US1629001A - Oscillation generator - Google Patents

Oscillation generator Download PDF

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Publication number
US1629001A
US1629001A US663409A US66340923A US1629001A US 1629001 A US1629001 A US 1629001A US 663409 A US663409 A US 663409A US 66340923 A US66340923 A US 66340923A US 1629001 A US1629001 A US 1629001A
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anode
frequency
tubes
cathode
tube
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US663409A
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John C Schelleng
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AT&T Corp
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Western Electric Co Inc
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Priority to US663409A priority Critical patent/US1629001A/en
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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
    • H03B5/00Generation of oscillations using amplifier with regenerative feedback from output to input
    • H03B5/08Generation of oscillations using amplifier with regenerative feedback from output to input with frequency-determining element comprising lumped inductance and capacitance
    • H03B5/10Generation of oscillations using amplifier with regenerative feedback from output to input with frequency-determining element comprising lumped inductance and capacitance active element in amplifier being vacuum tube

Definitions

  • Theprcsent invention relates to self-rectifying discharge tube oscillators.
  • An object of the invention is to reduce the voltage required of the power transformer.
  • a further object is to simplify the circuit in an oscillating" system of the. type cmploying a separate discharge tube for each halfcycle of the power current.
  • the example chosen for illustratingthe principlesof the invention employs a smnce of single phase alternating current for thipower supply. It willbe obvious to extend the circuit to any number of phases of power supply and to a correspondingly large nulm ber of tubes.
  • the single phase alternating currentpower source is indicated at 1. This mayhave any desired frequency such as 25 or 60 cycles per second, but in a radio transmitting system it is usual to employ a .500 cycle power source or one of evei i higher frequency.
  • This source supplies the vver transformer 4 of which the secondary iiiisits opposite terminals connected to the anodes of the respective discharge tubes andfit-hrough the choke coils 7 and 8.
  • These choke coils are of the proper inductance to block the passage of currents of the frequency generated by the tubes, but to permit the currents fromthe source tfto pass readily to the anodes.
  • the terminal of transformer 4 connected to the anode of tube 6 is also connected to the filament of tube 5 by virtue of its connection to the, mid-point of the secondary of transformer 9.
  • the opposite terminal of the secondary of power transformer 4 is similarly connected to the filament of tube 6 through the two halves of secondary of transformer 10.
  • the halves of the secondsries of transformers 9 and 10 are shunted by condensers in the manner and for the bridging the secondaries oftraosfomners 4,
  • the oscillatory circuit in which the high '7 frequency waves are produced comprises in ductance l2 and condenser 13. eitheror both of which may be variable inorder to control the frequency of the generated waves.
  • This circuit may be coupled to any desired load as, for example, by conneotmgacross the condenser. or by coupling a coil inductively to the coil .12, or in any other suitable manner.
  • the circuit 12. 13 may also be the load itself, as for cxinnple an antenna. with a loading coil, 13 being then the antenna-toe earth capacity.
  • Condensers l4. 15 are inserted between the anodes of the tubes 5 and/6 and a point in the inductance l2.
  • Condensers 16. 1'1 similarly connect the respective grids to n. dif ferent point on inductance 12.
  • Eacblof thine condensers is small, but is of sufliciently large capacity to otter wary low importance to the passage of the high frequency cnrrentsnmi to have negligible effect on the tuning.v
  • These condensers have very high impedance for currents of the fncquency oft-hepower source, so that the power currents are 'efl'ectirely prevented from passing-directly from the electrodes of one tube .to the electrodes of the other.
  • Each tube is provided with'an inductive. grid leak, that for tube 5 consisting of an inductance 1.8 in series with a resistance 19.
  • the tubes 5 and 6 might be of any power rating and in the case of large power tubes they would preferably have provision for cooling the anodes by circulating some cooling fluid around or through them in a. manner well understood in the art.
  • the filaments are heated by current from sources 2 and 3, applied through the transformers 10 and 9, respectively.
  • Generators 1, 2 and 3, which are indicated in conventit) tional manner as separate sources, might in practice be a single source.
  • a key may be inserted at any suitable point in the circuit. such as in the lead of source 1, as illustrated.
  • an oscillation generatin system a pair of electric discharge tubes each having a cathode and an anode, an oscillatory circuit common to said tubes, a source of alternating current voltage for said tubes, coir nections for applying the entire voltage. of said source across the anode and cathode of each tube in opposite sense, a connection from the cathodes in common to said oscillatory circuit, a connection from the anodes in common tosaid oscillatory circuit, and means for preventing the flow of current of the frequency of said source from one cathode to the other or from one anode to the other while permitting current oi the frequency generated to pass readily between either cathode or either anode and the oscillatory circuit.
  • a pair of electric discharge tubes each having an anode and a cathode, a source of alternating current power for said tubes, an oscil latory circuit determining the frequency of the oscillations generated, a connection from one terminal of the power source to the anode of one tube and the cathode of the other,
  • connections for supplying currents f the frequency of the oscillations to be generated between each cathode and anode and the oscillatory circuit each including means offering high impedance to currents of the frequency of the power source.
  • an -illation circuit determining the frequency or the. oscillations generatetha pair of elec illt' discharge tubes each having an anode and a cathode, a source of alternating current power supply ha ving one pole connected to the cathode of one tube and to the anode of the other tube and the opposite pole conttccted to the ren'iaining cathode and anode, a connection for supplying generated oscillations from each anode to the oscillation circuit, and capacity in each connection for ireely permitting passage of currents of the frequency of the oscillations generated and preventing passage between the anodes of currents of the frequency of the power supply.

