Patents Assigned to Spectra-Physics
  • Patent number: 5475206
    Abstract: A laser bar code system is described which includes a first scan module releasably affixed to a housing, which scan module is readily interchangeable with and plug compatible with a second scan module which is configured at least partly differently from the first scan module. In addition, a partitioned scan module is described which comprises a first laser diode subsystem, a first scanning subsystem, a first collection subsystem, and a first signal processing subsystem, a selected one of which is releasably affixed to a chassis, and readily interchangeable and plug compatible with a second laser diode subsystem, a second scanning subsystem, a first collection subsystem, and a second signal processing subsystem, respectively, which is configured at least partly differently from the first.
    Type: Grant
    Filed: July 6, 1994
    Date of Patent: December 12, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Brad R. Reddersen, Phillip C. Gummeson, Hiroshi Hayakawa, Blaine F. Loris, Randy D. Elliott, Kimberly A. Ketelsleger, Haruhiko Machida, Yoshiyuki Sugawara, Roger M. Kenyon, Thomas L. Durant
  • Patent number: 5475207
    Abstract: An optical system and method for data reading. The preferred system is directed to a scanner which includes a multiple beam service, such as a laser diode and a beam splitter which generates first optical beam and a second optical beam, the first optical beam being directed toward one side of a scanning optical element such as a rotating polygon mirror and to a first mirror array, the second optical beam is being simultaneously directed toward a second optical element such as another side of the rotating polygon mirror and then to a second and a third mirror array. The first mirror array is configured to generate a scan pattern through a vertical window and the second and third mirror arrays are configured to generate scan patterns passing through a horizontal window. In combination, the three mirror arrays generate three sets of scan lines so as to scan the bottom and all lateral sides of an object being passed through the scan volume.
    Type: Grant
    Filed: November 19, 1993
    Date of Patent: December 12, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Mohan L. Bobba, Jorge L. Acosta, Timothy J. Eusterman, James W. Ring, Alexander McQueen
  • Patent number: 5465493
    Abstract: A pipe alignment system and method is provided for positioning a pipe line along a predetermined path. A light transmitter generates a reference light beam along which the pipe line is to be positioned. The light beam has wavelengths substantially in the green portion of the optical spectrum. An optical target is positioned at one end of each pipe section to assist in alignment thereof. Preferably, the optical target has a green tint which filters the green light from ambient light. The optical target may also have reference indicia thereon to assist in aligning the target with the reference beam of light.
    Type: Grant
    Filed: June 2, 1994
    Date of Patent: November 14, 1995
    Assignee: Spectra-Physics Laserplane, Inc.
    Inventors: Mark D. Sobottke, Daniel R. Klemer
  • Patent number: 5463211
    Abstract: A method and apparatus for determining the transitions between binary levels of an input signal such as a scanned bar code label by detecting zero crossings of an approximated second derivative of the input signal. Samples of the input signal are obtained by using delay lines, sample-and-hold circuits, an analog shift register or similar device. The first derivative of the signal is approximated by the slope of a straight line between two sampled points on the waveform. The second derivative is approximated by the difference between two first derivatives. Zero crossings of the second derivative indicating transitions of the input signal may be determined either by detecting a signal peak on both sides of the zero crossing, or by comparing the second derivative signal to zero when the first derivative exceeds a positive or negative threshold. The time between sample points may be adjusted to match a particular range setting of a scanner having a plurality of range settings.
    Type: Grant
    Filed: May 7, 1993
    Date of Patent: October 31, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Thomas C. Arends, Randy D. Elliott
  • Patent number: 5457707
    Abstract: A tunable laser system having a wide tunable range, and narrow line widths, achieves relatively high output powers. The tunable laser system includes a master optical parametric oscillator which generates a seed beam, and a power optical parametric oscillator which is responsive to the seed beam to generate a narrow line width, high power output beam. The master OPO and power OPO comprise gain media consisting of BBO, tunable over a range from about 400 nanometers to more than 2000 nanometers. The master OPO includes line narrowing elements, such as a tunable grating, which limits the line width of the output beam to less than one wave number (centimeter.sup.-1). Pump energy is supplied to the master OPO and power OPO using a Nd:YAG laser with a harmonic generator, so that the second, third, or fourth harmonics of the primary 1064 nanometer line of YAG can be used to pump the BBO crystals. The power OPO may be an unstable resonator.
