US09655837B2
The present invention is an oil-continuous liquid crystalline phase formulation composed of a cationic and anionic surfactant in combination with a fragrance oil as well as a consumer product base containing the same.
US09655830B2
To provide a transparent to translucent cosmetic composition which is highly stable, and can impart excellent actual feelings of effectiveness in use, such as a feeling of skin penetration, a feeling of non-stickiness, and a skin-softening effect after application thereof to the skin. A transparent to translucent cosmetic composition comprising: (a) a hydrogenated phospholipid, (b) one or more selected from among branched higher fatty acids and higher alcohols, and (c) a polyalcohol that acts as a good solvent and/or a poor solvent for component (a). Preferably, component (b) is isostearic acid and/or isostearyl alcohol. Preferably, the ratio of component (a)/component (b) is from 1/0.01 to 1/0.4 (by mass).
US09655828B2
The invention relates to the use of specific glucuronolactone derivatives as self-tanning substances, as tanning enhancers for dihydroxyacetone or for a mixture of self-tanning substances comprising dihydroxyacetone, for modulation of the hue achieved in the case of tanning with dihydroxyacetone or by the mixture or preparation comprising dihydroxyacetone, as contrast-reduction agents or for coloring keratin-containing fibers, and to preparations or compositions for coloring keratin-containing fibers comprising these specific glucuronolactone derivatives.
US09655819B2
The present invention is directed to an oral composition containing a gel network phase comprising: (i) one or more fatty amphiphiles, (ii) one or more surfactants, and (iii) one or more solvents; and an oral carrier phase. In certain embodiments, the gel network is used to structure the oral composition. The present invention is also directed to a method of forming an oral composition containing a gel network.
US09655794B2
An adjustable wheelchair is disclosed which adjusts to changes in a user's size and weight which includes a scissor-type foldable mechanism which connects two side frames. Wheels for the wheelchair are attached to each of the side frames. An adjustable seat and adjustable back support are a flexible material which span from one side frame to the other. These are designed to unroll and lengthen or roll up and shorten the width of the seat and the back support between the side frames. The scissor-type foldable mechanism includes a tube which slides within a tube, a threaded rod and a threaded stop which function to allow pre-adjustment of the width of the foldable mechanism such that it may be folded and opened to the pre-adjusted width. The frames may be supplemented with reinforcements to accommodate a change in the user's weight.
US09655786B2
An ultrasonic sealing system in a machine for making composite webs in the production of absorbent sanitary articles includes a contact roller having an axis of rotation and including a central portion and a peripheral portion which is supported by the central portion and includes an outer surface forming the outer surface of the contact roller itself. The contact roller includes a sealing pattern on the outer surface of the peripheral portion and also includes springs acting between the central portion and the peripheral portion, which is supported by the peripheral portion by means of the springs.
US09655784B2
A cold climate welding mask is provided for combatting interior fogging, condensation, and frost development within the welding mask interior. The device comprises a welding mask structure, a forced air means, a heating means, and a power supply for injecting a heated air stream through the mask interior to remove the user's breath therefrom and to warm the mask interior for comfort purposes. Also provided is a welding mask lens having internal heating elements therein for direct fog prevention. The device may comprises an attachable, auxiliary unit that is attachable to a traditional welding mask, or preferably the device comprises a defined welding mask structure having the elements embedded therein for cold climate and cold environmental welding use. Ideally the device is provided for use by welding operators working in extremely cold or outdoor climates where a user's breath can create internal fogging, condensation, and frost within the mask interior.
US09655780B2
Drainage of body fluid from an area of undesirably high pressure can be accomplished by interconnecting an artificial non-blood fluid conduit with the vascular system. For example, an artificial non-blood fluid conduit can be inserted into the eye to fluidly interconnect the anterior chamber with a location of lower pressure. The conduit can have a growth factor for stimulating growth of new blood vessels in the location of lower pressure to connect the new blood vessels with the non-blood fluid conduit.
US09655776B2
Methods, systems, and software for controlling infusion pressure, such as during a medical procedure, using systemic blood pressure are described. Systemic blood pressure, such as brachial arm blood pressure or radial artery blood pressure, may be used to estimate central retinal artery blood pressure to estimate critical closing pressure. Further, the disclosure relates to controlling infusion pressure to prevent an increase in intraocular pressure above the estimated critical closing pressure when such is not desired, and, when such is desired, using systemic blood pressure and infusion pressure to control an intentional increase in intraocular pressure above the estimated critical closing pressure to stop intraocular bleeding.
US09655771B1
A wrapper has an inner edge and an outer edge separated by a length. The wrapper has a first side edge and a second side edge separated by a width. The wrapper has an interior sheet and an exterior sheet. The interior sheet and the exterior sheet are fabricated from yarn with stretchable and elastic characteristics. Hook and loop fasteners couple the interior sheet adjacent to the outer edge to the exterior sheet. A plurality of pockets are formed between the interior sheet and the exterior sheet by rows of stitching between the first side edge and the second side edge. A quantity of temperature retentive material is within the pockets. Optional components include an electrical wire to facilitate heating and a container to facilitate heating and/or cooling.
US09655757B2
Generally described herein are apparatus, systems and methods related to a novel esophageal device implantable in the patient's body and designed to replicate the restrictive and satiety mechanism associated with gastric banding systems known in the art. The device can be a compliant and tubular-shaped and fixated within the gastro-esophageal lumen using tissue anchors.
US09655750B2
An attachment mechanism, method of manufacture and method of use are described for releasably attaching a first component and a second component of an orthopaedic apparatus. The attachment mechanism comprises a boss extending from a surface of the first component, and having a free end and a side wall. A retaining mechanism is provided in the second component. The retaining mechanism comprises a plurality of walls defining an aperture in the second component to receive the boss therein. At least part of one of the plurality of walls is a resiliency flexible member engineered to apply sufficient force to a part of the side wall of the boss when inserted in the aperture to provide an interference fit between the boss and the plurality of walls of the aperture to releasably retain the boss within the aperture.
US09655747B2
The present invention provides an expandable fusion device capable of being installed inside an intervertebral disc space to maintain normal disc spacing and restore spinal stability, thereby facilitating an intervertebral fusion. In one embodiment, the fusion device includes a body portion, a first endplate, and a second endplate, the first and second endplates capable of being moved in a direction away from the body portion into an expanded configuration or capable of being moved towards the body portion into an unexpanded configuration. The fusion device is capable of being deployed and installed in both configurations.
US09655745B2
A method of producing an interbody spinal implant. The method includes the steps of obtaining a blank having a top surface, bottom surface, opposing lateral sides, and opposing anterior and posterior portions, and applying a subtractive process (e.g., masked acid etching) to the top surface, the bottom surface, or both surfaces of the blank to form a roughened surface topography. Subsequently, the blank is machined to form the interbody spinal implant, which includes a body having a top surface, a bottom surface, opposing lateral sides, opposing anterior and posterior portions, a substantially hollow center, and a single vertical aperture where the top surface, the bottom surface, or both surfaces of the interbody spinal implant have the roughened surface topography produced by the subtractive process. This simplified method produces more accurate and repeatable implants with fewer process steps and defects, reducing process time and costs.
US09655744B1
A system and methods for promoting fusion across an intervertebral disc space, the system including an expandable system of spinal fusion implants wherein the system of implants is inserted into an intervertebral disc space in a smaller profile, collapsed insertion state, and then expanded anteriorly to an expanded state.
US09655735B2
A spinal implant for insertion between adjacent vertebrae to function as a disc prosthesis. The prosthesis is formed from two plates fastened to adjacent vertebrae facing each other. The facing sides of the plates have a donut shaped cushioning coupler to replicate the displaced disc material. Stabilizing links are positioned along the edge of the plates to prevent over compression of the shaped cushioning coupler in a bending moment. Adjustable mounting brackets are used to secure the implant to the spine.
US09655733B2
A system for modifying a talocalcaneal spatial relationship in a foot in a body, including a subtalar spacer having an articulating surface and implanted in the sinus tarsi of the foot and a fastener that fastens the subtalar spacer to a bone surface in the foot, in which the articulating surface of the subtalar spacer directs relative movement between the calcaneus and the talus of the foot.
US09655726B2
A radial-capitellar implant for surgical replacement of the capitellum of the humerus and, optionally, the head of the radius. The radial-capitellar implant includes a capitellar implant or surface replacement arthroplasty of the capitellum and a radial prosthesis for replacement of the head of the radius. In one embodiment the radial prosthesis includes an articular head which moveable articulates with a stem implantable in the radius.
US09655721B2
The invention relates to an implantable device for use in the human and/or animal body to replace an organ valve, comprising a main body having a first end and a second end, wherein the first end and the second each have an opening to provide a fluid connection through the main body between the first end and the second end; a first membrane element arranged inside or at one end of the main body, wherein the membrane element is formed in such a manner that it allows the fluid connection through the main body in a first flow direction and blocks the same in a second flow direction opposite the first flow direction; wherein the main body has a large ratio of length to transverse expansion along the longitudinal axis of the main body in a first operating state (primary form) and a smaller ratio of length to transverse expansion along the longitudinal axis of the main body in a second operating state (secondary form); and wherein the main body can be reversibly transferred from the secondary form to the primary form counter to elastic material forces by the application of a force; and wherein the main body is formed from a single wire-like element or from a plurality of wire-like elements connected to each other by means interlocking winding and/or twisting and/or weaving in the manner of a woven and/or layered fabric and/or net.
US09655719B2
A prosthetic heart valve includes an annular frame having annularly spaced commissure portions and an annulus portion disposed near an inflow edge, a fabric covering at least a portion of the frame and a valve assembly connected to the frame at the commissure portions, the valve assembly including a plurality of leaflets. A stiffening member is disposed about the frame to limit ovalization of the frame when a radial force is applied to the frame.
US09655707B2
The present disclosure is directed to methods, compositions, devices and kits which pertain to the attachment of surgical slings to tissue by application of an energy source to the slings and tissue in the presence of a bonding material.
US09655706B2
Disclosed are reinforced meshes for retropubic implants for treatment of urinary incontinence and/or pelvic floor disorders and related uses, devices, and methods. In certain embodiments, implants have various resilient strengthening members added to a retropubic support mesh.
US09655704B2
New bite-activated dental hygiene devices are provided. In one aspect, a high-speed tooth-cleaning device is provided, which is configured to be bitten down on by a user and which, when properly positioned, scrubs and flosses all of the user's teeth at once, without user-driven brushing. In other aspects of the invention, a device comprises bite-actuated tooth- and gum-brushing channels and other features facilitating the variable bite-actuated release and application of a dentifrice and scrubbing.
US09655698B2
A blank material to be cut for dentistry includes: Co as a main component; Cr at a ratio equal to or higher than 26 mass % and equal to or less than 35 mass %; Mo at a ratio equal to or higher than 5 mass % and equal to or less than 12 mass %; Si at a ratio equal to or higher than 0.3 mass % and equal to or less than 2.0 mass %; and N at a ratio equal to or higher than 0.09 mass % and equal to or less than 0.5 mass %. The blank material is formed of a sintered body of a metal powder.
US09655678B2
Methods for treating urinary (kidney) stones in patients using a small outer diameter ureteroscope may help overcome problems associated with conventional methods for removing kidney stones and may minimize patient discomfort, avoid hospitalization and reduce costs associated with more conventional surgical treatments of kidney stones. The methods can be carried out in an outpatient environment such as a urologists' office without requiring general anesthesia.
US09655670B2
The electrosurgical systems and methods of the present disclosure include a tissue resistance measurement system that compensates for capacitive parasitics in a cable connecting an electrosurgical generator to and electrosurgical cable to estimate the real resistance of a tissue load. The electrosurgical generator includes an output stage coupled to an electrical energy source and generates electrosurgical energy. The electrosurgical generator includes a plurality of sensors sensing a voltage and current of the electrosurgical energy and a controller controlling the output stage. The controller includes a calculator that calculates a real part of an impedance based on the sensed voltage and current, an estimator that estimates a resistance of the tissue using a solution to a quadratic equation that is a function of the real part of the impedance, and a control signal generator configured to generate a control signal for the output stage based on the resistance of the tissue.
US09655667B2
Described herein are methods and devices for performing ablation via a cryoablation catheter. An ablation catheter having a cyroablation chamber at its distal end can be used to achieve a uniform ablation band in or around the pulmonary veins. The cyrochamber can house a dispersion member in fluid communication with a refrigerant supply and can function to evenly distribute received refrigerant over some portion of the inner wall of the cryochamber. As a result of this even distribution of refrigerant within the cyrochamber, uniform ablation of the targeted tissue of the patient can be achieved.
US09655665B2
Bone plate systems for surgical implants and bone repair are provided. The bone plate is multi-tiered for receiving bone anchors for securing a plurality of bones or bone fragments in a desired relationship. The plate members include throughbores for receiving a pivot base therein, with head ends of the bone anchors being secured within the pivot bases. The throughbores may permit and define a translation path for the pivot base and the bone anchor secured therein relative to the plate. The configuration of the pivot base and the throughbore facilitate pivoting and optional translation of the pivot base relative to the plate. With the bone anchor seated within the pivot base, an apparatus for inhibiting bone anchor back out is employed.
US09655648B2
Various embodiments are directed to base components that are usable with implantable mechanical energy absorbing systems. According to one embodiment, the base component includes a low-profile body having a elongate, straight portion at a first end and a curved body portion at a second end. The second end is elevated as compared to the first end. An inner surface of the low-profile body has a raised portion extending along the elongate, straight portion of the low-profile body. The base component also includes a plurality of openings positioned along the low-profile body for alignment and purposes of affixation to body anatomy.
US09655644B2
A laparoscopic bag, wherein the laparoscopic bag comprises one opening which is in a top portion, and a body portion, wherein the laparoscopic bag comprises an inner layer which is waterproof, a middle layer which is resistant to morcellation, and an outer layer which is waterproof.
US09655641B2
A method of treating tissue includes ultrasonically treating tissue by oscillating a blade of an ultrasonic surgical instrument in contact with tissue and activating a fluid control system to pump cooling fluid through a blade conduit of the blade to cool the blade.
US09655634B2
An endoscopic stone-extraction device is provided comprising a support filament comprising an end portion, a sheath comprising a lumen, wherein the support filament is disposed in the lumen such that the sheath is slideable with respect to the support filament, and a handle comprising an actuator. Movement of the actuator in a first direction retracts the sheath and causes a shape to expand outside the lumen. Movement of the actuator in a second direction advances the sheath and causes the shape to at least partially collapse inside the lumen. Other embodiments are provided, and any of these embodiments can be used alone or in combination.
US09655630B2
Methods and devices are provided for forming holes in bone to stimulate bone growth. In one exemplary embodiment, a surgical instrument set can include a driver having a first mating element, and a bone pick have a second mating element configured to releasably mate with the first mating element at any of a plurality of angular orientations. When releasably mated together, the driver and the bone pick can be configured to be adjustably positioned relative to one another with three degrees of freedom, e.g., pitch, yaw, and roll. The bone pick can include a piercing tip configured to form a hole in a bone, such as in microfracture. When the driver and the bone pick are releasably mated together, the driver can be configured to be struck, impacted, or otherwise manipulated to drive the piercing tip into the bone.
US09655629B2
Provided is a cutting instrument including: an elongated member including a tubular portion 105 and a shaft-like portion 101 inserted in the tubular portion 105; a blade 201 including two edges, the blade 201 being provided at an end of the elongated member and being pivotable between a housed position and a projected position; and a motion mechanism that converts a relative movement of the tubular portion 105 and the shaft-like portion 101 resulting from an operation of an operation portion 102 to 104 into pivoting of the blade between the housed position and the projected position, wherein the cutting instrument moves toward the operation portion while rotating in its entirety with the two edges of the blade 201 projected on opposite sides of the tubular portion 105, thereby drilling a hole with a diameter larger than an outer diameter of the tubular portion 105.
US09655628B2
The invention relates to a surgical navigation device, for the purpose of adjusting a cutting plane to a desired position with respect to a bone of a patient, the device comprising:a fixed part (7) rigidly attached to the bone (18, 19), the fixed part comprising fixation means to rigidly attach a tracker thereto;a mobile part (5) adjustable with respect to the fixed part (7), including fixation means to rigidly attach a tracker thereto, and including a cutting slot (6) in which a saw blade can be inserted to perform cut;a fixed tracker (9) rigidly attached to the fixed part (7);a mobile tracker (1) attached to the mobile part (5).The invention also concerns a method for adjusting a cutting plane of a surgical device to a desired position with respect to a bone of a patient.
US09655626B2
A sled for use with an anvil assembly delivery system is provided which includes a body defining a concavity dimensioned to receive an anvil head of an anvil assembly and a recess dimensioned to receive a center rod of the anvil assembly. The body has a smooth outer profile to facilitate atraumatic trans-oral insertion of the anvil assembly to a surgical site. The body further defines a first suture channel on each side of the recess to facilitate securement of the body to the anvil assembly.
US09655615B2
A surgical stapling device designed and constructed for cutting and stapling tissues in a surgical procedure. The surgical stapling device includes an actuated wedge to deploy staples. The actuated wedge is put into an active state by a first wedge actuation element. In the active state, the actuated wedge is ready to engage and deploy staples in a staple holder. The actuated wedge is put into a neutral state by a second wedge actuation element. In the neutral state, the actuated wedge disengages with the staples and does not deploy the staples. The surgical stapling device includes an I-beam that acts to maintain a clamp gap between the anvil and staple holder of the surgical stapling device to ensure proper stapling of tissue.
US09655608B2
Retractor systems and methods for retracting body tissue during surgery. The retractor system includes a rail having two opposed widened rail portions separated by a narrowed portion, each widened portion engageable by a separate clamp. The clamps are configured to support the rail to a fixed surface, or to support a surgical device. Each clamp may independently be positioned or slid along the rail to a desired location without interference with a clamp on an opposing widened rail portion. A device clamp is formed of spherical mating portions which enable alignment of a surgical device along six degrees of freedom, and tightenable by securing a single fastener. A retractor blade mount enables an angular and tilting disposition of a retractor blade, as well as remote manipulation of the retractor blade.
US09655601B2
A surgical tool having an elongate shaft, with a directional operative element at its distal end, is provided with a mechanism to rotate the shaft and the operative element about a longitudinal axis shaft. This allows the operative element to be aligned with an element of tissue without excessive hand movement by the user. In a preferred version, the mechanism is electrically powered and is regulated to produce smooth, controlled, accurate motion between selected rotational positions. The mechanism may include a linear magnetic motor drive to move a drive element longitudinally along the tool. This drive element is engaged with a helical formation on a drive shaft, such that longitudinal motion of the drive element is converted to rotational motion of the drive shaft, and of the shaft and operative element, to which the shaft is mounted.
US09655594B2
Methods and compositions for gelatin based tissue mimicking opto-acoustic phantom that accurately replicates opto-acoustic properties of biological tissue and permits matching of each optical and each acoustic property of specific tissues independently so that by changing one property the other property is not altered. Such phantoms can match tissue properties in the specific range of system parameters required for evaluation of hardware and software performance, calibration, validation or personnel training of optical, optoacoustic, ultrasonic or combined system used for imaging, sensing or monitoring of tissue morphology and molecular composition.
