Provided is a semiconductor light emitting device including nodes each connected to a gate of a shift thyristor and a gate of a light emitting thyristor and transfer diodes arranged to connect the nodes to each other. The shift thyristor has a laminated structure including semiconductor layers, and is provided to a mesa formed separately from the light emitting thyristors and the transfer diodes. The shift thyristor includes a first metal layer continuously provided to straddle the mesa, and a second metal layer, which is arranged in an upper layer than the first metal layer, and includes a first part and a second part arranged to be opposed to the first part across the mesa. The first part and the second part of the second metal layer are each electrically connected to the first metal layer in a region that does not overlap the mesa in a plan view.

An image forming apparatus includes a conveyance part, an image forming part, a sheet detection sensor, a sensor unit, and a controller. The sheet detection sensor, in which a plurality of sensor blocks each with a plurality of sensor elements mounted thereon at specified intervals are arrayed in a sheet width direction, detects an edge position in the sheet width direction on a basis of scanning image data formed by reading of the sheet. The controller is enabled to execute a calibration of inserting, into the scanning image data, interpolation pixels for compensating an error between an edge position detected by the scanning image data and an actual edge position.

Provided is a semiconductor light emitting device including nodes each connected to a gate of a shift thyristor and a gate of a light emitting thyristor and transfer diodes arranged to connect the nodes to each other. The shift thyristor has a laminated structure including semiconductor layers, and is provided to a mesa formed separately from the light emitting thyristors and the transfer diodes. The shift thyristor includes a first metal layer continuously provided to straddle the mesa, and a second metal layer, which is arranged in an upper layer than the first metal layer, and includes a first part and a second part arranged to be opposed to the first part across the mesa. The first part and the second part of the second metal layer are each electrically connected to the first metal layer in a region that does not overlap the mesa in a plan view.

An image forming apparatus includes a conveyance part, an image forming part, a sheet detection sensor, a sensor unit, and a controller. The sheet detection sensor, in which a plurality of sensor blocks each with a plurality of sensor elements mounted thereon at specified intervals are arrayed in a sheet width direction, detects an edge position in the sheet width direction on a basis of scanning image data formed by reading of the sheet. The controller is enabled to execute a calibration of inserting, into the scanning image data, interpolation pixels for compensating an error between an edge position detected by the scanning image data and an actual edge position.

In accordance with an embodiment, an image reading apparatus comprises a conveyance system, a reading section, a movement sensor and a processor. The conveyance system conveys a document in a conveyance route including a reading position. The reading section reads an image on a surface of the document passing through the reading position. The movement sensor detects a conveyance speed of the document conveyed by the conveyance system. In a case in which the conveyance speed of the document detected by the movement sensor differs from a reference speed, if the conveyance speed of the document is within an adjustable range, the processor performs control to adjust a reading processing in response to the conveyance speed of the document.

In accordance with an embodiment, an image reading apparatus comprises a conveyance system, a reading section, a movement sensor and a processor. The conveyance system conveys a document in a conveyance route including a reading position. The reading section reads an image on a surface of the document passing through the reading position. The movement sensor detects a conveyance speed of the document conveyed by the conveyance system. In a case in which the conveyance speed of the document detected by the movement sensor differs from a reference speed, if the conveyance speed of the document is within an adjustable range, the processor performs control to adjust a reading processing in response to the conveyance speed of the document.

An image capture and output method comprises steps of providing an image capture device, continuously capturing a plurality of line images from an initial position and recording a position information corresponded to each line image, calculating the difference between the position information of the first line image and the initial position and the differences between the position information of each of the rest line images and a former one of the line image to obtain a fill information, filling each line image into an image buffer according to the fill information, and outputting the image buffer as a product image. Therefore, the deformation issue is effectively solved, the storage memory is saved, and the manufacturing cost is lowered.

An image capture and output method comprises steps of providing an image capture device, continuously capturing a plurality of line images from an initial position and recording a position information corresponded to each line image, calculating the difference between the position information of the first line image and the initial position and the differences between the position information of each of the rest line images and a former one of the line image to obtain a fill information, filling each line image into an image buffer according to the fill information, and outputting the image buffer as a product image. Therefore, the deformation issue is effectively solved, the storage memory is saved, and the manufacturing cost is lowered.

In accordance with an embodiment, an image reading apparatus comprises a conveyance system, a reading section, a movement sensor and a processor. The conveyance system conveys a document in a conveyance route including a reading position. The reading section reads an image on a surface of the document passing through the reading position. The movement sensor detects a conveyance speed of the document conveyed by the conveyance system. In a case in which the conveyance speed of the document detected by the movement sensor differs from a reference speed, if the conveyance speed of the document is within an adjustable range, the processor performs control to adjust a reading processing in response to the conveyance speed of the document.

An image forming apparatus acquires shape data indicating a shape of a sensing sheet conveyed along a conveyance route, adjusts a position of a first image in first image data including the first image on the basis of a positional relationship between a sheet region in the acquired shape data and a first reference position in the shape data, forms an image based on the adjusted first image data on the sensing sheet, and senses an amount of positional misalignment of an imaging portion to be used to acquire the shape data by using the sensing sheet on which the image has been formed.