Abstract: An improved miniature scanning module for scanning and reading data fields having images or symbols such as bar codes, adapted to be included in a scanning application such as a portable transaction terminal. The scan engine of the module has an oscillator apparatus in which at least one side of a vertical coil cuts lines of magnetic force from an independent fixed magnet assembly and has a rotor and a stator which are molded interconnect devices in which electrical circuits are formed by surface plating or printing during multiple-shot molding of the parts. The rotor is supported by a plurality of metal alloy flexures depending from the stator, which flexures both mechanically support the rotor and transmit electrical power and signals between control circuitry on one or more printed circuit boards on the stator and electrical elements on the rotor. A semiconductor laser diode mounted on the rotor scans in one dimension when the rotor oscillates.

Abstract: A unitary hand-held bar code scanner and reader produces an elliptical beam, oriented with its major axis along the direction of the bars, utilizing optics employing far field diffraction effects to shape the beam and maintain its elliptical aspect (length to width ratio) constant over a distance in front of the scanner were bar codes may be located. The optics eliminates parallax even though the photodetector and light source (preferably a laser diode) are located offset from each other on a board on which the optics are mounted. A housing assembly has channels which mount the board therein without shock absorbing devices. A digital microcomputer controller and peripheral devices regulate the optical power output from the laser diode and prevents catastrophic failure, if the electrical current through the laser diode exceeds safe limits.

Abstract: A miniature scan engine module for bar code reading and data collection systems utilizes a light source and a light collector flexurally supported on a platform which reciprocates on pivots defined by flexures. The light received from the code, as it is scanned, is collected along an optical collector having a surface area approximately equal to the surface area of one side of the scan engine. The optical collector in which the gratings are embedded faces the bar code and pivots with the scanning beam source (a laser diode). A pair of diffraction gratings in a surface of the optical collector which faces away from the code directs the incoming light so that it propagates internally in a substrate within the body of the collector, i.e. in the optic itself to photodetectors via reflective and light concentrating surfaces over the photodetector.

Abstract: To enhance the effectiveness of personnel conducting inventory management functions, including data entry of information for products as to their presence, absence, or location, the operator-user is provided with a small and lightweight lapel data entry terminal which can be comfortably worn on a lapel of the operator's clothing, and which can be used to enter data into a remote data center. The lapel data entry terminal provides for acquisition and entry of data derived from verbal pronouncement of code data into a microphone which is coupled to a transmitter through a speech or voice recognition sub-assembly and an analog-to-digital converter sub-assembly. The lapel terminal provides for acquisition and entry of data derived from optical scanning of codes affixed to objects, for example, optical bar code patterns. Such optical codes are read by an optical code reader whose signal output is also coupled to the transmitter.

Abstract: In order to control laser beam propagation, working range and beam cross-section in a bar code scanner, diffractive optics are used to modify the amplitude and/or phase distribution of the beam in the scanner. The beam is diffracted by a mask which has a plurality of apertures in the form of segments which are arranged across the beam cross-section in the vicinity of a converging lens. The segments are sized and their transmission functions selected (one segment having for example 100% transmission and the other 50% transmission) such that bar codes close in and far out from the scanner are in regions of far field diffraction of different segments, or where such regions overlap, thereby extending the working range of the scanner where bar codes of high density can be resolved.

Abstract: To increase the efficiency of personnel conducting inventory management operations, including data entry of products and information as to their absence, presence or location, the operator is provided with a glove having finger sheaths and a portion for the posterior or dorsal surface of the hand which covers that surface. A bar code reader is located in a housing on the cover and flexural strain gauge elements are located in the sheaths in the vicinity of the joints of the fingers. Signals from these elements are digitized and provide for manual data entry and also for commands to operate the bar code reader. The glove and the sensors constitute a portable transaction or data entry terminal which does not require manual actuation of a trigger to operate the bar code scanner or a keyboard for manual entry of data concerning the products to be managed.

