US3513473A - Inductively loaded capacitive antenna - Google Patents

Inductively loaded capacitive antenna Download PDF

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Publication number
US3513473A
US3513473A US713183A US3513473DA US3513473A US 3513473 A US3513473 A US 3513473A US 713183 A US713183 A US 713183A US 3513473D A US3513473D A US 3513473DA US 3513473 A US3513473 A US 3513473A
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conductor
antenna
inductor
plate
monopole
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US713183A
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Glen J Seward
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JM Huber Corp
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Avco Corp
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Assigned to J. M. HUBER CORPORATION, A CORP. OF NEW JERSEY reassignment J. M. HUBER CORPORATION, A CORP. OF NEW JERSEY ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: AV ELECTRONICS CORPORATION
Assigned to AV ELECTRONICS CORPORATION, A CORP. OF AL reassignment AV ELECTRONICS CORPORATION, A CORP. OF AL ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: AVCO CORPORATION
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q9/00Electrically-short antennas having dimensions not more than twice the operating wavelength and consisting of conductive active radiating elements
    • H01Q9/04Resonant antennas
    • H01Q9/30Resonant antennas with feed to end of elongated active element, e.g. unipole
    • H01Q9/32Vertical arrangement of element
    • H01Q9/36Vertical arrangement of element with top loading

Definitions

  • the antenna operates by resonating its center post, using a top-loading series inductance and capacitance.
  • Heavy capacitance top-loading in the form of a conductive plate plus the inductive spiral, produces a nearly uniform current distribution over the length of the monopole, thereby providing a relatively large radiation resistance and increasing efficiency.
  • the inductor is variable and consists of a spiral supported about the capacitance plate. The variable inductor provides an impedance transformation which simplifies the problem of matching. An additional variable shunt capacitor is also used for impedance matching.
  • the antenna is advantageous over other known electrically short antennas in that it permits efliciencies which are as good or better than antennas of comparable size, and it oifers greater freedom of choice in the selection of its configuration or form to adapt it to a particular application, e.g., aircraft, vehicular, etc.
  • FIG. 1 is a cross sectional view of a preferred embodiment of this invention.
  • FIG. 2 is a schematic representation of the antenna.
  • the antenna comprises a vertical monopole conductor 10 insulatedly supported on a horizontal conductive plate 12 which is a part of the ground plane of the antenna.
  • the monopole conductor 10 is toploaded by means of a spiral inductor generally indicated at 14 and a capacitance plate 16.
  • the inductor 14 comprises a spiral conductor 18 embedded in an insulating dielectric plate 20.
  • the inner end of the spiral conductor 18 is connected by means of a wire 22 to the top of the monopole conductor 10, while the outer end is connected by means of a wire 24 to the conducting capacitance plate .16.
  • the inductor 14 is made variable by means of a roller contact 26 adapted to roll on the turns of the spiral conductor '18 and axially movable on an electrically conductive horizontal rod 28, one end of which is supported above the plate 20 on an insulated roller 30, and the other end of which is carried by a disk 32.
  • An electrical connection from the conductor 18 to the capacitance plate is completed through a spring contact 34 urged against a metal ring 36 conductively bonded to the capacitance plate 16.
  • the disk 32 is affixed to the upper end of a dielectric drive tube 38 rotatably supported between an insulating bearing 40 in the capacitance plate 16 and a bearing 42 atiixed to the ground plane conductive plate 12.
  • the lower end of the drive tube 38 carries a gear 44 driven manually by means of a control knob 46 through a shaft 48 and a gear 50.
  • the monopole conductor 10 is angularly fixed to the bearing 42 by means of a key or any other conventional arrangement, and an electrical connection is made from the monopole conductor through a wire 52 to an R.F. input connector 54.
  • control knob 46 As the control knob 46 is rotated, the drive tube is rotated, causing the roller contact 26 to roll on the conductor 18, thereby changing its effective length by shorting out a portion of it. Simultaneously the input impedance to the antenna is matched by driving a variable capacitor 56 through gearing 58.
  • the variable capacitor is connected by means of wires (not shown) between the wire 52 of the monopole conductor 10 and the ground plane conductive plate 12.
  • the control knob 46 can be replaced by a servo motor which is controlled by conventional detectors. This ofiers a technique for automatically tuning this antenna using conventional servo techniques.
  • the capacitance plate 16 is supported in part by means of dielectric supports 64 and 66 and, in addition, by means of connections to a fairing or cover 68.
  • the capacitance plate 16 supports the dielectric plate 20.
  • the antenna may be presented as shown in FIG. 2.
  • RF. input is applied at the terminal 54 to the monopole conductor 10 which is top-loaded by the inductor 14 connected in series between the capacitor consisting of the capacitance plate 16 and the ground plane conductive plate 12.
  • the resistor R represents the radiation resistance while the inductor L represents the monopole conductor inductance.
  • the variable capacitor 56 is simultaneously varied.
  • the monopole conductor of this antenna is very short, and in a practical case may amount to much less than one-tenth of a wavelength. Under ordinary circumstances there would be a relatively linear current distribution along the conductor 10, i.e., at the top there would be zero current while at a distance down from the top the current would increase as a sinusoidal function. For electrically short radiators this would be essentially a linear increase.
  • the capacitor comprising the capacitance plate 16 and the conductive plate 12 in the ground plane, I am able to achieve a uniform current distribution throughout the length of the monopole conductor.
  • An antenna tunable to a radio frequency comprising:
  • a monopole conductor having a length which is a small fraction of a wavelength at said radio frequency
  • connecting means completing a series connection from said monopole conductor to said inductor and said capacitance plate, said connecting means comprising an electrical connection from said monopole conductor to one end of said inductor, and another electrical connection from the other end of said inductor to said capacitance plate.
  • variable inductor comprises a spiral conductor mounted on an insulating board
  • roller contact rotatable on said spiral conductor, said roller contact being electrically connected to said capacitance plate.