US09655593B2
A medical diagnostic apparatus includes: a feature calculating unit configured to calculate a plurality of kinds of features that is based on luminance information or frequency spectrum information obtained from a received signal from a specimen, and that relates to attributes of a tissue of the specimen; a classification unit configured to: classify the attributes of the tissue of the specimen by using a feature determined among the plurality of kinds of features calculated by the feature calculating unit according to a classification item selected in advance from a plurality of classification items assigned for each classification purpose; and assign visual information according to a classification result to pixels of an image based on the received signal; and a feature image data generating unit configured to generate feature image data on which the visual information assigned to the pixels of the image based on the received signal is superimposed.
US09655591B2
A side-fire ultrasonic probe includes an alignment feature that, when used to connect the probe with a needle guide for intra-cavity medical procedures, enables alignment of a needle in an imaging plane of an ultrasonic transducer. The alignment feature is configured such that alignment of the needle within the imaging plane is accomplished when a protective sheath is disposed between the alignment feature and the needle guide. This configuration can be used with high frequency ultrasonic arrays having frequency distributions centered at about 20 MHz, and for medical procedures, such as biopsying organs or other bodily intra-cavity structures, and delivering intra-cavity therapies.
US09655589B2
Viscoelastic characteristics in a subject are imaged by a simple method.A viscoelasticity measurement reference layer whose elastic modulus and viscosity coefficient are known is included between an ultrasonic wave transmitting/receiving probe and the subject and distributions of elastic modulus and viscosity coefficient inside the subject are calculated from a change over time of strain generated in the viscoelasticity measurement reference layer and the subject according to a pressure applied to the subject which changes over time and known elastic modulus and viscosity coefficient of the viscoelasticity measurement reference layer.
US09655579B2
A morphology image representing the morphology of a specific organ including a tubular structure in the inside thereof and a function image representing a function level at each position in the organ are obtained. A structure region representing a structure dominating the organ is extracted from the morphology image. A specific partial region in the extracted structure region and a dominated region in the organ are determined, and the dominated region being dominated by a structure in the partial region. In that case, at least one of the partial region determination step and the dominated region determination step is performed by using the function image.
US09655574B2
Methods and systems for controlling movement of detectors having multiple detector heads are provided. One system includes a gantry, a patient support structure supporting a patient table thereon, and a plurality of detector units. At least some of the detector units are rotatable to position the detector units at different angles relative to the patient table. The imaging system further includes a detector position controller configured to control the position of the rotatable detector units, wherein at least some of the rotatable detector units positioned adjacent to each other have an angle of rotation to allow movement of the rotatable detector units a distance greater than a gap between adjacent rotatable detector units. The detector position controller is configured to calculate at least one of field of view avoidance information or collision avoidance information to determine an amount of movement for one or more of the rotatable detector units.
US09655572B2
A drive mechanism for a mobile imaging system comprises a main drive geared into a drive wheel for propelling the imaging system, including a base and one or more imaging components, across a surface. The drive mechanism can also include a scan drive that moves the drive mechanism and the one or more imaging components along an axis relative to the base to provide an imaging scan, and a suspension drive that extends the drive wheel relative to a bottom surface when the imaging system is in a transport mode and retracts the drive wheel relative to the bottom surface of the base when the imaging system is in an imaging mode. The drive wheel supports the weight of the imaging components, but does not directly support the base assembly, which can include pedestal and tabletop support. One or more casters located on the base can support the weight of the base assembly.
US09655571B2
An X-ray shield for a horizontal X-ray procedure table, the X-ray shield comprising a horizontal support bar comprising at least one substantially vertically aligned slot, in combination with an X-ray opaque top shield comprising at least one downwardly projecting pin, the at least one pin being arranged so as to be disposable within the at least one slot from above in order to engage the top shield with the horizontal support bar, the X-ray shield further comprising a latch engagable to prevent the separation of the top shield from the support bar when the top shield is engaged with the support bar, and wherein the latch can be unengaged to permit the removal of the top shield from the support bar by withdrawing the as least one pin from the at least one slot.
US09655570B2
A radiological image processing apparatus of this invention includes a separating device, an adjusting device and a removing device. Since a corrected image is generated using the radiological image taken through an object under examination, each image can be acquired by one radiographic operation without acquiring data for grid correction beforehand. The radiological image taken through the object is separated into a grid image and a non-grid image, and a corrected image is generated by adjusting intensity of the grid image on real space based on the non-grid image. Thus a high-precision correcting process is realized by one radiographic operation.
US09655568B2
A method for recording a scan from a series of 2D X-ray projections using a C-arm X-ray apparatus allows an analytical volume reconstruction of a disk-shaped region of interest. The C-arm X-ray apparatus has a coherent, flat focus trajectory comprising three sections on which the focus of the X-ray source is moved with recording of X-ray projection views. The X-ray source emits a cone beam in the direction of an imaging X-ray detector, such as in particular a flat panel detector FPD. In some implementations, the cone beam is configured as a fan beam with a fan angle in the plane of the focus trajectory, which contains the ROI with the virtual scan center in its center, wherein the central ray of the fan beam is located on the bisector of the fan angle, and stands vertically on the ray inlet window. Before the beginning of the scan, the C-arm is positioned in the orbital movement axis in a first extreme position in which the holder engages at one end of the C-arm with the X-ray source, and the adjustable holder of the C-arm is positioned in such a manner that the ROI is located outside of the circle segment formed by the C-arm and the central ray, and a first limiting beam of the fan beam, which starts from the focus point and which is located on the side of the central ray facing away from the C-arm, is tangential to the ROI. During the recording of the scan, the plane of the C-arm remains fixed in space.
US09655565B2
Systems and methods for providing sensitive and specific alarms indicative of glycemic condition are provided herein. In an embodiment, a method of processing sensor data by a continuous analyte sensor includes: evaluating sensor data using a first function to determine whether a real time glucose value meets a first threshold; evaluating sensor data using a second function to determine whether a predicted glucose value meets a second threshold; activating a hypoglycemic indicator if either the first threshold is met or if the second threshold is predicted to be met; and providing an output based on the activated hypoglycemic indicator.
US09655563B2
For therapy response assessment, texture features are input for machine learning a classifier and for using a machine learnt classifier. Rather than or in addition to using formula-based texture features, data driven texture features are derived from training images. Such data driven texture features are independent analysis features, such as features from independent subspace analysis. The texture features may be used to predict the outcome of therapy based on a few number of or even one scan of the patient.
US09655562B2
A system and method for providing medical imaging data includes generating T2* maps based on T2* data, registering the T2* maps with 3-D anatomical data reconstructed from the medical imaging data, and segmenting the 3-D anatomical data in a region of interest (ROI). The method also includes generating a 3-D anatomic volume of at least the ROI, flattening the 3-D anatomic volume into a 2-D flattened image, and displaying the registered T2* maps on the 2-D flattened image.
US09655560B2
A system, device and method are presented for utilizing stretchable active integrated circuits with inflatable bodies. The invention allows for such operative features to come into direct contact with body structures, such as the inner wall of a lumen. Such direct contact increases accuracy of measurement and delivery of therapy.
US09655556B2
An allergy testing kit contains a plurality of allergy testing applicators, an allergy testing tray and a plurality of allergen bottles each containing an allergen. Each of the applicators contains an elongated handle, a plurality of arms extending from the elongated handle and disposed in an asymmetrical configuration, and a plurality of legs with tines extending from each of the arms. The allergy testing tray contains a main body having an underside and a top surface, a cover for locking with the main body and a plurality of reservoirs extending from the underside of the main body. The reservoirs each have a chamber with an opening extending from the top surface. The reservoirs are disposed in different groups and each group has an asymmetrical configuration matching that of the applicator.
US09655554B2
The present invention relates to a device and method for monitoring movement and orientation of the device, comprising an imaging unit (10) for obtaining images over time, a holding means (12, 13) for holding said imaging unit to obtain images from the surroundings of the device, and a processing unit (14) for detecting movement and orientation of the device by detecting changes in subsequently obtained images.
US09655552B2
Among others, the present invention provides devices each including a micro-filter, a shutter, a cell counter, a selector, a micro-surgical kit, a timer, and a data processing circuitry, wherein the micro-filter is capable of detecting or filtering circulating tumor cells.
US09655551B2
A device for performing at least one medical function on a user is proposed. The device has at least one medical functional element that is designed to perform the medical function. The medical function is selected from a diagnostic, a therapeutic and a surgical function. The device has at least one evaluation and control part that comprises at least one actuation component for controlling the medical function. The evaluation and control part has at least one casing and at least one battery receptacle. The battery receptacle comprises at least one electrical energy reservoir, more particularly at least one battery. The battery receptacle is designed to be opened irreversibly by the user for removing the energy reservoir.
US09655550B2
The present invention provides a latent fingerprint detection method that is easy to handle and is capable of clearly detecting a latent fingerprint and a heating evaporation device for detecting a latent fingerprint and a latent fingerprint detection apparatus which are capable of detecting a clear latent fingerprint by a one-time operation by heating a chemical agent at high temperatures in a short time, as well as a composition for detecting a latent fingerprint. This latent fingerprint detection method includes a heating step of heating a chemical agent to be gasified by heating so as to attach to a latent fingerprint on a specimen, and an exposure step of exposing the specimen having the latent fingerprint attached thereto to the atmosphere of the gasified chemical agent. The chemical agent is a mixture of a 2-cyanoacrylic acid ester polymer and a dye.
US09655547B1
This invention relates to apparatus and systems for providing home and building security and condition monitoring. More particularly, the invention relates to a plurality of devices, including intelligent, multi-sensing, network-connected devices, that communicate dynamically with each other and a remote server.
US09655544B2
A breathing apparatus (1) is disclosed that is adapted to determine a transpulmonary pressure in a patient (125) when connected to said breathing apparatus. A control unit (105) is operable to set a first mode of operation for ventilating said patient with a first Positive End Expiratory Pressure (PEEP) level; set a second mode of operation for ventilating said patient with a second PEEP level starting from said first PEEP level; and determine said transpulmonary pressure (Ptp) based on a change in end-expiratory lung volume (ΔEELV) and a difference between said first PEEP level and said second PEEP level (ΔPEEP). Furthermore, a method and computer program are disclosed.
US09655543B2
A respiratory waveform analyzer, operable to analyze a respiratory waveform, which is generated based on a temporal change of a concentration of a component in respiratory gas of a subject, includes: a respiratory gas concentration generator which generates a concentration signal based on an output signal from a sensor that is placed to measure the concentration of the component; a flatness calculator which calculates a flatness indicative of flat degree of the respiratory waveform based on a temporal change of the concentration signal; and a reliability calculator which calculates a reliability of the respiratory waveform based on the flatness and the concentration signal.
US09655541B2
A biosignal measurement apparatus according to the present technology includes a voltage supply, a measurement electrode, a resistor, a first amplifier, and a neutral electrode. The measurement electrode is connected to the voltage supply and brought into contact with a living body. The resistor is connected between the voltage supply and the measurement electrode. The first amplifier amplifies a potential between the resistor and the measurement electrode. The neutral electrode is brought into contact with the living body. The object of the invention is to provide a biosignal measurement apparatus capable of measuring a contact resistance with high accuracy.
US09655534B2
A medical lead screening connector includes a housing, a plurality of electrical contacts disposed within the housing, where each lead receptor channel includes at least two lead receptor contacts, and a cover hingedly attached to the housing. The cover includes a protrusion that is arranged and configured to register with one of the lead receptor channels and contacts a lead body received in the lead receptor channel when the cover is in a closed position.
US09655526B2
An intensity-based, micro-bending optical fiber sensor is disclosed herein, which is configured to acquire clean, stable, and reliable vital sign signals. Related systems and methods for vital sign monitoring are also provided herein. The sensor of various embodiments includes a multi-mode optical fiber, an LED light source, an LED driver, a receiver, and a single layer deformer structure. In various embodiments, the optical fiber and single layer deformer structure of the sensor are selected to meet specific parameters necessary to achieve a level of reliability and sensitivity needed to successfully monitor vital signs. In some embodiments, a specific sizing relationship exists between the optical fiber and the single layer deformer structure. In sonic embodiments, the sensor is configured to acquire ballistocardiograph waveforms.
US09655522B2
The present invention teaches systems and methods for a simple cardiac MRI approach that (1) continuously acquires data; (2) covers the entire heart with high isotropic resolution within a few minutes; and (3) requires no physiological gating and minimal user intervention. Applications of the inventive systems and methods include, but are in no way limited to cardiac cine, myocardial perfusion, coronary MRA, delayed enhancement imaging, myocardial T1-weighted imaging for fibrosis imaging, and myocardial T2-weighted imaging for edema imaging.
US09655520B2
Assessing decongestive therapy delivered to a heart failure patient involves use of an implantable sensor configured to sense a physiologic parameter indicative of the patient's diuresis status and a processor coupled to the implantable sensor. The sensor may comprise a thoracic fluid sensor, a heart sounds sensor, a cardiac chamber or arterial pressure sensor, a respiration sensor, or a blood chemistry sensor, for example. The processor is configured to determine if a target level of patient diuresis has been achieved based on a relationship between the sensed physiologic parameter and a threshold developed for the patient, and to produce an output in response to determining that the target level of patient diuresis has been achieved. The processor may be disposed in an implantable housing, in a patient-external housing, or in a network server system.
US09655518B2
A machine-implemented method including obtaining physiological signal data for a living being and performing a first analysis of the physiological signal data at a processing device local to the living being and remote from a central processing device. The method further includes transmitting from the processing device data associated with the analysis to the central processing device and performing at the central processing device a second analysis of the data associated with the first analysis. The method further includes displaying the data associated with the second analysis. The method can also include interaction between the processing device local to the living being and the central processing device. The method can also include distributing monitoring and analysis between an ambulatory and a centralized subsystem.
US09655517B2
A portable digital imaging device, which utilizes the advanced features of wireless data transmission and high computing power of mobile computing devices in junction with the use miniature cameras and solid state lighting technology, is proposed as the next generation of medical imaging devices, in particular in ophthalmic imaging applications.
US09655513B2
Embodiments of the present invention encompass systems and methods for generating a vision treatment target for an eye of a patient. Exemplary techniques can involve obtaining a wavefront measurement for the eye of the patient, processing the wavefront measurement, using a low pass filter, to obtain an ocular wavefront, and generating the vision treatment target based on the ocular wavefront. In some cases, the wavefront is processed by applying a Fourier transform to the wavefront measurement to obtain a Fourier spectrum of the wavefront, convolving, in the Fourier domain, the Fourier spectrum of the wavefront and the low pass filter to obtain a Fourier spectrum convolution result, and applying an inverse transform to the convolution result to obtain the ocular wavefront. The ocular wavefront can represent a low pass filtered version of the wavefront measurement, such that high spatial frequency features present in the wavefront measurement are not present in the ocular wavefront.
US09655511B2
An apparatus and method to improve the prescribing of customized ophthalmic corrections which contain higher order aberration. The apparatus enables the subjective measurement of higher order aberrations such as spherical aberration which can be used as part of the prescription for customized ophthalmic corrections.
US09655508B2
The present invention generally refers to corneal topography systems. More specifically, it regards a Placido disc projector (or simply Placido disc) for a corneal topography system, having a novel arrangement of LED lighting.
US09655502B2
There is provided herein, an endoscope comprising an elongated shaft terminating with a tip section wherein said tip section comprises a permanent section connected to the elongated shaft and a removable section securely connectable to the permanent section, wherein the removable section comprises at least one capture device and at least one light source.
US09655499B2
A miniaturized scanning system to generate movement of a flexible device positioned at a distal part of a medical tool. The miniaturized scanning system includes an inner shaft with a longitudinal axis, adapted to guide said flexible device along the longitudinal axis, an abutment comprising an external surface and adapted to maintain said device, and a pusher mechanism adapted to engage with said abutment. The miniaturized scanning system includes at least one end portion adapted to contact said external surface of the abutment at a contact point, wherein said end portion is configured to translate along said longitudinal axis of the inner shaft and wherein the translation of said end portion results in a bending of the device in a bending plane defined by the longitudinal axis of the inner shaft and said contact point.
US09655493B2
A dishwasher, including a chamber for washing dishes and a chamber for storing dishes is provided. A mechanism is also provided allowing the dish racks to move the dishes from the washing chamber to the storage chamber of the dishwasher once the wash is completed.
US09655489B2
Provided is a vacuum cleaner. The vacuum cleaner includes a cleaner body including a suction motor for generating a suction force, a suction part communicating with the cleaner body to suction air and dusts, a battery disposed in the cleaner body or suction part to supply a power to the suction motor, and a cleaner connector disposed on the cleaner body or the suction part, a charger including a charger connector separably connected to the cleaner connector to charge the battery, and a disconnection member disposed on the cleaner body or the suction part to selectively connect or disconnect the cleaner connector to or from the battery.
US09655487B2
A nozzle for a vacuum cleaner, including a suction part having a suction port and a main brush; and at least one movable member movably installed in the suction port and having a subsidiary brush. The at least one movable member may include a first and a second movable member provided at either side of the suction part, allowing a suction area of the nozzle to be selectively expanded.
US09655479B2
Exemplary embodiments of dispensing systems for dispensing mixtures of multiple liquids, refill units and pumps for such refill units and dispensers are disclosed herein. One refill unit includes a first container and a second container. The refill unit includes a first pump chamber that is associated with the first container and a second pump chamber that is associated with the second container. The first and second pump chambers include a liquid inlet valve and a liquid outlet valve. Expanding the first and second pump chambers draws liquid into the first and second pump chambers through the liquid inlet valves and compressing the first and second pump chambers forces liquid through the liquid outlet valves into a mixing chamber located downstream of the liquid outlet valves. The mixing chamber is formed at least in part by a flexible membrane. The refill unit also includes an outlet nozzle for dispensing the mixture.
US09655468B2
An apparatus for rapidly cooking food includes a housing having a reservoir, a heating element, a binary distributor, and a container. In a method of using the apparatus for rapidly cooking food, food is placed into the container and water is poured into the reservoir. The heating element heats the water in the reservoir, and the resulting steam travels into the binary distributor. Pressurized steam then exits the binary distributor to uniformally cook the top of the food. Condensed steam gathers at the bottom of the container and is kept at a temperature capable of cooking the food. In such a way, food in the container is rapidly cooked. In one embodiment, the food to be cooked is a single serving of ramen brick style noodles.
US09655464B2
A serving tray configured to hold fresh baked pizza and hot-served food items in a prolonged hot and crispy state. The tray comprises a circular ventilated platform made of a perforated inner region surrounded by a solid rim. Stand-off dividers form a plurality of segregated breathing chambers below the ventilated platform. The stand-off dividers guide moisture vapor from the hot baked food item through the ventilated platform and toward a cool remote surface where the water vapors condense. External air drafts are obstructed by the stand-off dividers. The stand-off dividers include one annular riser divider and two internal cross-brace dividers that together form four sector-shaped breathing chambers. A flat handle extends between the two cross-brace dividers inside the annular riser divider. As slices of pizza are removed, the remaining portions of pizza on the tray stay hot and crispy as radiated heat is reflected within the still breathing chambers.
US09655463B2
An insulating beverage-can holder including: a can-receiving cup; a primary lid that is secured to the upper edge of the cup and has (a) a main portion defining a drinking hole aligned with the can opening, (b) a disk of resiliently-deformable material on the underside of the main portion to form a seal about the can opening and having an aperture aligned with the drinking hole, and (c) a circumferential rim disposed to form a seal around the edge of the cup; and a secondary lid which is hinged to the primary lid at opposite sides of the main portion and is movable between a first position exposing the drinking hole and a second position closing the drinking hole and covering an area of the primary lid.
