摘要:
A sheet feeding apparatus comprises a conveying path formed between an upper and a lower units facing each other; a feed roller which feeds a sheet by a portion partially exposed from an upper surface of the lower unit to the conveying path; a separation member disposed to oppose the feed roller; a stopper which stops entrance of the sheet into the conveying path by abutting against a sheet end in a closed state in which the stopper is moved in a direction to intersect with an exposed surface of the feed roller; a driving unit which drives at least the feed roller and the stopper; and a control unit which controls the driving unit to rotate the feed roller through a predetermined angle in a sheet feeding direction and to then open the stopper when feeding of the sheet is started from the closed state of the stopper.
摘要:
Disclosed herein is a solid-state imaging device including a photoelectric conversion element operable to generate electric charge according to the amount of incident light and to accumulate the electric charge in the inside thereof, an electric-charge holding region in which the electric charge generated through photoelectric conversion by the photoelectric conversion element is held until read out, and a transfer gate having a complete transfer path through which the electric charge accumulated in the photoelectric conversion element is completely transferred into the electric-charge holding region, and an intermediate transfer path through which the electric charge generated by the photoelectric conversion element during an exposure period and being in excess of a predetermined charge amount is transferred into the electric-charge holding region. The complete transfer path and the intermediate transfer path are formed in different regions.
摘要:
Provided is a solid-state imaging device including: a first-conductivity-type substrate; a second-conductivity-type well formed in a surface side of the first-conductivity-type substrate; a photoelectric conversion area configured with a first-conductivity-type-impurity area formed in the second-conductivity-type well to convert incident light to charges; a first-conductivity-type-charge retaining area configured with the first-conductivity-type-impurity area formed in the second-conductivity-type well to retain the charges converted by the photoelectric conversion area until the charges are read out; a charge voltage conversion area configured with the first-conductivity-type-impurity area formed in the second-conductivity-type well to convert the charges retained in the charge retaining area to a voltage; and a first-conductivity-type-layer area configured by forming a first-conductivity-type-in a convex shape from a boundary between the first-conductivity-type substrate and the second-conductivity-type well to a predetermined depth of the surface side under at least one portion of the charge retaining area and the charge voltage conversion area.
摘要:
Disclosed herein is a solid-state imaging device including: a semiconductor region of a second conductivity type which is formed on a face side of a semiconductor substrate; a photoelectric conversion element which has an impurity region of a first conductivity type and which is operable to generate electric charge according to the amount of incident light and to accumulate the electric charge in the inside thereof; an electric-charge holding region which has an impurity region of the first conductivity type and in which the electric charge generated through photoelectric conversion by the photoelectric conversion element is held until read out; an intermediate transfer path through which only the electric charge generated by the photoelectric conversion element during an exposure period and being in excess of a predetermined electric charge amount is transferred into the electric-charge holding region; and an impurity layer.
摘要:
A camera comprises a lens unit and a camera body to which the lens unit is attached by a rotational operation. The camera body is provided with terminals including a specific terminal. Arrangement of the specific terminal is different from that of the other terminals. In detaching the lens unit from the camera body, the specific terminal is adapted to be disconnected earlier relative to the other terminals while the other terminals are connected. After the disconnection of the specific terminal has been detected, the other terminals are set to high impedance.
摘要:
A gas turbine has a rotor shaft which includes a plurality of discs, each having a plurality of moving blades driven by combustion gas and arranged annularly on the peripheral portion and having spaces arranged between the discs. The respective discs and spacers are arranged in the axial direction. Gap portions are formed between the rotor axis side regions of the discs facing the spacers and adjacent spacers. Contact surfaces contacting each other on both rotor peripheral side regions of the discs facing the spaces and adjacent spacers are formed. A first flow path for supplying a coolant into the moving blades and a second flow path for recovering the coolant heated by the moving blades from the moving blade are provided. A third flow path for introducing fluid into the gap portions is formed in the discs with the third flow path being independent from the first and second flow paths.
摘要:
A gas turbine has a gas turbine rotor including a plurality of rotary disks each having an opening of a circular shape formed through its central portion, the rotary disk including a pair of hub portions formed respectively on opposite sides thereof, and a pair of in-low portions formed respectively at the opposite sides thereof. The gas turbine rotor also includes a plurality of spacers each having an opening of a circular shape formed through its central portion, the spacer having a pair of in-low portions formed respectively at opposite sides thereof. The rotary disks and the spacers are alternately stacked together in such a manner that the opposite sides of each of the spacers contact opposed side surfaces of the adjacent hub portions, respectively, and that the in-low portions of each of the spacers are engaged respectively with the in-low portions of the adjacent rotary disks. The stack of rotary disks and spacers are fastened together in an axial direction by stacking bolts. A thickness of that portion of the rotary disk extending radially from an inner periphery of the hub portions to an inner peripheral surface of the rotary disk is so determined that stresses, developing at the inner peripheral surface of the rotary disk, can be made generally equal to one another over an entire area thereof.
摘要:
A multi-spindle synchronization control system for a magnetic disk apparatus includes a plurality of magnetic disk units each for receiving a reference clock pulse to control rotation of a spindle motor and detecting rotation of the spindle motor to generate an index pulse, a crystal oscillator for generating a master clock having a predetermined frequency, a counter for converting the master clock into a master index pulse generated upon each rotation of the spindle motor, and a plurality of spindle synchronization control circuits, each connected to a corresponding one of the plurality of magnetic disk units, for detecting a timing relationship between the master index pulse and the index pulse from the corresponding magnetic disk unit, omitting some pulses of the master clock in accordance with the detection result, and counting down the partially-omitted pulse train to output the reference clock pulse.
摘要:
A solid-state image pickup device includes: a plurality of unit pixels including at least a photoelectric converting section, a charge-to-voltage converting section, and one or more transfer means for transferring a charge in a predetermined path; a light shielding film for shielding a surface of the plurality of unit pixels excluding at least a light receiving section of the photoelectric converting section from light; and voltage controlling means for controlling a voltage applied to the light shielding film; wherein transfer of the charge by one of the transfer means is controlled by controlling the voltage applied to the light shielding film.