Triboelectric, ranging, or dual use security sensor cable and method of manufacturing same

US 7,479,878 B2
Filed: 07/28/2004
Issued: 01/20/2009
Est. Priority Date: 07/28/2004
Status: Expired due to Fees

First Claim

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1. A flexible sensor cable for use in an intrusion detection system having a processor, the flexible sensor cable having an input and an output for coupling to the processor, the flexible sensor cable comprising:

a first electrically conductive cable member;

a second electrically conductive cable member;

an air separator and a plastic electrically insulating member both being disposed between the first conductive cable member and the second conductive cable member;

the first electrically conductive cable member having one surface in contact with the air separator and being freely movable within the air separator relative to the plastic electrically insulating member, such that the flexible sensor is capable of providing impedance change in response to a disturbance; and

the plastic electrically insulating member being made of a material selected based on triboelectric series properties and being processed such that the flexible sensor cable is capable of producing a terminal voltage with acceptable signal to noise in response to a disturbance.

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Abstract

The present invention provides an inexpensive security sensor cable, a method for manufacturing of same and an overall security system for using that sensor cable. The sensor cable consists of a central conductor, an air separator, a polyethylene dielectric tube, an outer conductor and an outer protective jacket. The central conductor is loosely centered in the coaxial cable and thus freely movable relative to the dielectric tube. The sensor cable has application either in a passive sensing system or in an active ranging sensing system to determine the location of an intrusion along the cable. For the passive sensing function, when the center conductor moves, it contacts a suitable dielectric material from the triboelectric series, such as polyethylene, which can be processed to produce a charge transfer by triboelectric effect that is measurable as a terminal voltage. In an active system, the central conductor moves within the dielectric in response to a vibration to provide an impedance change that can be sensed. Conventional radio grade cable may be modified in its construction by removing its dielectric thread to manufacture the sensor cable, thus enabling the center conductor to move freely in the air gap within the dielectric tube. An inexpensive method of manufacturing sensor cable is provided as the cable parts are readily available. Such a sensor cable is advantageous in that the passive triboelectric properties of the cable, in response to a disturbance, can provide a larger voltage response over prior art cables.

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23 Claims

1. A flexible sensor cable for use in an intrusion detection system having a processor, the flexible sensor cable having an input and an output for coupling to the processor, the flexible sensor cable comprising:
- a first electrically conductive cable member;
  
  a second electrically conductive cable member;
  
  an air separator and a plastic electrically insulating member both being disposed between the first conductive cable member and the second conductive cable member;
  
  the first electrically conductive cable member having one surface in contact with the air separator and being freely movable within the air separator relative to the plastic electrically insulating member, such that the flexible sensor is capable of providing impedance change in response to a disturbance; and
  
  the plastic electrically insulating member being made of a material selected based on triboelectric series properties and being processed such that the flexible sensor cable is capable of producing a terminal voltage with acceptable signal to noise in response to a disturbance.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The flexible sensor cable as in claim 1, wherein the terminal voltage is produced based on an effect chosen from the group consisting of:
    - triboelectric effect, electret effect, and triboelectric and electret effects.
  - 3. The flexible sensor cable as in claim 1, wherein the sensor cable is a coaxial cable, and wherein the first electrically conductive cable member encloses the second electrically conductive cable member.
  - 4. The flexible sensor cable as in claim 1, wherein the flexible sensor cable is a coaxial cable, and wherein the second electrically conductive cable member encloses the first electrically conductive cable member.
  - 5. The flexible sensor cable as in claim 1, wherein the flexible sensor cable is a coaxial cable, wherein the second electrically conductive cable member encloses the first electrically conductive cable member,and wherein the sensor cable further includes an outer jacket and a second air separator, such that the second air separator is disposed between the outer jacket of the sensor cable and the plastic electrically insulating member,and wherein the second electrically conductive member has one surface in contact with the second air separator and being freely movable within the second air separator relative to the plastic electrically insulating member.
  - 6. The flexible sensor cable as in claim 1, wherein the cable is a coaxial cable, and wherein the surface of the first electrically conductive cable member is coated with a dielectric layer.
  - 7. The flexible sensor cable as in claim 1, wherein the cable is a twisted pair cable, wherein the plastic electrically insulating member is a plastic coating on the first electrically conductive cable member, and wherein the plastic coating is twisted with the second electrically conductive cable member.
  - 8. The flexible sensor cable as in claim 1, wherein the plastic electrically insulating member is selected from the group consisting of:
    - polyvinyl chloride, polyethylene, foamed polyethylene, and polypropylene.
  - 9. The flexible sensor cable as in claim 1, wherein the cable is a threadless radio grade (RG) coaxial type cable.
  - 10. The flexible sensor cable as in claim 1, wherein the cable is capable of producing the terminal voltage with an acceptable signal to noise ratio in response to the disturbance, the acceptable signal to noise being at least an order of magnitude larger than the noise averaged over a period of time.

