Folded RF marker for electronic article surveillance systems

US 4,658,264 A
Filed: 11/09/1984
Issued: 04/14/1987
Est. Priority Date: 11/09/1984
Status: Expired due to Term

First Claim

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1. A method of fabricating a marker for use in a radio frequency electronic article surveillance system, said method comprising the steps of:

(a) providing a flexible polymeric insulative sheet,(b) providing on one surface of said sheet an electrically conductive layer configured to form(i) at least one multi-turn spiral resulting in an inductive element,(ii) at least two substantially two-dimensionally shaped portions, each electrically connected to said sprial and(iii) each having a substantially straight side parallel to and spaced a short distance from the straight side of another of said portions, leaving therebetween an elongated region in which said conductive layer is substantially absent to define a fold line therebetween, the two-dimensional shape of each of said two parts serving to thereby stiffen said sheet on opposite sides of said fold line to promote subsequent folding only along said fold line,(c) folding said sheet back on itself, said two straight-sided portions stiffening the sheet on both sides of the fold line thereby opposing any tendency of the sheet to fold along any line other than said predetermined fold line and precisely localizing the fold such that said two portions become precisely positioned opposite each other with a dielectric sheet sandwiched therebetween to form at least one capacitive element, and(d) bonding the facing surfaces together to thereby establish a given spacing between the positioned portions and hence a predictable capacitance for the resultant capacitive element, said capacitive element and inductive element in combination forming a circuit resonant at at least one resonant frequency.

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Abstract

A tuned resonant circuit including inductive and capacitive components useful as a marker in electronic article surveillance systems, comprising a laminate of a dielectric sheet having a conductive layer on one side configured to form at least one multi-turn inductive spiral. The sheet is folded back upon itself at a fold line which is precisely defined by spaced apart areas of the conductive layer such that desired portions of the layer become precisely and uniformly juxtaposed.

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24 Claims

1. A method of fabricating a marker for use in a radio frequency electronic article surveillance system, said method comprising the steps of:
- (a) providing a flexible polymeric insulative sheet,(b) providing on one surface of said sheet an electrically conductive layer configured to form(i) at least one multi-turn spiral resulting in an inductive element,(ii) at least two substantially two-dimensionally shaped portions, each electrically connected to said sprial and(iii) each having a substantially straight side parallel to and spaced a short distance from the straight side of another of said portions, leaving therebetween an elongated region in which said conductive layer is substantially absent to define a fold line therebetween, the two-dimensional shape of each of said two parts serving to thereby stiffen said sheet on opposite sides of said fold line to promote subsequent folding only along said fold line,(c) folding said sheet back on itself, said two straight-sided portions stiffening the sheet on both sides of the fold line thereby opposing any tendency of the sheet to fold along any line other than said predetermined fold line and precisely localizing the fold such that said two portions become precisely positioned opposite each other with a dielectric sheet sandwiched therebetween to form at least one capacitive element, and(d) bonding the facing surfaces together to thereby establish a given spacing between the positioned portions and hence a predictable capacitance for the resultant capacitive element, said capacitive element and inductive element in combination forming a circuit resonant at at least one resonant frequency.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A method according to claim 1, wherein the step of providing a configured electrically conductive layer further comprises providing at least one electrically conductive path extending across said fold line to connect portions of said configured layer lying on each side of said line.
  - 3. A method according to claim 1, comprising configuring said layer to form at least two multi-turn spirals, one on each side of said fold line.
  - 4. A method according to claim 3, comprising further configuring said layer to provide at least one electrical path extending across said fold line to connect said two multi-turn spirals.
  - 5. A method according to claim 3, comprising configuring said multi-turn spirals to be substantially alike, each being symmetrically positioned with respect to said fold line such that upon folding said sheet back upon itself with a dielectric sheet lying between the spirals, the spirals and dielectric sheet form a distributed capacitive element.
  - 6. A method according to claim 3, comprising configuring each of said multi-turn spirals with substantially straight segments parallel to said fold line, with the outermost straight segments also encompassing one of the straight-sided portions.
  - 7. A method according to claim 1, comprising providing as said insulative sheet a sheet having preselected dielectric properties and folding said sheet back upon itself such that the conductive layer on each side of the fold line remain on the outside, separated by two thicknesses of the dielectric sheet and bonding the facing surfaces together.
  - 8. A method according to claim 1, further comprising folding said sheet back on itself with the conductive layer on each side of the fold line facing inward, inserting a dielectric sheet between the inward facing surfaces of the insulative sheet and bonding the resultant sandwich together.

