US2038683A - Pulsating direct current generator - Google Patents
Pulsating direct current generator Download PDFInfo
- Publication number
- US2038683A US2038683A US632225A US63222532A US2038683A US 2038683 A US2038683 A US 2038683A US 632225 A US632225 A US 632225A US 63222532 A US63222532 A US 63222532A US 2038683 A US2038683 A US 2038683A
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- Prior art keywords
- tube
- grid
- potential
- direct current
- pulsating direct
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- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K3/00—Circuits for generating electric pulses; Monostable, bistable or multistable circuits
- H03K3/02—Generators characterised by the type of circuit or by the means used for producing pulses
- H03K3/53—Generators characterised by the type of circuit or by the means used for producing pulses by the use of an energy-accumulating element discharged through the load by a switching device controlled by an external signal and not incorporating positive feedback
- H03K3/55—Generators characterised by the type of circuit or by the means used for producing pulses by the use of an energy-accumulating element discharged through the load by a switching device controlled by an external signal and not incorporating positive feedback the switching device being a gas-filled tube having a control electrode
Definitions
- This invention relates to electrical circuits and morerparticularly to a device for producing a pulsating direct current. More specifically, this invention relates to the application of a gas- 5 filled tube and associated equipment for the pro duction of the aforementioned pulsating direct current.
- a pulsating direct current is employed.
- the pulsating direct current mentioned above is generally obtained by means of mechanical interrupters or commutator devices which periodically open a source .of direct current. These mechanical methods of obtaining therequired current are subject to wear and require considerable maintenance of the moving parts in order to assure dependable operation.
- One of the objects of this invention is to devise a means of producing such signals as have been herein mentioned through the use of a gas-filled tube of the proper design containing some suitable gas such as argon or helium at the correct pressure.
- Such a device involves; no mechanical motion or contacts, provides a simple adjustment of the pulse intervals and requires a relatively small amount of energy for control.
- Such a device may find various uses other than those relating to telephone circuits. It may be used to flash lamps, relays or other indicating devices.
- Figure 1 is a circuit diagram embodying a preferred form- 35 of the invention.
- Figs. 2, 3, and 4 are graphical illustrations of certain principles or operation of the arrangements of the invention.
- a gas-filled tube may be so designed structurally that the grid does not lose complete control of '40 the anodecurrent.
- the grid may be, for example, of the ladder type with the grid wires spaced sufliciently close so that the anode current may be stopped by a grid po- 48 tential which is more negative than the value at which ionization takes place.
- the operation and release of the tube may be controlled by the potential applied to the Irld.
- Fig. 1 of the drawing is a circuit diagram of the equipment employed to accomplish the purposes of this invention. An alternating potential 15 of the correct frequency is applied from the generator i through potentiometer P to transformer T and thence to the grid circuit of the gas-filled tube.
- Battery Eg supplies the necessary bias to the grid of the tube.
- the anode voltage of the 20 tube is supplied by battery Eb through resistance R.
- the effective potential resulting from the bias supplied by battery E plus the applied alternating potential at cer- 2 5 tain portions of the cycle may be so adjusted as to cause the tube to operate in the desired manner.
- the periodicity of the pulsating potential which is delivered by the above described equipment is dependent upon the frequency of the alternating potential applied to the grid circuit. .By a proper choice of the applied alternating potential and bias battery, the length of the pulses may be varied within limits as will be demonstrated hereinafter.
- Fig. 2 illustrates the method in which the fixed grid bias and the alternating potential applied to the grid combine to cause the tube to operate and release thus delivering a pulse of 40 unidirectional potential across resistance R.
- the negative bias on the grid is shown as 00.
- the maximum value of the alternating potential is designated as em.
- the resultant negative potential applied to the grid will decrease until it reaches the value shown at a.
- the resultant potential applied to the grid will be of such a value that the tube will break down.
