Multi-band antenna with a common resonant feed structure and methods

US 7,589,678 B2
Filed: 10/05/2006
Issued: 09/15/2009
Est. Priority Date: 10/03/2005
Status: Active Grant

First Claim

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1. A multi-band antenna comprising:

a common junction network having a first radiator and a second radiator, the first radiator being adapted to resonate in a first frequency band and the second radiator being adapted to resonate in a second frequency band; and

a first electrical component coupled to the common junction network, the first electrical component being adapted to create a resonance with the common junction network to provide a third frequency band;

wherein the first radiator is capable of communicating RF energy in the first frequency band and the third frequency band; and

wherein the common junction network comprises a first radio frequency (RF) feed structure that couples to the first radiator, and a second RF feed structure that couples to the second radiator.

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Abstract

A multi-band antenna and associated apparatus for communication systems and other applications. In one embodiment, a common junction network is provided having a first and a second radiator. The first radiator resonates in a first frequency band. The second radiator resonates in a second frequency band. The first and second frequency bands are different from one another (yet may overlap). A first electrical component is coupled to the common junction network and proximately located to the first radiator. The first electrical component creates a resonance with the common junction network to create a third frequency band proximate to the first frequency band. The first radiator is capable of communicating RF energy in the first frequency band and the third frequency band.

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30 Claims

1. A multi-band antenna comprising:
- a common junction network having a first radiator and a second radiator, the first radiator being adapted to resonate in a first frequency band and the second radiator being adapted to resonate in a second frequency band; and
  
  a first electrical component coupled to the common junction network, the first electrical component being adapted to create a resonance with the common junction network to provide a third frequency band;
  
  wherein the first radiator is capable of communicating RF energy in the first frequency band and the third frequency band; and
  
  wherein the common junction network comprises a first radio frequency (RF) feed structure that couples to the first radiator, and a second RF feed structure that couples to the second radiator.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The antenna of claim 1, wherein said third band is substantially proximate in frequency to the first frequency band.
  - 3. The antenna of claim 1, wherein the first frequency band and the second frequency band do not overlap one another.
  - 4. The antenna of claim 3, wherein the first electrical component is located proximate to the first radiator on a substrate.
  - 5. The antenna of claim 1, wherein the first electrical component comprises a charge storage device.
  - 6. The antenna of claim 1, wherein the first radiator and the second radiator comprise a ceramic resonance element that is capable of being tuned in frequency.
  - 7. The antenna of claim 1, wherein the first radiator resonates in a frequency range centered at approximately 850 MHz, and the second radiator resonates in a frequency range centered at approximately 1800 MHz.
  - 8. The antenna of claim 7, wherein the first electrical component creates a resonance having a center frequency of approximately 900 MHz.
  - 9. The antenna of claim 1, wherein the first electrical component is grounded at a first end distal from a second end that is coupled to the common junction network.
  - 10. The antenna of claim 1, wherein the first radiator and the second radiator comprise patch antennas.

11. A multi-band antenna comprising:
- a common junction network having a first radiator and a second radiator, the first radiator being adapted to resonate in a first frequency band and the second radiator being adapted to resonate in a second frequency band;
  
  a first electrical component coupled to the common junction network, the first electrical component being adapted to create a resonance with the common junction network to provide a third frequency band; and
  
  a second electrical component coupled to the common junction network and proximately located to the second radiator, the second electrical component adapted to create a resonance with the common junction network so as to provide a fourth frequency band proximate to the second frequency band;
  
  wherein the first radiator is capable of communicating RF energy in the first frequency band and the third frequency band and the second radiator is capable of communicating radio frequency energy in the second frequency band and the fourth frequency band.
- View Dependent Claims (12)
- - 12. The antenna of claim 11, wherein the fourth frequency band comprises a centerband frequency of approximately 1900 MHz.

13. A method for increasing an effective bandwidth of a multi-band antenna comprising:
- providing at least two radiators that resonate in first and second frequency bands respectively;
  
  connecting an RF feed to the at least two radiators to form a common junction RF network;
  
  connecting a first electrical component along the RF feed proximate to a first radiator of the at least two radiators to add a third frequency band; and
  
  connecting a second electrical component coupled to the common junction RF network and proximately located to a second radiator of the at least two radiators, the second electrical component selected to create a resonance with the common junction RF network to provide a fourth frequency band.
- View Dependent Claims (14, 15, 16)
- - 14. The method of claim 13, wherein said third frequency band is substantially proximate in frequency to at least one of said first and second frequency bands.
  - 15. The method of claim 14, wherein connecting the first electrical component comprises connecting a capacitor at one end to the RF feed proximately located to a first of said at least two radiators.
  - 16. The method of claim 13, wherein providing the at least two radiators comprises providing at least one ceramic resonance element capable of frequency tuning for each of the at least two radiators.

