28th week of 2013 patent applcation highlights part 24 |
Patent application number | Title | Published |
20130176612 | COLOR DISPLAY DEVICES - The present invention is directed to color display devices which are capable of displaying multiple color states. The display device comprises a plurality of display cells, wherein each of said display cells is (a) sandwiched between a first layer comprising a common electrode and a second layer comprising a plurality of driving electrodes, wherein at least one of the driving electrodes is a designated electrode, (b) filled with an electrophoretic fluid comprising at least two types of pigment particles dispersed in a solvent or solvent mixture, and (c) capable of displaying at least four color states. The display device may also comprise hiding layers or a brightness enhancement structure on the viewing side. | 2013-07-11 |
20130176613 | ELECTROPHORESIS DISPLAY APPARATUS AND DRIVE METHOD THEREOF - An electrophoresis display apparatus ( | 2013-07-11 |
20130176614 | EUV COLLECTOR MIRROR SHELL OF AN EUV COLLECTOR FOR EUV LITHOGRAPHY - An EUV collector mirror shell of an EUV collector for EUV lithography includes a body which has a light incidence-side front part having a reflective optically active area, a rear part, and a cavity between the front and rear parts. The cavity extends essentially along the entire optically active area, and the cavity serves to receive a cooling medium. The body also has at least one inlet and at least one outlet for the cooling medium. A plurality of flow-influencing elements are in the cavity, extending from the front part to the rear part, and connecting the front part to the rear part and monolithically formed with the front and rear parts. | 2013-07-11 |
20130176615 | MULTI-LAYERED OPTICAL FILM AND METHOD FOR PRODUCING THE SAME - A multi-layered optical film formed on a plastic substrate, which has high resistance against lights in the ultraviolet region including blue lasers in a high ambient temperature is disclosed. Each layer of the multi-layered optical film is made of an oxide or an oxynitride, layers adjacent to each other are made of materials having different refractive indexes, oxidation-reduction potential of elements constituting oxides or oxynitrides is −0.9 volts or less, thickness of a first layer adjacent to the substrate is 10 nanometers or more, an absolute value of a difference in refractive index between a material of the substrate and a material of the first layer is 0.2 or less, an absolute value of a difference in refractive index between two kinds of materials of layers adjacent to each other is 0.45 or less and total thickness of the multi-layered optical film is 3000 nanometers or less. | 2013-07-11 |
20130176616 | FILM MIRROR FOR SOLAR THERMAL POWER GENERATION, METHOD FOR MANUFACTURING FILM MIRROR FOR SOLAR THERMAL POWER GENERATION, AND REFLECTION DEVICE FOR SOLAR THERMAL POWER GENERATION - The film mirror has sequencial layers of a hard coat layer, a resin layer and a reflective layer. The hard coat layer has an absorber and the absorber is a triazine absorber or an inorganic UV absorber. Such a mirror has high specular reflectance without delamination even after long-term irradiation by sunlight because of the specific absorbers used in the hard coat layer. | 2013-07-11 |
20130176617 | MICROSCOPE SYSTEM AND AUTOFOCUS METHOD - A microscope system and an autofocus method capture a subject at a specified time interval through an optical image forming system while relatively moving a stage loaded with the subject and the optical image forming system of the microscope; calculate a contrast value indicating a high and low contrast of a captured observation image; detect a maximum contrast image whose calculated contrast value is maximum in a plurality of performed observation images; detect the relative position of the stage and the optical image forming system; perform a correcting process of moving the detected relative position corresponding to the detected maximum contrast image by a specified value in a direction opposite the direction of the relative movement; and bring focus using the corrected relative position as a focal point. | 2013-07-11 |
20130176618 | MICROSCOPE AND MICROSCOPE LIGHT SOURCE UNIT - A microscope includes: a first epi-illumination light-source unit to perform fluorescence observation; a second transmitted-illumination light-source unit to perform transmission observation, the second transmitted-illumination light-source unit including a light source provided with a light emitting element that emits excitation light and a fluorescent substance that emits fluorescence upon irradiation with the excitation light; and an incidence limiting section configured to limit an incidence of light on the light source from an outside of the second light source unit during a light-off period of the light emitting element. The incidence limiting section is configured to remove an incidence limitation of the light from the outside while the light emitting element is being lit. | 2013-07-11 |
20130176619 | DISPLAY APPARATUS - Embodiments of the invention provide an electronic device, such as a display apparatus (e.g., a naked-eye type stereoscopic image display apparatus). The electronic device comprises a display panel, comprising a plurality of pixels; and a parallax barrier, comprising a plurality of light transmission sections and a plurality of light blocking sections. The electronic device is operable to switch between a first setting, in which at least one of the plurality of light transmission sections has a first width, and a second setting, in which the at least one of the plurality of light transmission sections has a second width different than the first width. | 2013-07-11 |
20130176620 | IMAGE STABILIZING APPARATUS, LENS BARREL, AND OPTICAL APPARATUS - An image stabilizing apparatus includes a shift member holding a lens, a first driver moving the shift member in a first direction in a plane orthogonal to an optical axis, and a second driver moving the shift member in a second direction in the plane orthogonal to the optical axis. The first driver includes a first magnet, a first coil, and a first yoke in order in an optical axis direction, the second driver includes a second magnet, a second coil, and a second yoke in order in the optical axis direction, the first yoke has a protrusion that protrudes in the first direction at least one of end portions extending in a direction orthogonal to the first direction, and the second yoke has a protrusion that protrudes in the second direction at least one of end portions extending in a direction orthogonal to the second direction. | 2013-07-11 |
20130176621 | DIFFRACTIVE MEMS DEVICE - A diffractive MEMS device has an in-plane binary reflective diffraction pattern formed in an outer surface of a tiltable platform. The binary reflective diffraction pattern includes rectangular or trapezoidal ridges and valleys, or grooves, of a same depth. The binary reflective diffractive pattern has a high diffraction efficiency even though the surfaces of the “grooves” or “ridges” are not perpendicular to the incoming optical beam. The diffractive pattern is supported by a pair of torsional hinges and is tiltable by an electrostatic actuator. The electrostatic actuator can include at least one side electrode for linearization of dependence of tilt angle on the voltage applied to the actuator. | 2013-07-11 |
20130176622 | Multi-Dimensional Imaging Using Multi-Focus Microscopy - An optical imaging system includes a first diffractive optical element that receives a multi-wavelength beam of light and separates the received beam of light into diffractive orders. The optical imaging system also includes a second diffractive optical element that includes panels displaced along the second diffractive element in at least one direction, where each panel is positioned to receive and pass the multi-wavelength beam of one of the diffractive orders. A refractive optical element is positioned to receive multi-wavelength beams of the diffractive orders that pass through the second diffractive element, and an optical lens that receives the multi-wavelength beams of the diffractive orders that pass through the refractive element and focuses each of the multi-wavelength beams of the diffractive orders to a different location on an image plane at the same time. | 2013-07-11 |
20130176623 | PORTABLE DISPLAY - In one embodiment, the modular display includes aggregates of individual panel tiles arranged between two large plastic sheets. The footprint of the large plastic sheet sandwich becomes the dimension of the display screen. The tilettes are phosphor emission panels with a full complement of emittable pixels. By separating the tilettes from the final full dimension sheet, the tilettes can be manufactured in transportable sizes and the outer full dimension sheets can be rolled for easy transport to the final install location. | 2013-07-11 |
20130176624 | METHOD FOR PRODUCING A PHOTOGRAPHIC PICTURE - Method for the production of a photographic picture, comprising the bonding of a photograph with its face to a transparent carrier made of anti-reflective glass. | 2013-07-11 |
20130176625 | SUPERIMPOSED LENS MODULE WITH LENS ARRAY - The present invention provides a multiple-layered lens array assembly comprising: at least a lens array set comprising a plurality of lens units, each of the lens units having an engaging surface surrounding an optical axis thereof and formed on an object-side surface or an image-side surface thereof; and at least an independent lens unit having an engaging surface surrounding an optical axis thereof and formed on an object-side surface or an image-side surface thereof; wherein the engaging surface of each of the lens units of the at least an lens array set connects with the engaging surface of a corresponding independent lens unit. | 2013-07-11 |
