16.
  • Fig. 2 a type of circuit is shown for use when the modulating tubes 4 and 5 produce side bands 180 out of phase with each other. Under these conditions, if the output connection described above were to be used, the side band amplitude would be reduced, perhaps to zero.
  • the outgoing or load circuit should be connected in series relation with the modulating tubes instead of in parallel with them.
  • the anode of the speech amplifier tube 1 and the anode of the oscillator tube 5 are connected in series relation with respect to the outgoing line through the induction coil winding 18.
  • Space current is furnished for both tubes by means of the source of current 19 through the choke coil 20 which is desi ned to keep the sum of the space currents of the two tubes constant.
  • the path of the oscillator tube for variation currents is closed through the speech amplifier tube and the path of the speech amplifier tube is likewise closed through the oscillator tube, and consequently, modulation takes place in both tubes.
  • the winding 21 in the input circuit of the amplifier tube 6 is inductively related to the winding 18, and the side bands produced in the tubes 4.- and 5 are combined in an additive sense and are amplified in the tube 6, from which the amplified wave is transmitted to the high frequency line 17, as before.
  • Fig. 3 shows a modification of the system described in connection with F ig. 2 by means of which plate currents of different potentials may be supplied to the tubes 4 and 5.
  • This modification may be substituted for the portion of the system included within the dotted lines of Fig. 2.
  • plate current is supplied to the speech amplifier tube 4 from a source of current 22 through a choke coil 23, and the primary of an induction coil 24.
  • Plate current is supplied to the oscillator tube 5 from a source of current 25 through a choke coil 26 and the primary of a transformer 27.
  • a blocking condenser 28 is provided between the primary windings of transformers 2 1 and 27 to prevent the flow of direct current from either of the sources 22 or 25 through more than one plate circuit.
  • the secondary windings of the transformers 24 and 27 are connected in the input circuit of the amplifier tube 6, in which the combined side bands are amplified before being transmitted to the line.
  • a transmission system comprising a source of low frequency signals, a vacuum tube for amplifying said signals, an oscillator serving as a source of high frequency oscillations, means for modulating said high frequency oscillations in accordance with said low frequency signals in both said amplifying tube and said oscillator, a transmission circuit, means for impressing the side bands produced .by modulation in both of said modulating means upon said circuit in like phase, and a vacuum tube in said transmission circuit for amplifying the side bands impressed thereupon.
  • a modulator comprising a three-element vacuum tube for amplifying signal currents and a three-element oscillator tube for generating a high frequency wave, said tubes having their grid circuits independent of each other, coupling means between the anodes causing modulation to take place in both tubes, and an outgoing circuit cumulatively associated with the anodes of said tubes with respect to the modulated waves.
  • a modulator comprising a speech amplifier tube and an oscillator tube, each having space discharge comprising a speech amplifier tube and an os-- 'cillator tube each having space discharge electrodes, separate sources of space current therefor, means in series with said sources of space current for keeping constant as regards signaling variations the total space current supplied to both of said tubes and for impressing the product of each tube upon the other, whereby modulation takes place in both tubes, an outgoing circuit, and means for impressing modulation components from both of said tubes upon'savid circuit in like phase.
  • a modulator comprising a three-element vacuum tube for amplifying signal currents and a three-element oscillator tube for generating a high frequency Wave, said tubes having their grid circuits independent of each other and their anodes coupled over a path of low impedance to waves of a frequency of said high frequency Wave and the modulation products to permit modulation in both tubes, and an out going circuit associated with the anodes of said tubes in additive phase relation for the modulation products for conveying modulated waves.
  • a signaling system comprising a signal wave'amplifying device of the space discharge type, a high frequency oscillation generating device of the space discharge type, means for impressing a normal space discharge potential on each device independent of the normal impedance of the other, means for impressing the potential variations developed in each device upon the discharge space of the other device, whereby modulation takes place in both devices, an outgoing circuit, and means for impressing modulation components from said amplifying and generating devices upon said circuit in additive phase relation.
  • a signaling system comprising a vacuum tube of the audion type for amplifying signaling currents, an oscillator tube of the audion type for generating a high frequency Wave, a two-winding transformer having one winding in circuit with the anode of said amplifier tube and the other winding in circuit with said oscillator tube, circuit means associated with said transformer and said tubes causing modulation to take place in both tubes, and an outgoing circuit cumulatively.
  • a modulator comprising a speech amplifier tube and an oscillator tube, each having space discharge EUGENE PETERSON,