11. An integrated flexible sensor cable for use in an intrusion detection system having a processor, the flexible sensor cable having an input and an output, both the input and the output of the sensor cable for coupling to the processor, the integrated sensor cable comprising:
- a first electrically conductive cable member;
  
  a second electrically conductive cable member;
  
  an air separator and an plastic electrically insulating member both being disposed between the first conductive cable member and the second conductive cable member;
  
  the first electrically conductive cable member having one surface in contact with the air separator and being freely movable within the air separator relative to the plastic electrically insulating member, such that the flexible sensor cable is capable of providing an impedance change in response to a disturbance; and
  
  the plastic electrically insulating member being made of a material selected based on triboelectric series properties and being processed such that the cable is capable of producing a terminal voltage with an acceptable signal to noise in response to the disturbance, the acceptable signal to noise ratio being at least an order of magnitude larger than the noise averaged over a period of time.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The integrated flexible sensor cable as in claim 11, wherein the cable is a coaxial cable, and wherein the first electrically conductive cable member encloses the second electrically conductive cable member.
  - 13. The integrated flexible sensor cable as in claim 11, wherein the cable is, a coaxial cable, and wherein the second electrically conductive cable member encloses the first electrically conductive cable member.
  - 14. The integrated flexible sensor cable as in claim 11, wherein the cable is a coaxial cable, and wherein the surface of the first electrically conductive cable member is coated with a dielectric layer.
  - 15. The integrated flexible sensor cable as in claim 11, wherein the cable is a twisted pair cable, and wherein the plastic electrically insulating member is twisted together with the second electrically conductive cable member.
  - 16. The integrated flexible sensor cable as in claim 11, wherein the cable is a threadless radio grade (RG) type cable.

17. A method of manufacturing an integrated flexible sensor cable for use with an intrusion detection system, comprising steps of:
- a) selecting materials for construction of a coaxial cable, the coaxial cable having a first electrically conductive cable member, a second electrically conductive cable member, and an air separator, a threaded member, and an plastic electrically insulating member, the air separator, the threaded member, and the plastic electrically insulating member being disposed between the first electrically conductive cable member and the second electrically conductive cable member, and the threaded member being wound around the first electrically conductive cable member to prevent movement of the first electrically conductive cable member within the air separator, relative to the insulating member; and
  
  b) altering the construction to omit the threaded member from the manufacturing method to form a threadless coaxial cable, the first electrically conductive cable member having one surface in contact with the air separator and being freely movable within the air separator relative to the plastic electrically insulating member, and the plastic electrically insulating member being made of a material having suitable triboelectric series properties and being processed such that the threadless coaxial cable is capable of producing a terminal voltage with acceptable signal to noise in response to a disturbance.
- View Dependent Claims (18)
- - 18. The method of manufacturing as in claim 17, wherein the standard coaxial cable selected in step a) is a threaded radio grade (RG) cable.

