A scanning device includes a casing holding a original document table. A facing area is provided to the casing, and a rectangular hole is formed on the facing area. The rectangular hole has edges extending along a main scanning direction and edges extending along a sub-scanning direction. The edges extending along the sub-scanning direction are located in a central area of a photoelectric conversion element row of a sensor assembly in the main scanning direction. The sensor assembly scans the rectangular hole and detects a edge extending along the main scanning direction and a edge extending along the sub-scanning direction, thereby determines a scanning start position.

There is provided a method of manufacturing an image sensor unit, the image sensor unit including: a linear light source that illuminates a document along a main scanning direction; a rod lens array that includes a plurality of rod lenses arranged in the main scanning direction and condenses a light reflected from the document; and a linear image sensor that receives a light condensed by the rod lens array. When a rod lens having an optically discontinuous portion on a surface and/or interior of the rod lens is included, the rod lens array is arranged such that the optically discontinuous portion is not located toward the document.

There is provided a method of manufacturing an image sensor unit, the image sensor unit including: a linear light source that illuminates a document along a main scanning direction; a rod lens array that includes a plurality of rod lenses arranged in the main scanning direction and condenses a light reflected from the document; and a linear image sensor that receives a light condensed by the rod lens array. When a rod lens having an optically discontinuous portion on a surface and/or interior of the rod lens is included, the rod lens array is arranged such that the optically discontinuous portion is not located toward the document.

In an image forming apparatus, a recording head ejects ink corresponding to an image to be printed, using arranged nozzles. A control unit determines nozzles corresponding to the image to be printed, correspondingly to a position of a print sheet, and causes the recording head to eject ink from the nozzles. A correction processing performs a correction process corresponding to each of ink ejection malfunction positions in the image. Further, the correction processing unit (a) sets the ink ejection malfunction positions as targets of the correction process in advance, and (b) excludes from the targets on the basis of a sheet size of the print sheet an ink ejection malfunction position corresponding to a nozzle that is not used for the print sheet among nozzles corresponding to the plural ink ejection malfunction positions and thereafter performs the correction process for the targets.

In an image forming apparatus, a recording head ejects ink corresponding to an image to be printed, using arranged nozzles. A control unit determines nozzles corresponding to the image to be printed, correspondingly to a position of a print sheet, and causes the recording head to eject ink from the nozzles. A correction processing performs a correction process corresponding to each of ink ejection malfunction positions in the image. Further, the correction processing unit (a) sets the ink ejection malfunction positions as targets of the correction process in advance, and (b) excludes from the targets on the basis of a sheet size of the print sheet an ink ejection malfunction position corresponding to a nozzle that is not used for the print sheet among nozzles corresponding to the plural ink ejection malfunction positions and thereafter performs the correction process for the targets.

A photoelectric conversion element includes a first pixel array including first light-receiving sections arranged in a direction and a second pixel array including second light-receiving sections arranged in the direction. Each of the first light-receiving sections includes a first pixel configured to receive at least light having a first wavelength inside a visible spectrum and a first pixel circuit configured to transmit a signal from the first pixel to a subsequent stage. Each of the second light-receiving sections includes a second pixel configured to receive at least light having a second wavelength outside the visible spectrum and a second pixel circuit configured to transmit a signal from the second pixel to the subsequent stage. The second pixel circuit is provided in a vicinity of the second pixel.

An image reading apparatus comprises a first reading unit configured to output an analog signal by reading an original, a second reading unit different from the first reading unit, a conversion unit configured to convert analog signals outputted from the first reading unit and the second reading unit to digital signals, a wire connection control unit configured to control wire connection between the first reading unit and the second reading unit, and the conversion unit, and an output control unit configured to control an output of an analog signal from the first reading unit.

An image reading apparatus comprises a first reading unit configured to output an analog signal by reading an original, a second reading unit different from the first reading unit, a conversion unit configured to convert analog signals outputted from the first reading unit and the second reading unit to digital signals, a wire connection control unit configured to control wire connection between the first reading unit and the second reading unit, and the conversion unit, and an output control unit configured to control an output of an analog signal from the first reading unit.

A support device is applied to support a contact image sensor of an image capture apparatus, which includes a guide rod. The support device includes a slide sleeve and an elastic rod. The slide sleeve, which has a groove, is movably disposed on the guide rod, and a portion of the guide rod is accommodated within the groove. The elastic rod is disposed on the slide sleeve to directly support the contact image sensor. The elastic rod abuts against the contact image sensor, so that the contact image sensor is pushed upwardly, and the contact image sensor is stably kept in the same direction while the slide sleeve is slid on the guide rod. Therefore, the entirety of the support device can achieve the advantages of stably supporting the contact image sensor in balance without using any sliding bracket.

A support device is applied to support a contact image sensor of an image capture apparatus, which includes a guide rod. The support device includes a slide sleeve and an elastic rod. The slide sleeve, which has a groove, is movably disposed on the guide rod, and a portion of the guide rod is accommodated within the groove. The elastic rod is disposed on the slide sleeve to directly support the contact image sensor. The elastic rod abuts against the contact image sensor, so that the contact image sensor is pushed upwardly, and the contact image sensor is stably kept in the same direction while the slide sleeve is slid on the guide rod. Therefore, the entirety of the support device can achieve the advantages of stably supporting the contact image sensor in balance without using any sliding bracket.