Antenna

US 6,690,336 B1
Filed: 06/15/1999
Issued: 02/10/2004
Est. Priority Date: 06/16/1998
Status: Expired due to Fees

First Claim

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1. An antenna for operation at frequencies in excess of 200 MHz comprising:

an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;

a feeder structure comprising a length of transmission line;

an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;

wherein the core and conductive structure are configured such that the antenna has at least two modes of resonance of differing types which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two modes of resonance of differing types I) occurring at different frequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements and II) characterized by different overall conducting paths through which the r.f current flows over part of the conductive structure.

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Abstract

A dielectric-loaded antenna having a plurality of radiating elements and a loop element plated on the surface of a cylindrical ceramic core has balanced and single-ended modes of resonance which are coupled together so as to define an operating frequency band. The two modes of resonance are associated with different respective radio frequency current patterns in the radiating elements, and the input reactance component of the load represented by the antenna at its feedpoint is substantially zero within the operating frequency band only when the corresponding input resistance component is finite and substantially non-zero.

167 Citations

27 Claims

1. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two modes of resonance of differing types which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two modes of resonance of differing types I) occurring at different frequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements and II) characterized by different overall conducting paths through which the r.f current flows over part of the conductive structure.
- View Dependent Claims (2, 3)
- - 2. An antenna according to claim 1, wherein the input reactance component of the load represented by the antenna is substantially zero within the operating frequency band only when the corresponding input resistance component is finite and substantially non-zero.
  - 3. An antenna according to claim 1, wherein the operating frequency band produced by the said coupled modes of resonance has a 3 dB bandwidth of at least 0.03 f_c, where f_cis the centre frequency of the band, the 3 dB bandwidth being the frequency range over which the return loss, as hereinbefore defined, of the antenna differs by at least 3 dB with respect to the average out-of-band return loss.

4. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signal fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements, configured such that;
  
  (a) a first mode of resonance occurs at a first frequency within the said band and is associated with an r.f. current loop including the said radiating elements and beginning and ending at a location at which the radiating elements are connected to the transmission line at the first position, the link element acting as a high impedance blocking element at the first frequency, and such that (b) a second mode of resonance occurs at a second frequency within the said band and is associated with an r.f. current loop running from the location of the connection of the radiating elements to the transmission line at the first position, through the radiating elements and link element in series to the connection with the feeder structure at the second position.

5. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume to the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at lease two different modes of resonance which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency current patterns in the conductive structure, each pattern including the said radiating elements;
  
  wherein the modes of resonance include a balanced mode and a single-ended mode.
- View Dependent Claims (6)
- - 6. An antenna according to claim 5, wherein the first mode of resonance is the balanced mode and the second mode of resonance is the single-ended mode.

7. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled hereby to define together an operating frequency band for signals fed to or received from the transmission line, said two different modes of resonance occurring at different fequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements, wherein the core has a central axis and has distal and proximal end surfaces, the radiating elements comprise a plurality of axially coextensive conductors which, in the region of one end surface of the core, are connected to the transmission line and which extend to connections with the link element, the link element being directly or indirectly connected to the transmission line in the region of the other end surface of the core.
- View Dependent Claims (8, 9)
- - 8. An antenna according to claim 7, wherein the transmission line extends through the core from one end surface to the other.
  - 9. An antenna according to 7, configured such that the field component associated with the first mode of resonance is a voltage dipole oriented transversely of the central axis of the core, and the electric field component associated with the second mode of resonance is a voltage dipole oriented generally parallel to the central axis.

10. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeding structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signals fcd to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency current patterns in the conductive structure, each pattern including the said radiating elements;
  
  wherein the core is cylindrical, and has distal and proximal end surfaces and a central axis, the radiating elements comprise a plurality of axially coextensive conductors which in the region of one end surface of the core, are connected to the transmission line and which extend to connections with the link element, and the link element is at least indirectly connected to the transmission line in the region of the other end surface of the core, the link element comprising a conductive sleeve extending over the cylindrical outer surface of the core from one end surface to a position intermediate the core end surfaces where it forms an annular sleeve rim, and wherein the antenna elements comprise a single pair of diametrically opposed elements each extending from a connection with the transmission line on the other end surface of the core to the rim of the sleeve, the ratio of the length of the core to its diameter being in the range of from 1;
  
  1 to 2;
  
  1.
- View Dependent Claims (11)
- - 11. An antenna according to claim 10, wherein the axial extent of the sleeve is in the range of from 0.25 L to 0.5 L, wherein L is the axial length of the core.

12. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material en a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link clement separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency (r.f.) current paten in the conductive structure, each pattern including the said radiating elements, wherein the link element is a balun trap, arranged to promote substantially balanced currents at the connection between the transmission line and the radiating elements at the said first position in one of the said modes.

13. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements, wherein the core has a central axis, the radiating elements comprise a single pair of axially coextensive helical conductors which are centred on the axis and appositely located with respect to each other about the axis, and the link element extends around the core and around the axis to interconnect the radiating elements at ends thereof opposite to their connection with the transmission line, and wherein the electrical lengths of the radiating elements and of the conductive path formed by the link element between the radiating elements and the second position on the transmission line are such that, within the said operating band, the antenna exhibits a first mode of resonance in which the link clement forms a quarter-wave trap and the pair of helical conductors form a resonant loop with currents of substantially opposite respective phases flowing in the said conductors adjacent their connections with the link element, and a second mode of resonance in which the pair of helical conductors and the link element form a resonant combination with currents of substantially equal phase flowing in the said conductors adjacent their connections with the link element and with the said currents flowing through the link element to the transmission line at the said second position, the two modes of resonance being coupled such that, between the respective associated resonant frequencies the return loss of the antenna within the operating frequency band measured at a termination of the transmission line differs by at least 3 dB with respect to the average out of band return loss.
- View Dependent Claims (14, 15, 16, 17, 18)
- - 14. An antenna according to claim 13, wherein this Smith chart representation of the load impedance presented by the antenna within the operating band has a looped self-intersecting locus.
  - 15. An antenna according to claim 13, wherein the core is cylindrical, the helical conductors are of equal length and each execute a half-turn around the core between the axially spaced-apart position, and the link element comprises the combination of a conductive sleeve on the cylindrical outer surface of the core and a plated end surface of the core, and wherein the ratio of the length of the core to its diameter is in the range of from 1:
    - 1 to 2;
      
      1.
  - 16. An antenna according to claim 15, wherein the transmission line passes axially through the core between the first and second positions.
  - 17. An antenna according to claim 13, wherein the radiating elements are connected to the transmission line at the said first position by radial portions lying on a single diameter construction and the link element is connected to the screen conductor thereof at the said second position.
  - 18. An antenna according to claim 17, wherein the transmission line is of coaxial construction and the link element is connected to the screen conductor thereof at the said second position.

19. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements, wherein die radiating elements and the link element form a loop having a pair of side portions, and cross portions which extend between each of the said side portions, the ends of the side portions defining the corners of a notional rectangle, one of the cross portions containing a feed connection between the radiating elements and the transmission line.
- View Dependent Claims (20)
- - 20. An antenna according to claim 19, wherein between their ends, the side portions extend on opposite sides of the plane of the rectangle.

21. An antenna for operation at frequencies in excess of 200 MHz comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signal fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency (r.f.) current patterns in the conductive structure, each pattern including the said radiating elements, wherein the radiating elements and the link element together form, in one of the said modes of resonance, a loop having an electrical length of 360°
  
  .
- View Dependent Claims (22)
- - 22. An antenna according to claim 21, wherein the loop is twisted.