Landscapes

  • Microwave Amplifiers (AREA)
  • Amplifiers (AREA)

Description

- Dec 11, 1928.
E. PETERSON HIGH FREQUENCY SIGNALING Filed Dec. 15, 1923 Patented Dec. 11, 192 8.
UNITED STATES 1,695,058 PATENT oFF cE. I
EUGENE PETERSON, OF NEW YORK; N. Y., ASSIGNOR TO WESTERN ELECTRIC COM- PANY, INCORPORATED, OF NEW YORK, N. Y., A CORPORATION OF NEW YORK.
HIGH-FREQUENCY SIGNALING.
Application filed December 15, 1923. Serial No. 680,810.
This invention relates to high frequency signaling and particularly to Wavemodifying systems. I
i It is an object of the invention to produce in a novel and effective manner, modulation of high frequency waves by a signal or other control wave, either for transmission or reception.
More specifically the invention relates to a systemin which a high frequency carrier wave is modulated in accordance with currents of'speech frequency, thereby giving to the high frequency oscillations a speech sig" nal wave form, some or all of the products of modulation then being impressed upon the transmission line. i
In accordance with a feature of the invention, a modulating system is employed having a speech amplifier tube, an oscillator tube and if desired a third tube serving as an am I plifier for the side band. The speech ampliing upon the phase relation between the side bands produced in the two tubes.
The various features and advantages of the invention will be apparent from the following description taken in connection with th e accompanying drawing, in which:
Fig. 1 is a diagrammatic illustration of a carrier transmission system showing the method of coupling the speech amplifier and oscillator tubes to the transmission line when the side bands produced in the two tubes are in phase. i I
Fig. 2 represents a carrier transmission system showing the method of coupling the two tubes when the side bands produced in the tubes are out of phase.
Fig. 3 illustrates a modification of tem shown in Fig. 2.
Referring in detail to Fig. l, amicrophone 1 is included ina circuit 2, such as a telephone the syslinc, in which are produced low frequency 1 signaling waves to be transmitted'by modu lating a high frequency carrier'wave. The low frequency circuit 2 is coupled by means of a transformer 3.to the input circuit of a modulating system including a speech amplifying tube 4, an oscillator tube 5; and an amplifier tube 6 serving as an amplifier for the side band. Plate voltage issupplied to the speech amplifier tube 4 by a source of current 7 through one'winding of a transformer 8. and plate. voltage is supplied to the oscillator tube 5 by a similar source 9 through the other winding of the transformer. The transformer 8 serves to couple the plate circuits for the variation currents so that the speech variations are impressed on the oscillator; and the carrier oscillations are impressed on thespeech amplifier. The purposeand effect of this coupling will be pointedout herein- 5 after.
The oscillator may have any desired circuit arrangement for the production of continuous waves tobe modulated." As shown, the
input circuit of the oscillator tube 5 includes a coil 10 which'is connected between its cath ode and control element. The tuned circuit frequency of the oscillations generated. The coil 11 is coupled to the coil 10 and, as indi-.
cated by the arrow the condenser 12 may be adjusted to vary the period of the tuned circuit and hence the frequency of theoscillations generated. A resistance 13-is included between the oscillator anode and the tuned oscillatory circuit to limit the amplitude of the high frequency waves supplied from-the oscillator output terminals to the" tuned circuit 11, 12 inaccordance with usual practice;
As stated. hereinabove; the high frequency carrier current generated in the oscillator tube 5 is transmitted tothe' speech amplifier tube 4, and the amplified speech 'currents'are likewise transmitted to the oscillator tube '5. Consequently modulation takes place; in
the speech amplifier tubeas well as in the oscillator. I I I It has been found'that where modulation results; as in the-present case, from'op'erating over the non-linear portion of thevolt-am- I pcre tubecharacteristic, the modulation components from two tubesassociated "according to the invention will be e ther in phase agree- 7O ofthe speech amplifiera'nd oscillator tubes i ment or in phase opposition. Heretofore in coupled-plate-circuit modulating systems in which the modulating action has been con fined to one tube, it has only been necessary to couple the load circuit to one tube. IVhere modulation is produced in each of a plurality of tubes, in accordance with the invention, however, it is necessary to connect the load circuit to the two tubes in such a way that the modulating effect of one tube aids that of the other in producing useful modulation components in the load circuit.
In Fig. 1, the tubes 4 and 5 are connected in parallel with the outgoing circuit, this being the type of connection to be used when the side bands produced by modulation in the tubes 4 and 5 are in phase. Under these conditions the side bands are impressed on the input circuit of the tube 6 in phase addition. The output circuit of the tubes 4 and 5 is connected to the terminals of a potentiometer resistance 14 across which the amplifier tube 6 may be variably connected. The usual blocking condenser 15 is included in circuit with the potentiometer 14 to prevent the fiow of direct current in the grid circuit of the tube 6. The wave resulting from the combination of the side bands produced in the tubes 4 and 5, is amplified in the tube 6 from which the amplified wave is then transmitted to the high frequency line 17 which is inductively coupled to the output of the tube 6 by means of a transformer 16.
