Pyroelectric sensor

US 4,379,971 A
Filed: 11/10/1980
Issued: 04/12/1983
Est. Priority Date: 11/10/1980
Status: Expired due to Term

First Claim

Patent Images

1. A selective radiation sensing device which is capable of sensing radiated energy having a wavelength in a preselected band, the sensing device comprising:

a body means formed from a thin flexible sheet of pyroelectric material which will generate an electrical charge upon being subjected to a change in temperature;

a first area of electrical conducting material forming a first electrode and adhered to and substantially covering one surface of said pyroelectric material;

one or more areas of electrical conducting material forming at least a second electrode arranged on the opposite side of the pyroelectric material of said body means from the first electrode; and

a thin layer of material which is non-absorbing to all radiation outside of said preselected band, said material being positioned over and adhered to at least a portion of the outer surface of one of said electrodes, said material being capable of absorbing the radiated energy which is within the preselected wavelength band and converting this energy to heat whereby when this radiation is present the generated heat will be conducted from the selective absorbing material to the body means by the metallic electrode so that an electric signal change will be generated in the pyroelectric body material and sensed at the electrodes to indicate the presence of radiation within the preselected wavelength band.

View all claims

2 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

An improved, selective, radiation sensing device is provided which includes a thin strip of pyroelectric material. One side of the material is coated with a continuous layer of metallic material to form an electrode while the opposite side is coated with at least a pair of electrodes and the output of the electrodes are electrically connected to a differential amplifier. A layer of energy filter material is applied over the continuous electrode. This layer is transparent to all energy outside of a desired energy frequency band to which the device is to be sensitive but absorbs and converts to heat all energy applied which is within this band. This heat is conducted quickly into the pyroelectric material which produces a voltage change in the output from the corresponding electrodes. By positioning the device at the focal point of a concave mirror, the output from the electrodes can be used to energize an alarm signal or the magnitude and frequency of the output of the device can indicate the size and movement of an energy source such as a human body. A novel method of making the device is included which facilitates the fabrication and reduces handling problems and costs.

Citations

22 Claims

1. A selective radiation sensing device which is capable of sensing radiated energy having a wavelength in a preselected band, the sensing device comprising:
- a body means formed from a thin flexible sheet of pyroelectric material which will generate an electrical charge upon being subjected to a change in temperature;
  
  a first area of electrical conducting material forming a first electrode and adhered to and substantially covering one surface of said pyroelectric material;
  
  one or more areas of electrical conducting material forming at least a second electrode arranged on the opposite side of the pyroelectric material of said body means from the first electrode; and
  
  a thin layer of material which is non-absorbing to all radiation outside of said preselected band, said material being positioned over and adhered to at least a portion of the outer surface of one of said electrodes, said material being capable of absorbing the radiated energy which is within the preselected wavelength band and converting this energy to heat whereby when this radiation is present the generated heat will be conducted from the selective absorbing material to the body means by the metallic electrode so that an electric signal change will be generated in the pyroelectric body material and sensed at the electrodes to indicate the presence of radiation within the preselected wavelength band.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A selective radiation sensing device as defined in claim 1 wherein one additional area of electrical conducting material forming a third electrode is arranged on the same side of said body means with said second electrode, said second and third electrode areas having approximately the same size and having their electrical output signals connected to a compensating means whereby the combined output signal of the electrode is conditioned to nullify any overall environmental temperature change of said body means.
  - 3. A selective radiation sensing device as defined in claim 2 wherein said second and third electrodes are divided into smaller interconnected sections and the sections of the respective electrodes are arranged in alternating fashion on the surface of said body means.
  - 4. A selective radiation sensing device as defined in claim 2 wherein said second and third electrodes are each a plurality of electrode areas formed on the surface of said body means pyroelectric material in an alternating pattern and interconnected in parallel to form the second and third electrodes;
    - andsaid electrode areas are individually connected to a suitable electronic circuit with said first electrode whereby the electrical output from said second or third electrode areas can indicate where the infrared energy is generally striking said layer of transparent filter material.
  - 5. A selective radiation sensing device as defined in claims 1 or 2 wherein the outer surface of the electrode adjacent to said layer of selective absorbing material has a highly reflective surface to aid in the reflecting and dissipation of the radiated energy outside of the desired band.
  - 6. A selective radiation sensing device as defined in claims 1 or 2 wherein said first electrode is electrically connected to an enclosure for said device to provide electrostatic shielding so as to improve the electrical output characteristics of the device.
  - 7. A selective radiation sensing device as defined in claim 1 wherein the selective absorbing material is selected from a group consisting of nitrocellulose, urethane, styrene, and acrylic resin.
  - 8. A selective radiation sensing device as defined in claim 1 wherein the body flexible sheet is a thin film which has a maximum thickness of 12 microns.
  - 9. A selective radiation sensing device as defined in claim 1 wherein said pyroelectric material is made from polyvinyldine fluoride.
  - 10. A selective radiation sensing device as defined in claim 1 wherein said selective absorbing material is formed from polyvinyldine fluoride.
  - 11. A selective radiation sensing device as defined in claim 1 wherein said layer of selective absorbing material has a thickness in the range of 5 to 15 microns.

