Light valve including dipolar particle construction and method of manufacture

US 4,261,653 A
Filed: 05/26/1978
Issued: 04/14/1981
Est. Priority Date: 05/26/1978
Status: Expired due to Term

First Claim

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1. A spherical dipolar particle comprising:

a first section diametrically passing through the center of the spherical particle;

a transparent third section defining the outer extremities of the spherical particle in at least two diametrically opposite directions normal to said first section; and

a second section disposed between and joining said first and third sections;

wherein one of said first and second sections has an electrical permittivity variable as a function of the frequency of an oscillating electric field applied thereacross said frequency of oscillation variable in a frequency range between a first frequency and a second frequency, and said electrical permittivity variable from a first value in response to said electrical field oscillating at said first frequency to a second substantially different value in response to said electric field oscillating at said second frequency, and wherein the other of said first and second sections is substantially opaque; and

wherein said third section has an electrical permittivity having a value intermediate said first and second values which is relatively stable in response to electric fields applied thereacross oscillating in said frequency range.

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Abstract

A light valve is formed of a plurality of spherical dipolar particles suspended in a matrix material. Each spherical dipolar particle has a unified body formed in three discrete symmetrical sections. A central section is configured to permit light transmission when in a first orientation with respect to a path of light travel, and generally not permit light transmission when in a second, transverse orientation with respect to the path of light travel. A pair of intermediate sections bound the central section and are formed of a transparent material having an electrical permittivity that varies through a range of values as a function of the frequency of an applied electric field. A pair of outer sections bounds the intermediate sections and are formed of a material having a relatively stable electrical permittivity within the range of values of the intermediate sections. An applied electric field at one frequency extreme will cause the spherical dipolar particle to align in the first orientation to permit light transmission, and an applied electric field in the other frequency extreme will cause the particle to anti-align in the second, transverse orientation to shutter or reflect light. The matrix material is preferably formed of a plasticized elastomer that has a plurality of expanded cavities, with each cavity containing an outer lubricating layer to allow free rotational motion of a dipolar particle in the cavity. The use of a light valve of the present invention and method of manufacturing the spherical dipolar particle construction are also disclosed.

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29 Claims

1. A spherical dipolar particle comprising:
- a first section diametrically passing through the center of the spherical particle;
  
  a transparent third section defining the outer extremities of the spherical particle in at least two diametrically opposite directions normal to said first section; and
  
  a second section disposed between and joining said first and third sections;
  
  wherein one of said first and second sections has an electrical permittivity variable as a function of the frequency of an oscillating electric field applied thereacross said frequency of oscillation variable in a frequency range between a first frequency and a second frequency, and said electrical permittivity variable from a first value in response to said electrical field oscillating at said first frequency to a second substantially different value in response to said electric field oscillating at said second frequency, and wherein the other of said first and second sections is substantially opaque; and
  
  wherein said third section has an electrical permittivity having a value intermediate said first and second values which is relatively stable in response to electric fields applied thereacross oscillating in said frequency range.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The dipolar particle as defined by claim 1 wherein said first section is said other section and said second section is said one section.
  - 3. The dipolar particle as defined in claim 2, wherein the first section is a high aspect ratio thread of light absorbing material.
  - 4. The dipolar particle as defined in claim 3, wherein the thread of light absorbing material is extramural absorption glass.
  - 5. The dipolar particle construction as defined in claim 2, wherein the second section is sodium silicate.
  - 6. The dipolar particle as defined in claim 2 wherein the first section is dichoric polarizing material.
  - 7. The dipolar particle as defined in claim 2, wherein the first section is an opaque disc having two parallel surfaces.
  - 8. The dipolar particle as defined in claim 7, wherein at least one of said parallel surfaces is reflective.
  - 9. The dipolar particle as defined in claim 1, wherein the third section is glass.

10. A light valve comprising:
- two parallel electrodes spaced a small distance apart, at least one of said two electrodes being transparent;
  
  a host material having a plurality of particle cavities, said host material filling the space between said two electrodes;
  
  a plurality of spherical dipolar particles having an axis of polarization, one of said spherical particles disposed in each of said particle cavities and free to rotate therein, said spherical particles having a first aligned state possessing a first optical characteristic in response to an oscillating electric field between said two electrodes having a first frequency and rotatable to a second aligned state possessing a second substantially different optical characteristic in response to an oscillating electric field between said two electrodes having a second frequency.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 11. The light valve as defined in claim 10 wherein each dipolar particle comprises:
    - a central section diametrically passing through the center of said spherical particle and containing said axis of polarization;
      
      a transparent outer section defining the outer extremities of the spherical particle in at least two diametrically opposite directions normal to said central section; and
      
      an intermediate section disposed between and fixedly joining said central and outer sections;
      
      wherein one of said central and intermediate sections has an electrical permittivity variable as a function of the frequency of an oscillating electric field generated between said parallel electrodes in a frequency range between a first frequency and a second frequency, said electrical permitivity variable between a first value in response to said electric field oscillating at said first frequency and a second value in response to said electric field oscillating at said second frequency, and said the other of said central and intermediate sections is opaque; and
      
      wherein said outer section has an electrical permittivity which is relatively stable in response to an electric field oscillating in the frequency range between said first and said second frequencies and has a value approximately equal to the permittivity of said host material; and
      