20130176626 | WEARABLE DEVICE ASSEMBLY WITH INPUT AND OUTPUT STRUCTURES - An electronic device for use with a wearable structure configured to be worn on the head of a user includes a display element and a housing having an arm portion and an elbow portion. The housing is configured to be removably affixed to the wearable structure at the arm portion thereof. The elbow portion of the housing defines a display end of the housing that supports the display element. The arm extends along a longitudinal axis of the housing, and the elbow portion is configured such that the display end supports the display element along a display axis disposed at an angle with respect to the longitudinal axis. Image generating means are disposed within the housing and configured for generating an image presentable to the user on the display element. An input device is affixed to the housing and is configured for receiving from the user an input. | 2013-07-11 |
20130176627 | MIRROR ASSEMBLY FOR COMBINING VISIBLE LIGHTS WITH FILTER FUNCTION - A mirror assembly includes a first mirror and a second mirror. The first mirror passes a first color light therethrough, reflects a second color light and has an average transmittance (T | 2013-07-11 |
20130176628 | ADAPTIVE OPTICAL DEVICES WITH CONTROLLABLE FOCAL POWER AND ASPHERIC SHAPE - A fluidic lens may include an optical surface configured for deflection dominated by bending stress. An adjustable concentric load may be applied to the optical surface to cause a clear aperture region of the optical surface to deflect with generally spherical curvature. Adjusting the concentric load controls the radius of curvature. An adjustable uniformly-distributed load may be applied to the optical surface by fluid pressure that causes the clear aperture region to deflect with an aspheric shape. Adjusting the pressure controls the asphericity of curvature. First and second fluids having similar densities and different refractive indexes may be disposed on either side of a deflectable optical surface to help balance gravitational loading on either side of the optical surface, thereby reducing gravity-associated aberrations. | 2013-07-11 |
20130176629 | IMAGE BLUR CORRECTION DEVICE AND IMAGING APPARATUS - An image blur correction device includes a lens unit having at least one lens and rotationally moving in a first direction which is a rotation direction of a first fulcrum axis and in a second direction which is a rotation direction of a second fulcrum axis relative to an outer casing, a first driving motor which causes the lens unit to pivot in the first direction, and a second driving motor which causes the lens unit to pivot in the second direction. An auxiliary axis is disposed opposite to the first driving motor with interposing of the lens unit, the lens unit pivots in the first direction and in the second direction by the rotation of output axes of the first and second driving motors, and each output axis is rotatably supported by a pair of first bearings and each auxiliary axis is rotatably supported by a second bearing. | 2013-07-11 |
20130176630 | Lens with single detection member shared to perform focusing and zooming operations and reset method thereof - A lens with a single detection member shared to perform focusing and zooming operations includes a base, a detection member, a focusing unit and a zooming unit. The focusing unit includes a focusing group frame and a focusing detection board. The zooming unit includes a zooming group frame and a zooming detection board. In a reset method, a signal read from the detection member is a light-passing signal or a light-shielding signal, the focusing group frame and the zooming group frame are in any position. With the focusing group frame of the focusing unit and the zooming group frame of the zooming unit, the any position of the focusing group frame and the zooming group frame can be determined, and then the focusing group frame and the zooming group frame are driven to reset as a predetermined standby position. | 2013-07-11 |
20130176631 | IMAGE LENS ASSEMBLY - An image lens assembly includes, in order from an object side to an image side, a first lens element, a second lens element, a third lens element, a fourth lens element and a fifth lens element. The first lens element with positive refractive power has a convex object-side surface. The second lens element has negative refractive power. The third lens element with refractive power is made of plastic material, and has at least one surface being aspheric. The fourth lens element with refractive power is made of plastic material, and has a concave object-side surface and a convex image-side surface, wherein at least one surface of the fourth lens element is aspheric. The fifth lens element with positive refractive power is made of plastic material, and has a convex object-side surface and a convex image-side surface, wherein at least one surface of the fifth lens element is aspheric. | 2013-07-11 |
20130176632 | HABITAT VIEWING DEVICE - A habitat viewing device including an interior magnet, an exterior magnet, and a lens is provided. The interior magnet may be positioned on an interior surface of a habitat wall. The lens includes an exterior magnet attached to the lens. The exterior magnet is magnetically connectable to the interior magnet through the habitat wall. | 2013-07-11 |
20130176633 | PLASTIC LENS, METHOD FOR MANUFACTURING THE SAME, AND IMAGING DEVICE USING THE SAME - A plastic lens | 2013-07-11 |
20130176634 | LENS DRIVING DEVICE - An lens holding device is disclosed. The lens holding device includes a lens barrel defining a closed sidewall, an engaging hole surrounded by the closed sidewall for receiving a lens group, and a coil holder extending from one end of the lens holder. The lens holding device is configured to be one-piece. The disclosure further provides a lens driving device having the lens holding device. | 2013-07-11 |
20130176635 | LENS BARREL - A lens barrel is provided that includes an optical system, a housing, a cover member, an electronic part, a flexible substrate. The optical system is configured to form an optical image of a subject. The housing supports the optical system in an interior. The cover member supports the housing in a state of covering an opening of the housing. The electronic part is provided in the interior of the housing. The flexible substrate is electrically connected to the electronic part. The flexible substrate has a connection terminal. The cover member has a through-hole formed in a specific direction. The connection terminal is positioned on inside of the through-hole when viewed in the specific direction. | 2013-07-11 |
20130176636 | OPTICAL DEVICE AND OPTICAL INSTRUMENT - An optical device comprising: an elastic body provided between a first frame and a second frame; a position determining portion provided to sandwich, with the elastic body, the first frame, and can determine a position of the first frame towards the elastic body; a fixing portion provided to sandwich, with the position determining portion, the first frame, and can fix the first frame to the position determining portion; and an energizing member energizing the first frame in a direction crossing a position determining direction of the first frame and a fixing direction of the first frame. | 2013-07-11 |
20130176637 | LENS MOVING MECHANISM - A lens moving mechanism includes a guide shaft extending in an optical axis direction and a lens frame. The lens frame includes a transfer portion which follows movement of the nut member, which is screw-engaged with a lead screw of a motor. An effective length of the guide shaft is greater than that of the lead screw so that an end of the guide shaft and the motor overlap each other. Part of the fit-on portion of the lens frame is positioned where the end of the guide shaft and the motor overlap each other when the lens frame is at a lens-frame moving end, and is positioned to face the lead screw in a direction orthogonal to the optical axis when the lens frame is at the opposite lens-frame moving end. | 2013-07-11 |
20130176638 | OBJECTIVE OF AN ANGULARLY VIEWING, RIGID ENDOSCOPE - An objective of an oblique viewing, rigid endoscope, including a prism arrangement consisting of distal and proximal prisms contacting with planar contact surfaces that are oblique to an axis of the objective, the distal prism includes a distal front face toward the viewing direction of the objective, from which the rays entering there enter through the distal prism and through a passage area of the contact surfaces into the proximal prism and after double reflection in the proximal prism on a first mirror on a diagonal surface and a second mirror on the contact surface exit in the direction of the axis of the objective through a surface perpendicular to the direction of the axis of the objective, wherein the second mirror is arranged outside the penetration area, and an absorption layer is arranged in the plane of the second mirror between this and the penetration area. | 2013-07-11 |
