US1626480A - Amplifying system - Google Patents

Amplifying system Download PDF

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US1626480A
US1626480A US748874A US74887424A US1626480A US 1626480 A US1626480 A US 1626480A US 748874 A US748874 A US 748874A US 74887424 A US74887424 A US 74887424A US 1626480 A US1626480 A US 1626480A
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circuit
plate
potential
grid
conducting
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US748874A
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Lucius J Perkins
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General Electric Co
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General Electric Co
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    • 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
    • H04L27/08Amplitude regulation arrangements

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  • My present invention relates to an apparatus for amplifying comparatively feeble electrical variations and rendering such variations capable of controlling the operation of any desired form of electro-responsive apparatus for producing an indication of the received signals or serving other desired functions.
  • Such an apparatus has been disclosed broadly and claimed in my copending application Serial No. 716,521, filed May 28, 1924.
  • the object of my invention is to provide an apparatus which will be positive in its operation and capable of producing a high degree of amplification of signaling currents impressed thereon whereby comparatively weak signaling impulses will be capable of producing a positive action of some desired form of electro-responsive apparatus.
  • amplifying device 1 having input and output circuits.
  • This device is shown as of the conventional three-electrode thermionic type although other forms of amplifying device may be employed in carrying my invention into effect.
  • the grid or input circuit of device 1 includes the usual tuned input 2 and the secondary 3 of a transformer 4, whereby an alternating biasing potential may be impressed upon the grid.
  • the output' or late circuit of device 1 may be supplied rom r any convenient source. In the present case I have shown in the output circuit the secondary winding 5 of atransformer 6, where'- by an alternating potential is impressed upon the plate or output circuit.
  • the outputcircuit also includes the rectifying device 7 having an anode 8 connected through the windings of a relay 9 to the cathode 10 of the device 1, and a cathode 11 connected through a feed-back coil 12 to the anode 13' of device 1.
  • the device 7 is preferably of the type which is non-conducting until the potential impressed at its terminals exceeds a predetermined value.
  • One suitable form of device which may be used for this purpose comprises two dissimilar electrodes enclosed in a r'eoeptacle which is filled with a suitable gas such as neon or other inert gas at a defi nite pressure. It is possible by choice of the particular gas and the pressure of the gas to so construct such a device that a discharge will take place between the electrodes whenever the potential thereto exceeds a certain definite value.
  • the device 7 is shunted by high resistance 14.
  • the windings of the relay 9 are preferably shunted by a by-pass condenser 15 and the contacts 16 of this relay may be used to close any desired circuit for producing an indication or performing other desired functions.
  • Current for the operation of the cathode 10 of the device 1 may be supplied by a secondary winding 17 of the transformer 6.
  • the biasing potential of the grid is also supplied by another secondary winding 18 of the transformer 6, the value of the biasing potential being regulated by the variable resistance 19.
  • the signaling potential which is to be amplified is impressed upon the input circuit from the primary winding 20.
  • the circuit including the winding 20 may, if desired, be tuned to the frequency of the impulses to be amplified by means of a tuning condenser 21.
  • Transformer windings 3 and 5 are preferably shunt-ed by the by-pass condensers 22 for by-passing the high frequency components of the currents flowing in the input and output circuits.
  • the circuits are so adjusted that the potential drop across resistance 14, due to the normal current in the plate circuit, is of a value slightly below that requiredcto cause the device 7 to become conducting.
  • the use of an alternating potential in the plate circuit is preferable because of the fact that the on and off potentials of the device 7, such as that described, are substantially the same with alternating current, whereas with direct current the potential at which the device ceases to be conducting after it once becomes conducting is usually somewhat less than the potential required to render the device conducting.
  • a comparatively weak signaling impulse im-c pressed upon the grid circuit is capable of increasing the potential drop across the resistance 14 to such a value that device 7 will become conducting.
  • the windings of relay 9 will then be energized and contacts closed at 16.
  • rectifying device 7 it is possible to employ a direct current type of circuit closing relay.