- the applied alternating potential increases further in the positive direc-' 66 tion from a to its maximum value emax, there will be no change in the operation of the tube and the anode current will remain constant.
- the applied alternating potential After the applied alternating potential has passed its maximum positive value emu, it will decrease in value and there will be no change in the operation 01 the tube until the point D is reached at which time the tube will release and stay released until the applied alternating potential completes the cycle to the point a. at which time the tube will reoperate and remain so operated until the point D is reached. This manner of operation and release will be repeated for each cycle of the impressed potential.
- the time during which the gas-filled tube is operated is that time which elapses between points a and b.
- This time interval may be varied by varying the value 01 the fixed bias.
- the negative bias potential supplied to the grid of the tube is reduced to a value 0C, then the tube will be unoperated for only the short interval of time during which that part 0! the negative cycle adds suflicient negative potential to the grid bias supplied by battery E. to produce a net negative potential on the grid of a value OB or larger.
- Figs. 3 and 4 illustrate the eilfect produced by shifting the bias supplied to the grid 0! the tubes.
- the line F of Fig. 3 might show the operating characteristic of the tube when the fixed grid voltage was 00 and the line 1'" 0!
- a device for producing a' pulsating direct current comprising a gas-filled discharge tube, an adjustable grid biasing battery for said tube for applying to the grid a voltage sufllciently negative to be below that needed to cause the tube to discharge and below that needed to maintain the tube in a discharging condition after breakdown, a source of alternating current or constant amplitude, means for applying alternating potentials from said source to the grid of said tube to cyclically raise said grid'biasing voltage above that needed to cause the tube to discharge and to restore said grid voltage to its original condition whereby a pulsating direct current will flow in the plate circuit of said tube under control of the grid voltage whereby an adjustment of said grid biasing battery may vary the duration of said produced direct current pulses.
- a device for producing a pulsating direct current comprising a gas-tilled discharge tube, means for applying-to the grid 01 said tube a fixed biasing voltage sufllciently negative to be below both the breakdown voltage of the tube and below the voltage needed to maintain the tube in a discharging condition aiter breakdown, and means for applying to the grid 0! said tube an alternating potential of constant amplitude and of sumcient magnitude to cyclically raise said grid biasing voltage above the breakdown voltage of said tube and to restore said grid voltage to its fixed value whereby said tube will have discharging and non-discharging conditions under control 01 the grid voltage and means for varying the amplitude of said alternating current applied to said tube whereby the duration oi the produced direct current pulses may be varied.
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Description
A ril 2&1936. F. w. SCHRAMM PULS ATING DIRECT CURRENT GENERATOR Filed Sept. 8, 1932 Gas fi'ilezi tue ENVENTUR was (mg sq, min 23 a Patented Apr. 1936 UNITED STATES 2,038,683 PULSATING DIRECT CURRENT GENERATOR Fred W. Schramm, East Orange, N. J., assignor to American Telephone and Telegraph Company, a corporation of New York Application September a, 1932, Serial No. 632,225
2 Claims. (Cl. 115-313) This invention relates to electrical circuits and morerparticularly to a device for producing a pulsating direct current. More specifically, this invention relates to the application of a gas- 5 filled tube and associated equipment for the pro duction of the aforementioned pulsating direct current.
In certain types of telephone signaling, a pulsating direct current is employed. The pulsating direct current mentioned above is generally obtained by means of mechanical interrupters or commutator devices which periodically open a source .of direct current. These mechanical methods of obtaining therequired current are subject to wear and require considerable maintenance of the moving parts in order to assure dependable operation. One of the objects of this invention is to devise a means of producing such signals as have been herein mentioned through the use of a gas-filled tube of the proper design containing some suitable gas such as argon or helium at the correct pressure. Such a device involves; no mechanical motion or contacts, provides a simple adjustment of the pulse intervals and requires a relatively small amount of energy for control. Such a device may find various uses other than those relating to telephone circuits. It may be used to flash lamps, relays or other indicating devices.
so The invention may be more fully understood from the following description together with the accompanying drawing in the Figures 1, 2, 3, and 4 of which the invention is illustrated. Figure 1 is a circuit diagram embodying a preferred form- 35 of the invention. Figs. 2, 3, and 4 are graphical illustrations of certain principles or operation of the arrangements of the invention.
