Loop antenna with impedance matching

US 8,736,500 B1
Filed: 08/05/2009
Issued: 05/27/2014
Est. Priority Date: 08/05/2009
Status: Expired due to Fees

First Claim

Patent Images

1. An antenna apparatus, comprising:

a base;

an antenna element having a balanced RF output having a nominal impedance of 300 ohms, and operable to receive RF signals within a first band of frequencies;

a mount engaged with said base, and adapted to rotatable support said antenna about an axis of rotation;

a balun having a balanced RF input and an unbalanced RF output, and having an impedance ratio of 4;

1 therebetween, which provides a nominal impedance transformation from 300 ohms to 75 ohms, said unbalanced output coupled to a circuit having a circuit impedance of 50 ohms;

a feed line coupled between said balanced RF output and said balanced RF input, and whereinsaid feed line comprises two electrical conductors having a predetermined length of 75 millimeters and aligned substantially in parallel, and supportively spaced apart a predetermined distance of 5 millimeters by plural insulators, said feed line further arranged to maintain said predetermined distance between said two electrical conductors as said antenna element rotates with respect to said base, and whereinsaid predetermined length and said predetermined distance are selected to yield a narrow range of impedances within said first band of frequencies that are substantially centered about said circuit impedance of 50 ohms after being multiplied by said 4;

1 impedance ratio, thereby enabling efficient coupling of said RF signals from said balanced RF output having a nominal impedance of 300 ohms to said circuit having a circuit impedance of 50 ohms.

View all claims

13 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

An antenna apparatus that has a base and an antenna element with a balanced RF output, which receives RF signals within a first band of frequencies. The apparatus includes a mount engaged with the base that rotatably supports the antenna about an axis of rotation. The apparatus has a balun with a balanced RF input and an unbalanced RF output. A feed line is coupled between the balanced RF output and the balanced RF input. The feed line includes two electrical conductors that have a predetermined length and that are aligned substantially in parallel, and supportively spaced apart a predetermined distance by plural insulators. The feed line is further arranged to maintain the predetermined distance between the two electrical conductors as the antenna element rotates with respect to the base. The predetermined length and the predetermined distance are selected to yield a narrow range of impedances within the first band of frequencies as measured at the unbalanced RF output of the balun, which enables efficient coupling of the RF signals from the unbalanced RF output of the balun.

51 Citations

View as Search Results

14 Claims

1. An antenna apparatus, comprising:
- a base;
  
  an antenna element having a balanced RF output having a nominal impedance of 300 ohms, and operable to receive RF signals within a first band of frequencies;
  
  a mount engaged with said base, and adapted to rotatable support said antenna about an axis of rotation;
  
  a balun having a balanced RF input and an unbalanced RF output, and having an impedance ratio of 4;
  
  1 therebetween, which provides a nominal impedance transformation from 300 ohms to 75 ohms, said unbalanced output coupled to a circuit having a circuit impedance of 50 ohms;
  
  a feed line coupled between said balanced RF output and said balanced RF input, and whereinsaid feed line comprises two electrical conductors having a predetermined length of 75 millimeters and aligned substantially in parallel, and supportively spaced apart a predetermined distance of 5 millimeters by plural insulators, said feed line further arranged to maintain said predetermined distance between said two electrical conductors as said antenna element rotates with respect to said base, and whereinsaid predetermined length and said predetermined distance are selected to yield a narrow range of impedances within said first band of frequencies that are substantially centered about said circuit impedance of 50 ohms after being multiplied by said 4;
  
  1 impedance ratio, thereby enabling efficient coupling of said RF signals from said balanced RF output having a nominal impedance of 300 ohms to said circuit having a circuit impedance of 50 ohms.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The apparatus of claim 1, further comprising:
    - a rotational stop disposed to limit the degree of rotation of said antenna element, and thereby preventing excess twisting of said feed line.
  - 3. The apparatus of claim 2, and wherein:
    - said rotational stop limits rotation of said antenna element to approximately plus and minus ninety degrees from a center position.
  - 4. The apparatus of claim 1, and wherein:
    - said mount further engages said antenna element to tilt about an axis of tilt that is oriented in a different direction than said axis of rotation.
  - 5. The apparatus of claim 4, and wherein:
    - said base is adapted to rest on a horizontal surface, andsaid axis of rotation is oriented vertically and said axis of tilt is oriented horizontally.
  - 6. The apparatus of claim 1, and wherein:
    - said circuit comprises a first radio frequency amplifier having an input coupled to said unbalanced output of said balun.
  - 7. The apparatus of claim 1, wherein said band of frequencies is the UHF band, and further comprising:
    - a UHF band radio frequency amplifier, as a portion of said circuit, having an input coupled to said unbalanced output of said balun;
      
      a high pass filter coupled to received amplified UHF signals output from said UHF band amplifier, and operable to pass said amplified UHF signals to a first filter output;
      
      a second antenna element adapted to receive VHF signals;
      
      a VHF low pass filter coupled to pass said VHF signals from said second antenna element to a second filter output, anda common output coupled to receive said amplified UHF signals from said first filter output and coupled to receive said VHF signals from said second filter output.
  - 8. The apparatus of claim 7, further comprising:
    - a broadband radio frequency amplifier having an input coupled to said common output, and operable to further amplify said amplified UHF signals and said VHF signals, to a final output.
  - 9. The apparatus if claim 8, further comprising:
    - a power supply circuit having a direct current output coupled to provide power to said UHF band amplifier and said broadband radio frequency amplifier, andsaid power supply having a control means adapted to vary the voltage at said direct current output, thereby enabling control of the gain ratio of said UHF band amplifier and said broadband radio frequency amplifier.

