US1683091A - Piezo-electric crystal holder - Google Patents

Piezo-electric crystal holder Download PDF

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US1683091A
US1683091A US197133A US19713327A US1683091A US 1683091 A US1683091 A US 1683091A US 197133 A US197133 A US 197133A US 19713327 A US19713327 A US 19713327A US 1683091 A US1683091 A US 1683091A
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crystal
grooves
electrode
cover plate
frame
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US197133A
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Carlos B Mirick
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Wired Radio Inc
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Wired Radio Inc
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03HIMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS; RESONATORS
    • H03H9/00Networks comprising electromechanical or electro-acoustic devices; Electromechanical resonators
    • H03H9/02Details
    • H03H9/05Holders; Supports
    • H03H9/0504Holders; Supports for bulk acoustic wave devices

Definitions

  • My invention relates broadly to piezo electric crystal holders and more particularly to a piezo electric crystal holder ofunique design such that a plurality of crystals may be 5 mounted in one unit for substitution of any one of the crystals in a circuit for change of wave length.
  • the object of my invention is to produce a'crystal holder of such compact design that a plurality of crystal holders may be mounted ina single unit in which the individual crystal holders are separate from each other.
  • Another object of my invention is the production of a clip that may be used with the unit and by which one crystal may be readily substituted in a radio circuit without changing the other constants of the circuit and without appreciable change of apparatus.
  • y invention consists substantlally 1n the construction, combination and arrangement 5 of parts associated therewith or as will be more fully hereinafter set forth as shown by the accompanying drawings and finally pointed out in the appended clalms.
  • Figure 1 is a plan view of my lmproved 5 crystal holder
  • Figure 3 is'a sectional view on the line 3--3of Figure 1, o
  • Figure 4 isa sectional view on the line 4-4 0 of Figure 1.
  • Figure 5 is a view of a plurality of holders mounted in a single unit
  • FIG 6 is a perspective view of the clip used for making contact with any one of the 5 crystals as desired and the connections there- Referring particularly to Figures 1-4.
  • numeral 1 represents'a rectangular frame of 1nsulating material such as bakellte or hard 0 rubber.
  • bevelled retainer strips 2 and 3 Upon the opposite surfaces of the .rectangular frame 1 are mounted bevelled retainer strips 2 and 3 that are held ln'place by screws 4 and form grooves into which are fitted the metallic cover plates 5 and 6. Platel 'Th 1927. Serial No. 197,138.
  • 5 is a solid plate bent up at the end as shown at 7 and forms one electrode for the piezo electric crystal 8 that rests firmly thereon.
  • a retainer plate 9 of insulating material This retainer plate is so designed that the crystal is firmly held in position relative to any horizontal movement over the cover plate 5.
  • the cover plate 5 has an aperture in its central portion that is somewhat larger than the crystal itself but smaller than the internal periphery of the frame 1.
  • an arcuate spring member 1() that is firmly held in position relative to the plate by means of pins 11 riveted to the ends of the arcuate member and engaging holes 12 in the cover plate.
  • an electrode plate 13 that engages the surface of the crystal 8. By means of the pivotal connection 13' the electrode plate 13 exerts an even pressure over the surface of the crystal which in turn exerts an even distributed pressure upon the cover plate 5 which serves as the other electrode for the crystal.
  • a pigtail connection 14 is made from the cover plate 6 directly to the electrode plate.
  • a piece of transparent material 15 such as celluloid or the like inlaid in the surface of the cover plate. or held in position thereon by a dovetail groove machined in the surface of the plate and allowing ready removal of the window.
  • this structure I have developed a crvstal holder that is dust proof and constitutes substantially a moisture proof container for the crystal that rigidly holds the crystal in place and allows transportation without danger of breakage.
  • numeral 15 represents a miniature cabinet made of insulating material. in the sides 16 of which are a plurality of .double grooves 17. These double grooves' constitute an inner groove 18 and an outer groove 19.