A gas-filled tube may be so designed structurally that the grid does not lose complete control of '40 the anodecurrent. In the type of tube which is contemplated for use in this invention the grid may be, for example, of the ladder type with the grid wires spaced sufliciently close so that the anode current may be stopped by a grid po- 48 tential which is more negative than the value at which ionization takes place. Hence in this type of tube the operation and release of the tube may be controlled by the potential applied to the Irld.
co m. 2 of the drawing is the grid voltage plate current characterlstic'curve Ip oi the tube which is designed to be usedin this invention. For all grid potentials morenegative than OB, no anode current will flow. when the negative potential -66 appliedtothen'idisdecreacedtothevaiueO A.
the tube will operate and the anode currentwill rise suddenly as shown on curve I oi. Fig. 2. As the potential applied to the grid is decreased toward and to O or as this potential is made positive, the tube will remain operated and the 5 anode current'will not change. Now as the positive potential applied to the grid is decreased towards O and then a negative potential is applied 5- to the grid, the tube will remain operated until the negative potential OB is reached. When 10 this potential is reached, the tube will release and the anode current will be completely cut oil. Fig. 1 of the drawing is a circuit diagram of the equipment employed to accomplish the purposes of this invention. An alternating potential 15 of the correct frequency is applied from the generator i through potentiometer P to transformer T and thence to the grid circuit of the gas-filled tube. Battery Eg supplies the necessary bias to the grid of the tube. The anode voltage of the 20 tube is supplied by battery Eb through resistance R. When an alternating potential is applied to the grid circuit, the effective potential resulting from the bias supplied by battery E plus the applied alternating potential at cer- 2 5 tain portions of the cycle may be so adjusted as to cause the tube to operate in the desired manner.
The periodicity of the pulsating potential which is delivered by the above described equipment is dependent upon the frequency of the alternating potential applied to the grid circuit. .By a proper choice of the applied alternating potential and bias battery, the length of the pulses may be varied within limits as will be demonstrated hereinafter. I
Fig. 2 illustrates the method in which the fixed grid bias and the alternating potential applied to the grid combine to cause the tube to operate and release thus delivering a pulse of 40 unidirectional potential across resistance R. In the steady state with no alternating potential applied to the grid, the negative bias on the grid is shown as 00. Assume an. alternating potential of approximately sine wave form to be supplied to the grid circuit. The maximum value of the alternating potential is designated as em. As the alternating potential increases from zero to the maximum positive value, the resultant negative potential applied to the grid will decrease until it reaches the value shown at a. At this point, the resultant potential applied to the grid will be of such a value that the tube will break down. As the applied alternating potential increases further in the positive direc-' 66 tion from a to its maximum value emax, there will be no change in the operation of the tube and the anode current will remain constant.
After the applied alternating potential has passed its maximum positive value emu, it will decrease in value and there will be no change in the operation 01 the tube until the point D is reached at which time the tube will release and stay released until the applied alternating potential completes the cycle to the point a. at which time the tube will reoperate and remain so operated until the point D is reached. This manner of operation and release will be repeated for each cycle of the impressed potential.