10. An amplified television antenna for receiving UHF band and VHF band television broadcast signals, comprising:
- a base housing adapted to rest on a horizontal surface;
  
  a UHF loop antenna having a balanced output with a nominal impedance of three-hundred ohms, and operable to receive UHF television signals;
  
  a mount engaged with said base housing, adapted to rotatably support said UHF loop antenna about a vertical axis of rotation, and further adapted to enable said UHF loop antenna to tilt about a horizontal axis of tilt;
  
  a VHF telescopic antenna comprising two telescopic elements attached to the exterior of said base housing, operable to receive VHF television signals;
  
  a 4;
  
  1 impedance ratio balun, which provides a nominal impedance transformation of 300 ohms to 75 ohms, having a balanced RF input and an unbalanced RF output;
  
  a feed line coupled between said balanced output of said UHF loop antenna and said balanced RF input of said 4;
  
  1 balun, and whereinsaid feed line comprises two electrical conductors having a predetermined length of 75 millimeters and aligned substantially in parallel, and supportively spaced apart a predetermined distance of 5 millimeters by plural insulators, said feed line further arranged to maintain said predetermined distance between said two electrical conductors as said UHF loop antenna rotates and tilts with respect to said base housing;
  
  a rotational stop disposed to limit the degree of rotation of said UHF antenna to approximately plus and minus ninety degrees from a central position, thereby preventing excessive twisting of said feed line;
  
  a UHF band amplifier having an input coupled to said unbalanced output of said 4;
  
  1 balun, and having an input impedance of nominal fifty ohms, and whereinsaid predetermined length and said predetermined distance of said feed line are selected to yield a narrow range of impedances centered about the nominal 50 ohm impedance of said input to said UHF band amplifier, after being multiplied by the 4;
  
  1 impedance ratio, thereby enabling efficient coupling of said UHF television signals from said balanced output with a nominal impedance of three-hundred ohms to said input of said UHF band amplifier having an input impedance of nominal fifty ohms;
  
  a UHF band high pass filter coupled to received amplified UHF signals output from said UHF band amplifier, and operable to pass said amplified UHF signals to a first filter output;
  
  a VHF band low pass filter coupled to pass said VHF signals from said VHF band telescopic antenna a second filter output, anda broadband radio frequency amplifier having an input coupled to said first filter output and said second filter output, and operable to further amplify said amplified UHF signals and said VHF signals, to a final output;
  
  a power supply circuit having a direct current output coupled to provide power to said UHF band amplifier and said broadband radio frequency amplifier, and whereinsaid power supply comprises a control means adapted to vary the voltage at said direct current output, thereby enabling control of the gain ratio of said UHF band amplifier and said broadband radio frequency amplifier.

11. A method of impedance matching in an antenna apparatus having a base, an antenna element rotatably mounted thereon, to a circuit having a 50 ohm circuit impedance, using a balun having a 4:
- 1 impedance ratio, which provides a nominal impedance transformation from 300 ohms to 75 ohms, the method comprising the steps of;
  
  receiving RF signals in a first band of frequencies by the antenna element having a 300 ohm balanced RF output;
  
  forming a feed line from two electrical conductors of a predetermined length of 75 millimeters and aligning the two conductors substantially in parallel, and supportively spacing the conductors apart by a predetermined distance of 5 millimeters using plural insulators;
  
  coupling the received RF signals from a 300 ohm balanced RF output of the antenna element through the feed line to a balanced input of the balun;
  
  maintaining the predetermined distance between the two conductors of the feed line while the antenna element is rotated by arranging the feed line to avoid excessive twisting, andselecting the length of the feed line and the distance between the conductors to yield a narrow range of impedances within the first band of frequencies that are substantially centered about the 50 ohm circuit impedance after being multiplied by the 4;
  
  1 impedance ratio, thereby enabling efficient coupling of the RF signals from the 300 ohm balanced RF output of the antenna element to the 50 ohm circuit.
- View Dependent Claims (12, 13, 14)
- - 12. The method of claim 11, further comprising the step of:
    - preventing excessive twisting of the feed line using a rotational stop disposed to limit the amount of rotation of the antenna element with respect to the base.
  - 13. The method of claim 11, further comprising the steps of:
    - amplifying the RF signals output from the balun by coupling the output of the balun to a first radio frequency amplifier.
  - 14. The method of claim 13, wherein the antenna apparatus further includes a power supply circuit with a direct current output that is coupled to provide power to the first radio frequency amplifier, the method further comprising the step of:
    - varying the output voltage of the power supply using a control means, and thereby controlling the gain ratio of the first radio frequency amplifier.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Radioshack Online IPCO LLC
Original Assignee
RadioShack Legacy Corporation
Inventors
Lam, Alan Man Lung
Primary Examiner(s)
Wimer, Michael C
Assistant Examiner(s)
ISLAM, HASAN Z

Application Number

US12/536,256
Time in Patent Office

1,756 Days
Field of Search

343/793, 343/794, 343/764, 343/726, 343/805, 343/809, 343/821
US Class Current

343/726
CPC Class Codes

H01P 5/10   for coupling balanced lines...

H01Q 1/10   Telescopic elements

H01Q 21/00   Antenna arrays or systems a...

H01Q 3/08   for varying two co-ordinate...

H01Q 7/00   Loop antennas with a substa...

H01Q 9/14   Length of element or elemen...

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

Loop antenna with impedance matching

First Claim

13 Assignments

0 Petitions

Accused Products

Abstract

51 Citations

14 Claims

Specification

Solutions

Use Cases

Quick Links

Loop antenna with impedance matching

First Claim

13 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

51 Citations

14 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links