Dielectric Resonator, Assembly Method Thereof and Dielectric Filter
US-2015364808-A1 · Dec 17, 2015 · US
Tunable resonators using high dielectric constant ferrite rods
US10181632B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-10181632-B2 |
| Application number | US-201414572402-A |
| Country | US |
| Kind code | B2 |
| Filing date | Dec 16, 2014 |
| Priority date | Dec 18, 2013 |
| Publication date | Jan 15, 2019 |
| Grant date | Jan 15, 2019 |
How to read this patent
A practical reading order for non-experts. Skip the full description unless you need deep technical detail.
- Title
What the patent document calls the invention.
- Abstract
A short plain-language summary of the technical disclosure.
- Assignees and inventors
Who owns or filed the patent and who is credited as inventor.
- Key dates
Filing, priority, publication, and grant dates set the timeline.
- First independent claim
The legal scope of protection — read this for what is actually claimed.
- CPC / IPC classifications
Technology tags used to group this patent with similar filings.
- Citations and related patents
Prior art links and similar publications in this corpus.
Abstract
Official abstract text for this publication.
Disclosed are single-piece magnetically tunable ferrite rods that can be used for radio-frequency (RF) applications, and methods of manufacturing the resonators using synthetic garnets. In some embodiments, a separate tuner need not be used in the resonator during magnetic tuning. Examples of fabrication methods and RF-related properties are also disclosed.
First claim
Opening claim text (preview).
What is claimed is: 1. A tunable resonator system comprising: a cavity; a single-piece high-dielectric resonator including a tunable magnetic element formed out of one material and located within the cavity, the single-piece high-dielectric resonator having a dielectric constant of at least 20, a diameter d of 0.09≤d≤0.11 inches, and a height h of 0.09≤h≤0.11 inches; and an adjustable magnetic field. 2. The tunable resonator system of claim 1 wherein the resonator has millisecond tuning. 3. The tunable resonator system of claim 1 wherein the resonator has micro-second tuning. 4. The tunable resonator system of claim 1 wherein the single-piece high-dielectric resonator has a dielectric constant of 26.7. 5. The tunable resonator system of claim 1 wherein the resonator is a TE mode resonator. 6. The tunable resonator system of claim 1 wherein the resonator is a TM mode resonator. 7. The tunable resonator system of claim 1 wherein the material is a synthetic garnet. 8. The tunable resonator system of claim 7 wherein the synthetic garnet is Bi x Ca y+2x Y 3−x−y−2z Fe 5−y−z Zr y V z O 12 . 9. The tunable resonator system of claim 7 wherein the synthetic garnet is Bi x Y 3−x−0.35 Ca 0.35 Zr 0.35 Fe 4.65 O 12 . 10. The tunable resonator system of claim 7 wherein the synthetic garnet is Bi(Y,Ca) 2 Fe 4.2 M I 0.4 M II 0.4 O 12 . 11. The tunable resonator system of claim 7 wherein the synthetic garnet is Y 2.15−2x Bi 0.5 Ca 0.35+2x Zr 0.35 V x Fe 4.65−x O 12 . 12. The tunable resonator system of claim 7 wherein the synthetic garnet is Bi 0.9 Ca 0.9x Y 2.1−0.9x (Zr 0.7 Nb 0.1 ) x Fe 5−0.8x O 12 . 13. The tunable resonator system of claim 7 wherein the synthetic garnet is Bi 0.9 Ca 0.9+2x Y 2.1−0.9−2x Zr 0.7 Nb 0.1 V x Fe 4.2−x O 12 . 14. The tunable resonator system of claim 7 wherein the synthetic garnet is Bi 1.4 Ca 0.55+2x Y 1.05−2x Zr 0.55 V x Fe 4.45−x O 12 . 15. The tunable resonator system of claim 7 wherein the synthetic garnet is Y 2 CaFe 4.4 Zr 0.4 Mo 0.2 O 12 . 