23. A handheld radio communication unit having a radio transceiver, an integral earphone for directing sound energy from an inner face of the unit which, in use, is placed against the user'"'"'s ear, and an antenna comprising:
- an insulative core of a solid material having a relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that file antenna has at least two different modes of resonance which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two different modes of resonance occurring at different frequencies and being associated with different respective radio frequency current patterns in the conductive structure, each pattern including the said radiating elements, wherein the antenna is coupled to the transceiver, wherein the antenna has a central axis of symmetry and the said first and second positions on the transmission line are spaced apart along the axis, and wherein, over at least part of the operating frequency band, the antenna has a radiation pattern which, in a plane passing through the core normally to the axis, is substantiafly omnidirectional with the exception of a null, the antenna being so mounted that the axis of the antenna is generally parallel to the said inner face of said unit and with the null directed generally perpendicularly to the inner face of the unit and, in use of the unit, towards the user'"'"'s head.
- View Dependent Claims (24, 25)
- - 24. A radio communication unit according to claim 23, wherein the antenna core is in the form of a cylinder, the central axis of which is substantially parallel to said inner face in the region of the earphone, and wherein the radiation elements extend between a pair of axially spaced-apart positions on the core with the radiating element ends at each such position being substantially opposite each other and lying in a plane which contains the central axis and is generally parallel to the inner face of the unit.
  - 25. A communication unit according to claim 24, wherein the antenna elements are helical, each executing a half turn about the central axis, and the link element comprises a conductive sleeve encircling the cylinder to form an isolating trip in one of the resonant modes in the operating frequency band of the antenna.

26. A handheld radio communication unit having a radio transceiver and an antenna comprising:
- an insulative coro of a solid material having relative dielectric constant greater than 5, the outer surface of the core defining a volume the major part of which is occupied by the solid material;
  
  a feeder structure comprising a length of transmission line;
  
  an electrically conductive structure including a plurality of radiating elements connected to the transmission line at a first position, and a link element separately connecting the radiating elements to the transmission line at a second position, spaced from the first position along the feeder structure, the electrically conductive structure being disposed on or adjacent the outer surface of the core;
  
  wherein the core and conductive structure are configured such that the antenna has at least two modes of resonance of differing types which are coupled thereby to define together an operating frequency band for signals fed to or received from the transmission line, said two modes of resonance of differing types I) occurring at different frequencies and being associated with different respective radio frequency current patterns in the conductive structure, each pattern including the said radiating elements and II) characterized by different overall conducting paths through which the r.f. current flows over part of the conductive structure, the antenna being coupled to the transceiver, wherein the transceiver has a transmitting band portion and a receiving band portion which are different but adjacent each other within the said operating frequency band of the antenna.
- View Dependent Claims (27)
- - 27. A communication unit according to claim 26, wherein the transmitting and receiving band portions are separated by a guard band and the centre frequency of the antenna operating frequency band substantially coincides with the guard band.

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Current Assignee
Sarantel Limited (UK Oil & Gas Plc)
Original Assignee
Symmetricom Incorporated (Microchip Technology Incorporated)
Inventors
Nicolaidis, George, Agboraw, Ebinotambong, Leisten, Oliver Paul
Primary Examiner(s)
Wimer, Michael C.

Application Number

US09/333,844
Time in Patent Office

1,701 Days
Field of Search

H01/Q.124, 343/702, 343/895
US Class Current

343/895
CPC Class Codes

H01Q 1/243   with built-in antennas

H01Q 1/245   with means for shaping the ...

H01Q 1/362   for broadside radiating hel...

H01Q 1/38   formed by a conductive laye...

H01Q 11/08   Helical antennas

H01Q 5/357   using a single feed point

H04B 1/3833   Hand-held transceivers

Antenna

First Claim

4 Assignments

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Abstract

167 Citations

27 Claims

Specification

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Antenna

First Claim

4 Assignments

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0 Petitions

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Abstract

167 Citations

27 Claims

Specification

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Solutions

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