    Type: Grant
    Filed: August 24, 1993
    Date of Patent: October 10, 1995
    Assignee: Spectra-Physics Lasers, Inc.
    Inventors: Mark S. Sobey, James B. Clark, Vincent J. Newell
  • Patent number: 5450429
    Abstract: A solid-state laser comprises a pump diode for generating pump radiation and transmitting the pump radiation into a laser cavity. The pump radiation passes through an entrance mirror and enters a laser gain chip which lases to produce fundamental laser light. The fundamental laser light passes through a harmonic reflector and a first dispersive element and is frequency doubled by a frequency doubler chip to produce harmonic laser light. The harmonic laser light passes through a second dispersive element and impinges on a mirrored surface. A portion of the harmonic laser light passes through the mirrored surface to form the output beam of the laser. The remaining portion of the harmonic laser light is reflected back into the laser cavity. First and second dispersive elements control the phase of the harmonic laser light in the laser cavity such that substantially all of the harmonic laser light is in-phase when the harmonic laser light impinges upon the mirrored surface.
    Type: Grant
    Filed: June 2, 1994
    Date of Patent: September 12, 1995
    Assignee: Spectra-Physics Laserplane, Inc.
    Inventors: Daniel R. Klemer, Mark D. Sobottke
  • Patent number: 5446749
    Abstract: A diode pumped, multiaxial mode, intracavity frequency doubled laser resonator has high amplitude stability, meaning that the percent root mean square noise (% RMS) of the doubled output beam power is low. A diode pump source supplies a pump beam to a laser crystal positioned in a resonator cavity and produces a multiaxial mode infrared beam that is incident on a doubling crystal, also positioned in the resonator. A frequency doubled output beam is produced that has an RMS of less than 3%. The laser is highly efficient, provides high output power and its output beam is of high spatial quality.
    Type: Grant
    Filed: February 4, 1994
    Date of Patent: August 29, 1995
    Assignee: Spectra-Physics Lasers Inc.
    Inventors: William L. Nighan, Jr., John Cole, Thomas M. Baer
  • Patent number: 5446271
    Abstract: A method and apparatus for reading encoded symbols such as bar code labels at any orientation to a raster scanning device. A pattern of virtual scan lines is selected over the two-dimensional imaging region according to the specifications of the images to be read. The pattern is generated by defining a family of parallel lines of a certain spacing and rotating the family by a specified angle until the two-dimensional imaging region is covered. Only the data at selected raster locations on the virtual scan lines is stored and processed. One-dimensional signal processing methods are used to detect edges and decode the encoded symbols.
    Type: Grant
    Filed: August 6, 1993
    Date of Patent: August 29, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Craig D. Cherry, Robert J. Actis
  • Patent number: 5442648
    Abstract: A controller including a closed loop servo system for a laser, or other entity is capable of substantial reductions in predictable, periodic noise such as the line noise induced by the source of alternating current electrical power, and in random noise as well. The servo circuit includes resources which develop a stored version of the predictable noise and uses the stored version of the predictable noise to compensate for the predictable noise. According to another aspect, the servo circuit includes resources which automatically adjust loop gain as gain in the entity being controlled and the loop as a whole system varies. The resources which generate the stored version of the predictable noise may be operated in either analog or digital formats. The sampling resources include, in an analog/digital embodiment, a plurality of charge holding devices, Multiplexing circuitry is coupled to the charge holding devices, and connects a selected charge holding device to a sample node which receives the feedback signal.
    Type: Grant
    Filed: July 19, 1994
    Date of Patent: August 15, 1995
    Assignee: Spectra Physics Lasers, Inc.
    Inventors: Harold D. DuBose, Kevin K. Holsinger
  • Patent number: 5440574
    Abstract: A solid-state laser for generating harmonic laser light substantially at a desired wavelength has a pump diode body made of a first material, which is preferably aluminum, having a first coefficient of expansion and a laser diode mounted in the pump diode body for generating pump energy. A laser body assembly, which is positioned on the pump diode body, is made of a second material, which is preferably steel, having a second coefficient of expansion. The first and second coefficients of expansion of the respective pump diode body and the laser body assembly have a known relationship such that the laser cavity expands and contracts at a particular rate as the temperature of the laser increases and decreases to provide a substantially constant generation of the harmonic laser light. A laser gain chip mounted on an entrance mirror, which forms the back end of a laser cavity, generates fundamental laser light in response to pump energy from the laser diode.
