Patent application number | Description | Published |
20080296386 | Scan engine interface - A scan engine ( | 12-04-2008 |
20100001842 | SINGLE FREQUENCY LOW POWER RFID DEVICE - Methods, systems, and apparatuses for a reader transceiver circuit are described. The reader transceiver circuit incorporates a frequency generator, such as a surface acoustic wave (SAW) oscillator. A reader incorporating the reader transceiver circuit is configured to read a tag at very close range, including while being in contact with the tag. The transceiver can be coupled to various host devices in a variety of ways, including being located in a RFID reader (e.g., mobile or fixed position), a computing device, a barcode reader, etc. The transceiver can be located in an RFID module that is attachable to a host device, can be configured in the host device, or can be configured to communicate with the host device over a distance. The RFID module may include one or more antennas, such as a first antenna configured to receive a magnetic field component of an electromagnetic wave and a second antenna configured to receive an electric field component of an electromagnetic wave. The RFID module may include a detector that is configured to determine if the RFID module is positioned in proximity to an object, such as a RFID tag. The detector may operate as a trigger for the RFID module, to enable or trigger a function of the RFID module. | 01-07-2010 |
20110108628 | METHOD AND APPARATUS FOR PROJECTING ILLUMINATION PATTERNS FROM BARCODE READERS - A method and apparatus for projecting illumination patterns from barcode readers. The apparatus includes a housing, an invisible illumination light source, and a visible illumination light source. The housing comprises a first window located in a generally horizontal plane and a second window located in a generally upright plane that intersects the generally horizontal plane. The invisible illumination light source is operative to project an invisible illumination pattern that is at least partially incident upon the first window or the second window after the invisible illumination pattern is projected out of the housing. The visible illumination light source operative to project a visible illumination pattern out of the housing, and the visible illumination pattern has a visible center ray propagating in a direction different from the invisible center ray of the invisible illumination pattern. | 05-12-2011 |
20110127334 | MEM AUTO-FOCUSING SYSTEM | 06-02-2011 |
Patent application number | Description | Published |
20110147459 | AIMING SIGHT FOR A BARCODE READER - An apparatus, system, and method for aiming and reading a target object. The apparatus includes a barcode reader for reading the target object. The apparatus also includes an aiming sight coupled to the barcode reader. The aiming sight is used for aiming the target object and thereby directing the barcode reader to read the target object. The aiming sight can either be used independently or can be used along with an aiming pattern generator present in the barcode reader, in order to read the target object. | 06-23-2011 |
20120074226 | AIMING SIGHT FOR A BARCODE READER - An apparatus, system, and method for aiming and reading a target object. The apparatus includes a barcode reader for reading the target object. The apparatus also includes an aiming sight coupled to the barcode reader. The aiming sight is used for aiming the target object and thereby directing the barcode reader to read the target object. The aiming sight can either be used independently or can be used along with an aiming pattern generator present in the barcode reader, in order to read the target object. | 03-29-2012 |
20130032692 | METHOD AND APPARATUS FOR CONTROLLING OUTPUT OF THE SOLID-STATE IMAGER IN A BARCODE READER - A method and apparatus for imaging targets with an imaging reader. The method includes: (1) capturing return light from a target over a field of view of the solid-state imager and generating image data corresponding to the target; (2) transmitting the image data from the solid-state imager to the host when the gate circuit is set to the transmitting mode; and (3) preventing the image data from transmitting to the host when the gate circuit is set to the blocking mode. | 02-07-2013 |
20140246496 | APPARATUS FOR AND METHOD OF OPTIMIZING TARGET READING PERFORMANCE OF IMAGING READER IN BOTH HANDHELD AND HANDS-FREE MODES OF OPERATION - An imaging reader reads targets by image capture in both handheld and hands-free modes of operation. Upon detection of the mode of operation, a controller sets the resolution and frame rate of a solid-state imaging sensor to different values in each mode to optimize target reading performance in each mode. | 09-04-2014 |
Patent application number | Description | Published |