9. A preform for use in forming a marker for use in a radio frequency electronic article surveillance system, said preform comprising:
- (a) a flexible polymeric insulative sheet and(b) an electrically conductive layer affixed to one surface of said sheet and configured to form(i) at least one multi-turn spiral resulting in an inductive element,(ii) at least two substantially two-dimensionally shaped portions, each electrically connected to said sprial and short distance from the straight side of another of said portions, leaving therebetween an elongated region in which said conductive layer is substantially absent to define a fold line therebetween, the two-dimensioned shape of each of said parts serving to thereby stiffen said sheet on opposite sides of said fold line such that when said sheet is folded back on itself said parts cooperatively oppose any tendency of the sheet to fold along any line other than said fold line and precisely localize the fold such that when the inner surface of the sheet is either bonded together or is indirectly joined via at least one additional layer therebetween, said two symmetrically positioned portions become precisely juxtaposed opposite each other with a dielectric layer therebetween to form a capacitive element having a predictable capacitance which in combination with said inductive element forms said resonant circuit.
- View Dependent Claims (10, 11, 12, 13, 14, 15)
- - 10. A preform according to claim 9, wherein said electrically conductive layer further comprises at least one electrically conductive path extending across said fold line and connecting portions of said configured layer lying on each side of said line.
  - 11. A preform according to claim 9, wherein said layer is configured to form at least two multi-turn spirals, one on each side of said fold line.
  - 12. A preform according to claim 11, wherein said layer is further configured to provide at least one electrical path extending across said fold line to connect said two multi-turn spirals.
  - 13. A preform according to claim 11, wherein said multi-turn spirals are substantially alike and each is symmetrically positioned with respect to said fold line such that upon folding said sheet back upon itself with a dielectric sheet lying between the spirals, the spirals and dielectric sheet form a distributed capacitive element.
  - 14. A preform according to claim 11, wherein said insulative sheet comprises a sheet having preselected dielectric properties.
  - 15. A preform according to claim 11, wherein each of said multi-turn spirals comprise substantially straight segments parallel to said fold line, with the outermost straight segment also, encompassing one of the straight-sided portions.

16. A marker for use in a radio frequency electronic article surveillance system, said marker containing a circuit resonant at at least one radio frequency, and comprising a flexible polymeric insulative sheet folded back on itself about a predetermined fold line with the inner surface being either directly bonded together or being indirectly joined via at least one additional layer therebetween, said sheet having on one surface an electricallly conductive layer configured to form(i) at least one multi-turn spiral resulting in an inductive element,(ii) at least two substantially two-dimensionally shaped portions, each electrically connected to said spiral, symmetrically positioned on an opposite side of said fold line thereby being juxtaposed and having sandwiched therebetween a dielectric layer to form a capacitive element, and each having a substantially straight side parallel to and spaced a short distance from the straight side of another of said portions, leaving therebetween an elongated region in which said conductive layer is substantially absent, the two-dimensional shape of, each of said two parts serving to thereby stiffen said sheet and to thereby cooperatively oppose any tendency of said sheet to fold along any line other than said fold line and to precisely localize the fold such that the two symmetrically positioned portions are precisely juxtaposed opposite each other to result in a predictable capacitance for said capacitive element which in combination with said inductive element form said circuit resonant at at least one resonant frequency.
- View Dependent Claims (17, 18, 19, 20, 21, 22)
- - 17. A marker according to claim 16, wherein said electrically conductive layer further comprises at least one electrically conductive path extending across said fold line to connect portions of said configured layer lying on each side of said line.
  - 18. A marker according to claim 16, wherein said layer is configured to form at least two multi-turn spirals, one on each side of said fold line.
  - 19. A marker according to claim 18, wherein said layer is further configured to provide at least one electrical path extending across said fold line to connect said two multi-turn spirals.
  - 20. A marker according to claim 18, wherein said multi-turn spirals are substantially alike and each is symmetrically positioned with respect to said fold line such that upon folding said sheet back upon itself with a dielectric sheet lying between the spirals, the spirals and dielectric sheet form a distributed capacitive element.
  - 21. A marker according to claim 18, wherein said insulative sheet comprises a sheet having preselected dielectric properties, which sheet is folded back upon itself and the facing surfaces bonded together such that the conductive layer on each side of the fold line remains on the outside, separated by two thicknesses of the dielectric sheet.
  - 22. A marker according to claim 18, wherein said multi-turn spirals comprise substantially straight segments parallel to said fold line, with the outermost straight segment also encompassing one of the straight-sided portions.