In Fig. 2 a type of circuit is shown for use when the modulating tubes 4 and 5 produce side bands 180 out of phase with each other. Under these conditions, if the output connection described above were to be used, the side band amplitude would be reduced, perhaps to zero. In order to make the side bands produced by the two modulating tubes additive in eifect, the outgoing or load circuit should be connected in series relation with the modulating tubes instead of in parallel with them. In the arrangement shown, the anode of the speech amplifier tube 1 and the anode of the oscillator tube 5 are connected in series relation with respect to the outgoing line through the induction coil winding 18. Space current is furnished for both tubes by means of the source of current 19 through the choke coil 20 which is desi ned to keep the sum of the space currents of the two tubes constant. As in the case of the system described in connection with Fig. l, the path of the oscillator tube for variation currents is closed through the speech amplifier tube and the path of the speech amplifier tube is likewise closed through the oscillator tube, and consequently, modulation takes place in both tubes. The winding 21 in the input circuit of the amplifier tube 6 is inductively related to the winding 18, and the side bands produced in the tubes 4.- and 5 are combined in an additive sense and are amplified in the tube 6, from which the amplified wave is transmitted to the high frequency line 17, as before.
Fig. 3 shows a modification of the system described in connection with F ig. 2 by means of which plate currents of different potentials may be supplied to the tubes 4 and 5. This modification may be substituted for the portion of the system included within the dotted lines of Fig. 2. In this case, plate current is supplied to the speech amplifier tube 4 from a source of current 22 through a choke coil 23, and the primary of an induction coil 24. Plate current is supplied to the oscillator tube 5 from a source of current 25 through a choke coil 26 and the primary of a transformer 27. A blocking condenser 28 is provided between the primary windings of transformers 2 1 and 27 to prevent the flow of direct current from either of the sources 22 or 25 through more than one plate circuit. The secondary windings of the transformers 24 and 27 are connected in the input circuit of the amplifier tube 6, in which the combined side bands are amplified before being transmitted to the line.
lVhile for the purpose of illustration, the invention has been described in connection with a carrier signaling system, it will be understood that it is equally applicable to radio signaling systems.
The invention may also be embodied in forms other than those herein shown and described without departing in any way from the spirit of the invention, the scope of which is defined in the appended claims.
lVhat is claimed is 1. A transmission system comprising a source of low frequency signals, a vacuum tube for amplifying said signals, an oscillator serving as a source of high frequency oscillations, means for modulating said high frequency oscillations in accordance with said low frequency signals in both said amplifying tube and said oscillator, a transmission circuit, means for impressing the side bands produced .by modulation in both of said modulating means upon said circuit in like phase, and a vacuum tube in said transmission circuit for amplifying the side bands impressed thereupon.
2. In a transmission system, a modulator comprising a three-element vacuum tube for amplifying signal currents and a three-element oscillator tube for generating a high frequency wave, said tubes having their grid circuits independent of each other, coupling means between the anodes causing modulation to take place in both tubes, and an outgoing circuit cumulatively associated with the anodes of said tubes with respect to the modulated waves.
3. In a transmission system, a modulator comprising a speech amplifier tube and an oscillator tube, each having space discharge comprising a speech amplifier tube and an os-- 'cillator tube each having space discharge electrodes, separate sources of space current therefor, means in series with said sources of space current for keeping constant as regards signaling variations the total space current supplied to both of said tubes and for impressing the product of each tube upon the other, whereby modulation takes place in both tubes, an outgoing circuit, and means for impressing modulation components from both of said tubes upon'savid circuit in like phase.
Ina signaling system, a modulator comprising a three-element vacuum tube for amplifying signal currents and a three-element oscillator tube for generating a high frequency Wave, said tubes having their grid circuits independent of each other and their anodes coupled over a path of low impedance to waves of a frequency of said high frequency Wave and the modulation products to permit modulation in both tubes, and an out going circuit associated with the anodes of said tubes in additive phase relation for the modulation products for conveying modulated waves. 7, r
6. A signaling system comprising a signal wave'amplifying device of the space discharge type, a high frequency oscillation generating device of the space discharge type, means for impressing a normal space discharge potential on each device independent of the normal impedance of the other, means for impressing the potential variations developed in each device upon the discharge space of the other device, whereby modulation takes place in both devices, an outgoing circuit, and means for impressing modulation components from said amplifying and generating devices upon said circuit in additive phase relation.
7 A signaling system comprising a vacuum tube of the audion type for amplifying signaling currents, an oscillator tube of the audion type for generating a high frequency Wave, a two-winding transformer having one winding in circuit with the anode of said amplifier tube and the other winding in circuit with said oscillator tube, circuit means associated with said transformer and said tubes causing modulation to take place in both tubes, and an outgoing circuit cumulatively.
associated with" the anodes of said tubes with respect to the modulated waves.
8. In a signaling system, a modulator comprising a speech amplifier tube and an oscillator tube, each having space discharge EUGENE PETERSON,
electrodes, separate sources of space current therefor, a transformer havmg one wmding
US680810A 1923-12-15 1923-12-15 High-frequency signaling Expired - Lifetime US1695058A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US680810A US1695058A (en) 1923-12-15 1923-12-15 High-frequency signaling