Description

May 19, 1970 G. J. SEWARD v INDUCTIVELY LOADED CAPACITIVE ANTENNA Filed March 14. 1968 INVENTOR.
GLEN J. SEWARD M M w? G ATT NEYS.
United States Patent 3,513,473 INDUCTIVELY LOADED CAPACITIVE ANTENNA Glen J. Seward, Cincinnati, Ohio, assignor to Avco Corporation, Cincinnati, Ohio, a corporation of Delaware Filed Mar. 14, 1968, Ser. No. 713,183 Int. Cl. H01q 9/00, 9/16 U.S. Cl. 343-752 Claims ABSTRACT OF THE DISCLOSURE SUMMARY OF THE INVENTION The antenna provided by this invention represents an advance over other known electrically short antennas. This antenna is of the inductively loaded capacitance type and it provides an efficient, electrically short, low-profile in which the matching capabilities are self-contained over the frequency range of operation. The antenna operates by resonating its center post, using a top-loading series inductance and capacitance. Heavy capacitance top-loading, in the form of a conductive plate plus the inductive spiral, produces a nearly uniform current distribution over the length of the monopole, thereby providing a relatively large radiation resistance and increasing efficiency. The inductor is variable and consists of a spiral supported about the capacitance plate. The variable inductor provides an impedance transformation which simplifies the problem of matching. An additional variable shunt capacitor is also used for impedance matching. The antenna is advantageous over other known electrically short antennas in that it permits efliciencies which are as good or better than antennas of comparable size, and it oifers greater freedom of choice in the selection of its configuration or form to adapt it to a particular application, e.g., aircraft, vehicular, etc.
THE DRAWING FIG. 1 is a cross sectional view of a preferred embodiment of this invention; and
FIG. 2 is a schematic representation of the antenna.
Referring to FIG. 1, the antenna comprises a vertical monopole conductor 10 insulatedly supported on a horizontal conductive plate 12 which is a part of the ground plane of the antenna. The monopole conductor 10 is toploaded by means of a spiral inductor generally indicated at 14 and a capacitance plate 16.
The inductor 14 comprises a spiral conductor 18 embedded in an insulating dielectric plate 20. The inner end of the spiral conductor 18 is connected by means of a wire 22 to the top of the monopole conductor 10, while the outer end is connected by means of a wire 24 to the conducting capacitance plate .16.
The inductor 14 is made variable by means of a roller contact 26 adapted to roll on the turns of the spiral conductor '18 and axially movable on an electrically conductive horizontal rod 28, one end of which is supported above the plate 20 on an insulated roller 30, and the other end of which is carried by a disk 32. An electrical connection from the conductor 18 to the capacitance plate is completed through a spring contact 34 urged against a metal ring 36 conductively bonded to the capacitance plate 16.
3,513,473 Patented May 19, 1970 The disk 32 is affixed to the upper end of a dielectric drive tube 38 rotatably supported between an insulating bearing 40 in the capacitance plate 16 and a bearing 42 atiixed to the ground plane conductive plate 12. The lower end of the drive tube 38 carries a gear 44 driven manually by means of a control knob 46 through a shaft 48 and a gear 50.
The monopole conductor 10 is angularly fixed to the bearing 42 by means of a key or any other conventional arrangement, and an electrical connection is made from the monopole conductor through a wire 52 to an R.F. input connector 54.
As the control knob 46 is rotated, the drive tube is rotated, causing the roller contact 26 to roll on the conductor 18, thereby changing its effective length by shorting out a portion of it. Simultaneously the input impedance to the antenna is matched by driving a variable capacitor 56 through gearing 58. The variable capacitor is connected by means of wires (not shown) between the wire 52 of the monopole conductor 10 and the ground plane conductive plate 12. However, the control knob 46 can be replaced by a servo motor which is controlled by conventional detectors. This ofiers a technique for automatically tuning this antenna using conventional servo techniques.
The capacitance plate 16 is supported in part by means of dielectric supports 64 and 66 and, in addition, by means of connections to a fairing or cover 68. The capacitance plate 16 supports the dielectric plate 20.