20090280008 | VORTICITY REDUCING COWLING FOR A DIFFUSER AUGMENTED WIND TURBINE ASSEMBLY - A vorticity reducing cowling for a diffuser augmented wind turbine assembly is provided. The diffuser augmented wind turbine assembly includes a shroud, a wind turbine disposed within the shroud, and a diffuser coupled to an outlet of the shroud. The wind turbine includes a wind turbine housing and a plurality of blades rotatably disposed within the wind turbine housing, wherein the plurality of blades providing a swept area. The cowling comprises a body disposed upstream of the plurality of blades. The body includes an inlet end defining a first opening, the first opening having a first area. The body includes an outlet end defining a second opening, the second opening having a second area that is less that the first area. The second area is less than the swept area of the plurality of the blades. | 11-12-2009 |
20090280009 | WIND TURBINE WITH DIFFERENT SIZE BLADES FOR A DIFFUSER AUGMENTED WIND TURBINE ASSEMBLY - A wind turbine for a diffuser augmented wind turbine assembly is provided. The wind turbine comprises a wind turbine housing, a hub mounted within the wind turbine housing, and a plurality of blades rotatably coupled with the hub and radially extending from the hub. The plurality of blades includes a first blade and a second blade, wherein the first blade includes a surface area and/or a maximum width that is greater than a surface area and/or a maximum width of the second blade to increase the efficiency of the diffuser augmented wind turbine assembly in variable speed winds. | 11-12-2009 |
20120275903 | HIGH EFFICIENCY WIND TURBINE INCLUDING PHOTOVOLTAIC CELLS - A wind turbine is provided with turbine blades mounted for axial rotation about an axis. The blades are surrounded by a shroud to define an axial air passage. A conical ring is attached to the shroud and includes vanes for directing the airflow. Plates are attached to the shroud at a position radially outward from the shroud forming an air passage between the shroud and the plates. The plates have gaps between the adjacent plates so that air exiting the downstream opening of the shroud and air moving through the axial air passage between the shroud and the plates are mixed and a portion of the mixed air exits through the gaps. The wind turbine includes photovoltaic cells to increase the electricity generated by the wind turbine. | 11-01-2012 |
20120275910 | MULTIPLE MIXING INTERNAL EXTERNAL FLUID DRIVEN HIGH EFFICIENCY WIND TURBINE HAVING REDUCED DOWNSTREAM PRESSURE - A wind turbine is provided with turbine blades mounted for axial rotation about an axis. The blades are surrounded by a shroud to define an axial air passage. Plates are attached to the shroud at a position radially outward from the shroud forming an air passage between the shroud and the plates. The plates have gaps between the adjacent plates so that air exiting the downstream opening of the shroud and air moving through the axial air passage between the shroud and the plates are mixed and a portion of the mixed air exits through the gaps. | 11-01-2012 |
20120275919 | HIGH EFFICIENCY WIND TURBINE HAVING INCREASED LAMINAR AIRFLOW - A wind turbine is provided with turbine blades mounted for axial rotation about an axis. The blades are surrounded by a shroud to define an axial air passage. A conical ring is attached to the shroud and includes vanes for directing the airflow. Plates are attached to the shroud at a position radially outward from the shroud forming an air passage between the shroud and the plates. The plates have gaps between the adjacent plates so that air exiting the downstream opening of the shroud and air moving through the axial air passage between the shroud and the plates are mixed and a portion of the mixed air exits through the gaps. | 11-01-2012 |
20130064654 | HOUSING FOR A HIGH EFFICIENCY WIND TURBINE - A housing for a wind turbine includes a plurality of spine members with a central rib and opposed channels. Frame members are attached to adjacent spine members. The housing includes divergent frame members having a pair of longitudinal members which are inserted into channels of a spine member. The housing includes central support members, each central support member is attached to a divergent frame member. Each of the central support members is attached near the center of one of the divergent frame members. The housing also includes outer plates, each outer plate attached to and between adjacent spine members. Channels face in the opposite direction from adjacent channels on the spines. An inner shroud is attached to the spine members. Air passages are created underneath the arcuate outer plates. A cowling is attached to the end plates. | 03-14-2013 |
20130309095 | WIND TURBINE BLADE HAVING IMPROVED STRUCTURAL AND AERODYNAMIC CHARACTERISTICS - A wind turbine blade is provided which is attached to a hub of a wind turbine. The wind turbine blade includes a spine. The spine can have various cross-sections, such as square, rectangular, triangular, āIā beam, or other suitable cross-sections. An attachment member is connected to one end of the spine. Ribs are provided and the spine extends through apertures in each of the ribs. A facing is attached to the plurality of ribs. The facing forms a convex surface on one side and a substantially flat surface on the other side. The flat surface is at an angle of between 24 degrees and 28 degrees from a plane perpendicular to the axis of rotation of the blades near a proximal end of the blade and the flat surface is at an angle of between 8 degrees and 12 degrees at the distal end of the blade. | 11-21-2013 |