  • the width of the cabinet is such that the crystal holder described with reference to Figures 1 to 4 fits between the sides of the cabinet within the inner grooves.
  • e crystal holders are placed in the cabinet with the bent up ends 7 engaging the grooves 18. In this manner the individual crystal holders are locked in a closed position.
  • the outer grooves 19 lie within the inner grooves 18 and constitute a passage way for the terminals 2O of the clip 21, Flgure 6, to make contact with the bent up ends 7 of the cover plates and in this manner make electrical Contact with tlfe crystal.
  • the unit when filled with a number of crystal holders is then completed by the insertion of a retainer strip 22 d-ovetailed into the top 23 and the bottom 24 of the cabinet.
  • the body portion that .is of such size that it fits snugly within the double grooves 17 of the cabinet.
  • the metallic spring clips 20 that snugly fit the inner grooves 18 of the double grooves 17 and make electrical contact with thebent up ends 7 of the cover plates.
  • the electrical leads 27v for the spring clips consist of flexible wires sewn into a flexible strip 28, which is firmly fastened to the body portion 25 of the clip.
  • the electrical-terminals of the leads consist of the usual circular binding clips 29 soldered to the ends of the flexible wires.
  • a series of crystal holders containing crystals that have a fundamental frequency of any predetermined value, such as 10 kilocycles difference, or any other value of desired wave lengths By the'mere shifting of the clip 25 from one groove to another the frequency of the transmitter or of the apparatus inwhich the crystal control of the frequency is utilized. is changed without affecting the other constants of the circuit.
  • a piezo electric crystal holder the combination of a frame having grooves recessed in its faces, a crystal-andelectrodes therefor within the frame, and metallic cover plates insertedwithin the grooves and having bent up ends, saidbent up ends constituting electrical contacts for the electrodes of the crystal.
  • a piezo electric crystal holder the combination of a frame having grooves recessed in its faces, a crystal and electrodes therefor within the frame andmetallic cover plates inserted within the grooves and having bent up ends, said bent up ends conforming in contour with the sides of the frame and constituting electrical contacts for the electrodes of the crystal.
  • a piezo-electric crystal holder the combination of a frame having grooves recessed in its faces, a crystal and electrodes therefor within the frame and metallic cover plates removably inserted within the grooves and having bent up ends, said bent up ends conforming in contour with the sides of the frame and constituting electrical contacts for the electrodes of the crystal.
  • a piezo electric crystal holder the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces, a piezo electric crystal within the frame, said metallic cover plate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement of the crystal over the surface of the said cover plate, an electrode engaging the other surface of the crystal, a second cover plate removably inserted in the other grooved face of the frame and resilient means between the cover plate and the electrode for maintaining an even pressure of the crystal upon the electrode coverplate and for maintaining an evlen pressure of the electrode upon the crysta 5.
  • a piezo electric crystal holder In a piezo electric crystal holder, the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces, a piezo electric crystal within the frame, said metallic cover plate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement of the crystal over the surface of the said cover plate, an electrode engaging the other surface of the crystal, a second cover plate removably inserted in the other grooved face of the frame and resilient means between the cover plate and the electrode for maintaining an even pressure of the crystal upon the electrode cover plate and for maintaining an even pressure of the electrode upon the crystal, said resilient means consisting of an arcuate spring member the center of which engages the electrode and the ends of which engage the second mentioned cover plate.
  • a piezo electric crystal holder the combination of a fra-me having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces ⁇ a piezo elect-ric crystal within the frame, said metallic cover plate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement o the crystal over the surface of the said cover plate, an electrode engaging theV other surface of the crystal, a second cover plate removably inserted in the other of the frame and resilient means between the grooved face cover plate and the electrode for maintaining an even pressure of the crystal upon the electrode cover plate and for maintaining an even pressure of the electrode upon the crystal, said resilient means consisting of an arcuate spring member the center of which pivotall enga es the electrode and the ends of whicli are Xed under slight pressure.