  • the biasing potential applied to the rid of device 1 is preferably 180 out of p ase with the potential applied to the plate circuit. This arrangement compensates to some extent for changes in the plate current due to the use of an alternating current source of potential.
  • the regenerative coil 12 is ineifective in amplifying the low frequency current supplied by the transformer 6, but as soon as the high frequency signaling impulse is impressed upon the system the feed-back coil 1:2 comes into play and the amplification produced by the system is increased by reason of this feed-back.

Description

April 26,1927.
- 1,626,480 L. J. PERKINS AMPLIFYING SYSTEM Filed Nov. 10, 1924 I n 7 z r s8 20 i T Inventor: Lucius J. Perkins; b8 -0 4.
His Annorneg.
Patented Apr. 26, 1927.
UNITED STATES LUCIUS J. PERKINS, LOS ANGELES, CALIFORNIA, ASSIGNOR TO GENERAL ELECTRIC 1,626,480 PATENT OFFICE.
COMPAE'Y, A CORPORATION OF NEW YORK.
AMPLIFYING SYSTEM.
Application filed November 10, 1924. Serial No. 748,874.
My present invention relates to an apparatus for amplifying comparatively feeble electrical variations and rendering such variations capable of controlling the operation of any desired form of electro-responsive apparatus for producing an indication of the received signals or serving other desired functions. Such an apparatus has been disclosed broadly and claimed in my copending application Serial No. 716,521, filed May 28, 1924.
The object of my invention is to provide an apparatus which will be positive in its operation and capable of producing a high degree of amplification of signaling currents impressed thereon whereby comparatively weak signaling impulses will be capable of producing a positive action of some desired form of electro-responsive apparatus.
The novel features which I believe to be characteristic of my invention are set forth with particularity in the appended claims. My invention itself, however, both as to its organization and method of operation will best be understood by reference to the following description taken in connection with the accompanying drawing in which I have indicated diagrammatically a circuit organization which may be employed in carrying my invention into effect.
I have indicated in the drawing an amplifying device 1 having input and output circuits. This device is shown as of the conventional three-electrode thermionic type although other forms of amplifying device may be employed in carrying my invention into effect.
The grid or input circuit of device 1 includes the usual tuned input 2 and the secondary 3 of a transformer 4, whereby an alternating biasing potential may be impressed upon the grid. The output' or late circuit of device 1 may be supplied rom r any convenient source. In the present case I have shown in the output circuit the secondary winding 5 of atransformer 6, where'- by an alternating potential is impressed upon the plate or output circuit. The outputcircuit also includes the rectifying device 7 having an anode 8 connected through the windings of a relay 9 to the cathode 10 of the device 1, and a cathode 11 connected through a feed-back coil 12 to the anode 13' of device 1. The device 7 is preferably of the type which is non-conducting until the potential impressed at its terminals exceeds a predetermined value. One suitable form of device which may be used for this purpose comprises two dissimilar electrodes enclosed in a r'eoeptacle which is filled with a suitable gas such as neon or other inert gas at a defi nite pressure. It is possible by choice of the particular gas and the pressure of the gas to so construct such a device that a discharge will take place between the electrodes whenever the potential thereto exceeds a certain definite value. The device 7 is shunted by high resistance 14. The windings of the relay 9 are preferably shunted by a by-pass condenser 15 and the contacts 16 of this relay may be used to close any desired circuit for producing an indication or performing other desired functions. Current for the operation of the cathode 10 of the device 1 may be supplied by a secondary winding 17 of the transformer 6. The biasing potential of the grid is also supplied by another secondary winding 18 of the transformer 6, the value of the biasing potential being regulated by the variable resistance 19. The signaling potential which is to be amplified is impressed upon the input circuit from the primary winding 20. The circuit including the winding 20 may, if desired, be tuned to the frequency of the impulses to be amplified by means of a tuning condenser 21. Transformer windings 3 and 5 are preferably shunt-ed by the by-pass condensers 22 for by-passing the high frequency components of the currents flowing in the input and output circuits.
