Antenna loaded with electromechanical resonators

US 11,145,982 B2
Filed: 06/29/2017
Issued: 10/12/2021
Est. Priority Date: 06/30/2016
Status: Active Grant

First Claim

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1. An antenna system comprising:

a. at least one active element having a first end for connection to a radio receiver, transmitter or transceiver; and

b. at least one electromechanical resonator connected in series between at least one portion of said at least one active element and at least another portion of said at least one active element, wherein the at least one electromechanical resonator exhibits both a series resonance and a parallel resonance, wherein one of said series and parallel resonances is at a frequency higher than an intended frequency of operation of the antenna system and the other of said series and parallel resonances is at a frequency lower than an intended frequency of operation of the antenna system.

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Abstract

An antenna system having at least one active element with a first end thereof for connection to a radio receiver, transmitter or transceiver and at least one electromechanical resonator connected in series with (i) at least portion of said at least one active element and at least another portion of said at least one active element or (ii) said at least one active element and said radio receiver, transmitter or transceiver. The at least one active element exhibits capacitive reactance at an intended frequency of operation and the at least one electromechanical resonator exhibits inductive reactance at the intended frequency of operation, the inductive reactance of the at least one electromechanical resonator offsetting or partially offsetting the capacitive reactance of the at least one antenna element at the intended frequency of operation.

33 Citations

28 Claims

1. An antenna system comprising:
- a. at least one active element having a first end for connection to a radio receiver, transmitter or transceiver; and
  
  b. at least one electromechanical resonator connected in series between at least one portion of said at least one active element and at least another portion of said at least one active element, wherein the at least one electromechanical resonator exhibits both a series resonance and a parallel resonance, wherein one of said series and parallel resonances is at a frequency higher than an intended frequency of operation of the antenna system and the other of said series and parallel resonances is at a frequency lower than an intended frequency of operation of the antenna system.
- View Dependent Claims (2, 3, 5, 6, 7, 8, 9, 12, 13, 14)
- - 2. The antenna system of claim 1 wherein said at least one active element of the antenna system exhibits capacitive reactance at the intended frequency of operation of the antenna system and wherein said at least one electromechanical resonator exhibits inductive reactance at the intended frequency of operation of the antenna system, the inductive reactance of the at least one electromechanical resonator offsetting or substantially offsetting the capacitive reactance of the at least one antenna element at the intended frequency of operation of the antenna system.
  - 3. The antenna system of claim 2 wherein the electromechanical resonator is not resonant at the intended frequency of operation of the antenna system.
  - 5. The antenna system of claim 1 wherein said at least one electromechanical resonator comprises a two dimensional array of electromechanical resonators.
  - 6. The antenna system of claim 1 wherein said at least one electromechanical resonator comprises a plurality of electromechanical resonators connected in series with different portions of said at least one active element.
  - 7. The antenna system of claim 6 wherein each of said plurality of electromechanical resonators is tuned to present a positive reactance for cancelling (or at least partially offsetting) a capacitive reactance of the at least one active element.
  - 8. The antenna system of claim 7 wherein the resonator exhibiting at frequencies between the series resonance and the parallel resonance a positive reactance thereby causing the electromechanical resonator to effectively behave like an inductor over a frequency range between said series and parallel resonance frequencies.
  - 9. The antenna system of claim 1 wherein antenna system in use operates over a frequency range between the series resonance and the parallel resonance of said at least one electromechanical resonator.
  - 12. The antenna system of claim 1 wherein said at least one electromechanical resonator comprises at least one electromechanical resonator selected from the group consisting of tuning fork resonators, shear mode resonators, extensional mode resonators and Bulk Acoustic Wave resonators.
  - 13. The antenna system of claim 1 wherein said at least one electromechanical resonator comprises a Micro Electro-Mechanical System (MEMS) device.
  - 14. The antenna system of claim 1 wherein said at least one electromechanical resonator includes a piezoelectric crystal for coupling applied voltages to mechanical modes and wherein the piezoelectric crystal is selected from the group consisting of quartz, AlN or LiNbO₃.

4. An antenna system comprising:
- a. at least one active element having a first end for connection to a radio receiver, transmitter or transceiver; and
  
  b. at least one electromechanical resonator connected in series between at least one portion of said at least one active element and at least another portion of said at least one active element, said at least one active element of the antenna system exhibits capacitive reactance at an intended frequency of operation and wherein said at least one electromechanical resonator exhibits inductive reactance at the intended frequency of operation, the inductive reactance of the at least one electromechanical resonator offsetting or substantially offsetting the capacitive reactance of the at least one antenna element at the intended frequency of operation, said at least one active element of the antenna system also exhibits both a series resonance and parallel resonance, the series and parallel resonances having different resonant frequencies and wherein the electromechanical resonator is not resonant at an intended frequency of operation of the antenna system wherein one of said series and parallel resonances is at a frequency higher than an intended frequency of operation of the antenna system and the other of said series and parallel resonances is at a frequency lower than an intended frequency of operation of the antenna system.