20130176639 | PROXIMITY SENSING SYSTEM - A data storage system for detecting a location of a head relative to a magnetic media is described. This system comprises arms, a preamplifier circuit coupled to the arms for controlling the arms, a proximity sensing system positioned within the preamplifier circuit, the proximity sensing system comprising: an input stage for transmitting an input sense signal; a programmable gain stage coupled to receive the input sense signal and operative for transmitting a gain signal in response to receiving the input sense signal; a multiplexer coupled to receive the gain signal and at least one control signal, the multiplexer operative for transmitting a multiplexed signal; a detector coupled to receive the multiplexed signal and a second control signal, the detector operative for transmitting an output signal; wherein an amplitude associated with the output signal enables detecting the location of the head. | 2013-07-11 |
20130176640 | Systems and Methods for Adaptive Gain Control - Various embodiments of the present invention provide systems and methods for data processing. For example, a data processing system is discussed that includes: an analog to digital converter circuit, a data detector circuit, a filter circuit, an error generation circuit, and a target parameter adaptation circuit. The analog to digital converter circuit converts an analog input into corresponding digital samples. The data detector circuit applies a data detection algorithm to a data set derived from the digital samples to yield a detected output. The filter circuit convolves the detected output with a target parameter to yield a target output. The error generation circuit calculates an error value based on the digital samples and the target output. The target parameter adaptation circuit updates the target parameter based at least in part on the error value. | 2013-07-11 |
20130176641 | TAPE STORAGE DEVICE - A method, and tape storage device configured to perform such method, according to various embodiments, includes writing data stored in a buffer onto a tape; writing an interval marker on the tape after the data stored in the buffer is written onto the tape; writing next data subsequent to the interval marker when the next data is stored in the buffer in a first round corresponding to a first-time write in a single track in the tape; writing data stored in the buffer in an area of the interval marker in a second round corresponding to a second-time write in the single track; and writing data stored in the buffer in an area of the interval marker in which no data is written in each of third and subsequent rounds corresponding to third- and subsequent-time writes in the single track. | 2013-07-11 |
20130176642 | SELECTIVELY LOWERING RESISTANCE OF A CONSTANTLY USED PROTION OF MOTOR WINDINGS IN DISK DRIVE - Dynamic reconfiguration-switching of motor windings in a disk drive is optimized between winding-configurations by selectively lowering resistance of a constantly used portion of one of the motor windings. Acceleration is traded off in favor of higher velocity upon detecting the electric motor in the electric vehicle is at an optimal angular-velocity for switching to an optimal lower torque constant and voltage constant. The total back electromotive force (BEMF) is prohibited from inhibiting further acceleration to a higher angular-velocity. | 2013-07-11 |
20130176643 | DISTRIBUTED TEMPERATURE DETECTOR ARCHITECTURE FOR HEAD DISK INTERFACE SYSTEMS - Approaches for a distributed temperature detector architecture in a head disk interface system of a hard-disk drive (HDD). A HDD may include a read/write head comprising a read element and a write element and a read/write integrated circuit (IC). The read/write head may comprise (a) a first temperature sensor that is located relatively near an air bearing surface (ABS) of the read/write head and (b) a second temperature sensor that is offset from the ABS. The read/write IC is configured to detect when the read/write head makes physical contact with a disk based on a difference in temperature measured by the first and second temperature sensor. The first and second temperature sensors form a bridge circuit, such as a Wheatstone bridge, with a first IC resistor and a second IC resistor that both reside in the read/write IC, allowing the temperature of the read/write head to be accurately measured. | 2013-07-11 |
20130176644 | THIN-FILM MAGNETIC HEAD, METHOD OF MANUFACTURING THE SAME, HEAD GIMBAL ASSEMBLY, AND HARD DISK DRIVE - A thin-film magnetic head is constructed such that a main magnetic pole layer, a write shield layer, a gap layer, a thin-film coil and a shield magnetic layer are laminated on a substrate. The thin-film magnetic head has a shield magnetic layer. This thin-film magnetic head has a hard guard frame layer surrounding an equidistant coil part, disposed at a position equidistant from the substrate, from outside and being in direct contact with almost a whole outside surface defining an outer shape of the equidistant coil part. | 2013-07-11 |
20130176645 | INTERLEAVED CIRCUIT OF FLEXURE FOR DISK DRIVE - An interleaved circuit has first branch conductors branching from a first conductor, second branch conductors branching from a second conductor, a metal base having an opening, an insulating layer formed on the metal base, an electrically insulating first cover resin layer, and an electrically insulating second cover resin layer. The first branch conductors are formed on the insulating layer. The first branch conductors are covered by the first cover resin layer. The second branch conductors are formed on the first cover resin layer. The second branch conductors are individually located between the first branch conductors. The second branch conductors are covered by the second cover resin layer. | 2013-07-11 |
20130176646 | INTERLEAVED CIRCUIT OF FLEXURE FOR DISK DRIVE - An interleaved circuit has first branch conductors branching from a first conductor, second branch conductors branching from a second conductor, a metal base, an insulating layer of a dielectric, and a cover resin layer. The metal base comprises an opening. The first branch conductors and the second branch conductors are arranged alternately in a transverse direction of the insulating layer. A slit is formed in the insulating layer and the cover resin layer. The slit comprises a pair of opposite walls and an air gap between the opposite walls. Air introduced into the air gap forms an air layer. The slit extends longitudinally relative to the interleaved circuit along at least a part of the branch conductors. | 2013-07-11 |
20130176647 | DRIVER CIRCUIT AND METHOD OF GENERATING AN OUTPUT SIGNAL - A driver circuit of an integrated circuit is described. The driver circuit comprises a signal node coupled to receive an output signal of the integrated circuit; an inductor circuit having a resistor coupled in series with an inductor between a first terminal and a second terminal, wherein the first terminal is coupled to the signal node; an electro-static discharge protection circuit coupled to the second terminal of the inductor circuit; and an output node coupled to the second terminal of the inductor circuit. A method of generating an output signal is also disclosed. | 2013-07-11 |
20130176648 | POLE-SLIP PROTECTION SYSTEM AND METHOD FOR SYNCHRONOUS MACHINES - A method of protecting a synchronous machine ( | 2013-07-11 |
20130176649 | SYSTEM AND METHOD FOR COMPRESSOR MOTOR PROTECTION - A system includes a refrigerant compressor including an electric motor, a current sensor that measures current flow to the electric motor, a switching device configured to close and open to allow and prevent current flow to the electric motor, respectively, a maximum continuous current (MCC) device that includes a resistance corresponding to a maximum continuous current for the electric motor, and a motor protection module. The motor protection module communicates with the MCC device, the current sensor, and the switching device and determines a first MCC value for the electric motor as a function of the resistance of the MCC device. The motor protection module also selectively sets a predetermined MCC to the first MCC and controls the switching device based on a comparison of the current flow to the electric motor and the predetermined MCC. | 2013-07-11 |
20130176650 | DEVICE AND METHOD FOR LIMITING LEAKAGE CURRENTS - A device including a mechanism detecting a position of a neutral of a power supply source for an electrical energy apparatus, such as a battery charger of an electric or hybrid motor vehicle, and a mechanism connecting a capacitor for limiting leakage currents between the neutral and an electrically conducting structure in which the apparatus is placed. The device can be used to limit leakage current during recharging of an electric or hybrid traction motor vehicle. | 2013-07-11 |
20130176651 | DIAGNOSABLE REVERSE-VOLTAGE PROTECTION FOR HIGH POWER LOADS - Systems and methods of diagnosing a condition of a reverse-voltage protection switch in an electric system. The electric system includes a power source, an electric load, and a reverse-voltage protection switch in a series-type configuration. The electric system further includes a ground switch configured to selectively connect the source terminal of the reverse-voltage protection circuit to ground. The terminals of the reverse-voltage protection circuit are disconnected from the power source. The ground switch is closed to connect one terminal of the reverse-voltage protection switch to ground. A bias voltage is applied to the other terminal of the reverse-voltage protection switch and the reverse-voltage protection switch is opened. An improper short-circuit condition across the reverse-voltage protection switch is detected when the voltage at the biased terminal of the reverse-voltage protection switch is less than a threshold when the reverse-voltage protection switch is opened. | 2013-07-11 |