The time during which the gas-filled tube is operated is that time which elapses between points a and b. This time interval may be varied by varying the value 01 the fixed bias. I! the negative bias potential supplied to the grid of the tube is reduced to a value 0C, then the tube will be unoperated for only the short interval of time during which that part 0! the negative cycle adds suflicient negative potential to the grid bias supplied by battery E. to produce a net negative potential on the grid of a value OB or larger. Figs. 3 and 4 illustrate the eilfect produced by shifting the bias supplied to the grid 0! the tubes. For example, the line F of Fig. 3 might show the operating characteristic of the tube when the fixed grid voltage was 00 and the line 1'" 0! F18. I might shc w how the tube would operate when the fixed grid voltage was 0C. Therefore by proper adjustment of the bias potential and the maximum value 01 the impressed alternating potential, the length oi! the pulse of unidirectional potential may be varied to that value which is desired.
While the invention has been disclosed as embodied in certain specific forms which are deemed desirable, it is understood that it is capable of embodiment in many and other widely varied torms without departing from the spirit of the invention as defined in the appended claims.
What is claimed is: I
l. A device for producing a' pulsating direct current comprising a gas-filled discharge tube, an adjustable grid biasing battery for said tube for applying to the grid a voltage sufllciently negative to be below that needed to cause the tube to discharge and below that needed to maintain the tube in a discharging condition after breakdown, a source of alternating current or constant amplitude, means for applying alternating potentials from said source to the grid of said tube to cyclically raise said grid'biasing voltage above that needed to cause the tube to discharge and to restore said grid voltage to its original condition whereby a pulsating direct current will flow in the plate circuit of said tube under control of the grid voltage whereby an adjustment of said grid biasing battery may vary the duration of said produced direct current pulses.
2. A device for producing a pulsating direct current comprising a gas-tilled discharge tube, means for applying-to the grid 01 said tube a fixed biasing voltage sufllciently negative to be below both the breakdown voltage of the tube and below the voltage needed to maintain the tube in a discharging condition aiter breakdown, and means for applying to the grid 0! said tube an alternating potential of constant amplitude and of sumcient magnitude to cyclically raise said grid biasing voltage above the breakdown voltage of said tube and to restore said grid voltage to its fixed value whereby said tube will have discharging and non-discharging conditions under control 01 the grid voltage and means for varying the amplitude of said alternating current applied to said tube whereby the duration oi the produced direct current pulses may be varied.
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US632225A US2038683A (en) | 1932-09-08 | 1932-09-08 | Pulsating direct current generator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US632225A US2038683A (en) | 1932-09-08 | 1932-09-08 | Pulsating direct current generator |
Publications (1)
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US2038683A true US2038683A (en) | 1936-04-28 |
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US632225A Expired - Lifetime US2038683A (en) | 1932-09-08 | 1932-09-08 | Pulsating direct current generator |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2441325A (en) * | 1943-10-28 | 1948-05-11 | Morrison Montford | Method of operating gaseous thermionic tubes |
US2560691A (en) * | 1949-06-14 | 1951-07-17 | Northrop Aircraft Inc | Voltage regulated multiple amplifier for pulses |
US2590310A (en) * | 1947-08-20 | 1952-03-25 | Rca Corp | Selective squelch circuit |
US2663795A (en) * | 1941-08-19 | 1953-12-22 | Bell Telephone Labor Inc | Electrical wave transforming system |
US2730652A (en) * | 1950-03-30 | 1956-01-10 | Csf | Apparatus with focalized electronic beam, such namely as microscopes |
-
1932
- 1932-09-08 US US632225A patent/US2038683A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2663795A (en) * | 1941-08-19 | 1953-12-22 | Bell Telephone Labor Inc | Electrical wave transforming system |
US2441325A (en) * | 1943-10-28 | 1948-05-11 | Morrison Montford | Method of operating gaseous thermionic tubes |
US2590310A (en) * | 1947-08-20 | 1952-03-25 | Rca Corp | Selective squelch circuit |
US2560691A (en) * | 1949-06-14 | 1951-07-17 | Northrop Aircraft Inc | Voltage regulated multiple amplifier for pulses |
US2730652A (en) * | 1950-03-30 | 1956-01-10 | Csf | Apparatus with focalized electronic beam, such namely as microscopes |
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