23. A method of fabricating a resonant marker for use in a radio frequency electronic article surveillance system, said marker having at least one radio frequency tuned circuit with integrally formed inductive and capacitive elements, the method comprising the steps of:
- (a) providing flexible polymeric dielectric substrate of predetermined thickness and dielectric characteristics and having first and second faces;
  
  (b) providing on one of said faces a conductive circuit pattern defining at least two multi-turn inductive portions, each portion being substantially alike and symmetrically positioned with respect to a reference line extending therebetween, and spiraling inwardly from the outer edges of the substrate in opposite directions, an outermost leg of each inductive portion further having a substantially two-dimensionally shape which includes a straight side which is parallel to the straight side of the matching leg of the other portion and is spaced a short distance therefrom, leaving therebetween an elongated region in which said conductive pattern is substantially absent to precisely define said reference line therebetween;
  
  (c) folding said substrate and said circuit pattern thereon about said reference line such that a double layer of the substrate lies between the folded portions of the circuit pattern and the respective windings of the respective inductive portions become precisely aligned with each other, the aligned portions and the dielectric substrate therebetween thus forming a distributed capacitive element, while the opposing conductive areas adjacent the said reference line form respective plates of at least one discrete capacitive element, the individual capacitive element and the distributed capacitive element adding to form the total capacitance of the tuned circuit; and
  
  (d) bonding together the double layer of the substrate at least in the region over which the portions are mutually aligned, thereby fixing the capacitance of the respective capacitive components.

24. A marker for use in a radio frequency electronic article surveillance system, said marker having at least one radio frequency tuned circuit with integrally formed inductive and capacitive elements comprising, a flexible polymeric dielectric substrate of predetermined thickness and dielectric characteristics and having first and second faces and an electrically conductive circuit pattern affixed to one of said faces and defining at least two multi-turn inductive portions, each portion being substantially alike and symmetrically positioned with respect to a reference line extending therebetween, and spiraling inwardly from the outer edges of the substrate in opposite directions, an outermost leg of each inductive portion further having a substantially two-dimensional shape which includes a straight side which is parallel to the straight side of the matching leg of the other portion and is spaced a short distance therefrom, leaving therebetween an elongated region in which said conductive pattern is substantially absent to precisely define said reference line therebetween, wherein said substrate is folded about said reference line and the facing surfaces are bonded together such that a double layer of the substrate lies between the folded portions of the circuit pattern and the respective windings of the respective inductive portions are precisely aligned with each other, the aligned portions and the dielectric substrate therebetween thus forming a distributed capacitive element, while the opposing conductive areas adjacent the said reference line form respective plates of at least one discrete capacitive element, the individual capacitive element and the distributed capacitive element adding to form the total capacitance of the tuned circuit.

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Current Assignee
3M Company
Original Assignee
3M Company
Inventors
Baker, Dennis L.
Primary Examiner(s)
Lieberman, Eli

Application Number

US06/669,752
Time in Patent Office

886 Days
Field of Search

340/572, 343/895, 333/175, 333/176
US Class Current

343/895
CPC Class Codes

G08B 13/242   Tag deactivation

G08B 13/244   Tag manufacturing, e.g. con...

G08B 13/2442   Tag materials and material ...

H01L 27/01   comprising only passive thi...

Folded RF marker for electronic article surveillance systems

First Claim

1 Assignment

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Abstract

50 Citations

24 Claims

Specification

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Folded RF marker for electronic article surveillance systems

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

50 Citations

24 Claims

Specification

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Solutions

Use Cases

Quick Links