Abstract: A hand-held imager which is capable of reading both linear and two dimensional symbologies, which can perform focusing and illuminating steps quickly and accurately so as to eliminate variation in the position of the imager relative to the code becoming a negative factor. The imager includes an imaging system having a focusing system, an illumination system, and a two-dimensional photodetector which forms an image of the coded symbology. After achieving targeting of the coded symbology, the scanning system adjusts the focus and illumination between multiple different focuses, and utilizes a portion of the two-dimensional photodetector to determine the optimum focus and illumination. Upon the determination of optimum focus and illumination, and an image is created using the entire two-dimensional photodetector. Predefined multiple sets of illuminating parameters intensity, exposure and gain can be used to determine the proper focus and illumination.

Abstract: Apparatus and method for scanning a surface. An optical system generates a light beam to illuminate a surface. A carrier supports the surface for reciprocating motion with respect to the light beam to form one axis of a raster. A propulsion system moves the carrier at a substantially constant speed and a position sensor provides an output signal representing the surface position with respect to the light beam. A control system responsive to the output signal modulates a sample period reciprocally to carrier speed to achieve substantially constant scan length per sample and to control data acquisition timing.

Abstract: A multi-focal zone laser scanning system for scanning bar code symbols having a minimum bar element width (MBW). The multi-focal zone laser scanning system comprises a laser beam producing device for producing a laser beam, and a laser beam scanning mechanism for scanning the laser beam so as to generate a laser scanning pattern having a plurality of different focal zones. In the system, the scanned laser beam has a minimum beam dimension (MBD) with each focal zone, and the ratio of the minimum beam dimension (MDB) within each focal zone to the minimum bar element width (MBW) of a scanned bar code symbol therewithin (i.e. MDB/MBW) is greater than or equal to 2.0. Consequently, less modulation of the laser scanning beam is required during scanning operations, and therefore, bar code symbols having narrower minimum bar element widths can be resolved.

Abstract: An optical scanner for scanning various optical indicia uses one or more tunable optical components for noise reduction purposes. The scanner may include a narrow band-pass tunable optical filter for passing selected wavelengths of incoming light. The scanner may also have a tunable light source, such as a tunable laser source, whereby the wavelength of the generated laser light is sensed and controlled by the scanner's electronic sub-system.

Abstract: A micro-optical system with autofocus capability utilizing micro electro-mechanical systems (MEMS) to vary the focus of the beam achieving increased depth of field and improved poor quality reading. The disclosed micro-optical system includes a light source, a micro-optical element positioned adjacent the light source, a detector configured to provide detection information based at least in part on a location of an object, a processor configured to calculate and transmit, and an actuator configured to adjust the relative spacing of the micro-optical element and the light source based at least n part on the actuation information received. In another embodiment, end-user or OEM focus is disclosed wherein the scanner is varied by altering the focus parameters input by the user. In this embodiment, the focus parameters are dependent on the application for which the scanner is to be used.

Abstract: The effects of paper/substrate noise are significantly reduced in multi-focal zone laser scanning systems by processing analog scan data signals with a scan data signal processor having a plurality of pass-band filters and amplifiers that are automatically selected for passing only the spectral components of an analog scan data signal produced when a bar code symbol is scanned at a particular focal zone in the laser scanning system. Two or more different pass-band filter structures can be provided for use in the scan data signal processor, wherein each pass-band filter structure is tuned to the spectral band associated with a particular focal zone in the laser scanning system. When a bar code symbol is scanned by a laser beam focused within the first focal zone or scanning range of the system, the pass-band filter structure associated with this focal zone or scanning range is automatically switched into operation.

Abstract: The present invention provides a biochip reader for reading image information appropriate for a plurality of samples with an optical detector, by emitting a plurality of light beams onto a biochip on which the plurality of samples are arranged in spots or linear arrays. The biochip reader is configured so that the spatial positions of the plurality of samples and the plurality of light beams agree with each other. Since this biochip reader configuration requires no scanning, it is possible to read image information from multiple samples at high speed. Furthermore, as long as a comparison is made with reference to the same duration of reading, the required level of light intensity decreases as the number of beams increases. Thus, there is no need for emitting high-intensity beams of laser light as seen in the prior art. Consequently, there is virtually no risk of bleaching fluorescent stain.

Abstract: A coded information reader (101) including a device (1) for controlling a plurality of distinct actions, as well as a method for controlling said coded information reader (101) are described. The coded information reader (101) includes a control device (1) comprising a plurality of actuators (2, 3) arranged in sequence downstream of a driving device (4) mobile between an inactive position (A) and a plurality of positions (B, C) active, respectively, on the status of said plurality of actuators (2, 3), said actuators (2, 3) being driven by said driving device (4). Advantageously, the coded information reader (101) of the invention has small size, reliability and flexibility of use.