  • a piezo electric crystal holder the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces, a piezo electric cr stal within the frame, said metallic cover p ate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement of the crystal over the surface of the said cover plate, an electrode engaging the other surface of the crystal, a second cover plate removably inserted in the other grooved face of the frame and resilient means between the vcover plate and the electrode for maintaining an even pressure of the crystal upon the electrode cover plate and for maintaining an even pressure of the electrode upon the crystal, said resilient means consisting of an arcuate spring member t-he center of which pivotall engages the electrode and the ends of whic are fixed under slight pressure, and means for establishing positive electrical contact between the electrode and the secondmentioned cover late.
  • a piezo electric cr stal within t e frame said Y metallic cover p ate constituting one electrode for the crystal, a retainer plate within the frame for reventing lateral movement of the crysta over the surface of the said cover plate, an electrode -engaging the other surface of the crystal, ao second cover late having a transparent window there- 1n removably inserted in the other grooved face of the frame and resilient means be-' tween the cover plate and the electrode for maintainlng an even pressure of the crystal upon the electrode cover plate and for mainpressure of theelectrode upon Y tion of a cabinet of'insulating material having a plurality of double grooves in its inner walls, a plurality of crystal holdershaving contact surfaces upon their edges inserte within the grooves and means conforming to the shape of a portion of the rooves for establishing electrical contact w1th the contact surfaces of the crystal holders.
  • a multiple crystal unit the combination of a cabinet of insulating material having a plurality of double grooves in its inner Walls, a plurality of crystal holders having contact surfaces upon their. edges inserted within the grooves and means conforming to the shape of a portion of the ooves for establishing electrical contact with the Contact surfaces of the crystal holders said means consisting of a clip engaging the entrance portion of the grooves.
  • a multiple crystal unit the combination of a cabinet of insulating material having a plurality of double grooves in its inner walls, a plurality of crystal holders inserted within the grooves and means conforming to the shape of a portion of the grooves for establishing electrical contact with the contact surfaces of the crystal holders, said means consisting of a clip having a body portion ⁇ the edges of which conform to the shape of the grooves.
  • a multiple crystal l'unit the combination of a cabinet of insulating.. material .hav-A ing a plurality of double grooves in its 'inner walls, a plurality of crystal holders inserted within the grooves and means conforming to' the shape of a portion of the grooves for establishing electrical contact withr the contact surfaces of the crystal holders, said means consisting-of a clip ⁇ having a body portion the edges of ⁇ whic conform to the shape'of the grooves and metallic terminals attached to the edges ofthe body portion and extending withinl the grooves between the cabinet wall and the contact surfaces of the crystal holder.
  • a multiple crystal unit the combination of acabinet of insulating material ha'vin 4a -plurality of double grooves in its inner wa ls, a lurality of crystal holders inserted lwithin t e grooves and means conformingl to theshape of a rtion of the grooves for establishing electrlcal cont-act with the contact surfaces of the c stal holders, said means consisting of a ip having a body portion the edges of which conform to the lli) shape of 'the moves and metallic terminals attached to t e edges of the body portion vand extending within the grooves between the cabinet wall and the contact surfaces of the crystal holder, said clip adapted to be removed from one set of said grooves and to be placed in another se't without changing Hthe constants of the circuit in which it is used individual crystal with contact.

Description

1,683,091 c B MIRICK PIEZO ELECTRIC CRYSTAL HOLDER Filed June 7,"19'27 Sept. 4, 1928.
8 carlos Mirza/f @not mq Patented Sept. 4, 1928.y
UNITED STATES PATENT OFFICE.
CARLOS B. MIRICK, OF WASHINGTON, DISTRICT OF COLUMBIA7 ASSIGNOR TO WIRED RADIO, DTC., OF NEW YORK, N. Y., A CORPORATION OF DELAWARE.
Prezo-ELECTRIC CRYSTAL HOLDER.
Application led June 7,
My invention relates broadly to piezo electric crystal holders and more particularly to a piezo electric crystal holder ofunique design such that a plurality of crystals may be 5 mounted in one unit for substitution of any one of the crystals in a circuit for change of wave length.