    Type: Grant
    Filed: June 2, 1994
    Date of Patent: August 8, 1995
    Assignee: Spectra-Physics Laserplane, Inc.
    Inventors: Mark D. Sobottke, Jamie N. Lussier
  • Patent number: 5440110
    Abstract: A method and an apparatus facilitate scanning an Add-On code portion of a bar code label to determine the bar code data printed thereon by sweeping a scanning beam in a scan path across the Add-On code portion of the label. The bar code label includes bar codes of the type which have a primary code portion and which may also have an Add-On code portion.
    Type: Grant
    Filed: February 8, 1994
    Date of Patent: August 8, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventor: Michael T. Brooks
  • Patent number: 5438187
    Abstract: An optical system and method for data reading having a light source which generates an optical beam directed toward an object to be read and a focusing system in the outgoing light path which establishes multiple beam functions. In a preferred application, a scanning system includes a multifocal lens having a single lens element having an inner lens portion of a first focal length and an outer annular lens portion with a second focal length, the scanning system therefore establishing two separate focal positions from a single light source. Alternately, the system includes a focusing lens system with an corrector element disposed in the outgoing optical path, the corrector element having a plurality of optical zones, each zone having a different optical characteristic for modifying a portion of the outgoing optical beam. A zone may be a refractive region, a reflective region, a diffractive region, an empty region, a window region, or combinations thereof.
    Type: Grant
    Filed: June 18, 1993
    Date of Patent: August 1, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Brad R. Reddersen, Thomas C. Arends
  • Patent number: 5436990
    Abstract: A small diameter multimode optical fiber with a low numerical aperture (i.e., 0.1) is used as a microlens to collimate the output emissions of a laser diode before butt coupling the output of the laser diode to an optical fiber. The optical fiber used as the microlens is chosen such that its diameter roughly equals the diameter of the fiber to be coupled to the laser diode. One end of the fiber is mounted in a fixed position and the other end of the fiber is slip fit into the end of a hollow receiving member mounted in a fixed position and running parallel to the axis of the fiber. The collimation is performed in the high NA direction of the output of the laser diode. The output of a bundle of butt coupled optical fibers may be used to pump a laser system.
    Type: Grant
    Filed: February 25, 1992
    Date of Patent: July 25, 1995
    Assignee: Spectra-Physics Lasers, Inc.
    Inventors: David F. Head, Thomas M. Baer
  • Patent number: 5426507
    Abstract: A pipe alignment device and method is provided for efficiently generating an air flow in sections of pipe such that the sections of pipe may be aligned along a prepositioned reference laser beam without refraction errors. A fan blade assembly is supported in one end of the pipe section by a support frame. A motor, mounted on the frame, rotates the fan blade assembly through a plurality of intermeshed gears to generate a air flow in the pipe. The fan blade assembly defines a light transparent aperture which permits the reference laser beam to enter the pipe sections concomitantly with the generated air flow. The light transparent aperture may include a window disposed therein.
    Type: Grant
    Filed: April 19, 1993
    Date of Patent: June 20, 1995
    Assignee: Spectra-Physics Laserplane, Inc.
    Inventor: Joseph F. Rando
  • Patent number: 5420876
    Abstract: An intracavity frequency-doubled solid-state laser uses a Nd:GdVO.sub.4 laser gain chip to generate a beam of visible laser light which may have wavelengths substantially in the green portion of the optical spectrum. A back end of the laser cavity is defined by an entrance mirror while a front end of the laser cavity is defined by a mirrored surface. A laser diode generates pump light which is transmitted through the entrance mirror into the laser gain chip. The laser gain chip, which may be immediately adjacent the entrance mirror, emits fundamental laser light having a wavelength of approximately 1063 nm in response to the pump light. A frequency doubler chip positioned immediately adjacent the laser gain chip doubles the frequency of the fundamental laser light to produce harmonic laser light having a wavelength of substantially 532 nm.
    Type: Grant
    Filed: June 2, 1994
    Date of Patent: May 30, 1995
    Assignee: Spectra-Physics Laserplane, Inc.