Abstract: An improved optical assembly for acquiring an image of an object is disclosed. The optical assembly comprises an illuminator used to illuminate the object and an imaging device used to generate an image of the object. The illuminator has a light source associated with an illuminating lens wherein the illuminating lens has an optical axis. A light beam is generated by the light source and passes through the illuminating lens to illuminate the object. The imaging device has a photosensor associated with an imaging lens wherein the imaging lens has an optical axis. An image beam of light reflects from the object and is focused by the imaging lens onto the photosensor. The light beams associated with the illuminator and the imaging device are steered to intersect at a common point on the object. Steering the light beam is accomplished by spacing the light source a distance from the optical axis of the illuminating lens.

Abstract: The effects of papers/substrate noise are significantly reduced in multi-focal zone laser scanning systems by processing analog scan data signals with a scan data signal processor having a plurality of pass-band filters and amplifiers that are automatically selected for passing only the spectral components of an analog scan data signal produced when a bar code symbol is scanned at a particular focal zone in the laser scanning system. Two or more different pass-band filter structures can be provided for use in the scan data signal processor, wherein each pass-band filter structure is tuned to the spectral band associated with a particular focal zone in the laser scanning system.

Abstract: An optoelectronic device for acquisition of images, such as images of bar codes, includes a case which contains an electronic scanning sensor, an illumination source and optics including a diaphragm that permit the formation of images on the sensor. The optics include at least two diopters disposed between the diaphragm and the sensor. For example, the diopters may take the form of a revolved symmetrical lens, the useful part of which is convex, and a cylindrical lens which does not create any deflection in a plane parallel to the optical plane, and is convergent in a plane perpendicular to the parallel plane.

Abstract: Apparatus and method for scanning a surface. An optical system generates a light beam to illuminate a surface. A carrier supports the surface for reciprocating motion with respect to the light beam to form one axis of a raster. A propulsion system moves the carrier at a substantially constant speed and a position sensor provides an output signal representing the surface position with respect to the light beam. A control system responsive to the output signal modulates a sample period reciprocally to carrier speed to achieve substantially constant scan length per sample and to control data acquisition timing.

Abstract: A super-resolving imaging apparatus employs diffractive optical elements placed on the imaging lens. This element, and the use of a modified Scheimpflug arrangement allow the conversion of degrees of freedom in one axis of a field of view to a larger degree of freedom in another axis in order to obtain a high resolution image with a wide depth of focus and large field of view. Replicas created by the diffractive elements are mutually shifted by subpixel amounts, and are combined using a Gabor transform, which is facilitated by a spatial mask placed over the detector array. The apparatus is suitable for performing distance estimation on an object within the field of view.

Abstract: The effects of paper/substrate noise are significantly reduced in multi-focal zone laser scanning systems by processing analog scan data signals with a scan data signal processor having a plurality of pass-band filters and amplifiers that are automatically selected for passing only the spectral components of an analog scan data signal produced when a bar code symbol is scanned at a particular focal zone in the laser scanning system. Two or more different pass-band filter structures can be provided for use in the scan data signal processor, wherein each pass-band filter structure is tuned to the spectral band associated with a particular focal zone in the laser scanning system. When a bar code symbol is scanned by a laser beam focused within the first focal zone or scanning range of the system, the pass-band filter structure associated with this focal zone or scanning range is automatically switched into operation.

Abstract: The invention concerns an oplo-electronic device for acquisition of images of codes in one and two dimensions, comprising an electronic sensor constituted by a high-resolution photosensitive matrix, an analog/digital converter to convert the data emitted from the electronic sensor, and an image acquisition and processing module, comprising a preprocessing module and two processing modules, forming a pipe-line type architecture. The preprocessing module, acts in synchronous mode on the flow of digital data and implements simple image-processing operations. A number of cabled processing units can form the preprocessing modules. The processing modules, are constituted by programmable modules acting in asynchronous mode on the data emitted from the preceding module and stored in alternative manner in two memory blocks.

Abstract: An optical reader which enables optical codes to be read on objects carried on a supporting plane which is provided with a conveyor for moving the objects along a feeding direction. The apparatus comprises a laser beam scanner, a data processing unit connected to the scanner, a first scanner for generating at least a first scan in a first scan plane, so as to measure the instantaneous distance of at least one point on the surface of each of said objects from the scanner, a second scanner for generating a plurality of second scans in a second scan plane, different from the first, so as to read the optical code on the object; and a data processing unit for adjusting the laser beam focal setting according to the distance measured with the first scan.

Abstract: A bar code reader includes a semiconductor laser diode as a source of an elliptical shape divergent laser beam and a shaping section for shaping the elliptical shape divergent laser beam to provide a shaped laser beam in the form of a circular shape collimating laser beam. A distance measuring section measures a distance to a bar code label and generates a distance information signal. A temperature sensor is attached to a casing of the shaping section. The temperature sensor detects the ambient temperature and generates a temperature information signal. A focal position controlling section conducts a focal position control in response to the distance information signal and the temperature information signal so that the shaped laser beam will have its focal position on the bar code label. A scanning section lights the bar code label with the shaped laser beam that has been subjected to the focal position control.