20130176652 | OVER-VOLTAGE PROTECTION DEVICE FOR RESONANT WIRELESS POWER TRANSMISSION DEVICE AND METHOD FOR CONTROLLING THE OVER-VOLTAGE PROTECTION DEVICE - Provided is an over-voltage protection device for a resonant wireless power transmission device. The over-voltage protection device includes an amplifier for amplifying a transmission signal, a resonance signal generator for generating a wireless resonance signal according to the transmission signal amplified by the amplifier, a voltage detector for sensing a voltage of the wireless resonance signal generated by the resonance signal generator, and a controller for monitoring the voltage detected by the voltage detector to determine whether the voltage repetitively increases and decreases with periodicity when the voltage is greater than a reference voltage and controlling the amplifier to decrease an output of the transmission device by a value according to a result of the determination. | 2013-07-11 |
20130176653 | OVER-VOLTAGE PROTECTION DEVICE FOR RESONANT WIRELESS POWER RECEPTION DEVICE AND METHOD FOR CONTROLLING THE OVER-VOLTAGE PROTECTION DEVICE - Provided is an over-voltage protection device for a resonant wireless power reception device. The over-voltage protection device includes a resonance signal receiver for receiving a wireless resonance signal transmitted from a wireless power transmission device, an over-voltage protector which is driven by a driver in an over-voltage protection operation to detune a resonance frequency of the reception device, thereby reducing reception power, the driver for driving the over-voltage protector according to a control signal in the over-voltage protection operation, and a controller for outputting the control signal for driving the over-voltage protector to the driver when it is determined that over-voltage occurs. | 2013-07-11 |
20130176654 | OVER-CURRENT PROTECTION DEVICE AND BATTERY PROTECTION CIRCUIT ASSEMBLY CONTAINING THE SAME - An over-current protection device is disposed on a circuit board and configured to protect a battery. The over-current protection device includes a resistive device, at least one insulation layer and a weld electrode layer. The resistive device exhibits positive temperature coefficient behavior. The insulation layer has a thickness of at least 0.03 mm. The weld electrode layer is configured to weld a strip interconnect member to electrically coupled to the battery, and has a thickness of at least 0.03 mm. The insulation layer and the resistive device are disposed between the weld electrode layer and the circuit board. The circuit board, the resistive device and the weld electrode layer are electrically coupled in series. The association of the resistive device and the weld electrode layer has a thermal mass capable of withstanding welding the strip interconnect member without significant damage to the over-current protection device. | 2013-07-11 |
20130176655 | OVER-CURRENT PROTECTION DEVICE - An over-current protection device includes a resistive device, an insulation layer, an electrode layer and at least one electrically conductive connecting member. The resistive device includes a first electrode foil, a second electrode foil and a positive temperature coefficient (PTC) material layer laminated between the electrode foils. The insulation layer is formed on the surface of the first electrode foil, and the electrode layer is formed on the surface of the insulation layer. The conductive connecting member penetrates the electrode layer, the insulation layer and the first electrode foil for electrically connecting the electrode layer and the first electrode foil. The conductive connecting member is insulated from the second electrode foil. One of the first and second electrode foils is configured to electrically connect to a protective circuit module (PCM), and the other one is configured to electrically connect to an electrode terminal of a battery to be protected. | 2013-07-11 |
20130176656 | Static Electricity Dissipation Drain and Standoffs for By-Pass Conductors of Floating Roof Tanks - A bonding system for a tank battery containing a flammable or combustible product being stored or conveyed, including a bonding conductor, an electrically conductive base member mounted on the tank, the electrically-conductive base member electrically connected to the bonding conductor and to ground installed within each tank and also including a flexible conductive medium with an upper end and a lower end and a plurality of fine electrically-conductive metal wires each having a proximal end and a terminal end, the proximal ends of which are intertwined with the flexible conductive medium to be in electrical connection with the electrical conductive medium, the upper end of the flexible conductive medium electrically connected with the electrically conductive base member and a plurality of static drains located proximate to the highest points of the tank battery and electrically bonded to said bonding conductor. | 2013-07-11 |
20130176657 | ELECTROMECHANICAL SYSTEMS VARIABLE CAPACITANCE ASSEMBLY - This disclosure provides systems, methods and apparatus for a variable capacitance apparatus. In one aspect, an apparatus includes a plurality of electromechanical systems varactors connected in parallel. Each of the plurality of electromechanical systems varactors includes a first, a second, and a third metal layer. The first metal layer includes a first bias electrode. The second metal layer is spaced apart from the first metal layer to define a first air gap, and includes a first radio frequency electrode. A third metal layer is spaced apart from the second metal layer to define a second air gap, and includes a second radio frequency electrode and a second bias electrode. The second bias electrode of each of the plurality of electromechanical systems varactors has a different projected area perpendicular to a surface of the second metal layer and onto the surface of the second metal layer. | 2013-07-11 |
20130176658 | FEEDTHROUGH ASSEMBLY INCLUDING ELECTRICAL GROUND THROUGH FEEDTHROUGH SUBSTRATE - A feedthrough assembly may include a ferrule defining a ferrule opening, a capacitive filter array at least partially disposed within the ferrule opening, and a feedthrough at least partially disposed within the ferrule opening. In some examples, the capacitive filter array includes a filter array ground conductive pathway. In some examples, the feedthrough includes a feedthrough ground conductive via. The feedthrough ground conductive via may be electrically coupled to the filter array ground conductive pathway, and the feedthrough ground conductive via may be electrically coupled to the ferrule. | 2013-07-11 |
20130176659 | ELECTRIC DOUBLE-LAYER CAPACITOR - An electric double-layer capacitor comprises a first polarizing electrode and a second polarizing electrode including a carbon nanotube aggregate formed by aggregating a plurality of carbon nanotubes and an electrolyte solution being immersed between the plurality of carbon nanotubes, the first polarizing electrode and the second polarizing electrode are provided with a conductivity of 0.5 S/cm; an electrode partially connected to the first polarizing electrode and the second polarizing electrode; and a separator arranged between the first polarizing electrode and the second polarizing electrodes; wherein the carbon nanotube aggregate has a relative surface area of 800 m | 2013-07-11 |
20130176660 | Carbonaceous Composition for Supercapacitor Cell Electrode, Electrode, Process for the Manufacture Thereof and Cell Incorporating Same - A carbonaceous composition usable to constitute a supercapacitor cell electrode, a porous electrode usable to equip such a cell, a process for manufacturing this electrode and one such cell incorporating at least one such electrode, for example in order to equip an electric vehicle. This composition is usable to be in contact with an aqueous ionic electrolyte, is based on a carbonaceous powder and comprises a hydrophilic binder-forming system. The system may include between 3% and 10% by weight a first crosslinked polymer having a number-average molecular weight Mn of greater than 1000 g/mol and having alcohol groups, and between 0.3% and 3% by weight a second polymer of at least one acid and which has a pKa of between 0 and 6 and a number-average molecular weight Mn of greater than 500 g/mol, the first polymer being crosslinked thermally in the presence of the second polymer. | 2013-07-11 |
20130176661 | Apparatus and Associated Methods - An apparatus, the apparatus including first and second circuit boards, and an electrolyte, the first and second circuit boards each including a capacitive element, wherein the apparatus is configured such that a chamber is defined between the first and second circuit boards with the capacitive elements contained therein and facing one another, the chamber including the electrolyte, and wherein the apparatus is configured to store electrical charge when a potential difference is applied between the capacitive elements. | 2013-07-11 |
20130176662 | Externally Fused Enclosure For A Solar Power System - A solar power generation system includes an array of photovoltaic modules, a plurality of positive wire lines leading from the photovoltaic modules, and a junction box including components for receiving the plurality of conductive wire lines from the photovoltaic modules and combining the plurality of conductive wire lines into a smaller number of conductive wire lines leading from the junction box and toward a load. An in-line fuse is connected to each of the positive wire lines leading from the photovoltaic modules. The in-line fuses are positioned proximate but physically outside of the junction box, such that the fuses are accessible without opening the junction box. | 2013-07-11 |