10. An antenna system comprising:
- at least one active element having a first end for connection to a radio receiver, transmitter or transceiver; and
  
  at least one electromechanical resonator connected in series between at least one portion of said at least one active element and at least another portion of said at least one active elementwherein said at least one electromechanical resonator comprises a first electromechanical resonator connected in series between at least a portion of said at least one active element and at least another portion of said at least one active element, the first electromechanical resonator having both series and parallel resonance frequencies, the first electromechanical resonator exhibiting at frequencies between the series and parallel resonance frequencies a positive reactance thereby causing the first electromechanical resonator to effectively behave like an inductor over a frequency range between said series and parallel resonance frequencies, the positive reactance of the first electromechanical resonator offsetting or at least partially offsetting a negative reactance of said at least one active element.

11. An antenna system comprising:
- at least one active element having a first end for connection to a radio receiver, transmitter or transceiver;
  
  at least one electromechanical resonator connected in series between at least one portion of said at least one active element and at least another portion of said at least one active element; and
  
  further including at least one additional electromechanical resonator connected in series between said at least one active element and said radio receiver, transmitter or transceiver, the at least one additional electromechanical resonator exhibiting both a series resonance and a parallel resonance, wherein one of said series and parallel resonances is at a frequency higher than an intended frequency of operation of the antenna system and the other of said series and parallel resonances is at a frequency lower than an intended frequency of operation of the antenna system.

15. An antenna system comprising:
- at least one active element having a first end for connection to a radio receiver, transmitter or transceiver; and
  
  at least one electromechanical resonator connected in series between at least one portion of said at least one active element and at least another portion of said at least one active element, wherein at VLF and LF bands tuning fork resonators are utilized for said at least one electromechanical resonator, while at MF and HF bands extensional mode resonators are utilized for said at least one electromechanical resonator, while at VHF and UHF frequencies shear mode resonators are utilized for said at least one electromechanical resonator and while at L- to C-band frequencies Bulk Acoustic Wave resonators are utilized for said at least one electromechanical resonator.

16. An antenna system comprising:
- a. at least one active or driven element having a first end for connection to a radio receiver, transmitter or transceiver said at least one active or driven element of the antenna system exhibits capacitive reactance at an intended frequency of operation; and
  
  b. at least one piezoelectric crystal type electromechanical resonator connected in series between said at least one active or driven element and said radio receiver, transmitter or transceiver wherein the at least one piezoelectric crystal type electromechanical resonator exhibits both a series resonance and parallel resonance, the series and parallel resonances having different resonant frequencies and wherein one of said series and parallel resonances is at a frequency higher than an intended frequency of operation of the antenna system and the other of said series and parallel resonances is at a frequency lower than an intended frequency of operation of the antenna system.
- View Dependent Claims (17, 18, 19, 20, 21, 23, 24, 25, 26, 27)
- - 17. The antenna system of claim 16 wherein said at least one active or driven element of the antenna system exhibits capacitive reactance at an intended frequency of operation and wherein said at least one piezoelectric crystal type electromechanical resonator exhibits inductive reactance at the intended frequency of operation, the inductive reactance of the at least one piezoelectric crystal type electromechanical resonator offsetting or substantially offsetting the capacitive reactance of the at least one antenna element at the intended frequency of operation.
  - 18. The antenna system of claim 17 wherein the electromechanical resonator is not resonant at an intended frequency of operation of the antenna system.
  - 19. The antenna system of claim 16 wherein said at least one piezoelectric crystal type electromechanical resonator comprises a two dimensional array of piezoelectric crystal type electromechanical resonators.
  - 20. The antenna system of claim 16 wherein said at least one piezoelectric crystal type electromechanical resonator includes a plurality of piezoelectric crystal type electromechanical resonators connected in series between different portions of said at least one active element.
  - 21. The antenna system of claim 20 wherein each of said plurality of piezoelectric crystal type electromechanical resonators is tuned to present a positive reactance for cancelling (or at least partially offsetting) a capacitive reactance of the at least one active element.
  - 23. The antenna system of claim 16 wherein said at least one piezoelectric crystal type electromechanical resonator includes an additional piezoelectric crystal type electromechanical resonator connected in series between at least a portion of said at least one active or driven element and at least another portion of said at least one active or driven element, the additional piezoelectric crystal type electromechanical resonator having both series and parallel resonance frequencies, the additional piezoelectric crystal type electromechanical resonator exhibiting at frequencies between the series and parallel resonance frequencies a positive reactance thereby causing the additional piezoelectric crystal type electromechanical resonator to effectively behave like an inductor over a frequency range between said series and parallel resonance frequencies, the positive reactance of the additional piezoelectric crystal type electromechanical resonator offsetting or at least partially offsetting a negative reactance of said at least one active or driven element.
  - 24. The antenna system of claim 16 further including at least one additional piezoelectric crystal type electromechanical resonator connected in series between said at least one active or driven element and said radio receiver, transmitter or transceiver.
  - 25. The antenna system of claim 16 wherein said at least one piezoelectric crystal type electromechanical resonator comprises at least one piezoelectric crystal type electromechanical resonator selected from the group consisting of tuning fork resonators, shear mode resonators, extensional mode resonators and Bulk Acoustic Wave resonators.
  - 26. The antenna system of claim 16 wherein said at least one piezoelectric crystal type electromechanical resonator comprises a Micro Electro-Mechanical System (MEMS) device.
  - 27. The antenna system of claim 16 wherein said at least one piezoelectric crystal type electromechanical resonator includes a piezoelectric crystal for coupling applied voltages to mechanical modes and wherein the piezoelectric crystal is selected from the group consisting of quartz, AlN or LiNbO₃.

