Khayrullin
Ilyas Khayrullin, Hopewell Junction, NY US
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20140065837 | METHOD OF BONDING LAYERS FOR THIN FILM DEPOSITION - A method of bonding together at least two aligned layers, at least one having an active surface, in a semiconductor manufacturing process using a holding member having spaced sections. Each layer has a bonding surface opposite a back surface. The method includes preparing at least two bonding pads on the back surface of each layer and positioning close together the bonding surface of each layer. Aligning the bonding pads of the layers together and inserting the aligned layers between sections of at least one holding member and aligning the sections with the bonding pads of the layers. Applying bonding compound to the aligned bonding pads adjacent the aligned sections of the holding member. | 03-06-2014 |
Ilyas I. Khayrullin, Flanders, NJ US
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20110231126 | METHOD FOR PERFORMING QUALITY CONTROL ON AN ORGANIC LIGHT EMITTING DIODE DEVICE AND A METHOD FOR DETERMINING CURRENT LEAKAGE IN AN OLED SUB-PIXEL - A method is provided for performing quality control on an organic light emitting diode (OLED) pixel comprising three sub-pixels formed in parallel. A method is provided for determining an average current leakage for three sub-pixels of an OLED pixel. The method includes selecting a total luminance level, determining a first current flowing when a first sub-pixel is energized causing the OLED pixel to emit light having ⅓ total luminance. The method includes determining a second current flowing when the first sub-pixel and a second sub-pixel are energized causing the OLED pixel to emit light having a ⅔ total luminance. The method includes calculating average current leakage by multiplying the first current times two forming a first product, subtracting the second current from the first product forming a result, multiplying the result by two forming a second product, and dividing the second product by nine. A computer-readable medium is provided. | 09-22-2011 |
Ilyas I. Khayrullin, Hopewell Junction, NY US
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20120313118 | ACTIVE-MATRIX ORGANIC LIGHT-EMITTING DIODE DISPLAY DEVICE WITH SHORT PROTECTION - An active-matrix OLED display device, which reduces the adverse effects of short circuits across OLED devices in a densely packed array by having a thin-film resistive layer integrated in series with the OLED device. The OLED device includes a substrate, and first and second pixels situated proximate each other on the substrate. The first pixel comprises an OLED and means for preventing a failure of the first pixel due to a short from affecting the operation of the second pixel. The preventing means includes a resistor electrically connected in series with the OLED of the first pixel. The resistor is in the form of a thin-film resistive layer. The first pixel includes an anode, wherein the thin-film resistive layer is situated adjacent the anode. The anode and the thin-film resistive layer have substantially the same dimensions and are formed simultaneously. | 12-13-2012 |
20130069558 | STACKED, NON-INVERTED DIELECTRICALLY ISOLATED, ORGANIC LIGHT EMITTING DIODE DISPLAY FORMED ON A SILICON-ON-INSULATOR BASED SUBSTRATE AND METHOD OF SAME - A display and method of making a display, comprising first and second stacked, non-inverted, dielectrically isolated, organic light emitting diodes formed on a silicon on insulator substrate. The display includes a means for applying both a positive or negative voltage across the stack, and a common intermediate control node situated between the diodes. The control node is electrically connected through vias to receive a control voltage signal, such that altering the relationship between the control voltage signal and the voltage applied across the stack regulates the actuation of the individual diodes. | 03-21-2013 |
Marat Khayrullin, Moscow RU
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20130326986 | System and Method for Light Steel Frame Construction - A system and method for light steel frame construction which utilizes a single type of material for panels and fill to produce an affordable, thermally efficient, strong and durable building. The system and method for light steel frame construction generally includes a light steel frame to which is secured a plurality of outer block panels and inner block panels via fasteners. Each of the block panels is made of a porous concrete mix which is pre-cured and cut to form the rectangular panels. Gaps between the outer and inner block panels is filled with a fill material, the fill material being formed of a dry mix porous concrete which is mixed with water on-site and pumped into the gaps before being allowed to expand and cure. Adhesive materials may be applied to the panels to fill gaps and secure the panels to each other. | 12-12-2013 |