      wherein each cavity further includes a lubricating fluid surrounding the spherical particle disposed therein, said fluid having an electrical permittivity approximately equal to the permittivity of said outer section.
  - 12. The light valve as defined in claim 11, wherein the central section is a high aspect ratio thread of light absorbing material.
  - 13. The light valve as defined in claim 14, wherein the light absorbing material is extramural absorption glass.
  - 14. The light valve as defined in claim 11 wherein said intermediate section is said one section and said central section is said other section.
  - 15. The light valve as defined in claim 14, wherein the intermediate section is sodium silicate.
  - 16. The light valve as defined in claim 14, wherein the central section is an opaque disc having two parallel surfaces.
  - 17. The light valve as defined in claim, 16, wherein at least one of said parallel surfaces is reflective.
  - 18. The light valve as defined in claim 14, wherein the central section is dichoric light polarizing material.
  - 19. The light valve as defined in claim 11, wherein said outer section is glass.
  - 20. The light valve as defined in claim 10, wherein the host material is plasticized to expand said cavities in which the dipolar particles are disposed to provide free rotational motion therewithin.
  - 21. The light valve as defined in claim 10, wherein the host material is an elastomer.
  - 22. The light valve as defined in claim 21, wherein the elastomer is a silicon rubber.
  - 23. The light valve as defined in claim 10, wherein the host material is a sintered plastic.
  - 24. The light valve as defined in claim 10, wherein both of said electrodes are transparent.

25. A matrix addressable display comprising:
- two parallel planar members spaced a small distance apart, each of said planar members having an inner surface facing the other planar member and at least one of said planar members being transparent;
  
  a first plurality of transparent electrodes electrically isolated from each other disposed along the inner surface of said at least one transparent planar member in a parallel relationship with respect to each other;
  
  a second plurality of electrodes electrically isolated from each other disposed along the inner surface of the other planar member in a parallel relationship to each other and transverse to said first plurality of transparent electrodes;
  
  a host material having a plurality of spherical particle cavities filling the space between said two planar members;
  
  a plurality of spherical dipolar particles, one of said spherical particles disposed in each of said particle cavities and free to rotate therein, said spherical dipolar particles having a first aligned state possessing a first optical characteristic in response to an oscillating electric field between said first and second plurality of electrodes having a first frequency and rotatable in said particle cavities to a second aligned state possessing a second optical characteristic different from said first optical characteristic in response to an oscillating electric field between said first and second plurality of electrodes having a second frequency.
- View Dependent Claims (26)
- - 26. The display as defined in claim 25 wherein each spherical dipolar particle comprises:
    - a first section diametrically passing through the center of said spherical particle and defining an axis of polarization;
      
      a transparent second section defining the outer extremities of the spherical particle in at least two diametrically opposite directions normal to said first section; and
      
      an intermediate section disposed between and fixedly joining said first and second sections;
      
      wherein one of said first and intermediate sections has an electrical permittivity variable as a function of the frequency of an electric field generated between said first and second plurality of electrodes, said electrical permittivity variable between a first value in response to said electric field oscillating at said first frequency and a second value in response to said electric field oscillating at said second frequency; and
      
      wherein said second section has an electrical permittivity which is relatively stable in response to said electric field oscillating in said frequency range and has a value intermediate said first and second values; and
      
      wherein each cavity further includes a lubricating fluid surrounding the spherical particle disposed therein, said fluid having an electrical permittivity approximately equal to the permittivity of said second section.

27. A method of manufacturing spherical dipolar particles comprising the steps of:
- a. stacking together an opaque central member, at least one transparent outer member, and at least one intermediate member to form a first assembly having a first cross section said intermediate member having an electrical permittivity variable as a function of the frequency of an oscillating electric field applied thereacross, said permittivity variable between a first value in response to said electric field oscillating at a first frequency and a second value, different from said first value in response to said electric field oscillating at a second frequency and said outer member having an electrical permittivity which has a value intermediate said first and second values and which is relatively stable in response to said electrical field oscillating in said frequency range;
  
  b. drawing said first assembly in a direction parallel to said central member to produce an elongated assembly having a drawn cross section substantially smaller than said first cross section;
  
  c. slicing said elongated assembly in a direction normal to the length of said elongated assembly to produce a plurality of small segments each having a length approximately equal to the width of said elongated section;
  
  d. processing said plurality of small segments to produce spherically shaped particles.
- View Dependent Claims (28, 29)
- - 28. The method of claim 27 wherein said central member is a rod, said intermediate member is a first cylinder having an internal diameter larger than the diameter of said rod and said outer member is a second cylinder having an internal diameter larger than the external diameter of said first cylinder, said step of stacking comprises the steps of inserting said first cylinder into said second cylinder and inserting said rod into said first cylinder to form said first assembly having said intermediate and outer members concentrically disposed about said rod.
  - 29. The method of claim 27 wherein said central member is a rectangular plate, and wherein said intermediate and outer members are a pair of rectangular plates having approximately the same length and width as the rectangular plate comprising said central member, said step of stacking comprises the steps of stacking in a sequential order a first outer member, a first intermediate member, said central member, the other intermediate member and the other outer member to form a laminated first assembly.

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Current Assignee
The Bendix Corporation (Honeywell International Inc.)
Original Assignee
The Bendix Corporation (Honeywell International Inc.)
Inventors
Goodrich, George W.
Primary Examiner(s)
Sikes, William L.
Assistant Examiner(s)
Scott, Jr., Leon

Application Number

US05/909,882
Time in Patent Office

1,054 Days
Field of Search

350/362, 350/151
US Class Current

359/296
CPC Class Codes

G02B 26/026   based on the rotation of pa...

G02F 1/172   based on a suspension of or...

Y10S 359/90   Methods

Light valve including dipolar particle construction and method of manufacture

First Claim

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Abstract

238 Citations

29 Claims

Specification

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Light valve including dipolar particle construction and method of manufacture

First Claim

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Accused Products

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Abstract

238 Citations

29 Claims

Specification

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Solutions

Use Cases

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