19. A method of manufacturing an integrated flexible sensor cable for use with an intrusion detection system, comprising steps of:
- a) selecting materials for construction of a coaxial cable, the coaxial cable having a first electrically conductive cable member, a second electrically conductive cable member, and an air separator, a threaded member, and an plastic electrically insulating member, the air separator, the threaded member, and the plastic electrically insulating member being disposed between the first electrically conductive cable member and the second electrically conductive cable member, and the threaded member being wound around the first electrically conductive cable member to prevent movement of the first electrically conductive cable member within the air separator, relative to the insulating member; and
  
  b) altering the construction to omit the threaded member from the manufacturing method to form a threadless coaxial cable, the first electrically conductive cable member having one surface in contact with the air separator and being freely movable within the air separator relative to the plastic electrically insulating member, such that the flexible sensor cable is capable of providing an impedance change in response to a disturbance, and the plastic electrically insulating member being made of a material having suitable triboelectric series properties and being processed such that the de-threaded coaxial cable is capable of producing a terminal voltage with an acceptable signal to noise in response to the disturbance, the acceptable signal to noise ratio being at least an order of magnitude larger than the noise averaged over a period of time.
- View Dependent Claims (20)
- - 20. The method of manufacturing as in claim 19, wherein the coaxial cable selected in step a) is a threaded radio grade (RG) cable, and further including the step of coupling the threadless coaxial cable to the intrusion detection system for use as a sensing element in the intrusion detection system.

21. An intrusion detection system comprising:
- a flexible cable having a first electrically conductive cable member, a second electrically conductive cable member, and an air separator and an plastic electrically insulating member both being disposed between the first electrically conductive cable member and the second electrically conductive cable member, the first electrically conductive cable member having one surface in contact with the air separator and being freely movable within the air separator relative to the plastic electrically insulating member, such that the flexible cable is capable of providing an impedance change in response to a disturbance, and the plastic electrically insulating member being made of a material selected based on triboelectric series properties and being processed such that the flexible cable is capable of producing a terminal voltage with acceptable signal to noise in response to the disturbance; and
  
  a processor, operatively coupled to the flexible cable, for propagating, in an active state, an injected signal into the flexible cable and receiving a reflected signal altered by the impedance change along the flexible cable, and locating the disturbance based on a timing differential, and for generating a signal, in a passive state, in response to the terminal voltage produced from the flexible cable in order to detect the disturbance.
- View Dependent Claims (22, 23)
- - 22. The intrusion detection system as in claim 21, further including switching means operatively coupled to the processor for alternating in a time sequence between the passive state and the active state.
  - 23. The intrusion detection system of claim 21, further including switching means operatively coupled between the processor and the flexible cable to form a connection path to the flexible cable, and a time domain reflectometer, operatively coupled to the processor and the switching means, for propagating an injected signal into the cable and receiving a reflected signal altered by the impedance change along the flexible cable, wherein the switching means is capable of opening and closing the connection path to the flexible cable

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Current Assignee
Senstar Corporation (Mercedes-Benz Group AG)
Original Assignee
Senstar-Stellar Corporation
Inventors
Harman, Robert Keith, Maki, Melvin C.
Primary Examiner(s)
Bugg; George A
Assistant Examiner(s)
Walk; Samuel J

Application Number

US10/566,195
Publication Number

US 20080024297A1
Time in Patent Office

1,637 Days
Field of Search

340/525, 340532-535, 340/552, 340/554, 340/561, 340/566
US Class Current

340/566
CPC Class Codes

G08B 13/124   with the breaking or distur...

H01B 11/1843   of tubular structure

H01B 13/0165   of the layers outside the o...

Y10T 29/49123   Co-axial cable

Triboelectric, ranging, or dual use security sensor cable and method of manufacturing same

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

Citations

23 Claims

Specification

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Triboelectric, ranging, or dual use security sensor cable and method of manufacturing same

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

23 Claims

Specification

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Solutions

Use Cases

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