US1812977A - Oscillation generator - Google Patents
Oscillation generator Download PDFInfo
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- US1812977A US1812977A US71473A US7147325A US1812977A US 1812977 A US1812977 A US 1812977A US 71473 A US71473 A US 71473A US 7147325 A US7147325 A US 7147325A US 1812977 A US1812977 A US 1812977A
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- oscillation generator
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- 230000010355 oscillation Effects 0.000 title description 30
- 239000013078 crystal Substances 0.000 description 39
- 230000005686 electrostatic field Effects 0.000 description 3
- 230000015556 catabolic process Effects 0.000 description 2
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 239000010453 quartz Substances 0.000 description 2
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N silicon dioxide Inorganic materials O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 2
- 230000000087 stabilizing effect Effects 0.000 description 2
- 101100400378 Mus musculus Marveld2 gene Proteins 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 239000004020 conductor Substances 0.000 description 1
- 230000008602 contraction Effects 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 230000005684 electric field Effects 0.000 description 1
- 239000011521 glass Substances 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 230000003334 potential effect Effects 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
- 230000002459 sustained effect Effects 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03B—GENERATION 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
- H03B5/00—Generation of oscillations using amplifier with regenerative feedback from output to input
- H03B5/30—Generation of oscillations using amplifier with regenerative feedback from output to input with frequency-determining element being electromechanical resonator
- H03B5/32—Generation of oscillations using amplifier with regenerative feedback from output to input with frequency-determining element being electromechanical resonator being a piezoelectric resonator
- H03B5/34—Generation of oscillations using amplifier with regenerative feedback from output to input with frequency-determining element being electromechanical resonator being a piezoelectric resonator active element in amplifier being vacuum tube
Definitions
- OSCILLATION GENERATOR Filed Nov. 25, 1925 IN VEN TOR A. :9. 0101/ A TTORNE Y Patented July 7, 1931 UNITED STATES PATENT OFFICE RUSSELL S. OHL, OF NEW YORK, N.- Y., .ASSIGNOR T0 AMERICAN TELEPHONE AND TELE- GRAPH COMPANY, A CORPORATION OF NEW YORK OSCILLATION GENERATOR Application filed November 25, 1925.
- oscillators which have piezo-electric devices associated therewith for controlling the frequency of the oscillations, are operated at the frequency at which the piezoelectric device gives its greatest response.
- PieZo-electric crystals used in oscillation generators are frequently cut from quartz, so that the dimension in the direction of the axis of vibration of the crystal is small as compared to the other dimensions. It is due N to the small dimension in the direction of the axis of vibration that the alternating electrostatic voltage across the terminals of the crystal, at its frequency of resonance, is limited, in order to prevent the rupture of the crystal through the excessive internal mechanical strain set up by the electric field.
- the voltage which may be set up across the terminals of a plurality of piezoelectric crystals in series relationship with each other will be as many times the voltage which may be set up across the terminals of one of the piezo-electrio crystals as there are crystals so connected.
- oscillation generator at very high frequencies has been due to the presence of a path of low impedance between the terminals of the crystals due to the capacity existing between such terminals and the very high frequencies involved.
- the reference character 1 is a space discharge tube, working on the thermionic principle, including a cathode 2, an anode 3 and. an input or grid electrode l.
- the cathode 2 is heated to incandescence by means of a battery 7.
- a source of potential 8 supplies space current to the anode 3 of the tube 1 through an inductance 9.
- a condenser 10 is connected across the terminals of the source of poten tial 8 in order to form a path of low impedance for alternating current components.
- a resistance 11 is connected between the grid control electrode 4 and the cathode 2 in order to maintain the grid electrode at a suitable negative potential with respect to the cathode.
- a condenser 12 shown in dotted lines, represents the inherent capacity existing between the grid electrode 4 and the anode 3, including the capacity of the leads connected thereto. It is this capacity between the grid electrode 4 and the anode 3 which produces a reaction of the plate circuit on the grid circuit in order to produce sustained oscillations.
- a plurality of piezo-electric devices are connected in series relationship to each other between the lower terminal of an inductance 6 and the grid electrode 4.
