Abstract: A semiconductor device includes an insulating substrate, a metal pattern formed on the insulating substrate, a power terminal bonded onto the metal pattern, and a plurality of power chips bonded onto the metal pattern. The plurality of power chips are all separated from the power terminal by a distance sufficient to thermally isolate the plurality of power chips from the power terminal.

Abstract: A semiconductor light-detecting element includes: a semiconductor substrate of a first conductivity type having a band gap energy, a first principal surface, and a second principal surface opposed to the first principal surface; a first semiconductor layer of the first conductivity type on the first principal surface and having a band gap energy smaller than the band gap energy of the semiconductor substrate; a second semiconductor layer of the first conductivity type on the first semiconductor layer; an area of a second conductivity type on a part of the second semiconductor layer; a first electrode connected to the second semiconductor layer; a second electrode connected to the area; and a low-reflection film on the second principal surface. The second principal surface is a light-detecting surface detecting incident light, and no substance or structure having a higher reflection factor, with respect to the incident light, than the low-reflection film, is located on the second principal surface.

Abstract: A sensor including an array of light sensitive pixels, each pixel including: at least one hetero-junction phototransistor having a floating base without contact, wherein each phototransistor is a mesa device having active layers exposed at side-walls of the mesa device; and at least one atomic layer deposited high-k dielectric material adjacent to and passivating at least the side-wall exposed active layers.

Abstract: A photo sensing element array substrate is provided. The photo sensing element array substrate includes a flexible substrate and a plurality of photo sensing elements. The photo sensing elements are disposed in array on the flexible substrate. Each of the photo sensing elements includes a photo sensing thin film transistor (TFT), an oxide semiconductor TFT and a capacitor. The photo sensing TFT is disposed on the flexible substrate. The oxide semiconductor TFT is disposed on the flexible substrate. The oxide semiconductor TFT is electrically connected to the photo sensing TFT. The capacitor is disposed on the flexible substrate and electrically connected between the photo sensing TFT and the oxide semiconductor TFT. When the photo sensing element array substrate is bent, it remains unaffected from normal operation.

Abstract: A light sensor device comprises a substrate (10) having a well (12) defined in one surface. At least one light sensor (14) is formed at the base of the well (12), and an optical light guide (18) in the form of a transparent tunnel (18) within an opaque body (20) extends from a top surface of the device down a sloped side wall of the well (12) to the location of the light sensor (14).

Abstract: Provided are a photodetector capable of suppressing variations in the output characteristics among photodiodes, and a display device provided with the photodetector. A display device in use has an active matrix substrate (20) including a transparency base substrate (2), a plurality of active elements and a photodetector. The photodetector includes a light-shielding layer (3) provided on the base substrate (2), and a photodiode (1) arranged on an upper layer of the light-shielding layer (3). The light-shielding layer (3) is overlapped with the photodiode (1) in the thickness direction of the base substrate (2). The photodiode (1) includes a silicon layer (11) insulated electrically from the light-shielding layer (3). The silicon layer (11) includes a player (11c), an i-layer (11b) and an n-layer (11a) that are provided adjacent to each other in the planar direction. The p-layer (11c) is formed so that its area (length Lp) will be larger than the area (length Ln) of the n-layer (11a).

Abstract: An optical semiconductor device includes: a first conductivity type first semiconductor region; a first conductivity type second semiconductor region formed on the first semiconductor region; a second conductivity type third semiconductor region formed on the second semiconductor region; a photodetector section formed of the second semiconductor region and the third semiconductor region; a micro mirror formed of a trench formed selectively in a region of the first semiconductor region and the second semiconductor region except the photodetector section; and a semiconductor laser element held on the bottom face of the trench. A first conductivity type buried layer of which impurity concentration is higher than those of the first semiconductor region and the second semiconductor region is selectively formed between the first semiconductor region and the second semiconductor region in the photodetector section.

Abstract: The present invention provides a two-dimensional image detecting apparatus including a mold structure which apparatus can be applied to mammography, and a manufacturing method thereof. The manufacturing method includes: a conversion layer formation step of forming a conversion layer (3) on an active matrix substrate (2); a counter substrate formation step of disposing a spacer material (5) and disposing the counter substrate (6) so as to be opposite to the active matrix substrate (2) via the spacer material (5); a mold resin layer formation step of forming a mold structure layer (8) in a space surrounded by the conversion layer (3), the spacer material (5), and the counter substrate (6); and a cutting step of cutting at least the active matrix substrate (2) so that cut surfaces of the constituent members are flush with each other; and a sealing step of securing a sealing material (7) to the cut surface.

Abstract: A sensor including an array of light sensitive pixels, each pixel including: at least one hetero-junction phototransistor having a floating base without contact, wherein each phototransistor is a mesa device having active layers exposed at side-walls of the mesa device; and at least one atomic layer deposited high-k dielectric material adjacent to and passivating at least the side-wall exposed active layers.

Abstract: A photo detector has a sensing TFT (thin film transistor) and a photodiode. The sensing TFT has a gate and a base. The photodiode has an intrinsic semiconductor region electrically connected to the gate and the base of the sensing TFT. The sensing TFT and the photodiode both have a structure comprising low temperature poly-silicon. A display panel contains the photo detector is also disclosed.

Abstract: An image sensor device and fabrication method thereof wherein a substrate having at least one shallow trench isolation structure therein is provided. At least one photosensor and at least one light emitting element, e.g., such as MOS or LED, are formed in the substrate. The photosensor and the light emitting element are isolated by the shallow trench isolation structure. An opening is formed in the shallow trench isolation structure to expose part of the substrate. An opaque shield is formed in the opening to prevent photons from the light emitting element from striking the photosensor.

Abstract: The present invention provides a method of forming a TFT and a reflective electrode having recesses or projections with reduced manufacturing cost and a reduced number of manufacturing steps, and provides a liquid crystal display device to which the method is applied. A photosensitive film 8 is formed on a metal film 7. Then, remaining portions 81, 82 and 83 are formed from the photosensitive film 8. Then, the metal film 7 is etched by using the remaining portions 81, 82 and 83 as masks. And then, a photosensitive film 9 and a reflective electrode film 10 are formed without removing the remaining portions 81, 82 and 83.