12. An electronic intrusion detector for sensing the presence of a living object by detecting the infrared energy radiated from said object, said intrusion detector comprising:
- an infrared sensing device including a pyroelectric material substrate and capable of selectively absorbing infrared radiation primarily within a wavelength band corresponding to the wavelength that is given off by a living object and producing an electrical output signal indicating the presence of said radiation;
  
  said infrared sensing device being mounted at the focal point of a reflective means, said reflective means being arranged to concentrate the energy received from a given viewing area to a concentrated point on the surface of said infrared sensing device;
  
  said reflective means and sensing device being suitably mounted within an enclosure;
  
  a single source of battery power mounted within said enclosure;
  
  electronic circuit means powered by said single source of battery power and arranged to receive the output signal from said infrared sensing means when radiant energy within said band is sensed and produce a first electrical signal indicative thereof;
  
  said electronic circuit means further includes means for monitoring the energy level of said single source of battery power and produce a second electrical signal when said energy level drops below a predetermined condition; and
  
  alarm means powered by said single source of battery power and arranged to receive said first or second electrical signals and produce a first or second alarm signal, respectively, said first and second alarm signals each being distinctive and capable of identifying which condition exists.
- View Dependent Claims (13, 14, 15, 16)
- - 13. An intrusion detector as defined in claim 12 wherein said reflective means is pivotably mounted within said enclosure so that said reflective means can be positionally adjusted to vary the viewing area of said electronic intrusion detector.
  - 14. An intrusion detector as defined in claim 12 wherein the infrared wavelength which is sensed by the sensing device is greater than 5 microns and less than 15 microns.
  - 15. An intrusion detector as defined in claim 12 wherein said infrared sensing means includes one metallic electrode which essentially covers one surface of the pyroelectric material and is electrically grounded to the enclosure and the electronic circuit means to provide electrostatic shielding of the sensor with the elimination of electrostatic interference during the operation of said intrusion detector.
  - 16. An intrusion detector as claimed in claim 15 wherein a number of metallic electrode areas are provided in alternating arrangement on the opposite side of the pyroelectric material from the one metallic electrode, the alternating electrode areas being of approximately equal area and provide separate inputs to a differential amplifier whereby as an energy source moves across the field of view of solid intrusion detector the focal point of the radiated energy moves transversely across the surface of the infrared sensing device whereby the output from said differential amplifier is an alternating voltage with the frequency of said output indicating the velocity of the movement of the energy source across the view of the detector.

