Abstract: A method of reading signals from a plurality of charge-storage devices in a charge-storage line sensor circuit so as to cause a switching device respectively corresponding to the plurality of charge-storage devices to sequentially read the stored signals and to sequentially reset the storage devices during a line read period. Dead time intervals are provided in the line read period between successive device read periods. A resetting operation for each storage device is performed in a dead time interval after the read operation for that storage device is completed.

Abstract: A plurality of photocells are two-dimensionally arranged on a single light-image receiving plane. Each photocell is connected to first and second sum signal output lines. These lines receive output signals from the photocells through transmission switches, and output sum signals of these signals to an amplifier. The amplifier outputs the difference between the two signals received from the first and second sum signal output lines. A memory stores control signals including weighting data for controlling transmission, isolation, amplification factors, and/or an attenuation factors with respect to the individual transmission switches, and outputs the control signals to the transmission switches. Each transmission switch multiplies or does not multiply the output signal from the corresponding photocell with a specific amplification or attenuation factor, and transmits the product to the first or second sum signal output line. A memory controller writes the weighting data into the memory.

Abstract: An imaging plate structure having a first conductive layer, a first insulative layer, a photoconductive layer, a second insulative layer, and a second conductive layer. The first insulative layer is integrally affixed to the side of the first conductive layer. The photoconductive layer is integrally affixed to the other side of the first insulative layer. The second insulative layer is integrally affixed to the other side of the photoconductive layer. The second conductive layer is integrally affixed to the other side of the second insulative layer. Both the first and the second insulative layers have a thickness suitable for preventing charge tunnelling therethrough. These first and second insulative layers are made of a true insulator material. The photoconductive layer is comprised of a photoconductor that is responsive to radiation of known energy. The first conductive layer and the first insulative layer are transmissive with respect to the radiation acting on the imaging plate.

Abstract: A photo-electric imaging device having an array of rows (7) of minute electrodes (8) and an array of columns (1) of electrodes (4) overlying the rows and separated by semiconductor layer (6). Imaging plates (11) are positioned above each pair of respective electrodes (4, 8) and separated from them by an interface (10). A photoconductive layer (12) may be placed over the imaging plate (11). A writing surface (12) over the imaging plates (11) is produced which comprises a multiplicity of spaced discrete areas each independently addressable by selecting a row and a column.

Abstract: The use of a photoconducting material having specific characteristics in conjunction with a heat sensitive optical recording medium also having specific characteristics yields desirable properties. Specifically, through the use of this combination an optical recording medium that has a relatively low applied power threshold for writing and yet a relatively long-term stability is obtained. The photoconductor material should have an unilluminated resistivity of at least 10.sup.6 Ohm-cm and should undergo a resistivity descrease of at least 10.sup.5 upon illumination to yield this desired attribute.

Abstract: A copying apparatus includes an exposing unit for exposing an original document, a memory, a circuit for causing a plurality of original document images to be stored in the memory, a read out circuit for reading out the original images from the memory, a printing unit for printing the read out image on a copy medium, a manual numerical input device, an addressing circuit for selectively addressing a desired one of the document images stored in the memory in accordance with a data entered by the numerical input device, and a control circuit for controlling the read out circuit by the addressing circuit so as to read out the desired one document image selected by the addressing circuit and print the same on the copy medium. The control circuit is adapted to repeat the read out of the selected image from the memory so as to repeat copying by a number of times entered by the numerical input device.

Abstract: A photoelectric device having at least a predetermined impurity region which is disposed in a semiconductor substrate, and a photoelectric conversion portion which is constructed by stacking an electrode layer lying in contact with at least a part of the impurity region, a photoconductive material layer overlying the electrode layer, and a transparent electrode overlying the photoconductive material layer, characterized in that the photoconductive material layer is made of an amorphous chalcogenide material which principally contains Se, is disclosed. It is very favorable that the photoelectric conversion material layer made of the amorphous material principally containing Se is partially doped with Te so as to enhance its sensitivity. The amorphous chalcogenide material is very useful in the following point.

Abstract: This invention pertains to an improved technique of introducing an added insulative layer between the thermoplastic layer and the photoconductive layer of the thermoplastic photoconductive holographic recording medium. The added layer (pure PVK) is electrically insulating at temperatures used for thermal development to prevent decaying charge contrast during hologram development.

Abstract: The method of, and apparatus for, producing an electrical video signal representing a charge pattern on an insulating dielectric sheet or film, without destroying the charge pattern, including the steps of: placing a transparent electrode on the free top surface of the dielectric film, placing the dielectric film having the charge pattern in close contact with the free top surface of an uncharged photoconductor having a back electrode connected to a load impedance, and scanning the photoconductor through said transparent electrode and said dielectric film with a flying spot of light to produce a video electrical signal across the load impedance during the scanning.