In the operation of the system the circuits are so adjusted that the potential drop across resistance 14, due to the normal current in the plate circuit, is of a value slightly below that requiredcto cause the device 7 to become conducting. The use of an alternating potential in the plate circuit is preferable because of the fact that the on and off potentials of the device 7, such as that described, are substantially the same with alternating current, whereas with direct current the potential at which the device ceases to be conducting after it once becomes conducting is usually somewhat less than the potential required to render the device conducting. I 7 When a high frequency signaling impulse is impressed upon the input circuit the plate current is increased and hence the drop in potential across resistance 14 is increased. A comparatively weak signaling impulse im-c pressed upon the grid circuit is capable of increasing the potential drop across the resistance 14 to such a value that device 7 will become conducting. The windings of relay 9 will then be energized and contacts closed at 16. By the use of rectifying device 7 it is possible to employ a direct current type of circuit closing relay.
The biasing potential applied to the rid of device 1 is preferably 180 out of p ase with the potential applied to the plate circuit. This arrangement compensates to some extent for changes in the plate current due to the use of an alternating current source of potential. The regenerative coil 12 is ineifective in amplifying the low frequency current supplied by the transformer 6, but as soon as the high frequency signaling impulse is impressed upon the system the feed-back coil 1:2 comes into play and the amplification produced by the system is increased by reason of this feed-back.
While I have shown and described only a single embodiment of my invention, it will be apparent that many modifications in the form and connections used in the a paratus may be made without departing rom the scope of my invention as set forth in the appended claims.
What I claim as new and desire to secure by Letters Patent of the United States is 1. The combination in an amplifying system of a three-electrode electron discharge,
device having plate and grid circuits, means for supplying an alternating potential to both of said circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage supplied thereto exceeds a predetermined value, and means for automatically varying said voltage to render the rectifier conducting.
2. The combination in an amplifying system of a three-electrode electron discharge device having plate and grid circuits, means for supplying an alternating potential to the plate circuit, means for supplying to the grid circuit an alternating potential which is out of phase with the potential supplied to the plate circuit, and a rectifying device included in the plate circuit which is nonconducting until the voltage applied thereto exceeds a predetermined value.
3. The combination in an amplifyin system of a three-electrode electron disc arge device having plate and grid circuits, means for supplying an alternating otential to the plate circuit, meansfor supp yin to the grid circuit an alternating potentia whose phase is displaced 180 from that of the potential supplied to the plate circuit, and a rectifying device included in the plate circuit which is non-conducting until the voltage applied thereto exceeds a predetermined value.
4. The combination in an amplifyin system of a three-electrode electron disc arge device having plate and grid circuits, means for supplying an alternating potential to both of said circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage applied thereto exceeds a predetermined value, and a circuit closing relay in series. with said device.
5. The combination in an amplifying system of a three-electrode electron discharge device having plate and grid circuits, means for suppl ing an alternating potential to both ofsaid circuits, and a rectifying device included'in the plate circuit which is nonconducting until the voltage applied thereto exceeds a predetermined value, said rectifying device being shunted by a high resistance.
6. The combination in an amplifying sys tem of a three-electrode electron discharge device having plate and grid circuits, means for supplying an alternating potential to both of said circuits, a rectifying device included in the plate circuit which is nonconducting until the voltage applied thereto exceeds a predetermined value, and a circuit closin relay in series with said device, said .recti ying device being shunted by a high resistance.
7. The combination in an amplifyin system of a three-electrode electron disc arge device having plate and gridcircuits, means for supplying alternating potential to both of said circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage applied thereto exceeds a predetermined value, means for supplying a signaling current to the grid circuit, and a circuit closing relay in series with said rectifying device and which is responsive to the signaling current supplied to the grid circuit.
8. The combination in an amplifying system of a three-electrode electron discharge device having plate and grid circuits, means for supplying alternating potentials to both of said circuits, a rectifying device associated with the plate circuit which is nonconducting until the voltage applied thereto exceeds a predetermined value, and means for supplying signaling currents to the grid circuit, the system being so adjusted that when a signa ing current is supplied to the grid circuit the rectifying device will be rendered conducting.