17. A selective infrared sensing device for detecting radiated energy having a band width of between 5 to 15 microns, said device comprising:
- a. body means formed from a sheet of thin film pyroelectric material;
  
  b. a plurality of areas of electrically conductive material adhered to one side of said body means, said areas being electrically interconnected in alternating arrangement to form at least two electrode means, each of said electrode means providing an electrical input to a suitable electronic circuit;
  
  c. a continuous area of electrically conducting material adhered to the opposite side of said body means and substantially covering the side to form a continuous electrode means, said continuous electrode means provides an electrical input to said electronic circuit; and
  
  d. a layer of selective energy absorbing filter material at least partially covering said continuous electrode, said filter material being chosen whereby it does not absorb radiated energy outside of the desired wavelengths band but will absorb and convert to heat that energy which is within the desired band, said heat being quickly conducted directly to the pyroelectric material by the continuous electrode;
  
  e. whereby the change in temperature of said body means creates a change in the surface charge on said pyroelectric material which in turn changes the output voltage from the electrodes to said electronic circuit.
- View Dependent Claims (18, 19, 20)
- - 18. A selective infrared sensing device as defined in claim 17 which further includes an energy focusing means which concentrates the energy radiated from a select area onto the outer surface of the filter material layer of said device.
  - 19. A selective infrared sensing device as defined in claim 18 wherein said energy focusing means is a concave circular mirror and the body means is mounted at the focal point of said mirror.
  - 20. A selective infrared sensing device as defined in claim 17 wherein said pyroelectric material is polyvinylidene fluoride.

21. An electronic intrusion detector for sensing the presence of a living object by detecting infrared energy radiated from said object, said intrusion detector comprising;
- an infrared sensing means including a pyroelectric material substrate, a reflective metallic electrode formed on one side of said substrate, a plurality of metallic electrodes formed on the opposite side, and a layer of transparent material formed over said reflective metallic electrode;
  
  said layer being transparent to received radiant energy which will be reflected and dissipated by the reflective electrode but capable of selectively absorbing infrared energy within an energy wavelength band generally corresponding to the wavelength which is given off by a living object whereby when the infrared energy within the selected wavelength band is present it will be absorbed by said transparent material and converted to heat energy which is conducted through said reflective metallic electrode into said pyroelectric material so that an output signal indicating the presence of said infrared energy is generated by said sensing means;
  
  a reflective means having said infrared sensing means mounted at its focal point, said reflective means being arranged to concentrate and focus the energy received from a given viewing area associated with said electronic intrusion detector onto said reflective metallic electrode of said sensing means;
  
  said reflective means and said infrared sensing means being mounted within a conductive enclosure;
  
  an electronic circuit means powered by a suitable source of electrical energy and arranged to receive the output signal from said infrared sensing means and generate an appropriate electrical signal; and
  
  an alarm means powered by said source of electrical energy and arranged to receive said electrical signal and produce a distinctive alarm signal when said infrared sensing means receives radiant energy within said predetermined wavelength band.
- View Dependent Claims (22)
- - 22. An intrusion detector as defined in claim 21 wherein said reflective metallic electrode which is a part of said infrared sensing means is electrically grounded to the conductive enclosure and the electronic circuit means to provide electrostatic shielding of the sensor so as to reduce the possibility of a false alarm during the operation of said detector.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Statitrol Corporation
Original Assignee
Statitrol Corporation
Inventors
Coleman, Charles, Smith, Peter R.
Primary Examiner(s)
Smith, Alfred E.
Assistant Examiner(s)
Howell, Janice A.

Application Number

US06/205,146
Time in Patent Office

883 Days
Field of Search

250/342, 250/338, 250/352, 340/541, 340/567
US Class Current

250/342
CPC Class Codes

G01J 5/34 using capacitors, e.g. pyro...

G08B 13/191 using pyroelectric sensor m...

Pyroelectric sensor

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

Citations

22 Claims

Specification

Solutions

Use Cases

Quick Links

Pyroelectric sensor

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

22 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links