- the crystals 14 are substantially identical, having the same, or substantially the same, vibratory period, each of the crystals being preferably disk shaped, cut from quartz along one of the axes of symmetry.
- the plates 13 are placed adj acent to the sides of the disks, but, however, a small space isleft between any two plates and the crystal therebetween to permit its free vibration.
- the crystals 14 and the plates 13 adjacent thereto may be included in a container 15 made of rubber, glass or other insulating material.
- the crystal undergoes, alternately, contraction and elongation in the direction of the axis. In other words, the crystal vibrates in an electrostatic field in which the charge is alternately reversed.
- the piezo-electric crystal has a plurality of natural frequencies
- the inductance (3 is inserted to start the piezo electric crystals 14 in vibration.
- the resistance 11 is used here nstead of a battery to maintain the grid electrode 4 at an appropriate negative potential with respect to the cathode 2. This means of maintaining the grid negative operates only when there is a grid current between the cathode 2 and the grid electrode 4; that is, it to maintain the grid electrode negative with the nds .to
- the voltage which may be impressed across the terminals of one piezo-electric device before rupture occurs may be, for example, 200 volts.
- the voltage which may be impressed across all five crystals may be, for example, 1,000 volts. Since, in vacuum tubes used for power work, voltages at least as high as that may be attained, arrangements similar to those disclosed herein will be found highly desirable for successful operation.
- the vacuum t-u e having, for example, five piezo-electric crystals in series relationship with each other will permit a power output of about twenty-five times that from a vacuum tube using just one piezo-electric crystals. 4
- piezo electric device as used herein means any body or substance capable of generating an electromotive .force in re "sponse to a change in pressure.
- WVhile a plurality of piezo-electric devices have been shown connected up to a vacuum tube oscillation generator for permitting the operation to take place at very high voltages and frequencies
- the application is not limited t-ovacuum tube oscillators but may be embodied in other circuit arrangements limited only within the scope of the append limits consisting of a plurality of piezo-electric' devices, all having the same natural frequency connected in series relationship to each other.
- the impedance of said piezo-electric-devices being a multiple of the impedance of a single crystal.
- a generator of high frequency means for maintaining the frequency of the generator constant within very narrow limits, said means comprising a plurality of piezoelectric devices in series relationship with each other, all the devices being substantially similar and vibrating at the same frequency.
- Means for generating oscillations comprising a space discharge tube of the three electrode type, input and output circuits for said tube coupled by virtue of the capacity between the electrodes of said tube, a plurality of piezoelectric devices for controlling the frequency of the oscillations, said piezo-electric devices being connected in series with each other so as to have a high impedance and a low electrostatic capacity.
- An oscillation generator comprising a three-electrode space discharge tube, input and output circuits coupled by virtue of the capacities existing between the electrodes of said tube, a plurality of piezo-electric elements, and a tuned circuit, said pieZo-electric elements being arranged to render said tuned circuit highly selective, all of said piezoelectric elements having the same frequency and having a low electrostatic capacity across the terminals thereof.
- a three-electrode space discharge device having input and output circuits, said circuits being coupled by the natural capacity of their conductors, means for controlling the generation of oscillations, said means comprising a plurality of piezoelectric oscillators arranged in said input circuit, said pieZo-electric oscillators vibrating at the same frequency, and means for starting said piezoelectric oscillators in vibration and for continuing their vibration after being started.
- Means for generating oscillations comprising an electrical discharge tube having a cathode, an anode and an impedancevarying element, an inductance, a plurality of piezoelectric devices, and a source of potential, part of said inductance being included in an output circuit along with said source of potential, said anode and cathode, the rest of said inductance being included in an input circuit along with said piezo-electric devices, said impedance-varying element and cathode, said input and output circuits being coupled by the inherent capacity between said anode and said impedance-varying element, said piezo-electric devices all having the same natural period.
- An oscillation generator comprising a three-electrode space discharge tube having input and output circuits coupled by virtue of the capacity existing between the electrodes of said tube, a plurality of pieZo-electric elements associated with the input circuit, each having a natural frequency substanitally the same as the frequency for which the output circuit has a maximum impedance, means for starting said piezoelectric elements in vibration, and means for maintaining the continuity of the vibrations after they are started.