9. The combination in an amplifyin sys-' tem of a three-electrode electron disc arge device having plate and grid circuits, at rectifying device associated with the plate circuit which is non-conducting until the voltage applied thereto exceeds a predetermined value, means for supplyin to the plate circuit an alternating potentia of such value that said rectifying device is normally non-conducting, and means for supplying a signaling current to the-grid circuit, the system being so adjusted that the rectifying device will be rendered conducting by the application of signaling current to the grid circuit.
10. The combination in an amplifying system of an electron discharge device having plate and grid circuits, a rectifying device associated with the plate circuit which is non-conducting until the volta e applied thereto exceeds a predetermined high resistance in shunt to said discharge device, means for supplying to the plate cir cuit an alternating potential of such value that the, potential normally applied therefrom to the rectifying device is slightly below that required to render it conducting, and means for supplying a signaling current to the grid circuit.
11. The combination in an amplifying system of an amplifying device having input and output circuits, a rectifying device associated with the output circuit which is non-conducting until the voltage supplied thereto exceeds a predetermined value, and means for supplying a signaling impulse to said input circuit and thereby rendering the rectifier conducting.
12. The combination in an amplifying system of an amplifying device having input and output circuits, a rectifying device included in the output circuit which is n0nconducting until the volta e supplied thereto [exceeds a predetermine value, means for supplying to said device from theout ut circuit a potential of a value slightly be ow that required to-render it conducting, and means for automatically increasing said potential.
13'. The combination in an amplifying system of an amplifying device having input and output circuits, a rectifying device included in the output circuit which is nonconducting until the voltage supplied thereto exceeds a predetermined value, means for supplying to said device from the output circuit a potential of a value slightly below that required to render it conducting, and means for supplying a signaling current to the input circuit and thereby increasing the potential supplied to the rectifying device to a value high enough to render it conducting.
14. The combination in an amplifying system of a three-electrode'electron discharge device having plate and grid circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage Supplied. thereto exceeds a predetermined charge device having plate and value, a
value, and means for supplying a si aling impulse to the grid circuit and there y rendering the rectifying device conducting.
15. The combination in an amplifying system of a three-electrode electron disid circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage supplied thereto exceeds a predetermined value, an electro-responsive device connected in the plate circuit and in series with said rectifying device, and means for supplying a signaling impulse to the grid circuit andthereby rendering the rectlfying device conducting.
16. The combination in an amplifying system of a three-electrode electron discharge device having plate and grid circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage supplied thereto exceeds a predetermined value, means for supplying a signaling current to the grid circuit, and an electro-re sponsive device connected in the plate circuit and in series with said rectifying device, said rectifier being responsive to signaling current supplied to the grid circuit.
17 .'The combination in an amplifying system ofa three-electrode electron discharge device having plate and grid circuits, a rectifyin device associated wlth the plate circuit which isv non-conducting until the voltage supplied thereto exceeds a predetermned value, means for suppl ingto the device a potential of a value slightly below that at which it is rendered conducting, and means for supplying a signaling current to the grid circuit, the system being so adjusted that the rectifying device will be rendered conducting by the application of signaling current to the grid circuit.
18. The combination in an amplifying system of a three-electrode electron discharge device having plate and grid circuits, means for supplying an alternating potential to both of said circuits, a rectifying device included in the plate circuit which is non-conducting until the voltage supplied thereto exceeds a predetermined value, said device comprising a pair of separated electrodes surrounded by an attenuated gaseous medium, and means for supplylng a signaling impulse to the grid circuit and thereby.
LUCIUS J PERKINS.
US748874A 1924-11-10 1924-11-10 Amplifying system Expired - Lifetime US1626480A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3098180A (en) * 1960-03-10 1963-07-16 Gen Electric Remote control for microwave system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3098180A (en) * 1960-03-10 1963-07-16 Gen Electric Remote control for microwave system

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