Abstract: Provided is an optical detecting device, wherein a photodiode is provided on a first surface of a substrate, a planar output electrode for outputting electrical signals corresponding to a quantity of light received by the photodiode is provided on a second surface of the substrate opposite to the first surface, a cutout portion is provided in a third surface of the substrate such that the cutout portion is in contact with the output electrode provided on the second surface, said third surface being different from the first surface and the second surface, and an electrode connected to the output electrode is provided on the inner surface of the cutout portion.

Abstract: A bar code scanner module is disclosed that may include a chassis housing an optical transmission system therein, the optical transmission system including a laser diode and a motor; a first circuit board coupled to the motor; and a second circuit board disposed within the chassis and in communication with the first circuit board. The module may further include a third circuit board disposed in proximity to the chassis and in communication with at least one of the first circuit board and the second circuit board.

Abstract: An optical aberration is intentionally introduced into the optical system which produces the scanning beam of an optical code scanner, in order to produce a scanning beam which has plural focal points or waists at different distances from the scanner. The operating range of the scanner can thereby be increased by taking advantage of different beam waist locations when the optical code is at different distances from the scanner. In accordance with an embodiment of the invention, coma is intentionally introduced to an optical system providing a light beam for an optical code scanner. This provides a scanning beam with plural beam waists at different distances from the scanner. This may be accomplished by orienting the light source and focusing optical system so that their optical axes intersect or by introducing an optical member, such as a prism, between the original light source and the focusing optical system.

Abstract: An optical aberration is intentionally introduced into the optical system which produces the scanning beam of an optical code scanner, in order to produce a scanning beam which has plural focal points or waists at different distances from the scanner. The operating range of the scanner can thereby be increased by taking advantage of different beam waist locations when the optical code is at different distances from the scanner. In accordance with an embodiment of the invention, coma is intentionally introduced to an optical system providing a light beam for an optical code scanner. This provides a scanning beam with plural beam waists at different distances from the scanner. This may be accomplished by orienting the light source and focusing optical system so that their optical axes intersect or by introducing an optical member, such as a prism, between the original light source and the focusing optical system.

Abstract: When an optical module is manufactured, a module package is used in which a collimating lens is attached, and in which a pedestal is installed to arrange the laser light source unit so that the laser beam is outputted substantially parallel to the optical path passing through the optical axis of the collimating lens. First, the laser light source unit is attached to the pedestal using clips so that it can move only in the direction along the optical path. The laser light source unit is then moved in the direction along the optical path, and its position is adjusted so that the laser beam is parallel light from the collimating lens. Afterwards, the laser light source is secured to the pedestal using an adhesive so that it cannot move in the direction along the optical path.

Abstract: A bar code scanner module is disclosed that may include a chassis housing an optical transmission system therein, the optical transmission system including a laser diode and a motor; a first circuit board coupled to the motor; and a second circuit board disposed within the chassis and in communication with the first circuit board. The module may further include a third circuit board disposed in proximity to the chassis and in communication with at least one of the first circuit board and the second circuit board.

Abstract: An improved technique of adjusting the focal point of a laser diode within an optical tube in disclosed. The beamwidth of the emitted laser is kept relatively wide during the adjustment process, and is narrowed thereafter and in operation of the device. A technique of narrowing the beam includes utilizing an insert with a slit that is installed after the adjustment of the focal point.