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US680810A US1695058A (en) 1923-12-15 1923-12-15 High-frequency signaling

Publications (1)

Publication Number Publication Date
US1695058A true US1695058A (en) 1928-12-11

Family

ID=24732605

Family Applications (1)

Application Number Title Priority Date Filing Date
US680810A Expired - Lifetime US1695058A (en) 1923-12-15 1923-12-15 High-frequency signaling

Country Status (1)

Country Link
US (1) US1695058A (en)

Similar Documents

Publication Publication Date Title
US2218524A (en) Frequency modulation system
US2077223A (en) Modulation system
US2033231A (en) Modulation system
US2131109A (en) Radio telegraph receiving system
US2003285A (en) Signaling
US1695058A (en) High-frequency signaling
GB448043A (en) Improvements in or relating to carrier wave signalling systems
US1917102A (en) Frequency modulation
US2282103A (en) Frequency modulation
US1847190A (en) Electric wave signaling system
US2104318A (en) Multiple phase modulation
US2023222A (en) Ringing circuit for radio
US1744836A (en) Carrier-amplitude control in radio systems
US2034899A (en) Modulated transmitter
US2283793A (en) High frequency modulated radio signal transmitter
US2120800A (en) Transmitter
US1517058A (en) Ing co
US1768418A (en) Space discharge system
US1584327A (en) Electric-wave transmission system
US2050067A (en) Phase modulation
US2001107A (en) Phase modulating system
US1654902A (en) Modulating system
US1622001A (en) Circuit arrangement for generating electrical oscillations
US1396786A (en) System for transmission of intelligence
US2288275A (en) Modulating system