    Inventors: Jamie N. Lussier, Daniel R. Klemer, Pliny S. Hawthorn, Mark D. Sobottke
  • Patent number: 5412683
    Abstract: A high efficiency, diode pumped laser includes a resonator mirror and an output coupler which define a nearly confocal resonator. Positioned in the resonator is a laser crystal. A diode pump source supplies a pump beam to the laser crystal and produces an output beam. A strong thermal lens transforms a non-confocal resonator to a nearly confocal resonator. The TEMOO mode diameter in the laser crystal may be smaller than the pump beam diameter that is incident on the laser crystal. Output powers greater than about 4 W are achieved, the overall optical efficiency is greater than about 25%, and an optical slope efficiency in a TEMOO mode of greater than 40% is possible.
    Type: Grant
    Filed: February 4, 1994
    Date of Patent: May 2, 1995
    Assignee: Spectra-Physics Lasers, Inc
    Inventors: William L. Nighan, Jr., Mark S. Keirstead
  • Patent number: 5410559
    Abstract: A high power, highly efficient laser that produces a polarized, round diffraction limited gaussian beam is disclosed. A strong thermal lens laser crystal with controlled ellipticity, is mounted in a laserhead and pumped by a fiber-bundle-coupled diode source. The pump beam diameter in the crystal is greater than the crystal's TEMOO mode diameter. The laser operates well over a large range of pump powers. Its slope efficiency in the TEMOO mode is greater than 40%, with an overall efficiency greater than 25%. One of the lasing crystals used is Nd:YVO4. This material exhibits high gain and a short upper state lifetime. These properties make it attractive in designing a Q-switched laser, or one that is insensitive to optical feedback.
    Type: Grant
    Filed: February 4, 1994
    Date of Patent: April 25, 1995
    Assignee: Spectra-Physics Lasers, Inc.
    Inventors: William L. Nighan, Jr., Mark S. Keirstead
  • Patent number: 5410108
    Abstract: A data gathering system including a scanner and scale including one or more of the following features: a construction of compact dimensions with a low profile; integrated construction of the locations of the scanner and scale, and their associated components; modular components that are easily detachable and serviced; a rigid casing which is integrated into the overall data gathering system and which prevents a countertop from contacting the scale; and diagnostic capability incorporated into the data gathering system.
    Type: Grant
    Filed: August 31, 1992
    Date of Patent: April 25, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Kevin J. Williams, Alexander M. McQueen, James E. Colley, Anthony S. Bailey, Phillip C. Gummeson
  • Patent number: 5390211
    Abstract: A high powered OPO system which produces a substantially collimated, low divergence output beam is based on the use of an unstable resonator. An optical parametric gain medium, such as beta-barium borate (.beta.-BBO), lithium tri-borate (LBO), cesium borate (CBO), potasium tri-phosphate (KTP), or other similar materials is mounted within the unstable resonator with suitable tuning mechanisms. Optics are provided for supplying a pump beam through the optical parametric gain medium to induce gain. In a preferred system, the unstable resonator comprises a positive branch, confocal unstable resonator. Further the unstable resonator may be injection seeded for a narrow linewidth output.
    Type: Grant
    Filed: August 24, 1993
    Date of Patent: February 14, 1995
    Assignee: Spectra-Physics Lasers, Inc.
    Inventors: James B. Clark, Bertram C. Johnson
  • Patent number: RE35117
    Abstract: A point of sale (POS) bar code scanner such as in common use in retail stores includes provision for reading bar coded redemption coupons (or other bar coded documents redeemable for value) in a manner secure from a human operator. Integration of functions between the POS scanner and the coupon reader varies with different embodiments described. Through software associated with bar code decoding logic, a comparison is made between information on a validation coupon and information on items presented for purchase, and a decision is made as to whether the redemption coupon is valid and redeemable in this transaction. In one embodiment, the bar code scanner simply receives the redemption coupon face down on the product scanner window, and integrated decode logic of the scanner identifies the bar code as belonging to a redemption coupon, then makes the comparison and validation of the coupon for the particular transaction.
    Type: Grant
    Filed: May 19, 1994
    Date of Patent: December 12, 1995
    Assignee: Spectra-Physics Scanning Systems, Inc.
    Inventors: Joseph F. Rando, Jeffrey M. Novak