US09655449B2
A wall construction element of a drawer is proposed, wherein the wall construction element has a frame body, having a base part which provides a cavity for receiving a drawer guide system, and having a casing element for casing the base part, wherein in a covering portion of the frame body a material layer of the casing element covers a material layer of the base part. According to the invention, a support part which upwardly projects in the fashion of a column is present on the frame body, wherein for attaching the support part in an end-side end region of the frame body a tongue-like flat portion of the support part is secured between the base part and the casing element.
US09655442B2
A set of panels includes a first panel having a first main plane and a second panel having a second main plane. The panels are provided with a mechanical locking device for locking a first edge of the first panel to a second edge of the second panel. The mechanical locking device includes an edge groove at the first edge, wherein an edge tongue of the second edge is insertable into the edge groove. A flexible tongue is arranged in an insertion groove provided in the edge section groove, and cooperates with a tongue groove provided at the edge section of the second panel. The first and the second panels are locked at a junction plane which is extending between the first main plane and the second main plane. The first edge comprises an edge tongue that extends from the junction plane.
US09655439B1
A supporting rack includes two one-piece supporting foot members each including an upright base panel and a bearing panel perpendicularly extended from the top side of the upright base panel, a clamping panel outwardly extended from the bottom side of the upright base panel of one one-piece supporting foot member for holding a mobile electronic device, a tabletop mounted on the bearing panels of the two one-piece supporting foot members in a replaceable manner and defining with the two one-piece supporting foot members an accommodation chamber for accommodating computer peripheral apparatuses, and an electronic expansion box detachably mounted at the upright base panel of one one-piece supporting foot member within the accommodation chamber for connecting multiple computer peripheral apparatuses to a computer or server.
US09655435B2
A toothbrush head with bristles comprising tapered and non-tapered bristles, in which the non-tapered bristles extend to two different lengths from the face, being a first greater length LN1 and a second shorter length LN2. In a preferred embodiment non-tapered bristles are combined with tapered bristles in tufts which are inclined in opposite directions away from and towards the grip handle.
US09655434B2
A holder for a mobile computing device, such as a tablet computer or the like, can include a handle that is positioned laterally from a device space in which the mobile computing device is held within the holder. The handle can be angled relative to the mobile computing device and can have a fixed angle or adjustable angles. The holder can include two or more portions that are connectable in two or more different positions to hold the mobile computing device in at least two orientations, such as landscape and portrait orientations, and/or to accommodate devices of different sizes. In some configurations, the holder can incorporate a peripheral device.
US09655433B2
Improvements in a sling carrier for skis, snowboard and boots to be able to carry the skies and or snowboard across the back of the wearer is disclosed. The ability to sling the equipment over the back of a user allows the user to have full mobility walk. A user can tighten the sling to adjust the location of the equipment in their back. Having the equipment supported on their back allows the user to walk in a more balanced stance and the user just needs to bend forward or backward to accommodate the load or the terrain. The carrier uses pockets for the equipment and for transportation of the carrier equipment. This also leave the hand of the user free while transporting equipment. The carrier uses Buckles that allow the user to just “squeeze” elements together to release the straps.
US09655424B2
In one form, a security handbag is provided that includes an interior security panel assembly with a matrix of wires secured between a pair of material layers. The interior security panel assembly can be positioned intermediate the bag outside wall and a lining of the bag. A strap with security cable and a carabiner attachment device can be attached to the handbag. Methods for forming such security panel assemblies are also provided.
US09655416B1
A crank handle positioning assembly structured to selectively position a mast mounted canopy of an umbrella into and between open and closed orientations. A gear housing is disposed within the interior of the mast in at least partially enclosing relation to a gear assembly and in driving relation to at least one elongated drive gear. A crank handle is disposed on an exterior of the mast and extends there-through into rotationally driving relation to the gear assembly. A rider member is interconnected in driving relation to the canopy assembly and is reciprocally movable along the length of the drive gear upon rotational, driving engagement of the crank handle with the gear assembly. Concurrent, cooperative directions of linear movement of the rider member and a rotational movement of the crank handle is determinative of the positioning of the canopy assembly in either the open or closed orientations.
US09655410B2
A device that serves both for retaining a necktie against free displacement and also for assisting buttoning of a garment comprises first and second loop elements and a flexible link element, attached at its opposite ends to the link elements. Each loop element defines a compound aperture having a larger end section, through which a button may pass, a smaller end section by which an element fastening the button may be engaged and secured by shifting of the loop element relative thereto, and a constricting neck section formed at the intersection of said larger and smaller end sections of said loop elements for maintaining the fastening element the button against unintentional release from the smaller end section of the loop element.
US09655407B2
Described are shoe uppers in which at least a portion thereof is formed of a multilayered material. The multilayered material includes at least one nonwoven fiber layer with unidirectionally oriented fibers and a matrix material, wherein the multilayered material has elastic properties that allow the multilayered material to deform when stretched over a three dimensional mold.
US09655405B2
A multilayer insole for removable placement in an article of footwear, the multilayer insole including a bottom insole layer having a top side, a top insole layer having an underside, an intermediate layer that is (a) an insole material layer, (b) a flexible circuit layer or (c) a bonding region for joining the bottom insole layer with the top insole layer, a location data receiving means for receiving an input signal relating to a location of the insole, and a location data transmitting means for transmitting an output signal relating to the location of the insole, wherein the location data receiving means and the location data transmitting means are both integrally associated with the multilayer insole. Also provided are a unitary insole, data transfer systems and methods of using them involving the different insoles and methods of manufacturing the different insoles.
US09655401B2
An elastomeric shoe is provided that comprises a curved sole, an upper portion thereof having a vamp and curved top line. The upper portion and curved sole are molded from an elastomeric material, allowing the curved top line to stretch in tension, enabling the shoe's sole to achieve a substantially planar orientation when placed upon a wearer's foot to both enhance user comfort and provide better adherence to a wearer's foot without the need for an unsightly, elasticized, gathered topline.
US09655400B2
An orthotic device has a readily adjustable variable forefoot posting system. In some embodiments, a generally planar plate is pivotally coupled to a foot-receiving shell. The plate is generally under the arch and not in contact with the supporting surface when in a neutral position. Along the plate's perimeter are raised regions that can be deployed into position as a forefoot post via pivoting the plate. In some versions, adjustability is via a sliding motion. Some areas have a greater height than others do and these raised areas or protrusions can be set at either an inner side or an outer side. Depending upon the shape of the ridges on the plate and the plate's pivoted position, a range of tilts can be variability provided. The plates can be part of an interchangeable system providing more options. Professional versions can have a greater range of settings than consumer versions. Folding versions and telescoping versions are also disclosed.
US09655399B1
An earplug connector for simultaneously providing an audio signal from a vehicle or an extra-vehicular source to a pilot while providing power to a noise reduction device while operating the vehicle. The earplug connector has a multi-pin connector for receiving audio signal and power from a pilot interface assembly connected to the vehicle. A ground, power, and audio signal connector transfers power to a noise reduction device worn by a pilot. An audio output continuously transfers audio signals from the multi-pin connector to earplugs and a multi-pin signal separator is in electrical and audio communication between the multi-pin connector and the ground, power, and audio signal connector. The audio output receives audio signals from the multi-pin connector and selectively passes the audio signals to the earplugs while transferring power to a noise reduction device while accepting a plurality of pin configurations.
US09655396B1
A wind and water hat includes a hat body, a hat brim carried by the hat body and at least one generally flexible brim wire provided in the hat brim. The hat brim ratchets with respect to the brim wire or wires responsive to force applied to the hat brim.
US09655394B2
A hand tied, bow of novel two piece construction is disclosed. A first piece is an adjustable neck strap. A second piece is a folded (by hand or button) butterfly bow. Forming the finished bow tie, a user places the neck strap around the neck of the folded bow, then ties a knot which gives the bow tie an appearance of a tie-it-yourself bow tie. The finished article is then placed around the user's neck.
US09655390B2
A wearable pedestrian safety radar system including a harness with a pocket and a portable radar speed detection and display device to be worn on the front and back of the harness by a pedestrian while on a roadway. The device includes a radar system, LED lights, a microcontroller, a proximity sensor, a camera, a strobe light, an audible alert unit and a vibration unit. The device detects a speed of an on-coming motor vehicle. If the vehicle is exceeding a predetermined speed limit, the speed is displayed on the device. If the vehicle does not slow down below the speed limit within a distance detected by the proximity sensor, the camera records the vehicle while the strobe light blinks to warn the driver of the recording. The audible alert unit and vibration unit alert the pedestrian. The system may be used to relay data to a law enforcement agency.
US09655384B2
An article of apparel having enhanced mobility portions is provided herein for an upper torso of a wearer. The article of apparel may comprise a front panel affixed to a back panel. The back panel comprises a first portion having a first lateral stretch characteristic, where the first portion is located along an upper part of the back panel. The back panel may further comprise a second portion located adjacent to and below the first portion. The second portion has a second stretch characteristic that less than the first stretch characteristic.
US09655378B2
A heated air popcorn popper and related methods of popping popcorn in which unpopped kernels are retained in a heating zone and are prevented from being expelled before they have been exposed to a heated air stream for sufficient time to result in popping of the kernels. The popcorn popper can have a popping portion including a retention mechanism capable of moving in response to physical contact with popped kernels that experience a dramatic volumetric increase in size following popping. As the number of popped kernels within the popping portion increases, the level of the popped kernels rises until they physically contact the retention mechanism, whereby the retention mechanism is forced to transition from a covering disposition to an open disposition in which popped kernels are allowed to exit the heating zone.
US09655376B2
A continuous process for preparing an oleogel from ethylcellulose and an oily feed material, wherein the process comprises: (a) feeding ethylcellulose to the feed zone of an extruder, the extruder having a plurality of oil feed ports along its length; (b) feeding at least one oily feed material into at least one of the oil feed ports; (c) mixing the oily feed material with the ethylcellulose to form a substantially homogeneous mixture; (d) cooling the mixture to form an oleogel.
US09655375B2
The present invention relates to a process for liquefying cereal proteins. A process for making hydrolysed cereal protein is also disclosed. A composition comprising hydrolysed cereal proteins obtained by the process of the present invention and its uses in food and feed applications are also disclosed. Particularly, the use of a composition comprising hydrolysed wheat proteins as partial or total replacement of animal protein in calf milk is disclosed.
US09655364B2
A composition for controlling plant diseases comprising a tetrazolinone compound represented by a formula (1): wherein n is an integer of any one of 0 to 5; R1 represents a halogen atom and the like; R2 represents a C1-C3 alkyl group and the like; the R1 or R2 can have independently halogen atom(s) in the alkyl moiety; with the proviso that when n is an integer of 2 or more, two or more of the R1 may be different from each other, and an QoI compound, preferably the composition for controlling plant diseases wherein a weight ratio of the tetrazolinone compound to the QoI compound is that of the tetrazolinone compound/the QoI compound=0.1/1 to 10/1, shows an excellent controlling efficacy on plant diseases.
US09655357B2
A vacuum trap has a vacuum chamber and a conduit having at least one first opening open to atmosphere and a second opening connected to the vacuum chamber. A valve connects the conduit to the vacuum chamber and seals the vacuum chamber. A vacuum source maintains a vacuum inside the vacuum chamber immediately prior to the valve opening, the vacuum being sufficient to draw a vermin through an opening of the conduit. A detector detects the presence of vermin, the valve opening in response to a signal from the detector when vermin are detected.
US09655351B2
Methods and compositions are described for making phenotypically female fertile animals from XY donor cells and suitable host embryos. Culture media and methods are provided for maintaining XY donor cells in culture that after introduction into a host embryo and gestation in a suitable host will result in fertile XY female animals. Methods and compositions are described for making fertile female animals in an F0 generation from a donor XY cell and a host embryo, as are methods for making F1 progeny that are homozygous for a modification from a heterozygous F0 fertile male and a heterozygous F0 fertile female sibling.
US09655350B2
A fish display apparatus continuously circulating water through a plurality of removable live fish containers, whereby a large number of individual containers containing one or more fish may be easily displayed to customers and whereby any single container may be removed by the customer for purchase of the fish contained therein without stopping or interfering with the flow of water passing through the remaining containers.
US09655347B2
An autonomous open-ocean fish-farming structure has a submersible cage enclosure tethered to a topside buoy. The topside buoy stores feed, is equipped with radio telemetry to communicate positioning signals transmitted from external sources, and generates electrical power using, for example, a hybrid solar OTEC heat engine. The structure is navigated and maintained in a geostationary position within the ocean environment by means of position-correction technology and is propelled by thrusters attached to the cage enclosure and, optionally, to the underside of the topside buoy. The self-positioning, self-powered fish-farming structure enables unmanned, extended marine deployment in deeper ocean waters without the need for tethering or anchoring to the ocean floor. Multiple structures can be maintained in a spaced apart configuration to comprise a flotilla of fish farming structures attended by a tender ship that is autonomous, easily serviced and conveniently relocated.
US09655346B2
Disclosed is a chemical vaporizer device for the purposes of vaporizing and controllably dispensing a pesticide material into a bee hive to kill varroa mites and other predatory pests that threaten honey bees. The device comprises an elongated cylinder having a proximal and distal end, a compressed air inlet, air pressure controller and heating element. The distal end of the device comprises a diffuser outlet and a coiled heating element, which is adapted to rapidly vaporize granular pesticide material in the cylinder while the compressed air discharges the vapor in a constant manner and in higher busts on demand. The user supports the body of the device while controlling the outgoing vapor pesticide by modulating the compressed air controller, which actuates an air valve in the controller. Material is fed into the device proximal end, vaporized and forcibly discharged through the distal end and into a bee hive.
US09655345B1
An animal feeder for use in dispensing a feeding solution to hummingbirds or other animals. This may be accomplished by providing an animal feeder having a reservoir containing a feeding solution. The reservoir is connected to a dispenser that dispenses the feeding solution through an opening. The reservoir rotates in response to changes in the weight distribution of the feeder relative to the pivot as the reservoir is emptied of the feeding solution. The rotation of the reservoir maintains the opening in the dispensing member above the level of the feed solution in the reservoir. The reservoir has venting holes to maintain equalize pressure within the reservoir with the outside environment.
US09655342B2
A game feeder having a recessed game feed spinner plate, which discharges game feed through a relatively narrow opening. The spinner plate is rotated by an electric motor, which is housed in a protective enclosure within the game feeder, along with the battery and timer, and protected from animals. The narrow discharge opening minimizes feed loss by animals accessing the spinner plate. The game feeder may sit on the ground, or may be mounted on a support such as a pole or tree with mounting hooks and a bracket, and when mounted is especially resistant to feed loss or feeder damage by bears, feral hogs and the like.
US09655341B2
To provide animal toilet sand that can prevent an aggregate from growing depth-wise upon absorption of liquid such as urine, and can suppress scattering. An animal toilet sand composed of a plurality of particulates mainly composed of bentonite, wherein: the particulates include smaller diameter particulates of at least 0.8 mm and no greater than 2 mm in grain size, and larger diameter particulates of at least 2 mm and no greater than 10 mm in grain size; and the particulates include the smaller diameter particulates in a range of at least 20% and no greater than 100% of the larger diameter particulates in ratio by weight. In addition, it is preferable that the proportion of the smaller diameter particulates and the larger diameter particulates with respect to the animal toilet sand is at least 90% in ratio by weight.
US09655338B1
A novel maize variety designated PHPKH and seed, plants and plant parts thereof are provided. Methods for producing a maize plant comprise crossing maize variety PHPKH with another maize plant are provided. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into PHPKH through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby are provided. Hybrid maize seed, plants or plant parts are produced by crossing the variety PHPKH or a locus conversion of PHPKH with another maize variety.
US09655329B1
The invention provides seed and plants of the hybrid corn variety designated 373279. The invention thus relates to the plants, seeds and tissue cultures of the variety 373279, and to methods for producing a corn plant produced by crossing a corn plant of variety 373279 with itself or with another corn plant, such as a plant of another variety. The invention further relates to genetic complements of plants of variety 373279.
US09655325B2
The invention relates to the soybean variety designated 01050591. Provided by the invention are the seeds, plants and derivatives of the soybean variety 01050591. Also provided by the invention are tissue cultures of the soybean variety 01050591 and the plants regenerated therefrom. Still further provided by the invention are methods for producing soybean plants by crossing the soybean variety 01050591 with itself or another soybean variety and plants produced by such methods.
US09655314B2
The cotton variety FM 2334GLT is disclosed. The invention relates to seeds, plants, plant cells, plant tissue, harvested products and cotton lint as well as to hybrid cotton plants and seeds obtained by repeatedly crossing plants of variety FM 2334GLT with other plants. The invention also relates to plants and varieties produced by the method of essential derivation from plants of FM 2334GLT and to plants of FM 2334GLT reproduced by vegetative methods, including but not limited to tissue culture of regenerable cells or tissue from FM 2334GLT.
US09655309B1
A rooftop greenhouse built into a roof infrastructure is disclosed. The roof infrastructure is constructed from conjoining modular building segments. The conjoining modular building segments are prismatic box-like structures, each having at least three walls, and the prismatic box-like structures are arranged and attached horizontally to create the roof of a building infrastructure. Inside each prismatic box-like structure is a displaceable garden box and a mechanism for lifting the garden box out of the prismatic box-like structure. The prismatic box-like structures and garden boxes may also be equipped with glass ceilings, thin insulation, mirrors, a growing medium, a grid system, an automated water supply system, an automated gas supply system, an automated temperature control system, an automated shading and light control device, and artificial lighting.
US09655308B2
A modular wall mounted agricultural system that includes a mounting structure having a first end, a second end, a fluid conduit extending longitudinally between the first end and the second end, and at least one longitudinally extending channel. The system further includes at least one planter box that is adapted to mount within the at least one channel of the mounting structure, and wherein the at least one planter box includes a plurality of sidewalls and a bottom wall that cooperate to form a compartment adapted to receive plant matter therein, the plurality of sidewalls cooperating to form an upwardly opening aperture adapted to receive a fluid from the conduit.
US09655301B2
A controller for a movable unloading apparatus of an agricultural harvesting machine, wherein the movable unloading apparatus directs crop material from the agricultural harvesting machine to a container driven in the vicinity of the agricultural harvesting machine, and wherein the controller receives image data representative of a stream of crop material as it passes from the unloading apparatus to the container; processes the image data in order to determine a shape of the stream of crop material in the image data; and sets an attribute of the unloading apparatus in accordance with the determined shape of the stream of crop material in order to direct the crop material from the unloading apparatus to the container.
US09661793B2
In mounting position correction of detecting a position of printed solder, calculating a positional-shift amount between a position of an electrode and the position of the printed solder, and correcting a mounting position based on the calculated positional-shift amount, when a correction amount based on the calculated positional-shift amount exceeds a limit value which indicates an upper limit of the correction amount which is defined and allowed in mounting information, the electronic component is mounted on the mounting position which is corrected by considering the limit value as the correction amount. Accordingly, it is possible to appropriately employ mounting position correction by considering a solder printing position as a reference in accordance with the degree of printing position shift, and to obtain an expected joint quality improvement effect.