Abstract: A system for converting analog bar code signals from the photo detector of a bar code reader or scanner into pulses occurring in time in correspondence with the spacing of the edges of the bars of the code which has a differentiator circuit and a circuit for integrating in time the differentiated signal to produce a second signal lower in amplitude and delayed with respect to the differentiated signal. A comparator compares the differentiated signal and the integrated signal. The output of the comparator is a train of pulses having edges occurring when the differentiated signal and integrated signal are in a certain amplitude relationship (i.e., approximately equal to each other). The peaks of the differentiated bar code signal occur in coincidence with the scanning of the edges of the bar code. The integrated signal is delayed by a fixed time delay.

Abstract: A headset to be worn around the head of an operator having a head-band, a microphone, a bar code reader, a display, electronics including a microprocessor and speech recognition for translating alphanumeric names and words into data which are to be stored in the memory of the microprocessor and a transceiver for exchanging data with a remotely located modem. Upon a voice activation, messages issued by the microprocessor are visually projected on a display and the reader is initiated.

Abstract: A unitary hand-held bar code scanner and reader produces an elliptical beam, oriented with its major axis along the direction of the bars, utilizing optics employing far field diffraction effects to shape the beam and maintain its elliptical aspect (length to width ratio) constant over a distance in front of the scanner were bar codes may be located. The optics eliminates parallax even though the photodetector and light source (preferably a laser diode) are located offset from each other on a board on which the optics are mounted. A housing assembly has channels which mount the board therein without shock absorbing devices. A digital microcomputer controller and peripheral devices regulate the optical power output from the laser diode and prevents catastrophic failure, if the electrical current through the laser diode exceeds safe limits.

Abstract: A miniature scan module which is adapted to be installed as part of a terminal or other apparatus for the reading of bar codes has an integrated assembly of a laser diode and a photodetector which is rotatably mounted for reciprocation about an axis of rotation. The assembly is supported in whole or in part on and connected electrically to, a mounting board by flexures which extend between the integrated assembly and supports (posts) on the board. The assembly has a body with a wall and a platform. The wall supports the laser and has a reflective surface which directs light resulting from the scanning of the laser beam across the bar code to the detector. The assembly also carries printed circuits connected to the detector and the laser diode. Connections are made through the flexures to these printed circuits and to other circuits on the mounting board.

Abstract: A strain relief member of sheet metal is disposed within the housing of a modular connector having a locking bar which ordinarily is crimped into locking engagement with the wires of a multi-wire cable. With such an arrangement flexure of the wires occurs at the locking bar and the wires break thereby breaking the connection provided by the connector to equipment connected to the cable. The strain relief member has a tray portion over which the wires extend to contacts located near one end of the housing. A stem extends rearwardly from the tray portion out the housing and has arms which are crimped around the cable thereby providing strain relief. The tray has a slot therein which is disposed in alignment with the locking bar. When the locking bar is crimped, it fastens the strain relief member to the housing.

Abstract: Miniature scan modules which occupy a volume of less than about 1 cubic inch so as to facilitate installation in any apparatus which requires scanning of a light beam across a target and detection of light reflected from the target. The miniature size of the scan module enables it to be incorporated in various apparatus, such as keyboards or terminals and provide them with the ability to read various symbols, particularly bar codes. The module has at least two printed circuit boards on at least one of which a source of a light beam, such as a laser diode or light emitting diode is mounted and another board which may be fixed in the apparatus in which the module is installed. The boards are interconnected by structure including a flexure which defines a pivot axis for the light source and the board on which it is mounted. The flexure is made up of a plurality of elements which are insulated from each other and provide separate conductive paths for electrical power and signals between the boards.