20130176663 | HINGE ASSEMBLY HAVING LINEAR MOVEMENT AND SLIDE TYPE ELECTRONIC DEVICE - A hinge assembly includes a guiding rail, at least one protruding block, a slidable element, and a rotatable element. The guiding rail includes a first side and a second side surface opposite to each other. The guiding rail further includes a first edge and a second edge in parallel to a longitudinal direction of the guiding rail. The protruding block is disposed on the first side surface. The width of the protruding block is smaller than that of the first side surface, and a gap exists between the protruding block and the first edge. The slidable element includes a sliding surface and a guiding surface opposite to each other. The first edge of the guiding rail inserts into a chute formed on the sliding surface to move the slidable element along the first edge. The rotatable element is pivoted to the slidable element to rotate on the slidable element. | 2013-07-11 |
20130176664 | ELECTRONIC DEVICE CHASSIS AND ELECTRONIC DEVICE - An electronic device chassis includes a base plate for disposing an electronic device circuit thereon, and a cover for the electronic device circuit housing. The base plate includes a bottom portion and a wall portion. The wall portion includes a screw fastening portion including a contact surface that contacts the cover. The cover includes a screw hole for attaching the base plate. The contact surface of the screw fastening portion is higher than an upper surface other than the contact surface of the wall portion. The upper surface portion covers the side of the housing space facing the base plate. The external side surface cover is provided at a peripheral edge of the upper surface cover portion, and extends toward the base plate so as to be longer than a difference between the contact surface of the screw fastening portion and the upper surface of the wall portion. | 2013-07-11 |
20130176665 | WATERPROOF TYPE ELECTRONIC APPARATUS - A waterproof type electronic apparatus of the present invention includes a key sheet at which a plurality of operation keys are formed, a front panel having its front face fixedly bonded to the circumferential portion of the key sheet, and a pushing element sheet interposed between the front panel and the switch sheet. The front panel is provided with a plurality of openings corresponding to ones of the operation keys. At the pushing element sheet, a plurality of pushing elements is formed. A waterproof packing extends passing through the position at which it overlaps with the opposite side portions of the circumferential portion of the key sheet. | 2013-07-11 |
20130176666 | ELECTRONIC DEVICE - An electronic device includes a housing including an opening-portion and an annular-projection provided in the vicinity of the opening-portion from the housing, the annular-projection projecting so as to surround a periphery of the opening-portion, a frame member including a tubular-portion having an outer surface that faces the annular-projection to be fitted with the annular-projection, a top plate exposed from the opening-portion with the tubular-portion fitted with the annular-projection, an extension-portion extending from the outer surface of the tubular-portion, the tubular-portion being expanded toward the annular-projection when a pressing force is applied to a surface of the top plate exposed from the opening-portion with the annular-projection and the tubular-portion fitted with each other, and an O-ring that contacts entire peripheries of the outer surface of the tubular-portion and an inner surface of the annular-projection. | 2013-07-11 |
20130176667 | TILT HEAD ASSEMBLIES AND METHODS OF USING THE SAME - A tilt head mechanism for use with a display device includes a base plate member configured to connect to a vertical mounting structure or surface and an adapter plate member operatively connected to the base plate member. The adapter plate member has a front surface configured to connect to a display device, and the front surface has a center point. The adapter plate member is independently: movable horizontally away from and toward the base plate member; and tiltable downwardly and upwardly relative to the vertical mounting structure or surface, wherein the front surface center point of the adapter plate member does not move substantially horizontally as the adapter plate member is tilted relative to the vertical mounting structure or surface. | 2013-07-11 |
20130176668 | ELECTRONIC DEVICE - According to one embodiment, an electronic device includes: a first housing; a second housing; and a connector. The first housing includes a first face and a first periphery portion provided along a periphery of the first face . The second housing includes a second face and a second periphery portion provided along a periphery of the second face and positioned near the first periphery portion. The connector includes a first portion connected to the first housing and a second portion connected to the second housing. The connector rotatably connects the first housing and the second housing with each other. The connector permits a change in a distance between the first portion and the second portion to prevent a change in a distance between the first periphery portion and the second periphery portion when the first housing and the second housing are rotated with respect to each other. | 2013-07-11 |
20130176669 | TERMINAL HOLDING DEVICE - The terminal holding device is attached to an installation surface such as a dashboard of a vehicle by an attaching unit. A supporting unit has one end connected to the attaching unit in such a manner that the angle is adjustable, and the other end connected to the holding unit which holds the terminal device. A sensor substrate for holding a sensor is mounted on the holding unit so as to be perpendicular to the display surface of the terminal device held by the holding unit. Normally, in order to easily view the display unit of the terminal device, a user will install the terminal device such that the display surface thereof is nearly perpendicular to the ground. Because the sensor substrate is mounted on the holding unit so as to be perpendicular to the display surface of the terminal device, the sensor substrate is mounted horizontally to the ground. | 2013-07-11 |
20130176670 | CIRCUIT BOARD ASSEMBLY - A circuit board assembly includes a motherboard, a first daughterboard, and a first metal bar. Two ends of the first metal bar are respectively fastened to the motherboard and the first daughterboard, and are electrically connected between the motherboard and the first daughterboard. The first metal bar is supported between the motherboard and the first daughterboard, so as to position the first daughterboard separately over the motherboard and enable the first daughterboard to be substantially perpendicular to the motherboard. | 2013-07-11 |
20130176671 | INPUT RECEIVER AND ELECTRONIC DEVICE - According to one embodiment, input receiver includes: cover; key module; detector; and button. Second opening is close to one end of the cover. First supporting surface is close to other end of the cover. Recess is between the second opening and the first supporting surface. Second supporting surface is configured to be aligned with the recess in direction intersecting first direction in which the second opening and the first supporting surface are aligned. The key module includes: area including keys separated from one another at first pitch; and area including keys separated from surrounding keys at second pitch shorter than the first pitch. The key module is in contact with the cover. The detector is aligned with the key module in the first direction. Detecting area is covered with portion of the first supporting surface and the second supporting surface. | 2013-07-11 |
20130176672 | DISPLAY DEVICE - An example display device includes a display device stand and display device housing pivotably connected to display device stand. The display device housing is to pivot between a vertical operating position and a horizontal servicing position, and a lid portion of the display device housing is to rotatably open away from a back portion of the display device housing to provide access to components within the display device housing. | 2013-07-11 |
20130176673 | PORTABLE ELECTRONIC DEVICE AND DOCKING DEVICE THEREOF - A docking device for connection to a touch display device is provided. The docking device includes a docking body, a pivot unit and a frame. The pivot unit is connected to the docking body. The frame is connected to the pivot unit and pivoted relative to the docking body, wherein the touch display device is detachably disposed on the frame. | 2013-07-11 |
20130176674 | ELECTRONIC DEVICE WITH PIVOTING DISPLAY ASSEMBLY - An electronic device includes a display assembly, in which the display assembly is positioned within a strength member frame and pivots around a pair of hinges fixed into the strength member frame, the strength member frame isolating the display assembly from forces that would otherwise damage the display assembly. The display assembly may include a rectangular display element and the strength member frame is then a rigid rectangular frame that surrounds all four sides of the display assembly, all sides of the rigid rectangular frame being capable of isolating the display assembly from forces that would otherwise damage the display assembly. The invention hence enables a computing device display to be securely held, protected and manipulated. The display is protected from stress, torsional forces, impact forces and over-rotation. | 2013-07-11 |