US09661792B2
A protector and a wire harness that have piercing resistance, give shielding capability to the protector, enable reducing the number of man-hours in human labor, and are low cost. In the protector, foaming urethane layers that have a predetermined thickness and contain a high magnetic permeability metal powder are respectively formed on a recessed surface portion of a protector main body and an inner surface portion of a cover portion, and foil films are respectively formed on an outer surface portion of the protector main body and an outer surface portion of the cover portion. The wire harness is formed by using the cover portion to close the opening portion of the recessed surface portion of the protector main body in which a group of electrical lines is inserted and accommodated. Pieces of adhesive tape are wrapped around the protector main body and the cover portion to fasten them.
US09661787B2
An equipment chassis includes a rear-mountable fan tray assembly (FTA) having a plurality of fans arranged into two or more FTA housing portions, the rear-mountable fan tray assembly being slidably insertable into and retractable from the equipment chassis for facilitating front-to-back airflow while providing ease of access. The FTA housing portions are articulatably coupled to each other and are arranged to follow a smooth motion path when traveling from a horizontal position to a vertical position and vice versa when the rear-mountable fan tray assembly is either inserted into or retracted from the equipment chassis, wherein a top FTA housing portion is guided by a top curvilinear tracking path and a bottom FTA housing portion is guided by a bottom curvilinear tracking path.
US09661779B2
A container data center includes a cabinet and a function module. The cabinet includes a plurality of sides and a bottom. A first one of the sides defines a plurality of spaced openings. At least one door is rotatably attached to the side beside each opening. A support member is rotatably attached to the sides near a bottom edge of each opening. The door and the support members are rotated to open each opening and the support members are aligned with the bottom to allow the function modules to slide on the bottom and the support members.
US09661771B2
An electronic device that can be attached to a cover and an electronic device attached to a cover are provided. The electronic device includes an electronic device body, a recess formed in an outer surface of the electronic device body, a movable member placed in the recess, an elastic member placed in the recess and supporting the movable member, and a retaining member placed in the recess and disposed around the movable member. The elastic member and the movable member are disposed to elastically bias the movable member from an inside of the recess to the outer surface of the electronic device body.
US09661770B2
Techniques for graphic formation via material ablation described. In at least some implementations, a graphic is applied to a surface of an object by ablating layers of the object to form an ablation trench in the shape of the graphic. In at least some embodiments, an object can include a surface layer and multiple sublayers of materials. When an ablation trench is generated in the object, the ablation trench can penetrate a surface layer of the object and into an intermediate layer. In at least some implementations, height variations in an object surface caused by an ablation trench can cause variations in light reflection properties such that a graphic applied via the ablation trench appears at a different color tone than a surrounding surface, even if the ablation trench and the surrounding surface are coated with a same colored coating.
US09661767B2
A mount for holding a display device includes a main support, a plurality of arms, and a locking assembly. The main support includes a front surface and a rear surface. The plurality of arms extends from a periphery of the main support. The main support and the plurality of arms are configured to retain the display device. The locking assembly is connected to the rear surface of the main support, and is configured to secure the display device. The locking assembly includes a locking arm and a locking mechanism. The locking arm is translatable relative to the main support, and is configured to support the display device in a secured position. The locking mechanism is connected to the locking arm. The locking mechanism includes a lever connected to the locking arm for releasing the locking mechanism.
US09661766B2
An electronic device package box is mounted with multiple coil components, is mounted on a circuit board, and includes a box unit, and multiple outer and inner connecting pins. The box unit includes inner and outer surrounding walls, a surrounding base wall connected between the inner and outer surrounding walls, and a surrounding space for receiving the coil components therein. The outer connecting pins are mounted to the outer surrounding wall, and each is connected to a corresponding one of the coil components and the circuit board. The inner connecting pins are mounted to the inner surrounding wall, and each is connected to a corresponding one of the coil components and the circuit board.
US09661743B1
A flexible circuit board includes a center “rigid” section, such as a printed circuit stack, and an adjoining flexible multi-layer body that are fabricated from a common interconnect layer. A transition material is included at the interface between the center rigid section and the flexible multi-layer body to minimize ripping and cracking of the interconnect layer. The transition material can also be added at stress areas not related to the interface. The transition material is attached at the interface and stress areas of the flexible circuit board in order to strengthen the flexible circuit board in general and in particular the transition material included therein. The transition material layer is formed and deposited at one or more locations on or within the flexible circuit board in order to minimize, reduce, if not prevent cracking and ripping of the flexible circuit board as it is bent, flexed and/or twisted.
US09661738B1
A method of and a device for dissipating/transferring heat through one or more solid vias and embedded coins are disclosed. The method and device disclosed herein can be used to transfer heat for a High Density Interconnect (HDI) board.
US09661736B2
An example particle therapy system includes: a particle accelerator to output a beam of charged particles; and a scanning system to scan the beam across at least part of an irradiation target. An example scanning system includes: a scanning magnet to move the beam during scanning; and a control system (i) to control the scanning magnet to produce uninterrupted movement of the beam over at least part of a depth-wise layer of the irradiation target so as to deliver doses of charged particles to the irradiation target; and (ii) to determine, in synchronism with delivery of a dose, information identifying the dose actually delivered at different positions along the depth-wise layer.
US09661726B2
The present disclosure provides an insulation machine platform, a substrate-contact type apparatus, and a static electricity elimination method. The insulation machine platform includes: a machine platform body including at least one vent hole, and at least one static electricity elimination device; the at least one vent hole corresponds to the at least one static electricity elimination device being located at a position corresponding to the at least one vent hole, respectively, wherein the machine platform body has a supporting surface, underneath which the static electricity elimination device is located, for receiving a substrate. The substrate-contact type apparatus includes the insulation machine platform.
US09661713B2
Apparatuses, methods and storage medium associated with an intelligent LED light apparatus are disclosed herein. In embodiments, an intelligent LED light apparatus may include a communication interface, a processor, a body that encases at least the communication interface and the processor, and a plurality of sensors of a plurality of sensor types disposed on the body. The processor may be configured to receive sensor data from the sensors, and transmit the sensor data or results from processing the sensor data to an external recipient. Further, for some embodiments, the intelligent LED bulb apparatus may further comprise LED lights, and the body further encases the LED lights. In other embodiments, the body may include a male connector to mate with a bulb receptor, and a female connector to mate with a LED bulb. Other embodiments may be disclosed or claimed.
US09661712B1
A lamp includes a light source in a top of a housing, the light source including a driver, a light emitting member electrically connected to the driver, and a dimming controller electrically connected to the driver wherein the driver is configured to activate the light emitting member after being activated by a signal sent from the dimming controller; and an electro-optical sensor in the top of the housing and electrically connected to the dimming controller wherein light emitted by the light emitting member is reflected to the electro-optical sensor, and the electro-optical sensor sends the sensed light to the dimming controller. The dimming controller compares intensity of the sensed light with intensity of the light emitted by the light emitting member, and the driver either decreases the intensity of the light output or increases same based on the comparison.
US09661707B2
A semiconductor device includes first and second field effect transistors (FETs) formed in a semiconductor substrate having a first main surface. The first FET includes first source and drain contact grooves, each running in a first direction parallel to the first main surface, each formed in the first main surface. First source regions are electrically connected to a conductive material in the first source contact groove. First drain regions are electrically connected to a conductive material in the first drain contact groove. The second FET includes second source and drain contact grooves, each running in a second direction parallel to the first main surface, each formed in the first main surface. Second source regions are electrically connected to a conductive material in the second source contact groove, and second drain regions are electrically connected to a conductive material in the second drain contact groove.
US09661706B2
A driver is connectable to an external power supply and configured to output a variable driving current for one or more loads, such as LEDs. A low intensity dimming module is operable to divert some or all of the driving current away from the LEDs when a user selects a very low level of light intensity so that the driver has a constant minimum load. The low intensity dimming module prevents performance issues that commonly affect drivers under light load conditions.
US09661697B2
A digital dimmable driver system includes an alternating current input, a dimmer operable to perform a phase cut operation on a waveform from the alternating current input, a driver circuit operable to switch from a dimming mode to a universal voltage input mode based on a phase angle of the dimmer, and a power output operable to power a light.
US09661693B2
The organic EL device includes a base material as a substrate, a plurality of organic EL elements disposed on the based materials, a seal layer covering the plurality of organic EL elements to seal, color layers of at least red, green, and blue corresponding to a plurality of organic EL elements and formed on the seal layer, and a convex portion which is formed by dividing each of colored layers with different colors on the seal layer, and whose height is lower than the height of a colored layer of at least red, green, blue on the seal layer. The convex portion has a property of optical transparency, and is formed using a photosensitive resin material which is a main material of the colored layers, for example.
US09661692B2
An optical film includes: a liquid crystal coating; and a base layer on the liquid crystal coating, wherein the liquid crystal coating has reversed wavelength dispersion and in-plane retardation for a reference wavelength ranging from 126 nm to 153 nm, and the base layer has in-plane retardation ranging from about 0 to about 50 nm and out-of-plane retardation ranging from about 0 nm to about 100 nm.
US09661689B2
A cooling and holding device for heating-elements, more particularly PTC heating-elements, including a flat housing having at least one heating shaft in which there is at least one heating-element, wherein the heating shaft has opposing shaft walls between which the heating-element is clamped, and at least one side slit that separates the shaft walls such that the distance between the shaft walls can be varied for installation of the heating-element, wherein at least one clamping section outwardly protruding from the flat housing, grips the flat housing, spanning the side slit, and is elastically deformed in the mounted state of the heating-element so as to provide a pressing force of the shaft walls on the heating-element in the assembled state.
US09661680B2
A method, implemented by a network node, for establishing an efficient dummy network connection between a mobile device and a first network includes establishing at least one data connection between the mobile device and the first network. The method further includes receiving a request to establish the efficient dummy network connection. The method also includes establishing the efficient dummy network connection after receiving the request, where the efficient dummy network connection that is established uses a minimum number of network resources, said minimum number of network resources being less than the number of network resources used in the at least one data connection.
US09661670B2
A base station may establish a wireless connection with a mobile device. The base station may determine an index value for each of a plurality of carriers that may be used for the wireless connection. The index value for a respective carrier may be determined based on a quantity of idle mode devices using the respective carrier in an idle mode. The base station may generate a carrier order that indicates a priority for each of the plurality of frequencies. The carrier order may be generated based on sorting the plurality of carriers based on the index values for the plurality of carriers. The base station may send order information indicating the carrier order to the mobile device via the wireless connection.
US09661664B2
A system, apparatus, and method are provided for placing emergency calls from a vehicle to a Public Safety Answering Point. An emergency call apparatus is configured to detect a trigger condition and, if the trigger condition is detected, send a telephone dial command through a vehicle communication network to a telecommunication apparatus to establish voice communication with the Public Safety Answering Point. A method is provided of retrofitting a vehicle with embedded telecommunication apparatus to enable single button access to emergency services without the need for a fee based subscription.
US09661661B2
A wireless device receives at least one control message comprising configuration parameters of a plurality of cells grouped into at least a first cell group and a second cell group. The first cell group comprises a first reference cell. The second cell group comprises a second reference cell. The at least one control message comprises a pathloss reference for a secondary cell in the second cell group. The pathloss reference is configurable to one of a) a downlink of the second reference cell and b) a downlink of the secondary cell.
US09661651B2
The present invention relates to method for forwarding a buffer status report (BSR) for dual connectivity and devices therefor. In these schemes, the UE is simultaneously connected to a first eNB and a second eNB. The UE may transmit information on the amount of data to be transmitted to the first eNB to a second eNB. The second eNB may figured out that the received information is for the first eNB and/or second eNB.
US09661643B2
Cognitive interference management in Cellular wireless network with relays and micro/pico/femto cells operated in distributed scheduling mode. A cellular system may use RS to improve capacity or for coverage extension. ARS relays the signals between BS 104 and MS by using wireless links between BS-RS and RS-MS during both downlink and uplink transmissions. Embodiments herein disclose a mechanism to explicitly indicate to the MS whether the MAC management messages sent by the BS to the MS are to inform it to perform scanning for interference measurement. Also, disclosed herein is a mechanism to explicitly indicate to the BS whether the message sent by the MS is related to interference measurement.
US09661636B1
A wireless access node to facilitate voice over long term evolution (VoLTE) communication sessions comprises a wireless communication transceiver and a processing system. The wireless communication transceiver is configured to exchange VoLTE packets with a wireless communication device during a VoLTE communication session. The processing system is configured to monitor a number of hybrid automatic repeat request (HARQ) retries requested by the wireless communication device during the VoLTE communication session and compare the number of HARQ retries to a threshold value. The processing system is further configured to, if the number of HARQ retries falls below the threshold value, drop a percentage of the VoLTE packets to achieve an overall percentage of packet loss for the VoLTE communication session based on the number of HARQ retries.
US09661630B2
A method of signalling resource allocation data in a communication system which uses a plurality of sub-carriers arranged in a sequence of chunks. An allocation of the sub-carriers for each of a plurality of user devices is received. The received allocations are processed to determine, for each user device, data identifying a start chunk and an end chunk within the sequence of chunks, which depend upon the sub-carriers allocated to the user device. Different resource allocation data is generated for each of the user devices using a predetermined mapping which relates the data identifying the corresponding start chunk and end chunk determined by the processing step to resource allocation data comprising a unique value. The respective resource allocation data is signaled to each of the plurality of user devices.
US09661629B2
A method of transmitting a data frame by a station in a wireless local area network (WLAN), A station obtains a transmission opportunity (TXOP) for a bandwidth. The TXOP indicates an interval of time during which the station has a right to initiate frame exchange sequences onto a wireless medium. The station selects a transmit bandwidth parameter of a non-initial data unit of a plurality of data units from available bandwidth parameters. The available bandwidth parameters include a first available bandwidth parameter which is same as a transmit bandwidth parameter of a preceding data unit of the plurality of data units and a second available bandwidth parameter which is narrower than a transmit bandwidth parameter of the preceding data unit. The station transmits, during the TXOP, the non-initial data unit according to the transmit bandwidth parameter of the non-initial data unit.
US09661627B2
A method is provided for receiving an Enhanced Physical Downlink Control Channel (EPDCCH) from a base station by a user equipment (UE) in a wireless communication system. An EPDCCH is received for a first carrier by monitoring first EPDCCH candidates for the first carrier in a specific physical resource block (PRB) pair set. An EPDCCH is received for a second carrier by monitoring second EPDCCH candidates for the second carrier in the specific PRB pair set. The first EPDCCH between each of the first EPDCCH candidates at a specific aggregation level. The second EPDCCH candidates have an offset smaller than the interval from the first EPDCCH candidates.
US09661620B2
A mobile terminal for use in a mobile communications network includes a wireless access interface that provides a shared communications channel for communicating data to/from the mobile communications network, the shared channel divided in time into units of communications resource. The mobile terminal is configured to receive control information with a short identification number in association with an identification number allocated to the mobile terminal by the mobile communications network, the short identification number allocated to the mobile terminal by the mobile communications network for one super-frame including plural of the units of communications resource of the shared channel, the short identification number allocated to the mobile terminal as one member of a group of mobile terminals, and to receive a resource allocation message including the short identification number to identify the mobile terminal and to allocate units of the communications resource to the mobile terminal in one super-frame.
US09661618B2
A method for a user equipment (UE) to receive a downlink signal. The UE receives a first downlink assignment including a first new data indicator (NDI) from a base station. The UE compares the first NDI to a second NDI and, based on a result of the comparison, determines whether the first NDI has been toggled. The UE receives the downlink signal and processes the received downlink signal based on whether the first NDI has been determined to be toggled. Furthermore, the second NDI is included in a second downlink assignment that was previously received from the base station and was not identified by a temporary cell identifier.
US09661613B2
There is provided a communication control device including a decision unit configured to decide radio resources available for inter-device communication within a cell, and a notification unit configured to notify a terminal device located within the cell of the radio resources. When the radio resources are modified, the notification unit gives notification of modification of the radio resources through paging. When the radio resources are modified, the radio resources before the modification refrain from being used for the inter-device communication after a predetermined timing and the radio resources after the modification are used for the inter-device communication after the predetermined timing.
US09661608B2
Provided in an embodiment of the present invention are a broadcast service resource allocation method, a resource management center and an MME, the method includes: a network side receiving a tracking area update (TAU) request message reported by a user equipment (UE) after the UE moves, and determining according to the TAU request message that a first multimedia broadcast multicast service over a single frequency network (MBSFN) to which the UE belongs before the UE moves is different from a second MBSFN to which the UE belongs after the UE moves; the network side adjusting broadcasts within the first MBSFN and the second MBSFN respectively according to a service subscribed or being received by the UE.
US09661607B2
A transfer node (310) receives downlink data addressed to a mobile station (100). A paging area control apparatus (300) determines a paging area of the mobile station (100) based on an attribute of the downlink data. A paging apparatus (200) sends a paging signal into the paging area determined by the paging area control apparatus (300), in order to page the mobile station (100). As a result, a technology for contributing to determining a proper paging area corresponding to downlink traffic is provided.
US09661602B2
System and method for determining device location in an IP-based wireless telecommunications network
A system and method determines a geographic position of a mobile device in communication with an IP-based wireless telecommunications network. A wireless connection between the mobile device and the IP-based wireless telecommunications network is established when the mobile device registers with a network controller (NC) through an access point (AP). When a geographical position is needed for the mobile device (e.g., a 911 call), messages are exchanged between the NC and the SMLC where the SMLC retrieves information from a database that is used to identify the geographic position of the mobile device. The database can store a variety of information related to mobile devices such as: last known position, IP address, MAC address, device or subscriber identifier, last CGI, etc. The geographical position is communicated back to the NC, which can then forward the position information to a switch for processing such as for 911 calls.
US09661600B2
A method and apparatus for measuring a location of a communication terminal using an access point is provided. Information of nearby access points from the communication terminal is received. A predetermined number of nearby access points among the nearby access points is selected based on the received information. Location coordinates of the selected predetermined number of nearby access points are extracted. A barycentric coordinate is calculated using the extracted location coordinates. The calculated barycentric coordinate is determined as a final location of the communication terminal.
US09661596B2
A system and method for receiving a radio frequency signal, comprising a device for digitizing, without prior alteration of frequency, an analog radio frequency representation of each of a plurality of radio frequency signals to produce a respective plurality of digital radio frequency signals having a respective associated radio frequency digital clock, the plurality of digital radio frequency signals having a sufficiently high respective associated clock rate to preserve an information content of an information communication present in the analog radio frequency representation; a switch matrix adapted to concurrently switch the plurality of digital radio frequency signals and associated digital radio frequency clock to ones of a plurality of digital signal processors; and a control adapted to selectively automatically control the concurrent switching of a plurality of digital signals and associated digital clock to the respective plurality of digital signal processors; wherein the digital signal processors produce processed representations of information contained in respective analog radio frequency representations.
US09661586B2
Disclosed are a power control method and device for D2D transmission. The method includes determining an upper limit value of interference power corresponding to a terminal. The upper limit value of the interference power is the maximum interference value which is allowed by a base station and generated by D2D transmission to cellular transmission. The base station sending the upper limit value of the interference power to the terminal the terminal determines the upper limit value of D2D transmission power by using the upper limit value of the interference power. The terminal determines the upper limit value of the D2D transmission power, and determines the D2D transmission power, the D2D transmission power of the terminal device can be controlled, transmitting power of the D2D transmission is controlled to make the interference generated by same to the cellular transmission to a controlled range, and the interference of a D2D signal to a cellular signal is controlled.