Abstract: An improved bar code scanning and reading apparatus which is adapted to be hand-held utilizes anamorphic optics for scanning and reading the code by providing a beam having an oblong cross-section in the nominal plane of the code. The oblong cross-section may be aligned with the bars of the code. The optics does not focus the beam in the longitudinal direction of the cross-section at the nominal plane of the code so that diffraction effects which would otherwise cause rotation of the cross-section of the beam to a position transverse to the bars of the code which would preclude reading of narrow bars, is avoided. The last lens of the anamorphic system may be a cylindrical lens which provides a line focus of a visible marker beam while at the same time providing the oblong cross-section of the beam which scans the code. The light from the vicinity of the code passes through the cylindrical lens and is collected by a toric reflector which projects the incoming light onto a photodetector.

Abstract: A bar code scanner having a housing in which a laser diode and optics forming the beam which scans the code and a photodetector are assembled as a unitary structure upon a printed circuit board so that the entire structure can be located in the housing.

Abstract: In order to meet the requirements for laser radiation safety, namely laser output which can enter the naked human eye indefinitely and cause no discernible damage (Class I emission limit) in a code symbol (bar code) scanner, a mode controller is used for generating a laser enabling the signal so as to turn the laser on in a search mode until the symbols are acquired and in an in-code mode while the symbols are being scanned. When the laser is turned on it operates at a power output which would exceed the Class I emission limits if operated continuously. Circuitry is provided for operating the mode controller so that the laser is not enabled to turn on for a period long enough to exceed Class I limits. Such circuitry may be an integrator or accumulator which responds to the time that the mode controller turns the laser on and which provides an output for inhibiting the mode controller from turning the laser on for a period of time sufficient to prevent the Class I emission limit from being exceeded.

Abstract: An optical device for detecting bar codes (markings or patterns which symbolize data such as the name and vendor of a product) are detected by an optical device which serves as a bar code scanner. A laser diode and associated optics provides an invisible beam. A visible marker beam coincident with the laser beam is generated by a lamp and associated optics and directed coaxial with the laser beam so as to enable the laser beam to be scanned across the bar code by moving a housing in which the laser and the lamp and their associated optics are disposed. Also contained in the housing is a photodetector on which scattered light from the code is incident after passing through a collection lens located at an outlet port for the beams. An aperture is positioned between the collection lens and the detector.

Abstract: A system for optically scanning objects, particularly bar codes over a large depth of field, uses a incandescent light source to illuminate the bar code and scans the field using a rotating polygon having mirrors with different curvature on different facets thereof which provides scanning in different focal planes in the field while temporally multiplexing these planes. The optical, electronic and mechanical components are modularly packaged on a printed circuit board adapted to be contained in a housing which may be held near and pointed at the code when it is desired to read the code.

Abstract: Interferometer apparatus for measuring the microtopography of surfaces in two dimensions (surface roughness) uses monochromatic light from a laser. A beam splitter divides the light and directs a beam to the surface being measured and another beam to a reflector. The phase of the reflected beam is varied linearly by means which applies a saw tooth wave to an electromechanical transducer on which the reflector is mounted. The beam is focused onto a spot on the surface by a lens which is translated along the surface in two dimensions. The beams from the reflector and the surface are recombined by the beam splitter and the interference fringe detected thus producing an alternating current signal. The waveform is tracked during the rising portion of the waveform and sampled and held during the retrace portion of the saw tooth.

Abstract: The optical path lengths of a plurality of comparison laser beams directed to impinge upon a common target from different directions are compared to that of a master laser beam by using an optical heterodyne interferometric detection technique. The technique consists of frequency shifting the master laser beam and combining the master beam with a first one of the comparison laser beams to produce a time-varying heterodyne interference pattern which is detected by a photo-detector to produce an AC electrical signal indicative of the difference in the optical path lengths of the two beams which were combined. The optical path length of this first comparison laser beam is adjusted to compensate for the detected difference in the optical path lengths of the two beams. The optical path lengths of all of the comparison laser beams are made equal to the optical path length of the master laser beam by repeating the optical path length adjustment process for each of the comparison laser beams.