The object of my invention is to produce a'crystal holder of such compact design that a plurality of crystal holders may be mounted ina single unit in which the individual crystal holders are separate from each other.
Another object of my invention is the production of a clip that may be used with the unit and by which one crystal may be readily substituted in a radio circuit without changing the other constants of the circuit and without appreciable change of apparatus.
Further objects o f my invention will ap- 0 pear more fully hereinafter as the descrip- 'tion of the method and apparatus is develo ed.
y invention consists substantlally 1n the construction, combination and arrangement 5 of parts associated therewith or as will be more fully hereinafter set forth as shown by the accompanying drawings and finally pointed out in the appended clalms.
Reference is to be had to the accompanying D drawings forming a part of this specificatlon in which like reference characters lndlcate corresponding parts throughout the several views and in which:
Figure 1 is a plan view of my lmproved 5 crystal holder,
LFigure 2 lis anl end view of the same. u
Figure 3 is'a sectional view on the line 3--3of Figure 1, o
"Figure 4 isa sectional view on the line 4-4 0 of Figure 1. v
Figure 5 is a view of a plurality of holders mounted in a single unit, and
Figure 6 isa perspective view of the clip used for making contact with any one of the 5 crystals as desired and the connections there- Referring particularly to Figures 1-4. numeral 1 represents'a rectangular frame of 1nsulating material such as bakellte or hard 0 rubber. Upon the opposite surfaces of the .rectangular frame 1 are mounted bevelled retainer strips 2 and 3 that are held ln'place by screws 4 and form grooves into which are fitted the metallic cover plates 5 and 6. Platel 'Th 1927. Serial No. 197,138.
5 is a solid plate bent up at the end as shown at 7 and forms one electrode for the piezo electric crystal 8 that rests firmly thereon.
VSurrounding the crystal is a retainer plate 9 of insulating material. This retainer plate is so designed that the crystal is firmly held in position relative to any horizontal movement over the cover plate 5.
The cover plate 5 has an aperture in its central portion that is somewhat larger than the crystal itself but smaller than the internal periphery of the frame 1. Upon the inner side ofthe plate is mounted an arcuate spring member 1() that is firmly held in position relative to the plate by means of pins 11 riveted to the ends of the arcuate member and engaging holes 12 in the cover plate. Upon the center of the arcuate member 10 there is pivotally mounted an electrode plate 13 that engages the surface of the crystal 8. By means of the pivotal connection 13' the electrode plate 13 exerts an even pressure over the surface of the crystal which in turn exerts an even distributed pressure upon the cover plate 5 which serves as the other electrode for the crystal.
In order that possible poor contact of the pivotal connection to the electrode plate 13 and the contacts at the points 11 and 12 will not introduce resistance in the circuit a pigtail connection 14 is made from the cover plate 6 directly to the electrode plate. Over the opening in the cover plate 6 there is a piece of transparent material 15 such as celluloid or the like inlaid in the surface of the cover plate. or held in position thereon by a dovetail groove machined in the surface of the plate and allowing ready removal of the window. Bv this structure I have developed a crvstal holder that is dust proof and constitutes substantially a moisture proof container for the crystal that rigidly holds the crystal in place and allows transportation without danger of breakage.
Referring to Figure 5, numeral 15 represents a miniature cabinet made of insulating material. in the sides 16 of which are a plurality of .double grooves 17. These double grooves' constitute an inner groove 18 and an outer groove 19. The width of the cabinet is such that the crystal holder described with reference to Figures 1 to 4 fits between the sides of the cabinet within the inner grooves. e crystal holders are placed in the cabinet with the bent up ends 7 engaging the grooves 18. In this manner the individual crystal holders are locked in a closed position.
The outer grooves 19 lie within the inner grooves 18 and constitute a passage way for the terminals 2O of the clip 21, Flgure 6, to make contact with the bent up ends 7 of the cover plates and in this manner make electrical Contact with tlfe crystal. The unit when filled with a number of crystal holders is then completed by the insertion of a retainer strip 22 d-ovetailed into the top 23 and the bottom 24 of the cabinet.