US09661582B2
Embodiments herein include a method of controlling the total power with which a radio transmitter of a radio access node transmits a signal. The method entails inputting an input signal into a power amplifier of the radio transmitter to produce, as a function of the input signal, an output signal to be transmitted by the radio transmitter. The method further entails generating a feedback signal from the output signal at the radio transmitter, and measuring that feedback signal to obtain one or more performance metrics that characterize performance of the output signal. The method finally includes comparing the one or more performance metrics to one or more performance metric thresholds, and controlling a maximum permissible level of the total power of the input signal, based on that comparison.
US09661554B2
A method of detecting a proximity to a target device. The method comprises scanning a wireless network frequency band in a personal mobile device to discover at least one wireless network signal, triggering, in response to a discovery of the at least one wireless network signal, a magnetic field scan of a magnetometer operated by the personal mobile device, detecting, in the personal mobile device, according to the magnetic field scan, a presence or an absence of a magnetic field signature associated with a predefined proximity to a target device.
US09661534B2
The invention provides a system and method for repairing corrupt security information. At a serving node in a telecommunications network, security capabilities of a terminal are received when the terminal registers with the serving node. The received security capabilities are stored. A path switch request message is received from a target base station following an X2 handover request sent from a source base station to the target base station for handover of the terminal, the path switch request including the security capabilities of the terminal. The serving node determines whether the security capabilities of the terminal stored in the storage medium should be sent to the target base station. If so, the serving node sends the stored security capabilities of the terminal to the target base station for use in reselecting security algorithms to be used in communications between the target base station and terminal following the handover.
US09661527B2
A method of performing a random access channel (RACH) procedure between a mobile terminal and a network includes the steps of detecting whether a random access response (RAR) is received from the network within a certain time period, the RAR including information about a random access channel (RACH) preamble transmitted to the network; and if the RAR is not received within the certain time period or if the information about the transmitted RACH preamble included in the RAR does not match the transmitted RACH preamble, performing a first procedure to detect failures in the RACH procedure; and if the RAR is received within the certain time period and if the information about the transmitted RACH preamble included in the RAR matches the transmitted RACH preamble, performing a second procedure to detect failures in the RACH procedure.
US09661526B2
The present specification relates to a communication method and a communication device, and a random access method of a user equipment (UE), according to one embodiment of the present specification, comprises the steps of: sensing a random access trigger in a connected state; determining the type of the random access trigger when the random access trigger is sensed; and performing congestion control if the type of the random access trigger is a preset type.
US09661524B2
A method in which a user equipment processes data in a wireless mobile communication system is provided. The method includes the steps of receiving a first data block from an upper layer, transferring a second data block including the first data block to a lower layer at a particular protocol layer, discarding the first and second data blocks present in the particular protocol layer if a certain period of time has passed, and transferring information associated with the discard of the second data block to the lower layer.
US09661522B2
A method is provided in one example embodiment and includes configuring a network element for subscriber-specific service chaining and traffic steering, where the configuring includes programming a selected service flow router user plane element with a subscriber context corresponding to a subscriber's session at a subscriber termination function. The subscriber context comprises instructions to steer subscriber traffic through a plurality of services in a network environment.
US09661521B2
A system for merging first and second interrupts includes first and second queue modules, first and second status modules, and first and second merger modules. The first and second queue modules receive first and second en-queue signals corresponding to the first and second interrupts, first and second de-queue signals, and generate first and second status signals. The first and second status modules receive first and second status signals, and first and second output signals, and generate first and second merge signals. The first and second merger modules receive the first and second merge signals, and generate the first and second output signals. One of the first and second output signals is indicative of the first and second en-queue signals, thereby merging the first and second interrupts into at least one of the first and second output signals.
US09661520B2
Method and apparatus for transmitting channel measurement information in mobile communication system
A method and apparatus for transmitting channel measurement information in a mobile communication system are disclosed. The method and apparatus enable a user equipment to log channel measurement information and transmit the same to a base station so as to enhance radio network performance and reduce processing complexity of the user equipment by removing unnecessary operations of the user equipment and preventing waste of radio network capacity during transmission of channel measurement information.
US09661518B2
A cellular communications network 10 comprises a plurality of basestations 12, 14, 16 and 18 connected to each other through an interface and to a core network through another interface. Each basestation has a coverage area referred to as a cell k. There are provided methods for estimating the load imparted on a cell in the cellular communications network by user equipments in the cell. The methods make it possible to estimate any potential increase in the load that may impact onto a target cell due to the handover of a UE from a serving cell.
US09661503B2
The spectrum-efficient secondary users grouping method for two-tier cognitive radio groups femtocell base stations (FBSs) and macrocell secondary users (MSUs) into non-interfering groups based on their GPS location information, and then serves the FBSs/MSUs within each group using the same channel. A first approach for grouping the secondary users (SUs) is distance-based. A second approach utilizes profit maximization. Both approaches are extended to a co-channel deployment scenario where the FBSs can share part of the channels purchased for the MSUs to further reduce the number of channels to be purchased from the PU networks. The distance-based grouping method finds the minimum number of groups such that the desired quality of service (QoS) determined by an outage probability threshold is maintained. The profit maximization method tries to find the set of SUs that maximizes the expected total profit of the SU network.
US09661499B2
A computing device may be configured to authenticate a user for access control, and may include at least one ground electrode configured for contact with a user, an impedance sensor coupled to the least one ground electrode, where the impedance sensor may be configured to perform a measurement based on a touch input from the user, a memory which stores instructions, and a processor, coupled the impedance sensor and the memory, where the processor may be configured to execute the instructions. The instructions may cause the processor to: receive the touch input from the user, receive an impedance value based on the touch input measured by the impedance sensor, and determine whether the received impedance value corresponds to at least one stored impedance value associated with a user profile.
US09661495B2
A method of activating a first device is disclosed. The method includes: the first device pairing with a second device; receiving a connection request from a second device; connecting to the second device; opening a communication channel to the second device; transmitting an activation package to the second device; receiving an activation payload from the second device; and performing an activation using information from the activation payload.
US09661491B1
In a computer-implemented method for communicating information about an update of an application, a digital distribution platform can receive, at a first time, the update of the application. The digital distribution platform can receive, at a second time, a signal from a user device. The signal can include a request to receive a transmission of a user interface customized for a user account. The digital distribution platform can automatically determine, in response to receipt of the request to receive the transmission of the user interface customized for the user account, that the application was downloaded, at a third time, to the user device. The digital distribution platform can automatically generate, in response to the second time being later than the first time, the user interface. The user interface can include the information about the update.
US09661485B2
Methods and apparatuses are provided for indicating a discovery signal resource by a User Equipment (UE) performing device-to-device communication. The UE receives information relating to the device-to-device communication from a base station. A synchronization signal including discovery signal-related information, is transmitted from the UE to a nearby UE, based on the information relating to the device-to-device communication. A discovery is performed based on the discovery signal-related information.
US09661484B2
A method of conveying a location information representing a physical location of a communication device to another communication device comprises acquiring by the communication device a first location information and a second location information, the second location information being acquired subsequently to the acquiring of the first location information and detecting by the communication device a deviation of the second location information from the first location information representing a change of the physical location of the communication device. The method further comprises, triggered by the detected change of the physical location of the communication device, conveying the most recently acquired physical location of the communication device to the other communication device by sending a signaling message by the communication device to the other communication device, the signaling message comprising either the second location information or the deviation of the second location information on the first location information.
US09661483B2
A multi-function emergency assistance request, tracking, and communication system is defined by a Hub and Spoke concept of portable units able to communicate one to each other using satellite with global earth coverage by sending GPS coordinates and text, by which the user can create its own private network inside the satellite network. A central Server manages the private network to decide which Spoke(s) are referred to specific hub(s). Functionalities include tracking without internet access (only through satellite link), system for rapid evacuation where the spoke(s) call in the Hub and receives back the confirmation of message received and read from the hub and Command and Control center from the server where the user can track all private networks and can communicate with each device through text.
US09661475B2
An apparatus for Internet-Protocol based communications in a wireless network includes a network interface, a controller, and memory. The interface receives a series of multicast data packets. The controller identifies one or more receiving nodes in the wireless network requesting data corresponding to the series of multicast data packets and determines that the effective unicast rate for one or more unicast data packets exceeds a minimum data rate of the series of multicast data packets using an 802.x protocol. The memory stores instructions that may be executable by a processor. Upon execution of the instructions by a processor, the received series of multicast data packets is converted into one or more unicast packets, the execution and conversion occurring in response to instructions received from the controller. A system for Internet-Protocol based communications in a wireless network implements such an apparatus in the context of an access point.
US09661473B1
A location device (e.g., realized at one or more of a mobile device and/or a location server) includes a wireless transceiver, one or more location sensors and a floor-plan of a venue. The location device determines a plurality of hypothetical locations of a mobile device in the venue in response to data sets provided by the one or more location sensors. The data sets are associated with obstacle indication values calculated for the venue or for regions of the venue including locations corresponding to the data sets. The obstacle indication values indicate the proximity or orientation of the obstacle edges in the region or in the venue. The location device refines the one or more hypothetical locations based on the obstacle indication values to provide an estimate of the current location of the mobile device.
US09661470B1
Examples methods and systems for locating an actor in an environment are described herein. For example, an information system may receive point cloud data representing a cluster of potential actors at a location in the environment. In addition, the information system may also receive location information from a device indicating that the current location of the device is proximate to the location of the cluster of potential actors. Based on movement information from the device that indicates movements of the device, the information system may determine a portion of the point cloud data that displays movements that matches the movement of the device. Using the determined portion of the point cloud, the information system may identify a particular actor of the cluster that corresponds to the device and provide an output signal indicating that the determined portion of the point cloud represents the identified particular actor.
US09661461B1
A method for searching an electronic device and an electronic device are provided. The method includes following steps. A request packet that is broadcasted by another electronic device according to a wireless communication protocol is received. It is determined whether the electronic device matches a target device indicated by the request packet according to target identification information in the request packet. If the electronic device does not match the target device indicated by the request packet, another request packet is generated and broadcasted according to the wireless communication protocol. If the electronic device matches the target device, indication for indicating location information of the electronic device is supplied.
US09661455B2
Systems, methods, apparatuses, and computer readable media are disclosed for improving, in some examples, reference in a location system. In one embodiment, a method is provided comprising: receiving reference tag blink data from a plurality of receivers; calculating, using a processor, a reference phase offset between the plurality of receivers; and generating a suspended reference phase offset table, wherein a suspended reference phase offset table is generated by causing the reference phase offset to be stored in a memory for later tag location calculations.
US09661440B2
An example method of synchronizing application data between a mobile device and a remote computing device includes for each network of one or more networks, collecting network data regarding a mobile device's current connectivity state to the respective network. The mobile device includes one or more mobile applications including application data. The method also includes detecting, at the mobile device, a current connection to a current network. The method further includes comparing one or more opportunity scores for synchronizing application data. The one or more opportunity scores includes an opportunity score for the current network. Each opportunity score is associated with a particular network. The method also includes determining, based on the comparing, whether the current network is a good opportunity network for syncing mobile application data.
US09661435B2
A dual loudness meter is disclosed, simultaneously displaying the current loudness of an audio signal and of a processed audio signal, and also displaying the previous loudness of both audio signals.
US09661434B2
A host device for use with a removable peripheral apparatus having a microphone, and to the biasing circuitry for said microphone. The host device may have a device connector for forming a mating connection with a respective peripheral connector. A source of bias is arranged to supply an electrical bias to a device microphone contact of the device connector via a biasing path. A capacitor is connected between a reference voltage node and a capacitor node of the biasing path. A first switch is located between the capacitor node and the device microphone contact. Detection circuitry detects disconnection of the peripheral connector and device connector; and control circuitry controls the switch to disable the biasing path.
US09661433B2
A method and circuit for testing an acoustic sensor are disclosed. In a first aspect, the method comprises using electro-mechanical features of the acoustic sensor to measure characteristic of the acoustic sensor. In a second aspect, the method comprises utilizing an actuation signal to evaluate mechanical characteristics of the acoustic sensor. In a third aspect, the method comprises using a feedthrough cancellation system to measure a capacitance of the acoustic sensor. In the fourth aspect, the circuit comprises a mechanism for driving an electrical signal into a signal path of the acoustic sensor to cancel an electrical feedthrough signal provided to the signal path, wherein any of the electrical signal and the electrical feedthrough signal are within or above an audio range.
US09661431B2
An audio device and a position recognition method of the audio device are disclosed. According to an example embodiment, an audio device includes at least one infrared (IR) transceiver and a controller configured to recognize whether the audio device is positioned to a left or right of another audio device in response to a signal received by the at least one IR transceiver.
US09661428B2
A computing system automates the configuration and management of a live sound system that includes a processor and memory for building in a GUI of a display a representation of the live sound system for a venue. The system loads a venue template that includes loudspeaker arrays and related properties including a setup configuration of the loudspeaker arrays and tuning data for constituent loudspeakers that are operable to provide an audio coverage pattern for the venue. The system overlays on top of the representation of the loudspeaker arrays a wiring circuit representation indicating interconnections of the loudspeakers that define bandpass inputs for each array. The system generates a plurality of amplifiers in the representation to drive the arrays, and associates amplifier channels of the amplifiers with the bandpass inputs. The amplifier channels include representations of output channels of DSPs coupled with respective amplifier channels. The system loads tuning data into respective representation of the DSP and/or amplifiers based on configurations of the associated loudspeakers to complete virtual configuration. The representations of the devices and connections may be matched with physical devices of the live sound system and the tuning data sent down to the physical DSPs and/or amplifiers for their configuration.
US09661421B2
A microelectromechanical system (MEMS) microphone package including a MEMS microphone die configured to sense acoustic pressure and to generate a signal based on the acoustic pressure. An application specific integrated circuit (ASIC) electrically connects to the MEMS microphone die. The MEMS microphone package includes a molded package spacer that connects to a conductive lid and to a substrate. The molded package spacer forms side walls of the MEMS microphone package and is adapted to route electrical connections from the MEMS microphone die and the ASIC to the substrate.
US09661419B2
A microphone having a microphone capsule is provided. The microphone capsule has a diaphragm carrier, a diaphragm and an adhesive tape ring which is used to fasten the diaphragm to or in the diaphragm carrier. The microphone capsule is in the form of a dynamic sound transducer. A dynamic sound transducer for headphones, earphones or headsets is also provided. The sound transducer has a diaphragm carrier, a diaphragm and a moving coil which is coupled to the diaphragm. In a similar manner to the microphone capsule, the sound transducer has an adhesive tape ring between the diaphragm and the diaphragm carrier, which ring is used to fasten the diaphragm to the diaphragm carrier.
US09661415B2
A digital microphone system, audio control device and control method thereof is related to the method for controlling a digital microphone circuit including receiving a clock signal; detecting that the clock signal is maintained at a predetermined level for a duration; when the duration reaches a given time, switching a transmission type of a data pin; in a data mode, outputting a digital audio signal to a data line via the data pin in an output type; and in a command mode, receiving a command signal from the data line via the data pin in an input type.
US09661412B2
An apparatus comprising: a first substantially horn shaped structure configured to couple and amplify sound from a first speaker of a further apparatus; and a second substantially horn shaped structure configured to couple and amplify sound from a second speaker of the further apparatus, wherein the first and second substantially horn shaped structure each comprise a mouth portion with a physical separation dimension greater than a physical separation dimension of the first and second speaker acoustic outlet of the further apparatus.
US09661409B2
In one example, a presentation sound box is provided that includes a first box portion, and a second box portion that is movable relative to the first box portion. A sound module is disposed within the box and includes a speaker, a processor, and memory accessible by the processor. The presentation sound box further includes a power source operable to drive the speaker and processor, a trigger device operable to connect and disconnect the power source and sound module, and an amplifying cover configured and arranged to at least partly enclose the speaker.
US09661406B2
An optical device includes a plurality of optical input ports, a plurality of optical output ports, a wavelength dispersion arrangement and at least one optical beam steering arrangement. The plurality of optical input ports is configured to receive optical beams each having a plurality of wavelength components. The wavelength dispersion arrangement receives the optical beams and spatially separates each of the optical beams into a plurality of wavelengths components. The optical beam steering arrangement has a first region onto which the spatially separated wavelength components are directed and a second region onto which any subset of the plurality of wavelength components of each of the optical beams is selectively directed after the wavelength components in each of the subsets are spatially recombined with one another. The optical beam steering arrangement selectively directs each of subset of the plurality of wavelength components to a different one of the optical output ports.
US09661405B2
In one embodiment, method of photonic packet switching includes receiving, by a photonic switching fabric from a first top-of-rack (TOR) switch, a destination port request corresponding to a first photonic packet and a first period of time, where the destination port request includes a first output port and determining whether the first output port is available during the first period of time. The method also includes receiving, by the photonic switching fabric from the first TOR switch, the first photonic packet and routing the first photonic packet to the first output port when the first output port is available during the first period of time. Additionally, the method includes routing the first photonic packet to an alternative output port when the first output port is not available.
US09661396B2
Disclosed are a digital TV and a method for controlling same. The method for controlling a digital TV according to one embodiment of the present invention includes: displaying a user interface (UI) capable of selecting the standby mode for a power-off operation; and disconnecting the power source for a display panel so as to enter the standby mode when the standby mode is set through the UI in the power-off operation, and a power-off command is received. The standby mode includes a lower standby mode based on the operation of the digital TV and a network function, and the digital TV in the standby mode stops AV channel communication and performs SI channel communication.
US09661394B2
An apparatus and method for providing signaling information using inband transmission in a digital video broadcasting system where a frame for transmitting broadcasting data according to a ground-wave broadcasting service and broadcasting data according to a mobile broadcasting service is generated, and the generated frame is transmitted with an additional area for recording recognition information that indicates whether signaling information to be transmitted in the generated frame or the frame to be transmitted next time has been changed is allocated to a signaling information field of the generated frame.
US09661379B2
An electronic device with one or more processors, memory, and a display displays a first video stream on the display. The electronic device downloads and stores a portion of a second video stream and, once the portion of the second video stream has been downloaded, ceases to download the second video stream. The electronic device receives a request to display the second video stream on the display and, in response, determines whether the stored portion of the second video stream satisfies recency criteria with respect to a current stream time of the second video stream. In accordance with a determination that the stored portion of the second video stream satisfies the recency criteria, the electronic device displays at least a portion of the first video stream on the display concurrently with at least the stored portion of the second video stream.
US09661372B2
An apparatus includes: a communication interface configured to communicate with an external device which is configured to provide video data; a user interface configured to control based on a user input; a processor configured to process the video data, which is received in the communication interface, to be displayed as an image on the display; a controller configured to perform control to extract a text for a plurality of respective processing regions which are set up to have a plurality of same coordinates as a designated region with regard to each video frame based on the processed video data after a point of time in response to a partial region being designated by the user interface within a displayed video frame on the display, and apply a preset process to the extracted text in sync with each video frame.
US09661369B1
An example method involves: accessing a first list including ordered clip identifiers C1 . . . Cn; accessing a second list including ordered player identifiers P1 . . . Px; determining that an identifier Cm of the identifiers C1 . . . Cn is restricted to being assigned an identifier P, from the identifiers P1 . . . Px; making a first determination that an identifier Cp is a next one of the identifiers C1 . . . Cn after the identifier Cm to have a player-identifier assignment-restriction; responsive to making the first determination, (i) determining that the identifier Cp is restricted to being assigned an identifier Py from the identifiers P1 . . . Px, and (ii) matching with each identifier Cm+1 . . . Cp in reverse order a respective one of the identifiers P1 . . . Px selected in a reverse ordered and looping fashion starting with the identifier Py; making a second determination that the identifier Cm+1 has been matched with the player identifier Pz; and responsive to making the second determination, causing an alert to be output.