Abstract: A printer/copier having the added capabilities of scanning information from photocopying media, for the purpose of storing it in computer memories or transmitting it over communication lines. The printer/copier has a sensing electrode which detects the charge change on a photoconductor surface as it is being scanned by a laser beam. The laser can also be used to expose the photoconductor for the purpose of printing. A deconvolution circuit is also provided to convert the detected charge to a storable or transmittable coded signal.

Abstract: Electrophotographic medium which comprises a multilayer structure of materials for imaging radiant energy patterns at high speed comprising a transparent substrate, ohmic layer and coating of photoconductive material, which form a modulating structure for the radiant energy projected through the substrate; a dielectric layer intimately bonded to the surface of the photoconductive coating and a conductive electrode in intimate contact with the dielectric layer. The dielectric layer constitutes the storage medium for the image which is produced in electrostatic charge form and, the medium is capable of retaining latent images for a very substantial length of time.The use of the electrophotographic medium does not require initial charging; hence no means for effecting this are required. Further, the speed of the medium is so high compared with all other media that extremely low energy levels can provide sufficient contrast to produce images.The structure as described is used by connecting a d.c.

Abstract: Electro-optic imaging members including photoconductive material, a deformable elastomer layer and a thin, flexible conductive metallic layer are described. The metallic layer comprises titanium and silver. Methods for forming the metallic layer and imaging methods utilizing the novel imaging members are also disclosed.

Abstract: This invention pertains to an improved thermoplastic holographic recording medium having an added layer between the thermoplastic layer and the photoconductor layer. The added layer is electrically insulating at temperatures used for thermal development to prevent decaying charge contrast during hologram development.

Abstract: Method and apparatus for inverting the polarity of an input image formed on a surface of an image recording device which deforms when illuminated in the presence of an electrostatic field applied thereacross. The image recording device, comprising a layered structure consisting of a conductive transparent substrate, a photoconductive layer, a deformable elastomer layer and a deformable, reflective layer is raster scanned by information containing light through the photoconductor layer with voltage applied between the conductive electrodes, the elastomer and deformable electrode being deformed in accordance with the input information. The image projected from the surface of the deformable electrode is positive, light characters on a dark background. In order to project a negative image (dark characters on a light background), the device is initially flooded with light through the photoconductor layer with voltage applied between the conductive electrodes.

Abstract: An electrical information or latent image storage system using a storage element which comprises a layer of substantially electrically insulating material having a layer of electrically photosensitive particulate material embedded therein, with a layer of semiconductor material overcoating one surface of the layer of insulating material, and an electrode on the opposite surface of the layer of insulating material. Information in the form of localized electrical charges of an electrical latent image is placed on the element by electrical or photo-electrical means, the information can be retrieved by scanning the element using an electrode-pair grid pattern, an electron beam, or other suitable means, and the retrieved information may be used, for example, through a computer, or reconstructed into a visible image corresponding to a latent image.

Abstract: An electrical information or latent image storage system using a storage element which comprises a layer of substantially electrically insulating material having a layer of electrically photosensitive particulate material embedded therein, with a layer of semiconductor material overcoating one surface of the layer of insulating material, and an electrode on the opposite surface of the layer of insulating material. Information in the form of localized electrical charges of an electrical latent image is placed on the element by electrical or photo-electrical means, the information can be retrieved by scanning the element using an electrode-pair grid pattern, an electron beam, or other suitable means, and the retrieved information may be used, for example, through a computer, or reconstructed into a visible image corresponding to a latent image.

Abstract: Waveguides having light propagating therethrough are positioned between a common electrode and individual electrodes arranged along a charge-coupled device. The waveguides are of a type which modulate the propagating light responsive to an electric field. The charge-coupled device is activated to place charges at selected ones of the individual electrodes, creating a field across the waveguide by which light propagating through the waveguide is modulated.

Abstract: Optical information is stored in a member which includes a layer of electrochromic material and an electrolyte in contact with the electrochromic material. The electrolyte has particles of photoconductive material therein. The member is exposed to optical information such that electron-hole pairs are formed in the photoconductive material. The creation of the electron-hole pairs produces persistent coloration in the electrochromic material in an area which corresponds to the optical information. If desired, the stored information can be erased by applying an electric field to the member.

Abstract: Method and apparatus for selectively erasing information formed on the surface of image recording device which deforms when illuminated in the presence of an electrostatic field applied thereacross. The image recording device, comprising a layered structure consisting of a conductive transparent substrate, a photoconductive layer, a deformable elastomer layer and a deformable electrode, is initially raster scanned by information containing light on the photoconductor layer with voltage applied between the conductive electrodes whereby the elastomer and deformable electrode are deformed in accordance with the input information. For selective erasure, the voltage is removed and the device is short-circuited. With the device shorted, the area to be erased is scanned with the spot of light. The short is then removed and the voltage reapplied, the remainder of the information except for the area erased, being restored. Additional information can be written in the erased area if desired.

Abstract: The invention relates to a device for magneto-optic memories controlled by light and/or heat in an external magnetic field, in which the magneto-optic material of the memory has a photoconductive layer which can be activated by the control beam and which can be controlled by means of electrodes provided thereon via a current or voltage source.