- Means for generating oscillations comprising a power tube of the three-electrode type, input and output circuits for said tube,- said circuits being coupled by the inherent capacity between the electrodes of said tube, a plurality of piezo-electric devices in series relationship with each other for controlling the frequency of oscillations, the breakdown voltage of said pieZo-electric devices being greater than the voltage of the current generated by said tube.
- An oscillation generator comprising an amplifier having input and output circuits coupled by the capacity between the electrodes of said amplifier, a frequency control element in said input circuit consisting of a number of piezo-electric devices arranged in series relationship and vibrating at a common period in the input circuit, and a pair of inductances coupling the input and output circuits of said amplifier in order to feed back some of the energy in the output circuit to the input circuit.
- means for generating oscillations means for controlling the frequency of the generated oscillations within very narrow limits consisting of a plurality of piezo-eleetric devices connected in series with each other, all having the same, or substantially the same, natural frequency.
- a threeelectrode space discharge device having coupled input and output circuits, and means for controlling the generation of oscillations, said means consisting of a plurality of similar pieZo-electric oscillators arranged in series with each other in said input circuit,
- An oscillation generator comprising an amplifier having suitably coupled input and output circuits, and a frequency control element in said input circuit consisting of a number of substantially similar piezo-eleo tric devices connected in series relationship therein.
- a frequency control system comprising a plurality of conductive plates spaced from one another by a predetermined distance, and a plurality of piezo-electric crystals each spaced between two adjacent conductive plates.
- Frequency control apparatus comprising an insulated housing having a hollow central section, a plurality of grooves, each groove being separated from the adjacent groove .by a predetermined distance, a plurality of conductive plates each positioned in one of said grooves, a plurality of piezoelectric crystals each located between two adjacent conductive plates, and electrical con nections to the two outermost conductive plates.
- a plurality of piezoelectric vibrational elements each capable of unitary elastic vibration and whose natural frequencies have an integral commensurable relation and means electrically connecting saidcrystal bodies inseries with each other.
- a 20. In a frequency control or stabilizing system, a. plurality of piezo-electric crystal units of the same characteristics, an electric space discharge tube c1rcu1t to WhlCll all of said crystal units are connected in series with each other, and means connected with said tube circuit for sustaining oscillations of said crystal units at their characteristic frequency.
- An oscillator having a piezo-electric crystal device forv stabilizing the oscillator frequency, said device comprising a plurality of piezo-electric vibrational units connected in series, said units being so related to each other and to the immediately associated structure that substantially smaller potential tends to exist across each unit than if they were replaced by a frequency-equivalent single unit, while maintaining the maximum power output of which said oscillator is capable substantially undiminished.
- Means for producing a constant fre quency comprising a space discharge oscillator having two crystals connected in its in put circuit, one ofsaid crystals being cut to Vibrate in resonance at a frequency approximately the same as that of the other.
- An oscillating system comprising an RUSSELL S. OHL.
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- Apparatuses For Generation Of Mechanical Vibrations (AREA)
Description
July 7, 1931.. R. s. OHL
OSCILLATION GENERATOR Filed Nov. 25, 1925 IN VEN TOR A. :9. 0101/ A TTORNE Y Patented July 7, 1931 UNITED STATES PATENT OFFICE RUSSELL S. OHL, OF NEW YORK, N.- Y., .ASSIGNOR T0 AMERICAN TELEPHONE AND TELE- GRAPH COMPANY, A CORPORATION OF NEW YORK OSCILLATION GENERATOR Application filed November 25, 1925.
' Generally, oscillators which have piezo-electric devices associated therewith for controlling the frequency of the oscillations, are operated at the frequency at which the piezoelectric device gives its greatest response.
PieZo-electric crystals used in oscillation generators are frequently cut from quartz, so that the dimension in the direction of the axis of vibration of the crystal is small as compared to the other dimensions. It is due N to the small dimension in the direction of the axis of vibration that the alternating electrostatic voltage across the terminals of the crystal, at its frequency of resonance, is limited, in order to prevent the rupture of the crystal through the excessive internal mechanical strain set up by the electric field.