US09661367B2
Methods and systems for message notification are described. A video message is received from a source access device. A selection of a target user may be received for the video message. A message notification of availability of the video message for a target access device associated with the target user may be provided.
US09661366B2
A hospitality media system includes a media system controller and a plurality of media devices located in a plurality of rooms and coupled to the media system controller. Each room has one or more in-room media devices located therein for performing a media function. A connection port allows a user of a room to establish data communications between the media system controller and a guest device. The media system controller is coupled to the connection port and configured to catalog guest content available on the guest device to thereby form a guest content list, associate the guest content with one or more associated rooms at least including the user's room, and perform the media function utilizing content selected from the guest content list only on the in-room media devices located within the one or more associated rooms.
US09661364B2
An exemplary method includes a media content presentation system dynamically maintaining a list of recommended media content programs for a user and available by way of a media content access device during a media content presentation session, detecting a channel surfing command provided by the user during the media content presentation session, and directing, in response to the channel surfing command, the media content access device to switch to a channel presenting a recommended media content program included in the list of recommended media content programs. Corresponding methods and systems are also disclosed.
US09661360B2
Systems and methods for evaluating online videos. One method includes receiving a URL; determining a URL type; detecting whether the URL includes one or more videos; determining at least one of a size of the video, a position of the video on a web page of the web page URL, whether the video is set to autoplay, and whether the video is set to mute; computing a score based on one or more of the size of the video, the position of the video on the web page of the web page URL, whether the video is set to autoplay, and whether the video is set to mute; obtaining at least two frames of at least part of the video, wherein each frame is obtained at one or more predetermined intervals during playback of the video; and classifying each detected video based on the at least two frames.
US09661351B2
A method for delivering video over a network includes encoding, by a server, a sequence of video frames as a compressed video stream comprising an initial I-frame followed by a plurality P-frames, the sequence having a skipped frame which is not encoded. The compressed video stream is transmitted over a network to a client device, the skipped frame not being transmitted. In response to detecting the skipped frame, the client device generating a predicted frame that replaces the skipped frame in the compressed video stream, the predicted frame being generated based on extending delta information from one or more previous frames decoded by the client device.
US09661345B2
Provided is a method and apparatus for performing intra-prediction using an adaptive filter. The method for performing intra-prediction includes the steps of: determining whether or not to apply a first filter for a reference pixel value on the basis of information of a neighboring block of a current block; applying the first filter for the reference pixel value when it is determined to apply the first filter; performing intra-prediction on the current block on the basis of the reference pixel value; determining whether or not to apply a second filter for a prediction value according to each prediction mode of the current block, which is predicted by the intra-prediction performance on the basis of the information of the neighboring block; and applying the second filter for the prediction value according to each prediction mode of the current block when it is determined to apply the second filter.
US09661344B2
A method for decoding an image, the method including extracting an intra prediction mode of a current block, determining a number of neighboring pixels located on a left side of the current block or an upper side of the current block, and determining a location of one or more neighboring pixels, the intra prediction mode indicating a particular direction among a plurality of directions, the particular direction being indicated by using one of a dx number in a horizontal direction and a fixed number in a vertical direction, and the location of the one or more neighboring pixels being determined based on a shift operation.
US09661338B2
In one example, an apparatus for encoding video data includes a video encoder configured to scan a two-dimensional block of transform coefficients to produce a one-dimensional vector of the transform coefficients, determine values indicative of whether the transform coefficients in the one-dimensional vector are significant; and entropy encode at least one of the values using a context model selected based on at least a percentage of significant coefficients in a predetermined number of the values encoded before the at least one of the values.
US09661319B2
An embodiment contemplates a method of calibrating multiple image capture devices of a vehicle. A plurality of image capture devices having different poses are provided. At least one of the plurality of image capture devices is identified as a reference device. An image of a patterned display exterior of the vehicle is captured by the plurality of image capture devices. The vehicle traverses across the patterned display to capture images at various instances of time. A processor identifies common landmarks of the patterned display between each of the images captured by the plurality of image capture devices and the reference device. Images of the patterned display captured by each of the plurality of image devices are stitched using the identified common landmarks. Extrinsic parameters of each image capture device are adjusted relative to the reference device based on the stitched images for calibrating the plurality of image capture devices.
US09661318B2
In a method and apparatus for optically inspecting an FPD in a reduced time, the apparatus for inspecting the flat panel display (FPD) comprises a lighting device separated from a top surface of an object and emitting light toward the top surface of the object, a photographing device separated from the top surface of the object and photographing an image using light emitted from the lighting device and then reflected by the top surface of the object, a controller controlling the lighting device and the photographing device to move in a plane separated from and parallel to the top surface of the object, and an image processor connected to the photographing device and processing the photographed image, wherein the image processor samples some of pixels included in the photographed image and converts the sampled pixels to binary form.
US09661316B2
A multi-layered image display device for realizing a multi-layered image with a depth by overlapping a plurality of two-dimensional images includes: a display which can be selectively transparent and produce a first two-dimensional image through a combination of a plurality of pixels, a screen which is disposed behind the display so as to be overlapped in a forward-backward direction with the display; and a projector which is disposed behind the screen so as to project a second two-dimensional image on the screen. By adopting a screen and a projector instead of a rear display and a backlight unit, the cross stripes of the rear display can be removed so as to prevent the occurrence of the interference pattern (Moire phenomenon) due to the interference of different pixel patterns, and an additional diffuse layer can be omitted so that an assembling process of the multi-layer image display device can be simplified.
US09661315B2
A method for 2D/3D switchable displaying includes: real-time detecting a 3D display area; when a change of the 3D display area is detected, calculating a gradient coefficient based on a number of frame of change and a rate of the change of the 3D display area; adjusting a 3D image area and a 3D grating area based on the calculated gradient coefficient; and performing a stereoscopic display by the adjusted 3D image area and the adjusted 3D grating area. When the 3D display area starts a change and ends the change, the 3D display area gradually is switched to be 2D display and switched to be 3D display respectively, so that a gradient visual effect is achieved, and the problems of viewing image jitter and 3D effect mistake caused by pixel arrangement and hardware control in the 3D display area being not synchronized can be avoided.
US09661293B1
This disclosure describes a system configured to present primary and secondary, tertiary, etc., virtual reality content to a user. Primary virtual reality content may be displayed to a user, and, responsive to the user turning his view away from the primary virtual reality content, a sensory cue is provided to the user that indicates to the user that his view is no longer directed toward the primary virtual reality content, and secondary, tertiary, etc., virtual reality content may be displayed to the user. Primary virtual reality content may resume when the user returns his view to the primary virtual reality content. Primary virtual reality content may be adjusted based on a user's interaction with the secondary, tertiary, etc., virtual reality content. Secondary, tertiary, etc., virtual reality content may be adjusted based on a user's progression through the primary virtual reality content, or interaction with the primary virtual reality content.
US09661290B2
An image processing method includes: receiving a captured image, determining block statistics which indicates image characteristics of each of a plurality of blocks by using the plurality of blocks obtained by dividing the captured image determining a shading estimation coefficient to be applied to the captured image by using the determined block statistics and an amount of infrared light included in a light source, and correcting shading of the captured image by using the determined shading estimation coefficient.
US09661288B2
A projection display system includes a projector to project an image onto a projection surface, and a remote controller to control the projector. The remote controller includes a first sensor to measure a current value of horizontal distance to the projection surface, a second sensor to measure a current value of vertical distance to the projection surface, and a processor to obtain, from a memory, preset values of horizontal distance and vertical distance corresponding to a screen size selected by a user, and to control a display to display a screen including the obtained preset values of horizontal distance and vertical distance, the current value of horizontal distance measured by the first sensor, and the current value of vertical distance measured by the second sensor.
US09661287B2
A device for projecting images from a video generating device such as a computer, television receiver, or similar device onto a screen or other surface is described in this invention. The device uses a rotating disk containing numerous lenses to direct a light beam from a laser or other light source towards the screen. In one embodiment, a pulsed laser light from red, green, and blue lasers are combined into a single light pulse that is transmitted through the rotating disk that transmit each light pulse to a specific location on the screen.
US09661282B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for providing local expert sessions. In one aspect, a method includes receiving a request to initiate a local expert session from a user; identifying available local experts in response to the request, wherein a local expert is a user who has registered to offer local expert sessions in a geographic location relevant to the physical location of the user; selecting an available local expert; and initiating a local expert session between the user and the selected local expert, wherein initiating the local expert session comprises providing video captured by a session accessory worn by the user to a user device for presentation to the selected local expert and establishing communication between the user and the selected local expert.
US09661271B1
Multiple display planes for participant collaboration are provided. An end of a first physical display is arranged adjacent to an end of a second physical display to define an angle. An example method includes detecting the angle, establishing, based on detecting the angle, a first physical display plane on the first physical display, a second physical display plane on the second physical display, and a plurality of virtual display planes on the first physical display and the second physical display, and presenting a different video feed of several video feeds in each of the first physical display plane, second physical display plane, and one or more virtual display planes of the plurality of virtual display planes.
US09661270B2
Improved methods, systems, and devices for managing communications are provided. A user device may display all ongoing communications so that a user can visualize the communications network or some subset thereof (e.g., a subgroup or group of users). A system may maintain the user device in an instant ready-on mode of communication with the other user devices. A user may then initiate communications with a subgroup (e.g., a pair) or group without initiating a new connection. Accordingly, a user can simultaneously and fluidly communicate at the subgroup level, at the group level, or at the inter-group level. Moreover, users can function as independent actors that can freely form and leave subgroups as well as groups.
US09661260B2
A method of capturing photographs or videos and associated metadata. The method includes capturing a photograph or video using a mobile camera device at a shooting location and encompassing a shooting area, identifying a shooting area using positional and orientational detectors of the mobile camera device and known camera properties and recording a definition of the shooting area, and sending the captured photograph or video to a server system. Either at the mobile camera device or at the server system, the presence of peer mobile devices within the shooting area is identified using positional information reported by those peer mobile devices, and the captured photograph or video is tagged with identities associated with those peer mobile devices.
US09661252B2
An image capturing device includes: an image capturing section having a plurality of pixels disposed in a matrix and configured to output a pixel signal via a first signal line connected to pixels arranged in a first direction among the plurality of pixels; a plurality of calculators including: a comparator configured to compare a magnitude of a first analog signal with a threshold value to generate a digital value according to a comparison result; an amplification section configured to amplify the first analog signal by multiplying the first analog signal by an amplification degree β (1<β<2) and output a second analog signal by executing computation according to the digital value; and a switching section configured to output one of the pixel signal and a β estimation signal as the first analog signal when a most significant bit of a first digital value sequence is computed.
US09661243B2
An imaging device and method for operating the imaging device. Some embodiments comprise a pixel array configured as rows and columns of binning pixel units, each binning pixel unit including a plurality of photosensors that generate respective charge signals in response to incident light. Each binning pixel unit is configured to selectively bin the charge from at least two of the photosensors. The pixel array may be readout in a binning-pixel-unit row by binning-pixel-unit row basis. During readout of each binning pixel unit row, each binning pixel unit in the row is operable to selectively bin at least two of the charge signals therein based on a respective one of control signals provided to each of the binning pixel units in the row. In reading out a binning pixel unit row for a given image frame, a first binning pixel unit may perform in-pixel charge domain binning while a second binning pixel unit in the row may not bin the charge from the different photosensors therein. The respective control signals may be provided as a reset control signal coupled to the binning pixel units via respective vertical reset control lines, each of which is coupled to all of the binning pixel units in a respective column of binning pixel units, each reset control signal being operable to cause potential level resetting of a charge storage region in the binning pixel cell.
US09661231B2
An imaging device includes a communication circuit that transmits an image data to an external display device, and an image sensor. The imaging device also includes an outer case in which the image sensor is disposed, and a coupling a coupling portion disposed at a rear side of the imaging device, where the rear side is opposite side from an light incident side of the image sensor. A large-diameter portion and an inclined portion are provided in the outer case, in a manner that the diameter of the inclined portion is reduced according to approach from the large-diameter portion to the rear side, and an image taking button is disposed on an outer peripheral surface of the large-diameter portion.
US09661224B2
This image pickup apparatus detects a shake and performs feedback control. A LPF and a subtracting unit divide a detection signal into low-frequency components and high-frequency components. An output of the LPF for integrating the high-frequency components and the LPF for integrating the low-frequency components are combined in an adding unit to output the result as the target position of the correcting lens. A HPF removes the low-pass components of the shake amount applied to the image pickup apparatus. A control switching determination unit switches a first control mode for performing an image shake correction by a signal produced by frequency dividing a signal after processing signal with the HPF, and a second control mode for performing the image shake correction by a signal that is generated by subtracting a fixed offset amount calculated with the HPF based on the shake signal and dividing the result into the frequency components.
US09661218B2
A method produces an improved high resolution image. This method includes capturing low resolution images and a high resolution image and combining the low resolution images to provide an aggregate low resolution image. The method further includes reducing the resolution of the high resolution image to provide an image representative of a low resolution image at a low resolution setting of the image capture device; interpolating the representative low resolution image to provide an interpolated high resolution image; and calculating a residual image from the high resolution image and the interpolated high resolution image. The method also includes combining the representative low resolution image and the aggregate low resolution image to provide a final low resolution image and using the final low resolution image and the residual image to provide the improved high resolution image.
US09661209B2
A system for remotely controlling a camera is disclosed. The system includes five major subsystems; a first subsystem collocated with the camera; a second subsystem which serves as a gateway between the camera and the third subsystem; a third subsystem to remotely monitor the studio and control the camera; a fourth subsystem located at the destination of the video stream; and a fifth subsystem to receive and re-transmit a video control stream. This system allows the camera to be monitored and controlled by one location, while the primary video stream is transmitted to a different location. In some embodiments, the control video stream is a lower bandwidth signal than the primary video stream. Furthermore, the fifth subsystem is capable of receiving and re-transmitting control video streams from a plurality of cameras simultaneously. The second subsystem allows remote access to the first subsystem, such as via the third subsystem, based on approved credentials.
US09661205B2
Embodiments of the invention relate to a method and apparatus for imaging. Specific embodiments can incorporate an imaging module having at least one first imager, where each first imager images a corresponding at least one first portion of a θ° field of view about a reference point, such that the at least one first imager images the θ° field of view. In a specific embodiment θ is at least 90°. The imaging module can also incorporate at least one second imager, where each second imager images a corresponding at least one second portion of the θ° field of view about the reference point, and one or more of the at least one first imager has a different magnification than one or more of the at least one second imager. Embodiments can allow imaging of a θ° field of view about a reference point with imagers having at least two different magnifications.
US09661199B2
There is provided an imaging apparatus including: a lens group including one or more lens elements; and an image sensor having a light-receiving surface onto which an image of an object is formed by the lens group. The light-receiving surface of the image sensor is curved concavely toward the lens group. A distance from a lens surface closest to the light-receiving surface of the lens group to the light-receiving surface is a half or more of a distance from a lens surface closest to the object of the lens group to the light-receiving surface.
US09661198B2
A voice coil motor displacement sensor and a voice coil motor controller that uses said sensor. The sensor configured to apply an alternating measurement signal at a predetermined frequency to a voice coil motor, the sensor configured to use a measure of a voltage across and a current through the voice coil motor to determine its impedance at the predetermined frequency and determine an estimated displacement of said voice coil motor using said impedance and a predetermined displacement-impedance function.
US09661193B2
An imaging apparatus includes a lens optical system including a lens, a stop, and first through nth divided optical elements in which first through nth optical regions are defined, respectively, along a plane perpendicular to an optical axis and positioned to be point-symmetric with respect to the optical axis, an image sensor, and a microlens array guiding light that has passed through the first through nth optical regions to the first through nth pixels of the image sensor, respectively. At least three of s1, . . . , and Sn are mutually different and a relation of si≧si+1 is satisfied, where s1, . . . , and sn represent mean luminances of images obtained from the first through nth pixels, respectively. The first optical region and the nth optical region are positioned not to be point-symmetric to each other with respect to the optical axis.
US09661181B2
An image processing apparatus has a data acquisition unit that acquires first multi-valued data for a first ink that is not black ink and second multi-valued data for a second ink that is black ink; a threshold value acquisition unit that acquires a threshold value from a threshold value matrix; an offsetting unit that offsets at least one of the threshold value and the second multi-valued data; and a generating unit that generates first quantized data for the first ink by comparing the first multi-valued data and the threshold value, and generate second quantized data for the second ink by comparing the second multi-valued data and the threshold value with offset by the offsetting unit. Dispersibility of dots printed at positions corresponding to threshold values from a minimum value to a predetermined value is higher than that corresponding to threshold values except from the minimum value to the predetermined value.
US09661175B2
An adaptive scanning device, used to meet requirements for scanning and recognizing different scanned media and to save time and scanning costs. The adaptive scanning device in an embodiment of the present invention includes: a left side plate, a right side plate, an extension spring, an upper floating channel assembly, an image scanning tube B, a lower channel plate, a card information reading assembly, a document information reading assembly, friction wheels and a shaft sleeve. The upper floating channel assembly specifically includes: an image scanning tube A, an upper channel plate, an upper channel fixed shaft and fixed bearings.
US09661171B2
An information processing apparatus connectable to a device includes: an acquiring unit to acquire, from the device, a display request including destination information indicating a country or an area where the device is used and indicating information for requesting an application list screen for providing an application; a specifying unit to specify, based on application compatibility information in which application identification information identifying an application available for the device is associated with the destination information, the application identification information associated with the destination information included in the display request; and a first transmitting unit to transmit, to the device, the application list screen for providing the application identified by the application identification information. The device includes: a second transmitting unit to transmit the display request to the apparatus; a receiving unit to receive the application list screen from the apparatus; and a display controller to display the application list screen.
US09661169B2
An electric power supplying device includes a main power supply that supplies electric power to each component of an apparatus, an auxiliary power supply that supplies electric power to an assisted component in the apparatus, the assisted component requiring power supply during start-up time of the apparatus and having a whose start-up time being equal to or longer than a predetermined period of time, a discharging control circuit that controls the auxiliary power supply to cause the auxiliary power supply to output a voltage, the output voltage being lower than a voltage output by the main power supply and being equal to or more than a lower limit voltage of a voltage range that the assisted component is operable, and a power supply prevention circuit that prevents the auxiliary power supply from supplying power to a component other than the assisted component in the apparatus.
US09661167B2
A communication controller controls non-contact communication with an external device via an antenna while at least one of first and second power is supplied. A first circuit electrically connects a first power supply to a communication node. A second circuit electrically connects a second power supply to the communication node. The first circuit includes a first electrical component configured to prevent second power from being supplied to a particular target electrically connected to the first power supply while the second power is supplied to the communication node. The communication controller communicates with the communication node in a certain data communication method while the second power is supplied to the communication node. In response to reception of electric power from the external device via the antenna, the second power supply supplies the second power to the communication controller, and supplies the second power to the communication node through the second circuit.
US09661166B2
An image processing apparatus includes a color component image generator for extracting a particular color component from an input image to generate a color component image, an expanded-color-component image generator for expanding particular pixels in the color component image to generate an expanded-color-component image, an edge pixel extractor for extracting edge pixels from the expanded-color-component image, and a document region detector for detecting a document region from the edge pixels.