20130176675 | APPARATUS AND METHOD FOR COOLING A SUBSTANTIALLY CLOSED SPACE - An apparatus for cooling a substantially closed space with recirculation air having at least one cooling unit which includes a heat exchanger with a primary set of ducts and a secondary set of ducts, each set of ducts having an in- and outlet. The unit includes a controller to control an operation of the unit, and a sensor to provide a sensor signal representative of a parameter of the unit. The controller is arranged to derive a control signal from the sensor signal, whereby the unit includes a control signal output for outputting the control signal to another unit and a control signal input for receiving a control signal from another unit, the controller being arranged to control the operation of the unit in response to the control signal and the control signal from another unit as received at the control signal input. | 2013-07-11 |
20130176676 | Self-latching storage device module - A latching device for latching a storage device module into a storage chassis is provided. The latching device includes a latch member having a latching end and a spring end opposite the latching end, the latch member slidingly disposed within a front bezel of the storage device module and being movable between a latching position and a releasing position. The latching device also includes a latch spring between a bearing surface of the front bezel and the spring end of the latch member. The latch spring is in increased compression when the latch member transitions from the latching position to the releasing position, and the latch spring is in decreased compression when the latch member transitions from the releasing position to the latching position. The latching end extends through a latch hole in a side member of the storage chassis for locking the storage device module in the chassis. | 2013-07-11 |
20130176677 | Storage device carrier ejection spring - A spring for ejecting a storage device module from a chassis is provided. The spring includes a first end, where the first end is held captive when the spring is installed in the chassis. The spring includes a second end, opposite the first end, and a body between the first and second ends. The body is formed with serpentine bends proceeding linearly between the first and second ends and in a common plane with the first end. The second end is oriented orthogonal to the common plane. The spring is in expansion when the storage device module is inserted into the chassis. The storage device module pushes against the second end when the storage device module is fully inserted into the chassis. The spring exerts force outward from the chassis when expanded. | 2013-07-11 |
20130176678 | RACK LEVEL HOT AISLE CONTAINMENT SYSTEM - A method and system of cooling a server rack unit is described herein. A server rack for housing certain devices may be configured to receive a first air flow at a server rack front. Each device may form a wall at the back of the device creating a channel between the wall and the server rack back. The camber may collect warm air created by the first air flow as it extends over the at least one server. A first surface of the server may define at least one server rack opening allowing the warm air in the channel to exit the server rack. | 2013-07-11 |
20130176679 | Cooling System for Electronic Components - Embodiments of the present invention provide for non interruptive fluid cooling of an electronic enclosure. One or more electronic component packages may be removable from a circuit card having a fluid flow system. When installed, the electronic component packages are coincident to and in a thermal relationship with the fluid flow system. If a particular electronic component package becomes non-functional, it may be removed from the electronic enclosure without affecting either the fluid flow system or other neighboring electronic component packages. | 2013-07-11 |
20130176680 | MAPPED FAN ZONE COOLING SYSTEM - A cooling system includes a chassis. A thermal sensor is located in the chassis. A plurality of fan zones are located in the chassis. Each of the plurality of fan zones includes at least one fan. A first mapping is provided between the thermal sensor and a first fan zone of the plurality of fans zone, and a second mapping is provided between the first fan zone and a second fan zone in the plurality of fan zones. A controller is coupled to the thermal sensor and the at least one fan in each of the plurality of fan zones. In response to receiving a signal from the thermal sensor, the controller is operable to activate the at least one fan in the first fan zone according to the first mapping and activate the at least one fan in the second fan zone according to the second mapping. | 2013-07-11 |
20130176681 | PORTABLE TERMINAL WITH SUPPORT PLATE - A portable terminal includes: a body having a display device provided on the front face thereof; a support plate pivotably installed on the rear face of the body, a receiving recess formed on the rear face of the body adapted to receive the support plate; and wherein the support plate can pivot from the position of being received in the receiving recess, to articulate to a position protruding from the rear face of the body. By being provided with the support plate capable of cradling the body slantingly, the portable terminal makes it needless to carry a separate cover or case for providing a cradle function, which can contribute to maintaining the miniaturized and slimmed appearance of the terminal that is easy to carry. | 2013-07-11 |
20130176682 | POWER ELECTRONIC SYSTEM WITH A COOLING DEVICE - A power electronic system with a cooling device, and a method for producing the system, comprising a plurality of submodules, each submodule having a first planar insulating material body, one first conductor track cohesively connected thereto, one power switch arranged on the conductor track, at least one internal connecting device composed of an alternate layer sequence of at least one electrically conductive film and at least one electrically insulating film, wherein at least one electrically conductive layer forms at least one second conductor track, and comprising external connection elements. In this case, the submodules are arranged cohesively or in a force-locking manner and in a manner spaced apart from one another with their first main surface on the cooling device. At least one second conductor track at least partially covers first conductor tracks of two submodules, electrically connects them to one another and covers an interspace between the submodules. | 2013-07-11 |
20130176683 | ELECTRONIC ASSEMBLY - An electronic assembly includes a heat generating element, a heat dissipation fin set and a filter circuit board. The filter circuit board is disposed between the heat generating element and the heat dissipation fin set. The filter circuit board includes a metal layer, an electromagnetic band gap structure layer, an insulation layer disposed between the metal layer and the electromagnetic band gap structure layer and plural first thermal vias. The heat dissipation fin set is disposed on the heat generating element and directly contacts the metal layer. The electromagnetic band gap structure layer has plural conductive patterns arranged in the same pitches. The heat generating element directly contacts at least one of the conductive patterns. The first thermal vias pass through the insulation layer, the metal layer and the conductive patterns. Two ends of each first thermal via respectively connect the metal layer and the corresponding conductive pattern. | 2013-07-11 |
20130176684 | Printed Circuit Board Cover - A sheet metal cover for a printed circuit board (PCB) includes a plurality of legs continuous with a substantially planar elevated section. The legs are attached to the PCB, and electrical connections are provided between the legs and an internal ground plane of the PCB at the attachment locations. The sheet metal cover is thereby grounded, inhibiting the transmission of electromagnetic signals through the sheet metal cover. The elevated section of the sheet metal cover prevents select electronic devices on the PCB from being viewed or probed. Openings through the sheet metal cover allow heat sinks or heat generating electronic devices (e.g., inductors) to be exposed through these openings, thereby facilitating cooling of these elements by airflow. An electrically conductive gasket attached to the underside of the elevated section may contact the heat sinks, further minimizing the radiation of EMI emissions. | 2013-07-11 |
20130176685 | MULTI-LAYER CERAMIC CIRCUIT BOARD, METHOD OF MANUFACTURING THE SAME, AND ELECTRIC DEVICE MODULE USING THE SAME - There is provided a multi-layer ceramic circuit board. The multi-layer ceramic circuit board according to an aspect of the invention may include: a ceramic body having a plurality of ceramic green sheets stacked upon one another and an interlayer circuit having conductive vias and conductive patterns separately provided in the plurality of ceramic green sheets; a bump receiving portion provided in at least one surface ceramic green sheet adjacent to a surface of the plurality of ceramic green sheets, and having side walls inclined upward; and a bonding pad provided on the inclined side walls and a bottom surface of the bump receiving portion, and connected to the interlayer circuit. | 2013-07-11 |
