Enhanced magnetic loss y-phase hexagonal ferrite for magnetodielectric antenna applications
US-10461436-B2 · Oct 29, 2019 · US
Magnetodielectric y-phase strontium hexagonal ferrite materials formed by sodium substitution
US2019019605A1 · US · A1
| Field | Value |
|---|---|
| Publication number | US-2019019605-A1 |
| Application number | US-201816030375-A |
| Country | US |
| Kind code | A1 |
| Filing date | Jul 9, 2018 |
| Priority date | Oct 24, 2014 |
| Publication date | Jan 17, 2019 |
| Grant date | — |
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Abstract
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Disclosed herein are embodiments of an enhanced resonant frequency hexagonal ferrite material and methods of manufacturing. The hexagonal ferrite material can be Y-phase strontium hexagonal ferrite material. In some embodiments, sodium can be added into the crystal structure of the hexagonal ferrite material in order to achieve high resonance frequencies while maintaining high permeability.
First claim
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1 . (canceled) 2 . A modified sodium substituted strontium hexagonal ferrite comprising: a Y-phase strontium hexagonal ferrite crystal structure including elements strontium, sodium, cobalt, iron, oxygen and one of a tetravalent ion and a trivalent ion, the at least one of the tetravalent ion and the trivalent ion configured to charge balance for the sodium substituting at least partially for the strontium in the crystal structure; and a permeability of between 5 and 6. 3 . The modified sodium substituted strontium hexagonal ferrite of claim 2 wherein the crystal structure contains the trivalent ion. 4 . The modified sodium substituted strontium hexagonal ferrite of claim 3 wherein greater than zero and less than or equal to 1.5 of the trivalent ion is included in the crystal structure. 5 . The modified sodium substituted strontium hexagonal ferrite of claim 3 wherein the trivalent ion is selected from the group consisting of Al, Ga, Sc, Cr, Mn, In, Yb, Er, Y and lanthanide elements. 6 . The modified sodium substituted strontium hexagonal ferrite of claim 5 wherein the trivalent ion is scandium. 7 . The modified sodium substituted strontium hexagonal ferrite of claim 2 wherein the crystal structure contains the tetravalent ion. 8 . The modified sodium substituted strontium hexagonal ferrite of claim 7 wherein greater than zero and less than or equal to 0.75 of the tetravalent ion is included in the crystal structure. 9 . The modified sodium substituted strontium hexagonal ferrite of claim 7 wherein the tetravalent ion is selected from the group consisting of Si, Ge, Ti, Zr, Sn, Ce, Pr, Hf, and Tb. 10 . The modified sodium substituted strontium hexagonal ferrite of claim 2 wherein the modified sodium substituted strontium hexagonal ferrite has a composition Sr 1.75 Na 0.25 Co 1.75 M 0.25 Fe 12 O 22 , M being the trivalent ion. 11 . The modified sodium substituted strontium hexagonal ferrite of claim 2 wherein the modified sodium substituted strontium hexagonal ferrite has a composition Sr 1.5 Na 0.5 Co 1.5 M 0.5 Fe 12 O 22 , M being the trivalent ion. 12 . An antenna comprising: a Y-phase strontium hexagonal ferrite crystal structure including elements strontium, sodium, cobalt, iron, oxygen and one of a tetravalent ion and a trivalent ion, the at least one of the tetravalent ion and the trivalent ion configured to charge balance for the sodium substituting at least partially for the strontium in the crystal structure; and a permeability of between 5 and 6. 13 . The antenna of claim 12 wherein the modified sodium substituted strontium hexagonal ferrite has a composition Sr 1.75 Na 0.25 Co 1.75 M 0.25 Fe 12 O 22 , M being the trivalent ion. 14 . The antenna of claim 12 wherein the modified sodium substituted strontium hexagonal ferrite has a composition Sr 1.5 Na 0.5 Co 1.5 M 0.5 Fe 12 O 22 , M being the trivalent ion. 15 . The antenna of claim 12 wherein the trivalent ion is incorporated into the crystal structure, the trivalent ion being scandium. 16 . A radiofrequency device incorporating the antenna of claim 12 . 17 . A method for improving properties of a hexagonal ferrite material, the method comprising: providing a Y-phase strontium hexagonal ferrite with a crystal structure having strontium, cobalt, iron, and oxygen; substituting at least some of the strontium out of the crystal structure and replacing it with sodium; and charge balancing the hexagonal ferrite material by incorporating one of a tetravalent ion and a trivalent ion into the crystal structure to form a modified hexagonal ferrite material having a permeability of between 5 and 6. 18 . The method of claim 17 wherein the modified hexagonal ferrite has a composition Sr 1.75 Na 0.25 Co 1.75 M 0.25 Fe 12 O 22 , M being the trivalent ion. 19 . The method of claim 17 wherein the modified hexagonal ferrite has a composition Sr 1.5 Na 0.5 Co 1.5 M 0.5 Fe 12 O 22 , M being the trivalent ion. 20 . The method of claim 17 wherein the trivalent ion is incorporated into the crystal structure, the trivalent ion being scandium. 21 . The method of claim 17 further including forming a radiofrequency device from the modified hexagonal material.
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Classifications
Other ferrites containing alkaline earth metals or lead · CPC title
based on ferrites · CPC title
Yttrium oxide or oxide-forming salts thereof · CPC title
in the form of particles {(H01F1/346, H01F1/348 and H01F1/38 take precedence)} · CPC title
Silicon oxide, silicic acids or oxide forming salts thereof, e.g. silica sol, fused silica, silica fume, cristobalite, quartz or flint · CPC title
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- What does patent US2019019605A1 cover?
- Disclosed herein are embodiments of an enhanced resonant frequency hexagonal ferrite material and methods of manufacturing. The hexagonal ferrite material can be Y-phase strontium hexagonal ferrite material. In some embodiments, sodium can be added into the crystal structure of the hexagonal ferrite material in order to achieve high resonance frequencies while maintaining high permeability.
- Who is the assignee on this patent?
- Skyworks Solutions Inc
- What technology area does this patent fall under?
- Primary CPC classification C04B35/2608. Mapped technology areas include Chemistry & Metallurgy.
- When was this patent published?
- Publication date Thu Jan 17 2019 00:00:00 GMT+0000 (Coordinated Universal Time) (A1). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 2 related publications on this page (citations in our corpus or others sharing the same primary CPC).