US09661158B2
An image forming apparatus includes an image reading section, a storage section, a communication section, an acceptance section, and an operation control section. The storage section has a plurality of storage regions at least one of which is associated one-to-one with one or more digital signage devices. The operation control section is configured to, when the acceptance section accepts a delivery instruction, allow the image reading section to read an original document and generate image data from the read original document, allow the storage section to store the image data generated by the image reading section in the one or more respective storage regions associated with the one or more digital signage devices designated in the delivery instruction, and allow the communication section to send the image data stored in the one or more associated storage regions to the one or more respective digital signage devices.
US09661155B2
An image forming apparatus includes: an error detector detecting an error occurring in the image forming apparatus; a storage storing pieces of error handling information and test modes in association with each other, each of the pieces of error handling information indicating a method of error handling for each of errors occurring in the image forming apparatus, the test modes to be executed during the error handling; and an error controller reads, from the storage, the piece of error handling information and one or more of the test modes corresponding to an error detected by the error detector, generates an error handling screen including the read piece of error handling information and a transition button for transition to a test mode list screen for displaying a list of the read one or more of the test modes, and displays the generated error handling screen on a display.
US09661152B2
A policy decision method is provided, including receiving, by a policy and charging rules function (PCRF) device, a first user policy request for a first user sent by a gateway device, determining, by the PCRF device, that the first user and a second user share a usage quota, and the second user is an owner user of the usage quota, acquiring, by the PCRF device, a current second user counter status of a second user counter of the second user, and generating, by the PCRF device, a first user control policy according to the current second user counter status and sending the first user control policy to the gateway device. The present invention can implement sharing of accumulated data among users, reduces processing pressure of the charging system, and decreases a performance loss of the charging system.
US09661151B2
Embodiments of the present invention provide a method, an apparatus, and a system for determining a policy and charging rule function entity. The method includes: receiving, by a first PCRF, a first request message transmitted by a first routing agent device, where the first request message carries an IP address of a user; inquiring a pre-stored corresponding relationship between the IP address of the user and an identity of a PCRF currently serving the user according to the IP address of the user, and determining an identity of a second PCRF currently serving the user; and transmitting a message carrying the identity of the second PCRF to the first routing agent device. The method realizes that session information of the same user can be routed to the same PCRF when a biplane DRA is under a multi-PCRF networking, and provides reliable DRA signaling network networking.
US09661146B2
Described are systems and methods for operating a plurality of communication devices configured to be associated with a user group. Each communication device of the plurality of communication devices may be configured to communicate with one or more servers both as an individual communication device with an individual unique identifier assigned thereto and as the user group with a group unique identifier assigned thereto.
US09661142B2
An approach is provided for supporting multi-media conferencing. Textual information (e.g., text associated with a presentation) is received for display during a conference session to multiple participants. For a particular participant, configuration information corresponding to the participant specifies language assistance for the textual information. Language assistance involves augmenting the textual information according to the configuration information for comprehension of the textual information by the particular participant. In one embodiment, the augmented textual information includes language translation of the textual information. Additionally, the augmented textual information can encompass definitions of terms, including acronyms. The augmented textual information is forwarded for display to the participant during the conference session.
US09661134B2
A method and system for precise position determination of general Internet Protocol (IP) network-connected devices. A method enables use of remote intelligence located at strategic network points to distribute relevant assistance data to IP devices with embedded receivers. Assistance is tailored to provide physical timing, frequency and real time signal status data using general broadband communication protocols. Relevant assistance data enables several complementary forms of signal processing gain critical to acquire and measure weakened or distorted in-building Global Navigation Satellite Services (GNSS) signals and to ultimately extract corresponding pseudo-range time components. A method to assemble sets of GNSS measurements that are observed over long periods of time while using standard satellite navigation methods, and once compiled, convert using standard methods each pseudo-range into usable path distances used to calculate a precise geographic position to a known degree of accuracy.
US09661124B2
There is provided a communication device including a display control unit configured to, in a case where information on a plurality of parameters is provided, use the provided information and control display of a screen for deciding values of the plurality of parameters, the plurality of parameters each indicating user's request with respect to a radio communication service and depending on each other, and an acquisition unit configured to acquire the decided values of the plurality of parameters. The acquired values of the plurality of parameters are used for changing control of the radio communication service.
US09661116B1
The present disclosure relates to a semiautomatic slide case for a mobile phone, which is capable of being semi-automatically slid by applying a slidable hook to a card-receptible mobile phone slide case to open and close a card receiving space.
US09661115B2
A device arrangement may include an inner casing. The inner casing may include an inner casing base and an inner casing cover defining a cavity therebetween. The cavity may receive an electronic device. The inner casing base may have a first viewing window. A window pane may be composed of a transparent material and be attached to at least one of the electronic device and the inner casing. The window pane may at least partially seal the first viewing window. An outer casing may at least partially encase the inner casing. The inner casing may be mounted on the outer casing via a suspension/damping device.
US09661112B2
An improved system and method for network switching that provides the ability to automatically and seamlessly migrate policies for network hosts under certain conditions to local or remote switch ports. The improved switch automatically migrates switch policies for virtual and physical hosts from a source port to a destination port when hosts have been physically moved or replaced. For elements that have failed, the improved switch also migrates host network policies for both physical hosts and virtual machines when the old host network policy will maintain serviceability of the element when applied to the new port.
US09661107B2
A data transmitting apparatus includes a packet generator which generates a plurality of packets regarding multi-channel audio sample data and transmitter which transmits the plurality of generated packets to a data receiving apparatus. Each of the plurality of packets includes an identifier field to distinguish a position or an order of the packets.
US09661102B2
A data sharing system includes at least one first client device, at least one second client device, and a hub equipment. The at least one first client device provides data. The at least one second client device receives data. The hub equipment receives data from the first client device using a first transmission protocol, and transmits the received data to the second client device using a second transmission protocol.
US09661101B2
A transmitting terminal can transmit a content held by itself to a specific receiving terminal having no email software as if using a mailer. The transmitting terminal (10) and the receiving terminal (20) are connected to a delivery server (30) via a network (4). The delivery server (30) comprises: a database (36) for registering the device ID that specifies the receiving terminal (20); a content storage (39) for temporarily storing a content transmitted from the transmitting terminal (10); and table (33, 37) for managing contents separately on a per device ID basis of the receiving terminal. The delivery server (30), when receiving a request from the receiving terminal (20), refers to the tables (33, 27) and transmits to the receiving terminal (20) a content, the transmission destination of which corresponds to the device ID of the receiving terminal (20).
US09661095B2
A content management system, in which a server apparatus communicates with a plurality of client apparatuses via a network, includes a first client apparatus including a selection unit for selecting content to be uploaded, an editing unit for editing the content, a storage unit for associating and storing the content and editing information about the content, and an upload unit for uploading the content and the editing information to the server apparatus. The server apparatus includes a content receiving unit for receiving the content from the first client apparatus, an acquisition unit for acquiring the editing information from the apparatus, and a transmission unit for transmitting information about the content and the editing information to a second client apparatus. The second client apparatus includes a display unit for displaying the information about the content and for selectively displaying predetermined information based on the editing information.
US09661094B2
Described herein is a method and system for distributing request and responses across a multi-core system. Each core executes a packet engine that further processes data packets allocated to that core. A flow distributor executing within the multi-core system forwards client requests to a packet engine on a core that is selected based on a value generated when a hash is applied to a tuple comprising a client IP address, a client port, a server IP address and a server port identified in the request. The packet engine selects a first IP address and a first port of the core, and determines whether a hash of a tuple comprising those values identifies the selected core. A modification is then made to the client request so that the client request includes a tuple comprising the first IP address, the server IP address, the first port and the server port.
US09661093B2
Methods, systems, and instructions for remotely controlling devices using device control profiles are described herein. The device control profile may include resetting configuration data in a remote device, arming and disarming failsafes on remote devices, or enabling and disabling connection monitoring links to maintain an active connection between remote devices.
US09661089B2
A user creates an event in a social networking system specifying a location, a time, and a guest list of other users invited to the event. The social networking system generates a page associated with the event that provides information about the event and identifies whether users have responded to invitations to the event. The content of the page may be customized for the user viewing the page to encourage the viewing user to attend the event. For example, the viewing user's relationship to and/or similar characteristics with other users on the guest list is determined and used by the social networking system to identify the users whose responses to invitations are shown to the viewing user via the page. Additionally, a notification method more prominently distributes acceptances of invitations to other users to encourage attendance.
US09661087B1
Systems and methods are provided for notifying a user regarding early consumption of a popular content item. In one or more aspects, a system includes an identification component configured to identify a user that was among a first X percentage of users to access a content item that is ranked as a popular content item based in part on total number of times the content item was previously accessed, a notification generation component configured to generate a notification identifying the user as being among the first X percentage of users to access the popular content item, and a notification posting component configured to send the notification to a device or an account of the user.
US09661084B2
A representative sample of an online social network is formed by performing a deterministic process that coalesces to indicate success. A random value is selected for seeding the process. Based on the random value, the process is executed and once the process coalesces, a proper sampling of the online social network results.
US09661078B1
Described are techniques for managing a federated namespace of a data storage system federation. A node identifier is assigned to a node. The node identifier uniquely identifies the node in the data storage system federation and is included in a federated node identifier namespace. A portion of a federated target port identifier namespace may be associated with the node identifier. The portion may include target port identifiers reserved from the federated target port identifier namespace for the node. Data storage management information for the data storage system federation may be updated to indicate that the node identifier is allocated from the federated node identifier namespace and that the portion of the federated target port identifier namespace is assigned to the node identifier.
US09661076B2
In one embodiment, a first computing device receives a first user input selecting a set of multimedia objects stored on the first computing device, and initiates upload of the set of multimedia objects to a second computing device. While the upload is in progress, a second user input is concurrently received selecting a subset of the set of multimedia objects, and a third user input is concurrently received comprising metadata, and the metadata is associated with one or more multimedia objects from the subset of multimedia objects.
US09661069B2
A system and method of decreasing server loads and, more particularly, to decrease server load by automatically determining subgroups based on object interactions and computational expenditures. The system includes a plurality of servers; a subgroup optimization module configured to segment a plurality of objects into optimal subgroups; and a server transfer module configured to apportion one or more of the optimal subgroups between the plurality of servers based on a load of each of the plurality of servers. The method includes determining a relationship amongst a plurality of objects; segmenting the objects into optimized subgroups based on the relationships; and apportioning the optimized subgroups amongst a plurality of servers based on server load.
US09661063B2
A system, device and method are provided for merging information from a plurality of network sources using a mobile device capable. The mobile device receives data of a first type from a first network source, then merges the received data with data of a different type stored at the mobile device to create a merged data set, the merging including matching an identifier associated with the received data against an identifier associated with the stored data. The merged data set is then merged with a data record at a different network source, this merging including matching an identifier associated with the merged data set against an identifier associated with the data record.
US09661051B2
Video streaming applications are a major contributor to the recent dramatic rise of data traffic in cellular networks. Mobile users in a cellular network often experience fluctuating data rates, which might affect the quality of video they view in a streaming service. Although replacing such video streaming services with video downloading/renting services could potentially allow such mobile users to enjoy consistently higher quality videos, such services typically cost a lot more than video streaming services because of legal copyright pricing and management issues. By downloading enhancement layers but streaming base layers of the content, mobile users can enjoy download-quality videos with a service (legally) classified as a streaming service.
US09661045B2
A system and methods for providing dynamic transcoder rate adaption for an adaptive bit streaming function is described. In a first embodiment, a client may select from all available bit rates during the encoding session, wherein the bit rates are provided to the client via a manifest file from a media gateway. In a second embodiment, a subset of the bit rates are provided to the client, from which a client chooses a selected bit rate. The encoding session continues until a request for a new bit rate is received from the client, at which time a new subset of bit rates are generated. This new subset of bit rates is presented to the client, and this loop continues until the termination of the encoding session.
US09661042B2
A data process apparatus for sharing shared data among plural data process apparatuses participating in an event. The data process apparatus includes a participation notification reception unit configured to receive a participation notification from each of the plural data process apparatus including first and second data process apparatuses in the event, a notifying unit configured to notify the second data process apparatus to the first data process apparatus as a data obtain target from which the shared data is to be obtained. The second data process apparatus is a data process apparatus from which the participation notification has already been received by the participation notification reception unit.
US09661039B2
Systems and methods for presenting recommendations for resources to be used by members in learning about and/or acquiring a skill are described. In some example embodiments, the systems and methods receive information associated with a skill from a member of a social network, identify members of the social network that are associated with the skill, receive information from the identified members of the social network that identifies one or more resources associated with the skill, and generate a list of recommended resources that is based on the information received from the identified members of the social network.
US09661034B2
A method is presented comprising transmitting, from an application computer communicably connected to a call controller which is connected to a data network, packetized messages indicative of telephone calls in progress at an endpoint of the data network, or indicative of such endpoint, and transmitting, from the call controller to the application computer, packetized messages indicative of a variety of information contained in, or relevant to, the telephone calls so as to process such information for a variety of applications. Apparatus to implement the method is also presented.
US09661030B2
Embodiments of the present disclosure include methods and systems of building an IP multimedia session without the use of a central server and switching IP multimedia session among devices. The method of building an IP multimedia session includes receiving a registering request from a plurality of IP multimedia session participant devices, electing a service device from the plurality of participant devices, and building IP multimedia session among the plurality of participant devices by using the elected service device.
US09661029B2
A method and apparatus for generating a topology for wireless peer-to-peer (P2P) networks. A network architecture comprises a traffic optimization service including a traffic optimization server and an adaptor to effect bi-directional translation of a request-response protocol of the traffic optimization service and a signaling protocol of a multimedia network. The traffic optimization server stores information related to wireless communication systems comprising user/location id information including cache proxies, media gateways, and network peers of multiple access networks and cost metric information including maximum bit rate, guaranteed bit rate, storage capacity, CPU capabilities, number of clients serving, battery capabilities, reliability of path, and supported video/audio codec.
US09661023B1
A computer-implemented method for dynamically adjusting server settings is described. In one embodiment, at least one parameter of a status of a server that diverges from a corresponding baseline setting of a policy maintained by the server may be identified. An adjustment to the baseline setting of the policy may be calculated based at least in part on the divergent parameter. The baseline setting of the policy may be adjusted according to the calculated adjustment. A command may be issued to send data representative of the adjusted baseline setting of the policy from the server to a client to update a user profile.
US09661016B2
A system is disclosed for enhancing detection of a security threat to a managed infrastructure device operating within a data center. The system may have a data center infrastructure management (DCIM) system for monitoring operation of the managed infrastructure device. The DCIM system may include a remote access appliance for communicating with the managed infrastructure device. The managed infrastructure device may include an on-board computer. The remote access appliance may include an engine configured to detect if information to be communicated to the on-board computer poses a security threat to the managed infrastructure device.
US09661014B2
A system and method for dynamically scanning one or more features on a Website. The system allows detecting of stored scripting errors, where an attack or injection occurs on a page or feature that results in executing malicious code by another page or feature. The system uses stored test identities and allows testing reuse.
US09661008B2
A network monitoring apparatus includes a log collecting unit and a log analyzing unit. The log collecting unit collects log information related to passing packets from at least one of a FW and a proxy server, which are included in a network, for packets transferred in the network. The log analyzing unit extracts log information satisfying a predetermined condition in a predetermined time period by analyzing, over time, the log information collected by the log collecting unit.
US09661006B2
Methods and systems for mitigating cyber attacks on components of an automotive communication system are disclosed. These methods and systems comprise elements of hardware and software for receiving a frame; determining whether the frame potentially affects correct operation of an automotive component; and, taking protective action.
US09660987B2
Techniques are described for logically isolating data I/O requests from different operating systems (OSes) for a same multi-tenant storage system (MTSS). Techniques provide for OSes and the MTSS to obtain security tokens associated with the OSes. In an embodiment, an OS uses a security token to generate an authentication token based on the contents of a data input/output (I/O) request and sends the authentication token to the MTSS along with the data I/O request. When an MTSS receives such data I/O request, MTSS retrieves its own copy of the security token associated with the OS and generates its own authentication token based on the contents of the received data I/O request. If the authentication token generated by the MTSS matches the authentication token generated by the OS, then the data I/O request is successfully authenticated. Otherwise, if the authorization tokens fail to match, then the data I/O request has been compromised. For example, either the contents of data I/O request has been tampered with, or an entity other than the OS, has sent the data I/O request in the first place. Accordingly, the data I/O request may not be serviced by the MTSS.
US09660982B2
Disclosed are various embodiments for management functions relating to security credentials. Account data, which includes multiple security credentials for multiple network sites for a user, is stored in an encrypted form. A request to temporarily change the account data is obtained from a client. The request specifies a master security credential for accessing the account data. In response to the request, the multiple security credentials for the account data are changed to a single temporary security credential, as specified by a user. After an expiration period expires, the multiple security credentials are automatically reset to a plurality of different security credentials.
US09660978B1
In a general aspect, a digital certificate can be used with multiple cryptography systems (“cryptosystems”). In some cases, the digital certificate includes a public key field, which contains a first public key of an entity. The first public key of the entity is associated with a first cryptosystem. The digital certificate includes a signature value field, which contains a first digital signature of a certificate authority. The first digital signature is associated with the first cryptosystem. The digital certificate includes an extension. The extension contains a second public key of the entity, a second digital signature of the certificate authority or both. The second public key is associated with a second cryptosystem, and the second digital signature is associated with the second cryptosystem.
US09660972B1
A credential, such as a password, for an entity is used to generate multiple keys. The generated keys are distributed to credential verification systems to enable the credential verification systems to perform authentication operations. The keys are generated such that access to a generated key allows for authentication with a proper subset of the credential verification systems. Thus, unauthorized access to information used by one authentication system does not, by itself, allow for successful authentication with other authentication systems.
US09660969B2
An approach is provided for key management for data encryption. A key management platform receives a request from at least one client for one or more private keys for decrypting one or more datasets. The one or more private keys are encrypted in at least one key repository associated with at least one server. The key management platform also causes, at least in part, an authentication of the request using one or more secure credentials of the at least one client, the at least one server, or a combination thereof. The key management platform further causes, at least in part, an authorization of the at least one client to determine whether the at least one client is authorized to access the one or more private keys based on the authentication. The key management platform further causes, at least in part, a decryption of the one or more private keys using at least one master key based on the authorization.
US09660964B2
Communications router for anonymously routing messages between a source communication device (200) and respondent communication devices (213,214,215,2116,217,218). A source storage means (203) is provided for storing the communication identifiers for the source communication device (200) and a predetermined subject identifier for designating messages associated therewith. A respondent storage means (203) is provided for storing the communication identifiers for each respondent communication device (213,214,215,2116,217,218), along with a unique tag identifier assigned thereto. A first message handler (202,204,205,206) selects received messages from the respondent communication devices (213,214,215,2116,217,218), attaches the appropriate tag identifier, and transmits the message to the source communication device (200). A second message handler (202,201) receives messages from the source communication device (200) and transmits them to the appropriate respondent communication devices (213,214,215,2116,217,218) based on the predetermined subject identifier and the tag identifier contained in the message.