20130176686 | MODULE AND PRODUCTION METHOD - The invention specifies a module comprising a carrier substrate ( | 2013-07-11 |
20130176687 | EXPANDABLE CONTROL UNIT AND CONTROL SYSTEM FOR INDUSTRIAL APPLICATIONS - A control unit for industrial applications is provided comprising a first compute box having a first microprocessor and being configured to run at least one first operating system. A second compute box may also be provided having a second microprocessor and being configured to run at least one second operating system. The first and second operating systems may be the same or different. The compute boxes may be mechanically coupled together or connected via one or more copper or fiber-optic cables, for example. Additional compute boxes may be added to expand the capabilities of each control unit. An integrated or detachable display may also be added. A control system for controlling a plurality of local input and output drops or devices is also provided. The control system includes a plurality of control units that may be distributed around an industrial installation and capable of data transfer between each control unit. | 2013-07-11 |
20130176688 | PORTABLE EXTERNAL POWER-SUPPLYING DEVICE - A portable external power-supplying device is disclosed. The portable external power-supplying device implements a unique mechanism to detachably assemble battery units whose number can be adjusted according to user needs, which means the overall aggregate capacity of the portable external power-supplying device is adjustable. The portable external power-supplying device is adaptive to connect and charge a portable electronic device | 2013-07-11 |
20130176689 | COMPONENT BUILT-IN MODULE, ELECTRONIC DEVICE INCLUDING SAME, AND METHOD FOR MANUFACTURING COMPONENT BUILT-IN MODULE - A component built-in module of the present invention includes: a substrate which includes a top surface and a bottom surface; a plurality of electronic components which are mounted on the top surface of the substrate; a resin which seals the top surface of the substrate; and a reinforcing plate which is bonded to the bottom surface of the substrate. The reinforcing plate and the resin are bonded to each other. | 2013-07-11 |
20130176690 | ELECTRONIC DEVICE WITH DETACHABLE MODULE - An electronic device includes a chassis, a detachable module with a case received in the chassis, a resilient latching member, and an operation member slidably positioned between the latching member and the case. The chassis defines a fastening hole. The case defines a through hole. A first end of the latching member is fixed to the case. A latching tab protrudes outwards from a second end of the latching member. When the operation member is at a first position, the latching tab engages in the fastening hole such that the detachable module is attached to the chassis. When the operation member slides to a second position, it pushes against the latching member to deform the second end of the latching member to move away from the case, such that the latching tab is disengaged from the fastening hole, thereby detaching the detachable module from the chassis. | 2013-07-11 |
20130176691 | MASKS FOR USE IN APPLYING PROTECTIVE COATINGS TO ELECTRONIC ASSEMBLIES, MASKED ELECTRONIC ASSEMBLIES AND ASSOCIATED METHODS - One or more masks may be used to control the application of protective (e.g., moisture-resistant, etc.) coatings to one or more portions of various components of an electronic device during assembly of the electronic device. A method for applying a protective coating to an electronic device includes assembling two or more components of the electronic device with one another. A mask may then be applied to the resulting electronic assembly. The mask may shield selected portions of the electronic assembly, while other portions of the electronic assembly, i.e., those to which a protective coating is to be applied, may remain exposed through the mask. With the mask in place, application of a protective coating to portions of the electronic assembly exposed through the mask may commence. After application of the protective coating, the mask may be removed from the electronic assembly. Embodiments of masked electronic assemblies are also disclosed. | 2013-07-11 |
20130176692 | METHOD FOR PRODUCING A CIRCUIT BOARD CONSISTING OF A PLURALITY OF CIRCUIT BOARD AREAS AND CIRCUIT BOARD - For a method for producing a circuit board consisting of a plurality of circuit board areas, wherein the individual circuit board areas comprise at least one layer made of an in insulating base material and a conducting pattern located on or in the base material, the following is provided: a substrate material, at least one registration mark formed in the substrate material, a first circuit board area arranged on the substrate material, at least one additional circuit board area, which substantially adjoins the first circuit board area or at least partially overlaps the first circuit board, the additional circuit board areas being oriented relative to the registration mark, and a plurality of connections of the conducting patterns of the first circuit board area and of the at least one additional circuit board area. Thus improved registration and orientation can be achieved when circuit board areas are coupled. | 2013-07-11 |
20130176693 | CIRCUIT BOARD FOR DISPLAY AND DISPLAY MODULE WITH DISPLAY AND CIRCUIT BOARD - A display circuit board is provided with at least one section being configured as flexible circuit board, wherein the at least one flexible section of the display circuit board has at least one electrode being coupleable with a capacitive sensor device. Furthermore, a display module is provided with a display and a display circuit board. In addition, a method for the production of a display module is provided, wherein the display circuit board is inserted in a module housing together with the display in such a way that the flexible section is at least partially arranged between a side wall of the display and a side wall of the module housing. Finally, an electrical hand-held device, such as a cell phone or the like, is provided with a display module. | 2013-07-11 |
20130176694 | POWER CASING APPARATUS OF IMAGE DISPLAY MODULE - A power casing apparatus of an image display module includes a display panel configured to have a Light-Emitting Diode module disposed in a front thereof; a bus bar unit installed in the rear of the display panel and configured to supply driving power to the LED module and to have a pair of electrode blades disposed on one side thereof; and a power casing unit disposed in the bus bar unit in such a way as to be attached to or detached from the bus bar unit and configured to supply the driving power to the bus bar unit and to have a pair of power supply connectors disposed at positions corresponding to the respective electrode blades on one side. | 2013-07-11 |
20130176695 | BUTTON ASSEMBLY WITH INVERTED DOME SWITCH - A portable electronic device may have an inverted dome switch assembly. The switch assembly may have an inverted dome that has a base and a conductive underside. The base may be attached to a button member. Two electrical contacts in the button member may face the conductive underside. Corresponding conductive traces may be connected to the contacts. The dome may bear against a housing member. The button member may be movable with respect to the housing member from an unactuated position to an actuated position. The dome switch may form a footprint based upon the dome base area. The housing member may extend into a portion of the footprint and not into the remaining portion of the footprint allowing that space to be otherwise utilized. | 2013-07-11 |
20130176696 | ATTACHMENT MECHANISM FOR ELECTRONIC COMPONENT - An attachment mechanism for an electronic component includes a circuit board and a fastener. A first connector is fastened to the circuit board to be connected to a second connector of the electronic component. The first connector includes a mounting portion fastened to the circuit board and a main body on a top of the mounting portion. The fastener includes an engaging portion and a rotating portion rotatably connected to a first end of the engaging portion. The engaging portion sandwiches the main body. The rotating portion includes a top wall and two abutting walls extending from opposite ends of the top wall to abut a top of the main body. One of the abutting walls is rotatably connected to the first end of the engaging portion. A stop wall extends from the other abutting wall to be detachably connected a second end of the engaging portion. | 2013-07-11 |
20130176697 | ATTACHMENT MECHANISM FOR ELECTRONIC COMPONENT - An attachment mechanism for fastening an electronic component includes a circuit board and a fastener. The circuit board includes a first connector to connect with a second connector of the electronic component. A mounting hole is defined beside the first connector. The fastener includes a supporting plate. A bottom of the supporting plate includes a first protrusion abutting against a top of the circuit board, and a second protrusion deformably extending through the mounting hole to abut against a bottom of the circuit board. A top of the supporting plate includes a supporting protrusion. A pair of spaced engaging portions protrudes from a top of the supporting protrusion. The engaging portions extend through the mounting hole to allow the electronic component to be supported on the supporting protrusion. | 2013-07-11 |