schematically the antenna may be presented as shown in FIG. 2. RF. input is applied at the terminal 54 to the monopole conductor 10 which is top-loaded by the inductor 14 connected in series between the capacitor consisting of the capacitance plate 16 and the ground plane conductive plate 12. The resistor R represents the radiation resistance while the inductor L represents the monopole conductor inductance. As the roller contact 26 is moved, upon rotation of the drive tube 38, the length of the conductor 18 shorted on the capacitance plate 16 is varied. The variable capacitor 56 is simultaneously varied.
Electrically the monopole conductor of this antenna is very short, and in a practical case may amount to much less than one-tenth of a wavelength. Under ordinary circumstances there would be a relatively linear current distribution along the conductor 10, i.e., at the top there would be zero current while at a distance down from the top the current would increase as a sinusoidal function. For electrically short radiators this would be essentially a linear increase. By top-loading the monopole conductor with an inductor and capacitor in series, the capacitor comprising the capacitance plate 16 and the conductive plate 12 in the ground plane, I am able to achieve a uniform current distribution throughout the length of the monopole conductor.
It will be apparent to persons skilled in the art that this invention is subject to various modifications and adaptations. It is intended therefore that the scope of the invention be limited only by the appended claims as interpreted in the light of the prior art.
What I claim is:
.1. An antenna tunable to a radio frequency comprising:
a monopole conductor having a length which is a small fraction of a wavelength at said radio frequency;
a conductive plate;
means for insulatedly supporting the bottom of said monopole conductor vertically on said conductive plate, said conductive plate comprising the ground plane of said antenna;
a capacitance plate supported at the top of said monopole conductor, the plane of said capacitance plate being parallel to said ground plane;
a varaible inductor insulatedly supported above said capacitance plate; and
connecting means completing a series connection from said monopole conductor to said inductor and said capacitance plate, said connecting means comprising an electrical connection from said monopole conductor to one end of said inductor, and another electrical connection from the other end of said inductor to said capacitance plate.
2. The invention as defined in claim 1 wherein said variable inductor comprises a spiral conductor mounted on an insulating board;
a roller contact rotatable on said spiral conductor, said roller contact being electrically connected to said capacitance plate.
3. The invention as defined in claim 2, and means for rotating said roller contact on said conductor, said means comprising a hollow dielectric drive tube mounted concentrically with said monopole conductor, said monopole conductor being fixedly positioned within said drive tube, said drive tube being rotatably supported on said conductive plate, said roller contact having a shaft, said shaft being fixedly supported from said drive tube at right angles thereto, said roller contact being longitudinally movable along said shaft.
References Cited UNITED STATES PATENTS 2,850,732 9/1958 Kandoian et al 343752 2,875,443 2/ 1959 Kandoian 343752 X 2,982,964 5/1961 Bresk et al. 343752 X 2,993,204 7/1961 Macalpine 343752 X 3,315,264 4/1967 Brueckmann 343752 X HERMAN K. SAALBACH, Primary Examiner S. CHATMON, JR., Primary Examiner U.S. Cl. X.R.
US713183A 1968-03-14 1968-03-14 Inductively loaded capacitive antenna Expired - Lifetime US3513473A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3838429A (en) * 1973-08-03 1974-09-24 Us Army Miniaturized transmission line top loaded monopole antenna
US4047178A (en) * 1976-09-22 1977-09-06 The United States Of America As Represented By The Secretary Of The Army Low loss top termination for short monopoles
FR2449978A1 (en) * 1979-02-24 1980-09-19 British Aerospace Top loaded monopole antenna - has step motor driven variable capacitor connected to whole or part of multi-turn helical loop by switches, for tuning antenna
US4459597A (en) * 1981-11-09 1984-07-10 Orion Industries, Inc. Isolated antenna assembly
US4939525A (en) * 1988-03-31 1990-07-03 Cincinnati Electronics Corporation Tunable short monopole top-loaded antenna
US5528251A (en) * 1995-04-06 1996-06-18 Frein; Harry S. Double tuned dipole antenna