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Description

- 1,629,001 y 1927' J. c. SCHELLENG OSCILLA'I'ION GENERATOR Filed Sept. 18. 1923 11 II N ll MWMW- //7 ven for:
Jahn C. Sc/vefleng l-fi Patented May 17, 1927.
UNITED STATES PATENT OFFICE.
JOHN C. QCHELLENG, OF EAST ORANGE, NEW JERSEY, ASSIGNOR TO WESTERN ELEC- TRIO COMPANY, INCORPORATED, OF NEW YORK, N. Y., A CORPORATION OF NEW roux.
OSCILLATION GENERATOR.
Application filed September 18, 1923. Serial No. 683,409.
Theprcsent invention relates to self-rectifying discharge tube oscillators.
An object of the invention is to reduce the voltage required of the power transformer.
A further object is to simplify the circuit in an oscillating" system of the. type cmploying a separate discharge tube for each halfcycle of the power current.
,Furtherobjects and the various features of. the invention will appear from the following description in connection with the accompanying drawing. which is a schema! u- Circuit diagran'i of one form which the in vention may take.
The example chosen for illustratingthe principlesof the invention employs a smnce of single phase alternating current for thipower supply. It willbe obvious to extend the circuit to any number of phases of power supply and to a correspondingly large nulm ber of tubes. In the case of single phase power supply, as illustrated, the power transformerconiprises but one primary and one secondary winding and the manner of connecting the tubes IS such that the full voltage developed in the secondary winding is impressed on ouch oscillator tube but oppo sitely inphase.
In the drawing; the single phase alternating currentpower source is indicated at 1. This mayhave any desired frequency such as 25 or 60 cycles per second, but in a radio transmitting system it is usual to employ a .500 cycle power source or one of evei i higher frequency. This source supplies the vver transformer 4 of which the secondary iiiisits opposite terminals connected to the anodes of the respective discharge tubes andfit-hrough the choke coils 7 and 8. These choke coils are of the proper inductance to block the passage of currents of the frequency generated by the tubes, but to permit the currents fromthe source tfto pass readily to the anodes.
The terminal of transformer 4 connected to the anode of tube 6 is also connected to the filament of tube 5 by virtue of its connection to the, mid-point of the secondary of transformer 9. The opposite terminal of the secondary of power transformer 4 is similarly connected to the filament of tube 6 through the two halves of secondary of transformer 10. The halves of the secondsries of transformers 9 and 10 are shunted by condensers in the manner and for the bridging the secondaries oftraosfomners 4,
9 and it) are of very low impedance at the high frequency.
The oscillatory circuit in which the high '7 frequency waves are produced comprises in ductance l2 and condenser 13. eitheror both of which may be variable inorder to control the frequency of the generated waves. This circuit may be coupled to any desired load as, for example, by conneotmgacross the condenser. or by coupling a coil inductively to the coil .12, or in any other suitable manner. The circuit 12. 13 may also be the load itself, as for cxinnple an antenna. with a loading coil, 13 being then the antenna-toe earth capacity. i I
Condensers l4. 15 are inserted between the anodes of the tubes 5 and/6 and a point in the inductance l2. Condensers 16. 1'1 similarly connect the respective grids to n. dif ferent point on inductance 12. Eacblof thine condensers is small, but is of sufliciently large capacity to otter wary low importance to the passage of the high frequency cnrrentsnmi to have negligible effect on the tuning.v These condensers have very high impedance for currents of the fncquency oft-hepower source, so that the power currents are 'efl'ectirely prevented from passing-directly from the electrodes of one tube .to the electrodes of the other. Each tube is provided with'an inductive. grid leak, that for tube 5 consisting of an inductance 1.8 in series with a resistance 19. In practice the tubes 5 and 6 might be of any power rating and in the case of large power tubes they would preferably have provision for cooling the anodes by circulating some cooling fluid around or through them in a. manner well understood in the art. The filaments are heated by current from sources 2 and 3, applied through the transformers 10 and 9, respectively. Generators 1, 2 and 3, which are indicated in conventit) tional manner as separate sources, might in practice be a single source.