20130176698 | HIGH FREQUENCY CIRCUIT COMPRISING GRAPHENE AND METHOD OF OPERATING THE SAME - A high frequency circuit includes a first electronic device, a second electronic device, and a graphene interconnection unit including graphene and which connects the first and second electronic devices, where an interlayer distance of the graphene is greater than or equal to about 0.34 nanometer. | 2013-07-11 |
20130176699 | METHOD AND APPARATUS FOR DEPOSITION - The present invention relates to a method of depositing a composition on a receiving substrate to form a printed object, the method comprising the steps of providing: (1) a receiving substrate; (2) a source of near-infra-red laser radiation which is a pulsed laser source or an array of pulsed lasers; (3) a support transparent to near-infra-red laser radiation, the support being positioned between the receiving substrate and the laser source; and a composition which is in contact with the transparent support and which is positioned between the transparent support and the receiving substrate, wherein the composition comprises: (a) a functional material in particulate form capable of absorbing near-infra-red laser radiation, (b) an oligomer and/or polymer, (c) water, and (d) optionally additives, the method comprising directing near-infra-red laser radiation through the transparent support and into the composition and thereby causing the composition to be transferred from the transparent support across a gap to the receiving substrate and causing oligomer and/or polymer to solidify on the receiving substrate, thus forming a printed object on the receiving substrate, wherein the printed object is electrically conductive. | 2013-07-11 |
20130176700 | ELECTRONIC DEVICES WITH INTERNAL MOISTURE RESISTANT COATINGS - A moisture-resistant electronic device includes at least one electronic component at least partially covered by a moisture-resistant coating. The moisture-resistant coating may be located within an interior of the electronic device. The moisture-resistant coating may cover only portions of a boundary of an internal space within the electronic device. A moisture-resistant-coating may include one or more discernible boundaries, or seams, which may be located at or adjacent to locations where two or more components of the electronic device interface with each other. Assembly methods are also disclosed. | 2013-07-11 |
20130176701 | COMPONENT-EMBEDDED SUBSTRATE, AND METHOD OF MANUFACTURING THE COMPONENT- EMBEDDED SUBSTRATE - A component-embedded substrate includes an electrically insulating base ( | 2013-07-11 |
20130176702 | MODULAR CAM SYSTEM - A cam system includes a beam including a plurality of coupling features. A first handle is operable to be coupled to the beam using the coupling features. A plurality of cam elements are each operable to be coupled to the beam at different locations along the beam using the coupling features. A plurality of cam brackets are each operable to be mounted to a first member having a first connector. The coupled-together beam, first handle, and cam elements are operable to be coupled a second member having a second connector such that, with the cam brackets mounted to the first member, the engagement of the cam elements with the cam brackets mate the first connector and the second connector. | 2013-07-11 |
20130176703 | Thermally-Insulated Micro-Fabricated Atomic Clock Structure and Method of Forming the Atomic Clock Structure - A micro-fabricated atomic clock structure is thermally insulated so that the atomic clock structure can operate with very little power in an environment where the external temperature can drop to −40° C., while at the same time maintaining the temperature required for the proper operation of the VCSEL and the gas within the vapor cell. | 2013-07-11 |
20130176704 | Polarization fields for dynamic light field display - In exemplary implementations of this invention, a flat screen device displays a 3D scene. The 3D display may be viewed by a person who is not wearing any special glasses. The flat screen device displays dynamically changing 3D imagery, with a refresh rate so fast that the device may be used for 3D movies or for interactive, 3D display. The flat screen device comprises a stack of LCD layers with two crossed polarization filters, one filter at each end of the stack. One or more processors control the voltage at each pixel of each LCD layer, in order to control the polarization state rotation induced in light at that pixel. The processor employs an algorithm that models each LCD layer as a spatially-controllable polarization rotator, rather than a conventional spatial light modulator that directly attenuates light. Color display is achieved using field sequential color illumination with monochromatic LCDs. | 2013-07-11 |
20130176705 | LIGHT SOURCE DEVICE AND PROJECTION TYPE DISPLAY DEVICE - A light source device includes a light source unit concluding LD element ( | 2013-07-11 |
20130176706 | CANTILEVER INDICATOR FOR VEHICLE INSTRUMENT CLUSTER - An instrument panel assembly for a vehicle includes a main gauge that defines a main display area and a plurality of cantilevered light guides that are supported on the main gauge and extend outwardly from the main gauge. Each of the light guides are formed from a clear material providing visibility through each of the light guides. A corresponding plurality of lights selectively illuminates each of the plurality of cantilevered light guides. An etched surface is formed on the surface of each of the cantilevered light guides in the shape of a numeral or symbol. The illumination of the etched area on the clear cantilevered light guide creates the appearance that the symbols or numerals are floating proximate the main gauge and thereby generate desired aesthetic features while communicating information to a vehicle operator. | 2013-07-11 |
20130176707 | Modular LED Space Light - A modular light emitting diode (LED) space light including a top plate including a top plate slot; a bottom plate including a bottom plate slot; at least one module having at least one light emitting diode (LED), wherein the at least one module is adapted to fit between the top plate and the bottom plate correspondingly in the top plate slot and the bottom plate slot; and at least one passive heat sink coupled to the at least one module to dissipate heat generated by the at least one LED. | 2013-07-11 |
20130176708 | SOLID STATE LIGHTING ASSEMBLY - A solid state lighting assembly includes a heat sink and a socket assembly coupled to the heat sink. The socket assembly includes a socket housing having an interior surface mounted to a front of the heat sink and having an extension extending from the interior surface. The extension is received in an opening of the heat sink and extends at least partially through the heat sink. A socket contact is held by the socket housing and includes a package mating end and a power termination end. The power termination end extends into a cavity of the extension such that the power termination end extends at least partially through the heat sink. The power termination end is terminated to a power conductor and the package mating end is mechanically and electrically coupled to a solid state lighting package to supply power thereto. | 2013-07-11 |
20130176709 | Illuminated Tap Handle - An illuminated tap handle comprises a handle casing, a LED light strip, a battery, a charging station, and a remote control. The LED light strip comprises a plurality of LED lights. The plurality of LED lights and the battery are hermetically sealed within the handle casing to prevent damage from corrosive materials and electronically connected to each other. The handle casing design can be easily altered to meet the needs of the consumer. The LED light strip and the battery can be installed in any casing design to better promote the branding. The remote control controls the effects of the plurality of LED lights. An induction charging method is used to charge the illuminated tap handle to prevent any kind of damages that may happen during the charging process. The illuminated tap handle is easily connected to the existing beer towers with a simple screwing mechanism. | 2013-07-11 |
20130176710 | LIGHT EMITTING COMPONENT BOARD GROUP, LIGHT EMITTING DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - A light emitting component board group includes first and second light emitting component boards that are rectangular in shape. The first light emitting component board has first short and long sides, and includes a first input connector provided on one of the first short sides, a first light emitting component group, a first output connector provided on another one of the first short sides. The second light emitting component board has second short and long sides, is arranged in adjacent to the first light emitting component board, and includes a second output connector provided close to one of the second short sided that is close to the one of the first short sides, a second light emitting component group, a second input connector provided close to another one of the short sides that is close to the other one of the first short sides. | 2013-07-11 |
20130176711 | Baton Light - A lightweight plastic baton includes a hollow cylindrical body which telescopically supports a flexible cylindrical plastic baton shaft. One or more slideways support and concentrically center the baton shaft within the hollow body. A flashlight having a strobed light operating mode is coupled to the baton body to provide a less than lethal deterrent to a potential assailant. A radially movable elastic switch cover is mounted substantially flush with the outer surface of the flashlight to prevent inadvertent actuation of one of several selectable flashlight operating modes. | 2013-07-11 |