Planar serpentine antennas

US 5,363,114 A
Filed: 04/27/1992
Issued: 11/08/1994
Est. Priority Date: 01/29/1990
Status: Expired due to Term

First Claim

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1. A planar serpentine antenna comprising:

a substantially planar carrier layer,a substantially planar radiator of a preselected length secured to said carrier layer, said radiator extending in a substantially serpentine pattern and having a feed end and an open end, said radiator having a series of change of direction points along the length thereof with each said change of direction point forming an electric discontinuity to provide more than one connected radiator section along the length of said radiator, said radiator providing at least two different resonant frequencies, said radiator sections being arranged so that at least two of said sections are connected to one another and are arranged substantially perpendicular to one another to radiate energy in an omnidirectional pattern and so that the currents in alignment with the E vector are those corresponding to horizontal and vertical polarizations, anda pair of substantially planar ground conductors of a preselected length secured to said carrier layer for optimizing the impedance match between a connecting cable and said radiator, said pair of ground conductors being arranged in spaced relation to the outer periphery of said radiator, said ground conductors extending in opposite directions away from one another and having turns to form adjacent, parallel spaced end sections arranged for connecting to an electric connector portion, said pair of ground conductors being coplanar and do not extend outside the coplanar plane, said series of change of direction points including turns at selected angles and back folds, there being an outer group of three of said radiator sections connected at two right angle turns and an inner group of a plurality of said radiator sections having a succession of alternating back folds and right angle turns, said inner group being completely surrounded by said outer group so as to be located inside said outer group.

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Abstract

Planar serpentine antennas disclosed include a generally flat, non-conductive carrier layer and a generally flat radiator of a preselected length and arranged in a generally serpentine pattern that is secured to a surface of the carrier layer. One form of the antenna disclosed that is particularly suited for vehicle transceivers and mounting on a vehicle window in a stick-on fashion has a series of change of direction points characterized by a succession of right angle turns and back folds to obtain substantially the greatest length in the smallest surface area. Another form of the antennas disclosed that are particularly suited for AM/FM radios, stereos, etc. have a sinuous pattern with radiator sections in parallel spaced relation to one another and further are connected at opposite ends in curved back folds. At least one and sometimes a pair of flat ground conductors are secured to a surface of the carrier layer in the same manner as the radiator to optimize the impedance match between a connecting cable and the radiator.

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8 Claims

1. A planar serpentine antenna comprising:
- a substantially planar carrier layer,a substantially planar radiator of a preselected length secured to said carrier layer, said radiator extending in a substantially serpentine pattern and having a feed end and an open end, said radiator having a series of change of direction points along the length thereof with each said change of direction point forming an electric discontinuity to provide more than one connected radiator section along the length of said radiator, said radiator providing at least two different resonant frequencies, said radiator sections being arranged so that at least two of said sections are connected to one another and are arranged substantially perpendicular to one another to radiate energy in an omnidirectional pattern and so that the currents in alignment with the E vector are those corresponding to horizontal and vertical polarizations, anda pair of substantially planar ground conductors of a preselected length secured to said carrier layer for optimizing the impedance match between a connecting cable and said radiator, said pair of ground conductors being arranged in spaced relation to the outer periphery of said radiator, said ground conductors extending in opposite directions away from one another and having turns to form adjacent, parallel spaced end sections arranged for connecting to an electric connector portion, said pair of ground conductors being coplanar and do not extend outside the coplanar plane, said series of change of direction points including turns at selected angles and back folds, there being an outer group of three of said radiator sections connected at two right angle turns and an inner group of a plurality of said radiator sections having a succession of alternating back folds and right angle turns, said inner group being completely surrounded by said outer group so as to be located inside said outer group.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. An antenna set forth in claim 1 wherein at least some of said inner group of radiator sections proceeding in a direction away from said feed end to said open end are shorter in length than the radiator sections in said outer group.
  - 3. An antenna as set forth in claim 1 wherein said radiator divides into two end portions arranged generally parallel to one another, each said end portion having a right angle turn to form two radiator sections in each of said end portions.
  - 4. An antenna as set forth in claim 1, wherein said radiator and ground conductors have end sections and further including a connector portion on said carrier layer, said connector portion having a separate connecting element electrically connected to each of said end sections, said connector portion being adapted to connect to a mating second connector portion connected to a cable.
  - 5. An antenna as set forth in claim 4 wherein said cable is a coaxial cable having an inner center conductor, a non-conductive core surrounding said inner conductor and an outer ground member concentric with said inner center conductor.
  - 6. An antenna as set forth in claim 1 wherein said radiator has an end section at said feed end, each of said ground conductors having end sections, the radiator end section being disposed between, spaced from, and coplanar with said end sections of said ground conductors.

7. A planar serpentine antenna comprising:
- a substantially planar carrier layer,a substantially planar radiator of a preselected length secured to said carrier layer, said radiator extending in a substantially serpentine pattern and having a feed end and an open end, said radiator having a series of change of direction points along the length thereof with each said change of direction point forming an electric discontinuity to provide more than one connected radiator section along the length of said radiator, said radiator providing at least two different resonant frequencies, said radiator sections being arranged so that at least two of said sections are connected to one another and are arranged substantially perpendicular to one another to radiate energy in an omnidirectional pattern and so that the currents in alignment with the E vector are those corresponding to horizontal and vertical polarizations, anda pair of substantially planar ground conductors of a preselected length secured to said carrier layer for optimizing the impedance match between a connecting cable and said radiator, said pair of ground conductors being arranged in spaced relation to the outer periphery of said radiator, said ground conductors extending in opposite directions away from one another and having turns to form adjacent, parallel spaced end sections arranged for connecting to an electric connector portion, said pair of ground conductors being coplanar and do not extend outside the coplanar plane, there being an outer group of three radiator sections connected at two right angle turns and there being a succession of three inside groups, disposed within said outer group, said three inside groups being of a corresponding shape and being successively smaller toward the center of said carrier layer, each said inside group having a back fold, right angle turn, and back fold together with an end portion of three successive back folds and an end section.
- View Dependent Claims (8)
- - 8. An antenna as set forth in claim 7 wherein each back fold and right angle turn has an outside mitered edge.

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Current Assignee
ARC Wireless, Inc. (ARC Group Worldwide, Inc.)
Original Assignee
Kevin O. Shoemaker
Inventors
Shoemaker, Kevin O.
Primary Examiner(s)
Wimer, Michael C.

Application Number

US07/873,724
Time in Patent Office

925 Days
Field of Search

343/803, 343/804, 343/806, 343/828, 343/829, 343/830, 343/846, 343/895, 343/792.5, 343/713, 343/906
US Class Current

343/828
CPC Class Codes

H01Q 1/1271 for mounting on windscreens

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

Planar serpentine antennas

First Claim

8 Assignments

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Abstract

Citations

8 Claims

Specification

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Planar serpentine antennas

First Claim

8 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

8 Claims

Specification

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Solutions

Use Cases

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