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2850732A (en) * 1955-10-03 1958-09-02 Itt Antenna for mobile communications
US2875443A (en) * 1954-06-21 1959-02-24 Itt Antenna
US2982964A (en) * 1957-03-26 1961-05-02 Internat Telephone & Telegraph Adjustable tuning device and antenna using same
US2993204A (en) * 1958-02-28 1961-07-18 Itt Two-band helical antenna
US3315264A (en) * 1965-07-08 1967-04-18 Brueckmann Helmut Monopole antenna including electrical switching means for varying the length of the outer coaxial conductor with respect to the center conductor

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2875443A (en) * 1954-06-21 1959-02-24 Itt Antenna
US2850732A (en) * 1955-10-03 1958-09-02 Itt Antenna for mobile communications
US2982964A (en) * 1957-03-26 1961-05-02 Internat Telephone & Telegraph Adjustable tuning device and antenna using same
US2993204A (en) * 1958-02-28 1961-07-18 Itt Two-band helical antenna
US3315264A (en) * 1965-07-08 1967-04-18 Brueckmann Helmut Monopole antenna including electrical switching means for varying the length of the outer coaxial conductor with respect to the center conductor

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3838429A (en) * 1973-08-03 1974-09-24 Us Army Miniaturized transmission line top loaded monopole antenna
US4047178A (en) * 1976-09-22 1977-09-06 The United States Of America As Represented By The Secretary Of The Army Low loss top termination for short monopoles
FR2449978A1 (en) * 1979-02-24 1980-09-19 British Aerospace Top loaded monopole antenna - has step motor driven variable capacitor connected to whole or part of multi-turn helical loop by switches, for tuning antenna
US4459597A (en) * 1981-11-09 1984-07-10 Orion Industries, Inc. Isolated antenna assembly
US4939525A (en) * 1988-03-31 1990-07-03 Cincinnati Electronics Corporation Tunable short monopole top-loaded antenna
US5528251A (en) * 1995-04-06 1996-06-18 Frein; Harry S. Double tuned dipole antenna

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Owner name: J. M. HUBER CORPORATION, A CORP. OF NEW JERSEY

Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:AV ELECTRONICS CORPORATION;REEL/FRAME:004918/0176

Effective date: 19880712

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Owner name: AV ELECTRONICS CORPORATION, A CORP. OF AL, ALABAMA

Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:AVCO CORPORATION;REEL/FRAME:005043/0116

Effective date: 19870828