16. The tunable resonator system of claim 7 wherein the synthetic garnet is a material selected from the group consisting of BiY 2 Fe 4.6 In 0.4 O 12 , BiCa 0.4 Y 1.6 Fe 4.6 Zr 0.4 O 12 , BiCa 0.4 Y 1.6 Fe 4.6 Ti 0.4 O 12 , BiCa 0.8 Y 1.2 Fe 4.6 Sb 0.4 O 12 , BiY 2 Fe 4.6 Ga 0.4 O 12 , BiCa 1.2 Y 0.8 Fe 4.2 In 0.4 Mo 0.4 O 12 , BiY 1.2 Ca 0.8 Fe 4.2 Zn 0.4 Mo 0.4 O 12 , BiY 1.2 Ca 0.8 Fe 4.2 Mg 0.4 Mo 0.4 O 12 , BiY 0.4 Ca 1.6 Fe 4.2 Zr 0.4 Mo 0.4 O 12 , BiY 0.4 Ca 1.6 Fe 4.2 Sn 0.4 Mo 0.4 O 12 , BiCa 2 Fe 4.2 Ta 0.4 Mo 0.4 O 12 , BiCa 2 Fe 4.2 Nb 0.4 Mo 0.4 O 12 , BiY 0.8 Ca 1.2 Fe 4.6 Mo 0.4 O 12 , and BiY 0.4 Ca 1.6 Fe 4.2 Ti 0.4 Mo 0.4 O 12 . 17. An antenna system comprising: an antenna; a subsystem; a converter; and at least one filter having a single-piece high-dielectric resonator including a tunable magnetic element formed out of one material, the single-piece high-dielectric resonator having a dielectric constant of at least 20, a diameter d of 0.09≤d≤0.11 inches, and a height h of 0.09≤h≤0.11 inches. 18. The antenna system of claim 17 wherein the material is a synthetic garnet. 19. The antenna system of claim 18 wherein the synthetic garnet is a material selected from the group consisting of BiY 2 Fe 4.6 In 0.4 O 12 , BiCa 0.4 Y 1.6 Fe 4.6 Zr 0.4 O 12 , BiCa 0.4 Y 1.6 Fe 4.6 Ti 0.4 O 12 , BiCa 0.8 Y 1.2 Fe 4.6 Sb 0.4 O 12 , BiY 2 Fe 4.6 Ga 0.4 O 12 , BiCa 1.2 Y 0.8 Fe 4.2 In 0.4 Mo 0.4 O 12 , BiY 1.2 Ca 0.8 Fe 4.2 Zn 0.4 Mo 0.4 O 12 , BiY 1.2 Ca 0.8 Fe 4.2 Mg 0.4 Mo 0.4 O 12 , BiY 0.4 Ca 1.6 Fe 4.2 Zr 0.4 Mo 0.4 O 12 , BiY 0.4 Ca 1.6 Fe 4.2 Sn 0.4 Mo 0.4 O 12 , BiCa 2 Fe 4.2 Ta 0.4 Mo 0.4 O 12 , BiCa 2 Fe 4.2 Nb 0.4 Mo 0.4 O 12 , BiY 0.8 Ca 1.2 Fe 4.6 Mo 0.4 O 12 , and BiY 0.4 Ca 1.6 Fe 4.2 Ti 0.4 Mo 0.4 O 12 . 20. A tunable resonator comprising a single-piece high-dielectric resonator including a tunable magnetic element, the resonator and tunable magnetic element being formed out of a single synthetic garnet material selected from the group consisting of Bi x Y 3−x−0.35 Ca 0.35 Zr 0.35 Fe 4.65 O 12 , Bi(Y,Ca) 2 Fe 4.2 M I 0.4 M II 0.4 O 12 , Y 2.15−2x Bi 0.5 Ca 0.35+2x Zr 0.35 V x Fe 4.65−x O 12 , Bi 0.9 Ca 0.9x Y 2.1−0.9x (Zr 0.7 Nb 0.1 ) x Fe 5−0.8x O 12 , Bi 0.9 Ca 0.9+2x Y 2.1−0.9−2x , Zr 0.7 Nb 0.1 V x Fe 4.2−x O 12 , Bi 1.4 Ca 0.55+2x Y 1.05−2x Zr 0.55 V x Fe 4.45−x O 12 , and Y 2 CaFe 4.4 Zr 0.4 Mo 0.2 O 12 and having a dielectric constant of at least 20, a diameter d of 0.09≤d≤ and 0.11 inches, and a height h of 0.09≤h≤0.11 inches.
Assignees
Inventors
Classifications
Zirconium oxides, zirconates, hafnium oxides, hafnates, or oxide-forming salts thereof · CPC title
Vanadium oxides, vanadates or oxide forming salts thereof, e.g. magnesium vanadate · CPC title
- H01P7/10Primary
Dielectric resonators · CPC title
Niobium oxides, niobates, tantalum oxides, tantalates, or oxide-forming salts thereof · CPC title
Bismuth oxides, bismuthates or oxide forming salts thereof, e.g. zinc bismuthate · CPC title
Patent family
Related publications grouped by family.
External sources
Frequently asked questions
Answers are generated from the same data shown on this page.
- What does patent US10181632B2 cover?
- Disclosed are single-piece magnetically tunable ferrite rods that can be used for radio-frequency (RF) applications, and methods of manufacturing the resonators using synthetic garnets. In some embodiments, a separate tuner need not be used in the resonator during magnetic tuning. Examples of fabrication methods and RF-related properties are also disclosed.
- Who is the assignee on this patent?
- Skyworks Solutions Inc
- What technology area does this patent fall under?
- Primary CPC classification H01P7/10. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Tue Jan 15 2019 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 8 related publications on this page (citations in our corpus or others sharing the same primary CPC).