Color image formation in receivers having field-driven particles
First Claim
1. Apparatus for forming an image, comprising:
- a) storage means for storing a digitized image;
b) a receiver comprising;
i) a matrix;
ii) a thermomeltable material disposed in the matrix, having a transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above the transition temperature range; and
iii) field-driven particles, immersed in the thermomeltable material, so that the field-driven particles change reflective densities in response to an applied electric field when the material is above the transition temperature range and is stable at temperatures below its transition temperature range;
c) an array of electrodes associated with the receiver for selectively applying electric fields at an image forming position on the receiver;
d) means for heating the receiver to control the temperature of the receiver to control the response of the field-driven particles in the receiver; and
e) electronic control means coupled to the heater for applying heat to control the temperature of the receiver to selectively control the response of the field-driven particles when an electric field is applied and coupled to the electrode array for selectively applying voltages to the electrode array so that electric fields are applied at the image forming position at particular locations on the receiver corresponding to pixels in response to the stored image whereby the electrodes produces the image in the receiver corresponding to the stored image.
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Accused Products
Abstract
Apparatus for forming an image, comprising a storage for storing a digitized image and a receiver. The receiver includes a matrix, a thermomeltable material disposed in the matrix having a transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above the transition temperature range, and field-driven particles immersed in the thermomeltable material, so that the particles change optical densities in response to an applied electric field when the thermomeltable material is above the transition temperature range and is stable at temperatures below the transition temperature range. An array of electrodes selectively applies electric fields at an image forming position on the receiver. The apparatus heats the receiver to control the temperature of the receiver to control the response of the field-driven particles in the receiver. Electronic control circuitry coupled to the heater controls the temperature of the receiver when an electric field is applied and coupled to the electrode array for selectively applying voltages to the electrode array so that electric fields are applied at the image forming position at particular locations on the receiver corresponding to pixels in response to the stored image whereby the electrodes produces an image in the receiver corresponding to the stored image.
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Citations
15 Claims
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1. Apparatus for forming an image, comprising:
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a) storage means for storing a digitized image;
b) a receiver comprising;
i) a matrix;
ii) a thermomeltable material disposed in the matrix, having a transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above the transition temperature range; and
iii) field-driven particles, immersed in the thermomeltable material, so that the field-driven particles change reflective densities in response to an applied electric field when the material is above the transition temperature range and is stable at temperatures below its transition temperature range;
c) an array of electrodes associated with the receiver for selectively applying electric fields at an image forming position on the receiver;
d) means for heating the receiver to control the temperature of the receiver to control the response of the field-driven particles in the receiver; and
e) electronic control means coupled to the heater for applying heat to control the temperature of the receiver to selectively control the response of the field-driven particles when an electric field is applied and coupled to the electrode array for selectively applying voltages to the electrode array so that electric fields are applied at the image forming position at particular locations on the receiver corresponding to pixels in response to the stored image whereby the electrodes produces the image in the receiver corresponding to the stored image. - View Dependent Claims (2, 3)
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4. Apparatus for forming a color image, comprising:
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a) storage means for storing a digitized image;
b) a receiver comprising;
i) a matrix;
ii) at least two different thermomeltable materials separately disposed in the matrix, each material having a different transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above the transition temperature range; and
iii) at least two different colored field-driven particles, each immersed in a particular one of the different thermomeltable materials, so that a particular color particle changes color reflective densities in response to an applied electric field when its corresponding thermomeltable material is above the transition temperature range and is stable at temperatures below its respective transition temperature range;
c) an array of electrodes associated with the receiver for selectively applying electric fields at an image forming position on the receiver;
d) means for heating the receiver to control the temperature of the receiver to control the response of the colored field-driven particles in the receiver; and
e) electronic control means coupled to the heater for applying heat to control the temperature of the receiver to selectively control the response of the colored field-driven particles when an electric field is applied and coupled to the electrode array for selectively applying voltages to the electrode array so that electric fields are applied at the image forming position at particular locations on the receiver corresponding to pixels in response to the stored image whereby the electrodes produces a color image in the receiver corresponding to the stored image. - View Dependent Claims (5, 6)
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7. A receiver for forming images, comprising:
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a) a substrate;
b) a layer having a matrix disposed over the substrate and including i) a thermomeltable material disposed in the matrix, having a transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above the transition temperature range; and
ii) field-driven particles, immersed in the thermomeltable material, so that the field-driven particles change reflective densities in response to an applied electric field when the material is above the transition temperature range and is stable at temperatures below its transition temperature range. - View Dependent Claims (8, 9)
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10. A receiver for forming colored images, comprising:
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a) a substrate;
b) a layer having a matrix disposed over the substrate and including i) at least two different thermomeltable materials separately disposed in the matrix, each material having a different transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above its transition temperature range; and
ii) at least two different colored field-driven particles, each immersed in a particular one of the different thermomeltable materials, so that a particular color particle change color reflective densities in response to an applied electric field when its corresponding material is above the transition temperature range and is stable at temperatures below its respective transition temperature range. - View Dependent Claims (11, 12)
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13. A receiver for forming colored images, comprising:
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a) a substrate;
b) a conductive layer disposed over the substrate; and
c) a matrix disposed over the substrate and including i) at least two different thermomeltable materials separately disposed in the matrix, each material having a different transition temperature range which is above room temperature wherein the viscosity of the thermomeltable material decreases substantially from below to above the transition temperature range; and
ii) at least two different colored field-driven particles, each immersed in a particular one of the different thermomeltable materials, so that a particular color particle change color reflective densities in response to an applied electric field when its corresponding material is above the transition temperature range and is stable at temperatures below its respective transition temperature range. - View Dependent Claims (14, 15)
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Specification