It is therefore one of the objects of this invention to so connect a plurality of piezoelectric crystals that the voltages across the terminals thereof will be less than the voltage by which the combination of crystals will be ruptured. This constitutes one of the novel features of this invention, and may be accomplished by connecting a plurality of piezoelectric crystals in series relationship with each other. The voltage which may be set up across the terminals of a plurality of piezoelectric crystals in series relationship with each other will be as many times the voltage which may be set up across the terminals of one of the piezo-electrio crystals as there are crystals so connected.
Another difiiculty which has been encountered with the use of a single piezo-electric crystal for controlling the frequency of an Serial No. 71,473.
oscillation generator at very high frequencies, for example, several million cycles, has been due to the presence of a path of low impedance between the terminals of the crystals due to the capacity existing between such terminals and the very high frequencies involved.
It is therefore another object of this invention to so relate a plurality of piezoelectric crystals to an oscillation generator that the impedance due to the presence of the plurality of piezo-electric crystals will be in creased by a multiple equal to the number of crystals connected in series.
While the nature of the invention will be pointed out with particularity in the appended claims, the invention itself, both as to its further objects and features, will be better understood from the detailed description hereinafter following when read in connection with the accompanying drawing showing one embodiment of the invention.
Referring to the drawing, there is shown a circuit arrangement electrically tuned to give oscillations of any desired frequency. The reference character 1 is a space discharge tube, working on the thermionic principle, including a cathode 2, an anode 3 and. an input or grid electrode l. The cathode 2 is heated to incandescence by means of a battery 7. A source of potential 8 supplies space current to the anode 3 of the tube 1 through an inductance 9. A condenser 10 is connected across the terminals of the source of poten tial 8 in order to form a path of low impedance for alternating current components. A resistance 11 is connected between the grid control electrode 4 and the cathode 2 in order to maintain the grid electrode at a suitable negative potential with respect to the cathode. A condenser 12, shown in dotted lines, represents the inherent capacity existing between the grid electrode 4 and the anode 3, including the capacity of the leads connected thereto. It is this capacity between the grid electrode 4 and the anode 3 which produces a reaction of the plate circuit on the grid circuit in order to produce sustained oscillations.
A plurality of piezo-electric devices are connected in series relationship to each other between the lower terminal of an inductance 6 and the grid electrode 4. The crystals 14 are substantially identical, having the same, or substantially the same, vibratory period, each of the crystals being preferably disk shaped, cut from quartz along one of the axes of symmetry. The plates 13 are placed adj acent to the sides of the disks, but, however, a small space isleft between any two plates and the crystal therebetween to permit its free vibration. The crystals 14 and the plates 13 adjacent thereto may be included in a container 15 made of rubber, glass or other insulating material.
It is a well-known property of crystals so cut that when subjected to a. physical stress from the sides, plus and minus charges appear on the faces thereof; and vice v'e-rsa, when subjected to an electrostatic field, a physical deformation occurs along the axis of the crystal. The signs of the charges produced in the first case depend upon the char acter of the stress, that is, whether tension or compression, whereas in the second case the physical deformation due to the action of the electrostatic field depends upon the direction of the field. If the stress changes from compression to tension, or vice versa, the signs of the electric charges on the faces of the crystal are reversed, whereas, if the electrostatic fie-ld is alternately reversed, the crystal undergoes, alternately, contraction and elongation in the direction of the axis. In other words, the crystal vibrates in an electrostatic field in which the charge is alternately reversed.
It has been found that the piezo-electric crystal has a plurality of natural frequencies,
.'= but it offers a greater response at one of the natural frequencies than at the other natural existing between the grid electrode 4 and the anode 3 of the space discharge tube 1. The inductance (3 is inserted to start the piezo electric crystals 14 in vibration.
The resistance 11 is used here nstead of a battery to maintain the grid electrode 4 at an appropriate negative potential with respect to the cathode 2. This means of maintaining the grid negative operates only when there is a grid current between the cathode 2 and the grid electrode 4; that is, it to maintain the grid electrode negative with the nds .to
respect to the cathode during that part of the cycle in which the grid electrode has a positive charge impressed thereon. Thus, when the grid electrode becomes positive, it attracts electrons, and current flows through the resistance 11. During the rest of the cycle there is no flow of electrons from the cathode to the grid electrode. A rectified current is therefore established through the resistance 11 and this tendstolowerthe potential of the grid electrode 4 with respect to the oathode 2.