The operation of the circuit will be clear from the description of the elements that have already been given. During the half cycle when a particular one of the anodes is positive with respect to its filament the entire voltage developed between the secondary terminals of power transformer 4 is impressed on that tube and the resulting oscillations are supplied to circuit 12, 13 and the load. During the next half cycle the entire secondary voltage is applied to the anode and cathode of the other tube and that tube in turn is active in producing oscillations.
For signaling purposes a key may be inserted at any suitable point in the circuit. such as in the lead of source 1, as illustrated.
The system that has been diagramn'iatically illustrated and described in detail is to be taken by way of example only and not as limiting the invention. the scope of which is defined in the claims.
What is claimed is:
1. In an oscillation generatin; system a pair of electric discharge tubes each having a cathode and an anode, an oscillatory circuit common to said tubes, a source of alternating current voltage for said tubes, coir nections for applying the entire voltage. of said source across the anode and cathode of each tube in opposite sense, a connection from the cathodes in common to said oscillatory circuit, a connection from the anodes in common tosaid oscillatory circuit, and means for preventing the flow of current of the frequency of said source from one cathode to the other or from one anode to the other while permitting current oi the frequency generated to pass readily between either cathode or either anode and the oscillatory circuit.
2. In an oscillation generating system, a pair of electric discharge tubes'each having an anode and a cathode, a power source of alternating voltage common to said tubes, said source ha ving one terminal connected to the anode of one of the tubes and to the cathode of the other and having its other terminal connected to the remaining anode and cathode, an oscillatory circuit common to the tubes, means to supply to the oscillatory circuit from both tubes currents of frequencies high compared to the frequency of the alternating voltage of said power source, means connected between each anode and the oscillatory circuit and between each cathode and the oscillatory circuit for free ly passing currents of the high frequency but offering high impedance to the passage of currents of the frequency of the power source, and other means connected between the power source and each anode for preventing passage of currents of the high frequency while freely passing currents of the frequency of the power source.
3. in an oscillation generating system, a pair of electric discharge tubes each having an anode and a cathode, a source of alternating current power for said tubes, an oscil latory circuit determining the frequency of the oscillations generated, a connection from one terminal of the power source to the anode of one tube and the cathode of the other,
a comtection from the opposite terminal of the power source to the remaining anode and itlil'ifitlu, connections for supplying currents f the frequency of the oscillations to be generated between each cathode and anode and the oscillatory circuit, said connections each including means offering high impedance to currents of the frequency of the power source.
t. in an oscillation generating system, an -illation circuit determining the frequency or the. oscillations generatetha pair of elec illt' discharge tubes each having an anode and a cathode, a source of alternating current power supply ha ving one pole connected to the cathode of one tube and to the anode of the other tube and the opposite pole conttccted to the ren'iaining cathode and anode, a connection for supplying generated oscillations from each anode to the oscillation circuit, and capacity in each connection for ireely permitting passage of currents of the frequency of the oscillations generated and preventing passage between the anodes of currents of the frequency of the power supply.
In witness whereof, T hereunto subscribe my name this 5th day of September, A. D. 1923.
JOHN C. SCHELLENG.
US663409A 1923-09-18 1923-09-18 Oscillation generator Expired - Lifetime US1629001A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2531313A (en) * 1944-06-22 1950-11-21 Honeywell Regulator Co Oscillator and oscillator-controlled relay system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2531313A (en) * 1944-06-22 1950-11-21 Honeywell Regulator Co Oscillator and oscillator-controlled relay system

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