Referring particularly to Figure 6 that represents the clip that I devised to use with the above described unit, numeral 25 repre,
sents the body portion that .is of such size that it fits snugly within the double grooves 17 of the cabinet. Along the sides of the body portion are inlaid the metallic spring clips 20 that snugly fit the inner grooves 18 of the double grooves 17 and make electrical contact with thebent up ends 7 of the cover plates.
The electrical leads 27v for the spring clips consist of flexible wires sewn into a flexible strip 28, which is firmly fastened to the body portion 25 of the clip. The electrical-terminals of the leads consist of the usual circular binding clips 29 soldered to the ends of the flexible wires.
In a unit of this type it is possible to arrange a series of crystal holders containing crystals that have a fundamental frequency of any predetermined value, such as 10 kilocycles difference, or any other value of desired wave lengths. By the'mere shifting of the clip 25 from one groove to another the frequency of the transmitter or of the apparatus inwhich the crystal control of the frequency is utilized. is changed without affecting the other constants of the circuit.
It will be understood that theabove description and accompanying drawings comprehend only the general and preferred embodiment'of my invention and that minor detail changes in the construction and arrangement of parts may be made within the scope of the appended claims without sacrificing any of the advantages of my invention.
Having thus described my invention what I claim is:
1. In a piezo electric crystal holder, the combination ofa frame having grooves recessed in its faces, a crystal-andelectrodes therefor within the frame, and metallic cover plates insertedwithin the grooves and having bent up ends, saidbent up ends constituting electrical contacts for the electrodes of the crystal.
2. In a piezo electric crystal holder, the combination of a frame having grooves recessed in its faces, a crystal and electrodes therefor within the frame andmetallic cover plates inserted within the grooves and having bent up ends, said bent up ends conforming in contour with the sides of the frame and constituting electrical contacts for the electrodes of the crystal. l
3. In a piezo-electric crystal holder, the combination of a frame having grooves recessed in its faces, a crystal and electrodes therefor within the frame and metallic cover plates removably inserted within the grooves and having bent up ends, said bent up ends conforming in contour with the sides of the frame and constituting electrical contacts for the electrodes of the crystal.
4. In a piezo electric crystal holder, the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces, a piezo electric crystal within the frame, said metallic cover plate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement of the crystal over the surface of the said cover plate, an electrode engaging the other surface of the crystal, a second cover plate removably inserted in the other grooved face of the frame and resilient means between the cover plate and the electrode for maintaining an even pressure of the crystal upon the electrode coverplate and for maintaining an evlen pressure of the electrode upon the crysta 5. In a piezo electric crystal holder, the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces, a piezo electric crystal within the frame, said metallic cover plate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement of the crystal over the surface of the said cover plate, an electrode engaging the other surface of the crystal, a second cover plate removably inserted in the other grooved face of the frame and resilient means between the cover plate and the electrode for maintaining an even pressure of the crystal upon the electrode cover plate and for maintaining an even pressure of the electrode upon the crystal, said resilient means consisting of an arcuate spring member the center of which engages the electrode and the ends of which engage the second mentioned cover plate.
6. In a piezo electric crystal holder, the combination of a fra-me having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces` a piezo elect-ric crystal within the frame, said metallic cover plate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement o the crystal over the surface of the said cover plate, an electrode engaging theV other surface of the crystal, a second cover plate removably inserted in the other of the frame and resilient means between the grooved face cover plate and the electrode for maintaining an even pressure of the crystal upon the electrode cover plate and for maintaining an even pressure of the electrode upon the crystal, said resilient means consisting of an arcuate spring member the center of which pivotall enga es the electrode and the ends of whicli are Xed under slight pressure.