The voltage which may be impressed across the terminals of one piezo-electric device before rupture occurs, may be, for example, 200 volts. By connecting, for example, five of such crystals in series relationship to each other, the voltage which may be impressed across all five crystals may be, for example, 1,000 volts. Since, in vacuum tubes used for power work, voltages at least as high as that may be attained, arrangements similar to those disclosed herein will be found highly desirable for successful operation. Since, also, the power available from a vacuum tube is proportional to the s uare of the voltage involved, the vacuum t-u e having, for example, five piezo-electric crystals in series relationship with each other will permit a power output of about twenty-five times that from a vacuum tube using just one piezo-electric crystals. 4
The term piezo electric device as used herein means any body or substance capable of generating an electromotive .force in re "sponse to a change in pressure.
WVhile a plurality of piezo-electric devices have been shown connected up to a vacuum tube oscillation generator for permitting the operation to take place at very high voltages and frequencies, the application is not limited t-ovacuum tube oscillators but may be embodied in other circuit arrangements limited only within the scope of the append limits consisting of a plurality of piezo-electric' devices, all having the same natural frequency connected in series relationship to each other.
' 2. In'combination, a plurality of piezoelectric devices all having the same'natural period in series relationship with each other, and circuit arrangements operating at the same-frequency as said piezoelectricdevices,
the impedance of said piezo-electric-devices being a multiple of the impedance of a single crystal.
3. In combination, an oscillation generator, and a plurality of piezo-electric devices connected to said oscillation generator to control the frequency of said oscillation generator, said piezo-electric devices being connected in series with each other so that the breakdown voltage of said piezo-electric de-' vices is greater than the voltage of the frequency generated by said oscillation generator.
4. A generator of high frequency, means for maintaining the frequency of the generator constant within very narrow limits, said means comprising a plurality of piezoelectric devices in series relationship with each other, all the devices being substantially similar and vibrating at the same frequency.
5. Means for generating oscillations, comprising a space discharge tube of the three electrode type, input and output circuits for said tube coupled by virtue of the capacity between the electrodes of said tube, a plurality of piezoelectric devices for controlling the frequency of the oscillations, said piezo-electric devices being connected in series with each other so as to have a high impedance and a low electrostatic capacity.
6. An oscillation generator, comprising a three-electrode space discharge tube, input and output circuits coupled by virtue of the capacities existing between the electrodes of said tube, a plurality of piezo-electric elements, and a tuned circuit, said pieZo-electric elements being arranged to render said tuned circuit highly selective, all of said piezoelectric elements having the same frequency and having a low electrostatic capacity across the terminals thereof.
7. In an oscillation generator, a three-electrode space discharge device having input and output circuits, said circuits being coupled by the natural capacity of their conductors, means for controlling the generation of oscillations, said means comprising a plurality of piezoelectric oscillators arranged in said input circuit, said pieZo-electric oscillators vibrating at the same frequency, and means for starting said piezoelectric oscillators in vibration and for continuing their vibration after being started.
8. Means for generating oscillations, comprising an electrical discharge tube having a cathode, an anode and an impedancevarying element, an inductance, a plurality of piezoelectric devices, and a source of potential, part of said inductance being included in an output circuit along with said source of potential, said anode and cathode, the rest of said inductance being included in an input circuit along with said piezo-electric devices, said impedance-varying element and cathode, said input and output circuits being coupled by the inherent capacity between said anode and said impedance-varying element, said piezo-electric devices all having the same natural period.
9. An oscillation generator, comprising a three-electrode space discharge tube having input and output circuits coupled by virtue of the capacity existing between the electrodes of said tube, a plurality of pieZo-electric elements associated with the input circuit, each having a natural frequency substanitally the same as the frequency for which the output circuit has a maximum impedance, means for starting said piezoelectric elements in vibration, and means for maintaining the continuity of the vibrations after they are started.