22. An antenna system comprising:
- at least one active or driven element having a first end for connection to a radio receiver, transmitter or transceiver said at least one active or driven element of the antenna system exhibits capacitive reactance at an intended frequency of operation; and
  
  at least one piezoelectric crystal type electromechanical resonator connected in series between said at least one active or driven element and said radio receiver, transmitter or transceiver, wherein each of said plurality of piezoelectric crystal type electromechanical resonators has both series and parallel resonance frequencies, the resonator exhibiting at frequencies between the series and parallel resonance frequencies a positive reactance thereby causing the electromechanical resonator to effectively behave like an inductor over a frequency range between said series and parallel resonance frequencies and wherein antenna system in use operates over said frequency range between the series and parallel resonance frequencies of each of said electromechanical resonators.

28. An antenna system comprising:
- at least one active or driven element having a first end for connection to a radio receiver, transmitter or transceiver said at least one active or driven element of the antenna system exhibits capacitive reactance at an intended frequency of operation; and
  
  at least one piezoelectric crystal type electromechanical resonator connected in series between said at least one active or driven element and said radio receiver, transmitter or transceiver;
  
  wherein at VLF and LF bands tuning fork resonators are utilized for said at least one piezoelectric crystal type electromechanical resonator, while at MF and HF bands extensional mode resonators are utilized for said at least one piezoelectric crystal type electromechanical resonator, while at VHF and UHF frequencies shear mode resonators are utilized for said at least one piezoelectric crystal type electromechanical resonator and while at L- to C-band frequencies Bulk Acoustic Wave resonators are utilized for said at least one piezoelectric crystal type electromechanical resonator.

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Current Assignee
HRL Laboratories LLC (The Boeing Co.)
Original Assignee
HRL Laboratories LLC (The Boeing Co.)
Inventors
Wall, Walter S., Song, Hyok J., Kubena, Randall L., White, Carson R.
Primary Examiner(s)
Smith, Graham P
Assistant Examiner(s)
Kim, Jae K

Application Number

US15/638,052
Publication Number

US 20180198211A1
Time in Patent Office

1,566 Days
Field of Search
US Class Current
CPC Class Codes

H01Q 1/34   Adaptation for use in or on...

H01Q 1/36   Structural form of radiatin...

H01Q 13/106   Microstrip slot antennas pa...

H01Q 13/18   the slot being backed by, o...

H01Q 23/00   Antennas with active circui...

H01Q 5/321   within a radiating element ...

H01Q 5/357   using a single feed point

H01Q 5/50   Feeding or matching arrange...

H01Q 9/0421   with a shorting wall or a s...

H01Q 9/0442   with particular tuning means

H01Q 9/065   Microstrip dipole antennas ...

H01Q 9/16   with feed intermediate betw...

H01Q 9/30   with feed to end of elongat...

H04B 1/0458   Arrangements for matching a...

H04B 1/18   Input circuits, e.g. for co...

Antenna loaded with electromechanical resonators

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

33 Citations

28 Claims

Specification

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Antenna loaded with electromechanical resonators

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

33 Citations

28 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links