7. In a piezo electric crystal holder, the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the grooved faces, a piezo electric cr stal within the frame, said metallic cover p ate constituting one electrode for the crystal, a retainer plate within the frame for preventing lateral movement of the crystal over the surface of the said cover plate, an electrode engaging the other surface of the crystal, a second cover plate removably inserted in the other grooved face of the frame and resilient means between the vcover plate and the electrode for maintaining an even pressure of the crystal upon the electrode cover plate and for maintaining an even pressure of the electrode upon the crystal, said resilient means consisting of an arcuate spring member t-he center of which pivotall engages the electrode and the ends of whic are fixed under slight pressure, and means for establishing positive electrical contact between the electrode and the secondmentioned cover late.
8'. In a piezo electric vcrystal holder, the combination of a frame having grooves recessed in its faces, a metallic cover plate removably inserted in one of the ooved faces,
a piezo electric cr stal within t e frame, said Y metallic cover p ate constituting one electrode for the crystal, a retainer plate within the frame for reventing lateral movement of the crysta over the surface of the said cover plate, an electrode -engaging the other surface of the crystal, ao second cover late having a transparent window there- 1n removably inserted in the other grooved face of the frame and resilient means be-' tween the cover plate and the electrode for maintainlng an even pressure of the crystal upon the electrode cover plate and for mainpressure of theelectrode upon Y tion of a cabinet of'insulating material having a plurality of double grooves in its inner walls, a plurality of crystal holdershaving contact surfaces upon their edges inserte within the grooves and means conforming to the shape of a portion of the rooves for establishing electrical contact w1th the contact surfaces of the crystal holders.
11. In a multiple crystal unit the combination of a cabinet of insulating material having a plurality of double grooves in its inner Walls, a plurality of crystal holders having contact surfaces upon their. edges inserted within the grooves and means conforming to the shape of a portion of the ooves for establishing electrical contact with the Contact surfaces of the crystal holders said means consisting of a clip engaging the entrance portion of the grooves.
12. In a multiple crystal unit the combination of a cabinet of insulating material having a plurality of double grooves in its inner walls, a plurality of crystal holders inserted within the grooves and means conforming to the shape of a portion of the grooves for establishing electrical contact with the contact surfaces of the crystal holders, said means consisting of a clip having a body portion `the edges of which conform to the shape of the grooves.
13. In a multiple crystal l'unit the combination of a cabinet of insulating.. material .hav-A ing a plurality of double grooves in its 'inner walls, a plurality of crystal holders inserted within the grooves and means conforming to' the shape of a portion of the grooves for establishing electrical contact withr the contact surfaces of the crystal holders, said means consisting-of a clip` having a body portion the edges of` whic conform to the shape'of the grooves and metallic terminals attached to the edges ofthe body portion and extending withinl the grooves between the cabinet wall and the contact surfaces of the crystal holder.
- v14:. In a multiple crystal unit the combination of acabinet of insulating material ha'vin 4a -plurality of double grooves in its inner wa ls, a lurality of crystal holders inserted lwithin t e grooves and means conformingl to theshape of a rtion of the grooves for establishing electrlcal cont-act with the contact surfaces of the c stal holders, said means consisting of a ip having a body portion the edges of which conform to the lli) shape of 'the moves and metallic terminals attached to t e edges of the body portion vand extending within the grooves between the cabinet wall and the contact surfaces of the crystal holder, said clip adapted to be removed from one set of said grooves and to be placed in another se't without changing Hthe constants of the circuit in which it is used individual crystal with contact.
CARLOS B'. MIRICK.
US197133A 1927-06-07 1927-06-07 Piezo-electric crystal holder Expired - Lifetime US1683091A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2457563A (en) * 1944-04-10 1948-12-28 Dan W Keller Crystal mounting
US2639393A (en) * 1948-02-26 1953-05-19 Piezo Crystals Ltd Mounting and holder for piezoelectric crystals

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2457563A (en) * 1944-04-10 1948-12-28 Dan W Keller Crystal mounting
US2639393A (en) * 1948-02-26 1953-05-19 Piezo Crystals Ltd Mounting and holder for piezoelectric crystals

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