17. A multi-band antenna adapted for use in a mobile wireless device useful in a plurality of wireless networks, the antenna comprising:
- a network having first and second radiating elements resonant in first and second frequency bands, respectively, said network further comprising a first radio frequency (RF) feed structure that couples to the first radiating element and a second RF feed structure that couples to the second radiating element; and
  
  a first electrical component coupled to the network and adapted to create a resonance with the network to provide a third frequency band;
  
  wherein the first radiating element is capable of at least one of transmitting or receiving radio frequency energy in the first frequency band and the third frequency band; and
  
  wherein at least two of the first, second, and third frequency bands comprise bands associated with different air interface standards.
- View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
- - 18. The antenna of claim 17, wherein said at least two air interface standards comprise:
    - (i) a GSM or UMTS related cellular standard; and
      
      (ii) a CDMA cellular standard, respectively.
  - 19. The antenna of claim 17, wherein said at least two air interface standards comprise:
    - (i) a WiFi standard; and
      
      (ii) a Bluetooth standard, respectively.
  - 20. The antenna of claim 17, wherein said third band is substantially proximate in frequency to the first frequency band.
  - 21. The antenna of claim 17, wherein the first frequency band and the second frequency band do not overlap one another.
  - 22. The antenna of claim 21, wherein the first electrical component is located proximate to the first radiator on a substrate.
  - 23. The antenna of claim 17, wherein the first electrical component comprises a charge storage device.
  - 24. The antenna of claim 17, wherein the first radiator and the second radiator comprise a ceramic resonance element that is capable of being tuned in frequency.
  - 25. The antenna of claim 17, wherein the first radiator resonates in a frequency range centered at approximately 850 MHz, and the second radiator resonates in a frequency range centered at approximately 1800 MHz.
  - 26. The antenna of claim 25, wherein the first electrical component creates a resonance having a center frequency of approximately 900 MHz.
  - 27. The antenna of claim 17, wherein the first electrical component is grounded at a first end distal from a second end that is coupled to the common junction network.
  - 28. The antenna of claim 17, wherein the first radiator and the second radiator comprise patch antennas.

29. A wireless mobile device, comprising:
- a processor;
  
  a storage device in signal communication with said processor;
  
  a radio frequency transceiver in signal communication with said processor; and
  
  a multi-band antenna in signal communication with said transceiver, said antenna comprising;
  
  a common junction network having a first radiator and a second radiator, the first radiator being adapted to resonate in a first frequency band and the second radiator being adapted to resonate in a second frequency band, the common junction network further comprising a first radio frequency (RF) feed structure that couples to the first radiator, and a second RF feed structure that couples to the second radiator; and
  
  a first electrical component coupled to the common junction network, the first electrical component being adapted to create a resonance with the common junction network to provide a third frequency band;
  
  wherein the first radiator is capable of communicating RF energy in the first frequency band and the third frequency band.

30. A multi-band radio frequency identification device (RFID) device, comprising:
- a processor;
  
  a storage device in communication with said processor and adapted to store information substantially unique to said RFID device;
  
  a transceiver;
  
  a substantially flexible substrate; and
  
  a multi-band antenna in signal communication with said transceiver, said antenna comprising;
  
  a common junction network having a first radiator and a second radiator, the first radiator being adapted to resonate in a first frequency band and the second radiator being adapted to resonate in a second frequency band, the common junction network further comprising a first radio frequency (RF) feed structure that couples to the first radiator, and a second RF feed structure that couples to the second radiator; and
  
  a first electrical component coupled to the common junction network, the first electrical component being adapted to create a resonance with the common junction network to provide a third frequency band;
  
  wherein the first radiator is capable of communicating RF energy in the first frequency band and the third frequency band.

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Current Assignee
Pulse Finland Oy (Yageo Corporation)
Original Assignee
Pulse Finland Oy (Yageo Corporation)
Inventors
Koskiniemi, Kimmo, Perunka, Jari
Primary Examiner(s)
PHAN, THO GIA

Application Number

US11/544,173
Publication Number

US 20070159399A1
Time in Patent Office

1,076 Days
Field of Search

343/700.MS, 343/702
US Class Current

343/702
CPC Class Codes

E04F 2290/026   for lighting

G08B 7/066   guiding along a path, e.g. ...

G09F 13/20   with luminescent surfaces o...

G09F 19/22   Advertising or display mean...

H01Q 1/243   with built-in antennas

H01Q 21/28   Combinations of substantial...

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

Multi-band antenna with a common resonant feed structure and methods

First Claim

3 Assignments

0 Petitions

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Abstract

95 Citations

30 Claims

Specification

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Multi-band antenna with a common resonant feed structure and methods

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

95 Citations

30 Claims

Specification

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Use Cases

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Others