10. Means for generating oscillations, comprising a power tube of the three-electrode type, input and output circuits for said tube,- said circuits being coupled by the inherent capacity between the electrodes of said tube, a plurality of piezo-electric devices in series relationship with each other for controlling the frequency of oscillations, the breakdown voltage of said pieZo-electric devices being greater than the voltage of the current generated by said tube.
11. An oscillation generator, comprising an amplifier having input and output circuits coupled by the capacity between the electrodes of said amplifier, a frequency control element in said input circuit consisting of a number of piezo-electric devices arranged in series relationship and vibrating at a common period in the input circuit, and a pair of inductances coupling the input and output circuits of said amplifier in order to feed back some of the energy in the output circuit to the input circuit.
12. In combination, means for generating oscillations, means for controlling the frequency of the generated oscillations within very narrow limits consisting of a plurality of piezo-eleetric devices connected in series with each other, all having the same, or substantially the same, natural frequency.
13. In an oscillation generator, a threeelectrode space discharge device having coupled input and output circuits, and means for controlling the generation of oscillations, said means consisting of a plurality of similar pieZo-electric oscillators arranged in series with each other in said input circuit,
said pieZo-electric oscillators vibrating at 1';
a frequency common to all of said piezo-electric oscillators.
14. An oscillation generator comprising an amplifier having suitably coupled input and output circuits, and a frequency control element in said input circuit consisting of a number of substantially similar piezo-eleo tric devices connected in series relationship therein.
15. A frequency control system comprising a plurality of conductive plates spaced from one another by a predetermined distance, and a plurality of piezo-electric crystals each spaced between two adjacent conductive plates. r
18. Frequency control apparatus comprising an insulated housing having a hollow central section, a plurality of grooves, each groove being separated from the adjacent groove .by a predetermined distance, a plurality of conductive plates each positioned in one of said grooves, a plurality of piezoelectric crystals each located between two adjacent conductive plates, and electrical con nections to the two outermost conductive plates.
I 19. In combination, a plurality of piezoelectric vibrational elements each capable of unitary elastic vibration and whose natural frequencies have an integral commensurable relation and means electrically connecting saidcrystal bodies inseries with each other. a 20. In a frequency control or stabilizing system, a. plurality of piezo-electric crystal units of the same characteristics, an electric space discharge tube c1rcu1t to WhlCll all of said crystal units are connected in series with each other, and means connected with said tube circuit for sustaining oscillations of said crystal units at their characteristic frequency.
'21. An oscillator having a piezo-electric crystal device forv stabilizing the oscillator frequency, said device comprising a plurality of piezo-electric vibrational units connected in series, said units being so related to each other and to the immediately associated structure that substantially smaller potential tends to exist across each unit than if they were replaced by a frequency-equivalent single unit, while maintaining the maximum power output of which said oscillator is capable substantially undiminished.
22. Means for producing a constant fre quency, comprising a space discharge oscillator having two crystals connected in its in put circuit, one ofsaid crystals being cut to Vibrate in resonance at a frequency approximately the same as that of the other.
23; An oscillating system comprising an RUSSELL S. OHL.
November, 1925.
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US71473A US1812977A (en) | 1925-11-25 | 1925-11-25 | Oscillation generator |
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US71473A US1812977A (en) | 1925-11-25 | 1925-11-25 | Oscillation generator |
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US1812977A true US1812977A (en) | 1931-07-07 |
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US71473A Expired - Lifetime US1812977A (en) | 1925-11-25 | 1925-11-25 | Oscillation generator |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2483677A (en) * | 1946-06-24 | 1949-10-04 | Brush Dev Co | Moistureproof piezoelectric crystal and method of making same |
US2511624A (en) * | 1944-01-10 | 1950-06-13 | Hamdi Hadidje Nazli | Piezoelectric element |
-
1925
- 1925-11-25 US US71473A patent/US1812977A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2511624A (en) * | 1944-01-10 | 1950-06-13 | Hamdi Hadidje Nazli | Piezoelectric element |
US2483677A (en) * | 1946-06-24 | 1949-10-04 | Brush Dev Co | Moistureproof piezoelectric crystal and method of making same |
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