Method of manufacturing a co-fired flextensional piezoelectric transformer
First Claim
1. A method for manufacturing a piezoelectric transformer comprising the steps of:
- obtaining a first sinterable non-oxide ceramic composition;
obtaining a second sinterable non-oxide ceramic composition;
mixing said first sinterable non-oxide ceramic composition with a first organic binder to form a first ceramic mixture;
mixing said second sinterable non-oxide ceramic composition with a second organic binder to form a second ceramic mixture;
forming a first green shape from said first ceramic mixture, said first green shape having two opposing major faces;
forming a second green shape from said second ceramic mixture, said second green shape having two opposing major faces;
applying a metallization material to at least one major face of each of said first and second green shapes, said metallization material comprising a third binder and a refractory metal;
pressing a metallized major face of said first green shape against a major face of said second green shape to form a green composite structure;
placing said green composite structure in a first atmosphere;
said first atmosphere being oxidizing to said first, second and third binders;
said first atmosphere being non-oxidizing to said refractory metal;
raising a temperature of said green composite structure to a temperature wherein said first, second and third binders thermally decompose;
raising a temperature of said green composite structure to a sintering temperature;
maintaining said sintering temperature until said green composite structure forms a sintered ceramic having two opposing major faces and a rare earth metal electrode;
lowering a temperature of said sintered ceramic from said sintering temperature to room temperature;
applying electrodes to said two opposing major faces of said sintered ceramic; and
polarizing said sintered ceramic to form a piezoelectric transformer.
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Abstract
A method for manufacturing a cofired multi-layer piezoelectric transformer device includes forming first and second green shapes of a sinterable ceramic composition and applying metallization layer therebetween. Upon cofiring, the composite structure comprises first and second electroactive members bonded together by a conductive layer therebetween. External electrodes are applied and the electroactive members are polarized in a thickness direction, between their two major faces. The first and second electroactive members are arranged such that deformation of one electroactive member results in corresponding deformation of the other electroactive member. The device provides substantial transformation ratios in which relatively high power may be transferred in relation to the size of the unit, operability over wide input and output frequency bandwidths, and electrical isolation of the input voltage and current from the output voltage and current.
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Citations
8 Claims
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1. A method for manufacturing a piezoelectric transformer comprising the steps of:
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obtaining a first sinterable non-oxide ceramic composition;
obtaining a second sinterable non-oxide ceramic composition;
mixing said first sinterable non-oxide ceramic composition with a first organic binder to form a first ceramic mixture;
mixing said second sinterable non-oxide ceramic composition with a second organic binder to form a second ceramic mixture;
forming a first green shape from said first ceramic mixture, said first green shape having two opposing major faces;
forming a second green shape from said second ceramic mixture, said second green shape having two opposing major faces;
applying a metallization material to at least one major face of each of said first and second green shapes, said metallization material comprising a third binder and a refractory metal;
pressing a metallized major face of said first green shape against a major face of said second green shape to form a green composite structure;
placing said green composite structure in a first atmosphere;
said first atmosphere being oxidizing to said first, second and third binders;
said first atmosphere being non-oxidizing to said refractory metal;
raising a temperature of said green composite structure to a temperature wherein said first, second and third binders thermally decompose;
raising a temperature of said green composite structure to a sintering temperature;
maintaining said sintering temperature until said green composite structure forms a sintered ceramic having two opposing major faces and a rare earth metal electrode;
lowering a temperature of said sintered ceramic from said sintering temperature to room temperature;
applying electrodes to said two opposing major faces of said sintered ceramic; and
polarizing said sintered ceramic to form a piezoelectric transformer. - View Dependent Claims (2, 3, 4, 5)
before raising a temperature of said green composite structure to a sintering temperature, placing said green composite structure in a second atmosphere;
said second atmosphere being a non-oxidizing atmosphere.
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3. The method for manufacturing a piezoelectric transformer of claim 2, wherein said refractory metal is chosen from the group consisting of:
- Tungsten, Molybdenum, Columbium and Tantalum.
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4. The method for manufacturing a piezoelectric transformer of claim 3, wherein said first atmosphere consists of Hydrogen and water vapor.
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5. The method for manufacturing a piezoelectric transformer of claim 4, further comprising:
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providing a dielectric layer having first and second opposing major faces;
and wherein said step of a pressing a metallized major face of said first green shape against a major face of said second green shape comprises pressing a metallized major face of said first green shape against said first major face of said dielectric layer and pressing a metallized major face of said second green shape against said second major face of said dielectric layer to form a green composite structure.
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6. A method for manufacturing a piezoelectric transformer comprising the steps of:
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obtaining a first sinterable ceramic oxide composition;
obtaining a second sinterable ceramic oxide composition;
mixing said first sinterable ceramic oxide composition with a first organic binder to form a first ceramic mixture;
mixing said second sinterable ceramic oxide composition with a second organic binder to form a second ceramic mixture;
forming a first green shape from said first ceramic mixture, said first green shape having two opposing major faces;
forming a second green shape from said second ceramic mixture, said second green shape having two opposing major faces;
applying a metallization material to at least one major face of each of said first and second green shapes, said metallization material comprising a third binder and a metal having a conductive oxide;
pressing a metallized major face of said first green shape against a major face of said second green shape to form a green composite structure;
placing said green composite structure in an oxidizing atmosphere;
raising a temperature of said green composite structure to a temperature wherein said first second and third binders thermally decompose;
raising a temperature of said green composite structure to a sintering temperature;
maintaining said sintering temperature until said green composite structure forms a sintered ceramic having two opposing major faces and a conductive metal oxide electrode;
lowering a temperature of said sintered ceramic from said sintering temperature to room temperature;
applying electrodes to said two opposing major faces of said sintered ceramic; and
polarizing said sintered ceramic to form a piezoelectric transformer. - View Dependent Claims (7, 8)
providing a dielectric layer having first and second opposing major faces;
and wherein said step of a pressing a metallized major face of said first green shape against a major face of said second green shape comprises pressing a metallized major face of said first green shape against said first major face of said dielectric layer and pressing a metallized major face of said second green shape against said second major face of said dielectric layer to form a green composite structure.
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Specification