US09660963B2
Adaptive encryption optimization is disclosed. A first secure tunnel is established between a device and a node. It is determined that a second secure tunnel between an application on the device and a server has been established. The second secure tunnel is established at least in part using the first secure tunnel. The first secure tunnel is removed based at least in part on the determination that the second secure tunnel has been established.
US09660960B2
Some embodiments provide reconfigurable web application firewall (WAF) functionality across a distributed platform. Specifically, the WAF function at each distributed platform server is customizable on a per customer and per inbound message basis. When a server receives an inbound message, the server identities the content or services of which specific customer are implicated by the inbound message. The server screens the inbound message for attacks using a first set of rules and policies defined as part of a production profile from a WAF instance defined by the specific customer while contemporaneously testing the inbound message against a second set of rules and polices defined as part of an audit profile from the same WAF instance. In this manner, the specific customer tests the audit profile rules and policies while still receiving the protections of the production profile rules and policies.
US09660959B2
A method of interpreting a rule and a rule-interpreting apparatus for rule-based security apparatus, and an apparatus implementing the method. The method includes the following steps: designating a suspicious timeslot; if any packet does not present in the designated timeslot, capturing current incoming packets or capturing other incoming packets in the designated timeslot next time; automatically associating the packets in the designated timeslot to form at least one traffic flow corresponding to a connection or call; analyzing the at least one traffic flow to select at least one suspicious target traffic flow; and outputting the at least one selected suspicious target flow.
US09660946B2
A system and method for identifying specific locations where to attach or detach e-mail attachments based on e-mail storage locations is disclosed. The method allows to search in a mail-attachment connection table all the attachment locations that are in relation to the e-mail where the attachment is to be attached to or to be detached from and to present to a user all attachment locations that have a relevance for the attach/detach operation.
US09660931B2
A method and apparatus for receiving or transmitting a radio frequency (RF) signal are disclosed. A method for receiving a downlink signal by a user equipment (UE) in a Time Division Duplex (TDD) wireless communication system supporting Coordinated Multi-point transmission and reception (CoMP) includes: acquiring information of a time-resource region to which a downlink signal for the CoMP is transmitted, for at least one cell, and receiving a downlink signal for the CoMP signal for the CoMP on the basis of the acquired information, wherein the time-resource region information includes a length of a time region contained in a specific subframe to which the downlink signal for the CoMP is transmitted.
US09660924B2
Packets from a first network entity to a second network entity are received. A maximal size of packets from the second network entity to the first network entity is determined based on information in the received packets.
US09660923B2
Controls electronic devices and/or throttles electronic devices and/or information for electronic devices based on agreements or events and/or based on schedule, location, time, or any combination thereof. An agreement includes condition(s) to satisfy the agreement, such as task(s) or activities to be performed by an agreement performer, for example based on a schedule and/or location, at a particular time, or time period, or, or events that may be detected, and actions performed to enforce or assert the agreement. Actions may include controlling the electronic device and/or at least partially enabling/disabling or otherwise limiting, reducing or increasing the amount or type of information allowed with respect to any or all electronic devices associated with the agreement performer. Embodiments may reduce or block information from particular sources during a scheduled school class to limit web surfing for information related to that class based on a schedule and/or location of the electronic device.
US09660909B2
A method for load balancing based on metadata in a network service header. The method includes receiving a packet or frame of a traffic flow, wherein the packet or frame has a payload and the network service header including metadata and service path information for the traffic flow identifying the service path, and the metadata comprises classification information of the packet or frame, extracting, by a service header processor of the load balancer, the classification information of the metadata from the packet or frame, and applying, by a load balancing function of the load balancer, a load balancing policy on the packet or frame based on the classification information of the metadata.
US09660904B2
A method for inserting an OpenFlow flow entry into a flow table is disclosed. In the embodiment, the method involves receiving a flow mod message at an OpenFlow-enabled switch, the flow mod message including a cookie field, decoding an OpenFlow flow entry from the flow mod message, identifying a flow table from the cookie field, and inserting the decoded flow entry into the flow table.
US09660898B2
In one example, a method includes exchanging, by a first routing device and with a second routing device, targeted hello messages using a Protocol Independent Multicast (PIM) protocol to establish a targeted neighbor connection between the first routing device and the second routing device, wherein the first routing device exchanges the targeted hello messages with the second routing device via at least one intermediate routing device, and wherein at least one of the first or second routing device comprises a rendezvous point (RP). The example method further includes processing, by the first routing device using the targeted neighbor connection, a register message that includes multicast stream data elements, wherein each multicast stream data element identifies a source address and a group address that are collectively associated with a respective multicast stream, and wherein each multicast stream data element further indicates whether the respective multicast stream is active or withdrawn.
US09660892B2
A system including first and second network nodes that communicate with additional nodes in first and second networks, respectively, using a shared communication channel. In response to detecting presence of the first network node, the second network node transmits a first signal to the first network node including a predetermined sequence known to both the first and second network nodes. The first network node measures a strength of the transmitted signal based on knowledge of the predetermined sequence and calculates a throughput metric (throughput referring to amount of information transmitted per second) based on the measured strength. In response to the throughput metric being less than a unification threshold, the first network node selectively transmits a unification request to the second network node. The unification request invites the second network node to coordinate operation with the first network node to reduce interference between the first network and the second network.
US09660890B2
A system and method for monitoring the performance associated with fulfilling resource requests and determining optimizations for improving such performance are provided. A processing device obtains and processes performance metric information associated with processing a request for an original resource and any embedded resource. The processing device uses the processed performance metric information to determine a set of service providers for alternatively hosting, processing, and/or transmitting at least a portion of the original resource and/or any embedded resources. In some embodiments, in making such a determination, the processing device assesses performance metric information collected and associated with subsequent resource requests for the original resource and any embedded resources using each of a variety of alternative set(s) of service providers. Aspects of systems and methods for generating recommendations associated with monitoring the operation and performance of service providers with respect to specific resource requests are also provided.
US09660883B2
A non-transitory, computer-readable recording medium stores a monitoring program that causes a computer to execute a process that includes acquiring from a server among a group of servers that are migration candidates for a monitored virtual machine, identification information of a virtual machine operating on the server; identifying classification of the virtual machine that corresponds to the acquired identification information, by referring to a storage unit that correlates and stores identification information of the monitored virtual machine and classification of the monitored virtual machine; and correlating and outputting the identified classification of the virtual machine, the identification information of the virtual machine, and identification information of the server.
US09660874B2
A device supporting content delivery is configured to run at least one content delivery (CD) service of a plurality of CD services. The plurality of CD services include delivery services with dynamically configurable log information.
US09660861B2
A method of updating operational states of a network device in a distributed resilient network interconnect (DRNI) of a link aggregation group is disclosed. The method starts with initializing the network device for link aggregation, wherein the initialization includes setting variables of the network device for a first portal as configured by administrative settings, where the first portal includes the network device and at least one neighbor network device. The method continues with determining that an operational state associated with the first portal is changed and updating a set of operational states of the network device for link aggregation in response to the operational state change, where the set of operational states of the network device for link aggregation includes an operational state of the gateway of the network device.
US09660859B1
The present disclosure provides methods, systems, and media for allowing access to quantum computers in a distributed computing environment (e.g., the cloud). Such methods and systems may provide optimization and computational services on the cloud. Methods and systems of the present disclosure may enable quantum computing to be relatively and readily scaled across various types of quantum computers and users at various locations, in some cases without the need for users to have a deep understanding of the resources, implementation or the knowledge that may be required for solving optimization problems using a quantum computer. Systems provided herein may include user interfaces that enable users to perform data analysis in a distributed computing environment while taking advantage of quantum technology in the backend.
US09660857B2
A method of facilitating communication between a resource and a computer is described. The computer employs a software application that allows the computer to communicate with the resource. The resource may comprise a medical device such as a blood glucose meter or an insulin pump. In order to facilitate communication between the computer and the resource, the software constructs a communication protocol particular to the type of resource connected to the computer. The stack comprising the communication protocol allows the computer to communicate with the resource. Once the resource and computer cease communication, the stack may be removed from the memory of the computer.
US09660856B2
A method and system of compensating for distortion in a baseband in-phase (I) and a corresponding baseband quadrature (Q) signal. The circuit includes an in-phase I attenuator configured to attenuate the baseband in-phase I signal and an in-phase Q attenuator configured to attenuate the baseband Q signal. There are one or more circuits that are configured to receive the attenuated in-phase I signal and the attenuated baseband Q signal. Each circuit performs a different calculation based on predetermined equations configured to determine the IM2, HD2@0°, HD2@90°, IM3@0°, IM3@90°, HD3@0°, and HD3@90°. The distortion compensation circuit is configured to use the result of at least one of the calculation circuits to generate I and Q distortion compensation signals.
US09660855B2
A modulation transmission technique comprises placing orthogonal subcarriers across an arbitrary-wide band of frequencies without a fixed pre-defined center frequency. Receivers demodulate only the sub-group of subcarriers in which they are to receive data. Thus a broadcast service with many audio programs could send signals across a wide band and receivers would only demodulate the audio channel that the user or users wanted to hear. This saves energy which is important for battery powered devices. A transform bandwidth smaller than the transform bandwidth of the transmitter is used that encompasses the receivers pass band, plus the 2 transition bands (upper and lower) of the linear filter. This technique maintains orthogonality between subcarriers. The subcarriers in the pass band are utilized and the subcarriers in the transition bands are discarded. The orthogonal subcarriers may include both orthogonal frequency division multiplexed and pulse amplitude modulated signals. A notch filter may be included in the receiver to remove unwanted non-orthogonal signals such as a television signal or other interference.
US09660854B2
A multiple-input multiple output (MIMO) receiver includes circuitry to receive a MIMO transmission through a plurality of antennas over a channel comprising two or more 20 MHz portions of bandwidth. The MIMO transmission comprises a plurality of streams, each transmitted over a corresponding spatial channel and configured for reception by multiple user stations. The MIMO receiver also includes circuitry to simultaneously accumulate signal information within at least two or more of the 20 MHz portions of bandwidth. Each 20 MHz portion comprises a plurality of OFDM subcarriers. The MIMO receiver also includes circuitry to demodulate at least one of the steams using receive beamforming techniques. In this way, multi-user protocol data units can be received.
US09660852B2
Communication methods and apparatuses in a wireless communication system are provided. Information relating to Orthogonal Frequency Division Multiplexing (OFDM) parameter sets supported by a Base Station (BS), from among a plurality of OFDM parameter sets, is transmitted to at least one Mobile Station (MS), from the BS, using a default OFDM parameter set. The BS selects at least one OFDM parameter set for the at least one MS, from among the OFDM parameter sets supported by the BS, based on one of a channel state and a mobility of the at least one MS. The BS performs data communication with the at least one MS through the at least one selected OFDM parameter set. Each of the plurality of OFDM parameter sets comprises parameter values representing a Cyclic Prefix (CP) length, a subcarrier spacing, and at least one of an Inverse Fast Fourier Transform (IFFT) size and Fast Fourier Transform (FFT) size. The default OFDM parameter set is determined based on subcarrier spacings of the plurality of OFDM parameter sets.
US09660851B2
A system and method of providing a modulated signal useable in a signal transmission system. The method includes transforming, perhaps with respect to both time and frequency, a data frame including a plurality of data elements into a transformed data matrix. The transformed data matrix includes a plurality of transformed data elements where each of the plurality of transformed data elements is based upon each of the plurality of data elements. The method further includes generating the modulated signal in accordance with the transformed data elements of the transformed data matrix.
US09660843B2
A system includes a decision feedback equalizer (DFE). The DFE includes a first summing node, a first synchronization latch, a second synchronization latch, a first feedback latch, and a first feedback shift register. The first summing node is coupled to a data input of the DFE. The first synchronization latch receives data from the first summing node. The second synchronization latch and the first feedback latch receive data from the first synchronization latch. The first feedback shift register is coupled to an output of the second synchronization latch or the first feedback latch. The first feedback shift register includes sequentially coupled shift latches. A first of the shift latches data received from the second synchronization latch or the first feedback latch and provides data to the first summing node. First alternate ones of the shift latches are configured to provide feedback data to the first summing node.
US09660841B2
Receiver circuitry is disclosed that can take circuit branches offline to possibly adapt an offset value. In one embodiment, a circuit in a receiver has at least two branches. Each branch includes an adjustor to adjust the branch signal by an offset value. Selection circuitry takes one of the branches offline by selecting the output of that branch as an offline value, and by selecting the output of one or more of the other branches as a data decision value. The selection circuitry changes which branch is taken offline during the operation of the circuit. When a branch is taken offline, an offset value associated with that branch may be updated, if necessary.
US09660833B2
In one embodiment, a method is provided for improving data center and endpoint network visibility and security. The method comprises detecting a communication flow of a plurality of packets over a network, and generating a flow identifier that uniquely identifies the communication flow. After determining an application associated with the communication flow, a flow record is generated. The flow record includes the flow identifier and an indication of the application associated with the communication flow. The indication of the application may be, for example, a hash of the application binary file.
US09660818B2
In a method carried out in a telecommunication network, a policy decision function provides an instruction to a policy enforcement function and/or a traffic detection function. Within the instruction, some service instances of a service are identified by the order according to which the service instances are started. The instruction also indicates: (i) a service instance level reporting rule according to which the policy enforcement function and/or traffic detection function should report, or should not report, information to the policy decision function after occurrence of an event relating to any one of the identified service instances; and/or (ii) a service instance level enforcement rule that the policy enforcement function and/or traffic detection function should enforce on a received packet relating to any one of the identified service instances. The invention also relates to network nodes and computer programs.
US09660817B2
In many information security scenarios, a certificate issued by a certificate authority may be presented to a client in order to assert a trust level of a certificated item, such as a message or a web page. However, due to a decentralized structure and incomplete coordination among certificate authorities, the presence and exploitation of security vulnerabilities to issue untrustworthy certificates may be difficult to determine, particularly for an individual client. Presented herein are techniques for advising clients of the reputations of respective certificate authorities by evaluating the certificates issued by such certificate authorities, such as the number and types of domains certified by the certificate; the number and pattern of certificates issued for the domain; and the certification techniques used to issue the certificates. Such evaluation enables a determination of a certificate authority trust level that may be distributed to the clients in a certificate authority trust set.
US09660816B2
Systems and methods for reducing problems and disadvantages associated with provisioning of information handling systems, including without limitation those associated with bare metal provisioning of information handling systems, are disclosed. A system may include a processor, and a memory and an access controller each communicatively coupled to the processor. The access controller may store an enterprise public key associated with an enterprise private key and a platform private key associated with the system. The access controller may be configured to: (i) authenticate communications received from a provisioning server communicatively coupled to the access controller based at least on an enterprise public certificate associated with the provisioning server and (ii) establish an asymmetrically cryptographic communications channel between the access controller and the provisioning server based at least on a platform public key associated with the platform private key, the platform private key, the enterprise public key, and the enterprise private key.
US09660815B2
Various embodiments are disclosed that relate to security of a computer accessory device. For example, one non-limiting embodiment provides a host computing device configured to conduct an initial portion of a mutual authentication session with an accessory device, and send information regarding the host computing device and the accessory device to a remote pairing service via a computer network. The host computing device is further configured to, in response, receive a pairing certificate from the remote pairing service, the pairing certificate being encrypted via a private key of the remote pairing service, and complete the mutual authentication with the accessory device using the pairing certificate from the remote pairing service.
US09660810B2
A method for providing secret delegation may comprise receiving a credential secret applied to an algorithm associated with a distributed application in a trusted execution environment, causing delegation of the credential secret from one communication device to at least one other communication device, and modifying the credential secret prior to transfer of a modified version of the credential secret to the at least one other communication device in a manner that enables a generation of the credential secret to be determined. An apparatus and computer program product corresponding to the method are also provided.
US09660807B2
A mechanism for certifying that an operating system-based application has authorization to change a UEFI authenticated variable held in the system firmware is discussed. Embodiments of the present invention receive with the system firmware a request from an operating system-based application to change a UEFI authenticated variable. The request includes an authentication descriptor header with a timestamp and pre-determined GUID. The request also includes a hash calculated using a password known to the firmware. The system firmware certifies that the caller has authorization to change an authenticated variable by first verifying the information in the header and then creating a new hash using the password. The new hash is compared to the received hash and must match in order for the system firmware to allow the alteration of the UEFI authenticated variable. In one embodiment, the password is the system firmware password.
US09660804B2
Methods and apparatus are provided for securing device-to-device communications. A method can comprise: at an access network apparatus, obtaining from a core network apparatus and storing a first key shared between a first user equipment and the core network apparatus for device-to-device communications of the first user equipment; receiving from a second user equipment, a request for generating a second key for a device-to-device communication between the first user equipment and the second user equipment; in response to the request, generating the second key based on the first key and security parameters; and sending the second key to the second user equipment.
US09660799B1
Techniques for enabling a rapid clock frequency transition are described. An example of a computing device includes a Central Processing Unit (CPU) that includes a core and noncore components. The computing device also includes a dual mode FIFO that processes data transactions between the core and noncore components. The computing device also includes a frequency control unit that can instruct the core to transition to a new clock frequency. During the transition to the new clock frequency, the dual mode FIFO continues to process data transactions between the core and noncore components.
US09660793B2
Techniques for presenting communication between two or more stations in a WLAN environment are provided. Specifically, methods are presented, that when taken alone or together, provide a device or group of devices with an efficient way for fast rate adaptation based on full duplex functionality, increasing link and network throughput. The present disclosure includes a method that provides a fast rate adaptation by leveraging full duplex in order to get immediate channel quality feedback.
US09660791B2
A communication apparatus and method for performing discontinuous reception in a mobile communication system is provided. The communication apparatus continues to turn on a receiver during a reception-on (Rx-on) period associated with persistent resource allocation to receives a packet, and receives a retransmission packet transmitted through the persistent resources at the Rx-on period spaced from the Rx-on period by a processing time of the retransmission packet given taking into account feedback information determined according to a reception error of the packet.
US09660783B2
The present invention according to one embodiment relates to a method for enabling a terminal to receive control information in a wireless communication system, and the method for receiving the control information comprises the step of attempting to decode a set of enhanced physical downlink control channel (EPDCCH) candidates according to each set level, wherein a minimum value among the values available as the set levels is set according to the amount of available resources for an EPDCCH within a physical resource block (PRB) pair that is attempting to decode.
US09660782B2
The present invention relates to a method and an apparatus for transceiving downlink control information (DCI) in a wireless access system. More particularly, the method comprises: a step of mapping a physical downlink control channel (PDCCH) to a common search space (CSS) defined within a physical downlink shared channel (PDSCH) region in a frequency first mapping manner; and a step of transmitting DCI to a terminal through the mapped PDCCH.
US09660776B2
Apparatus and methods implementing transmission schemes that can flexibly achieve the desired spatial multiplexing order, spatial diversity order, and channel estimation overhead order are provided. For example, an apparatus is provided that includes a processor configured to allocate different subcarriers to different antennas at different times. A memory is coupled to the processor. The processor can be further configured to map a traffic channel to a specific sequence of the different subcarriers at the different times. The processor can also be further configured to transmit the traffic channel on only one of the different subcarriers at each time in the different times. The processor can be integrated with at least one of a base station and a terminal.
US09660770B2
A data communication framing scheme of a bit stream that is divided among a plurality of discrete physical frames, each physical frame is of a definite number of symbols in duration, each symbol is associated with at least one sub-carrier in a plurality of sub-carriers, the physical frame is partitioned in time into at least an uplink zone and a downlink zone, the data framing scheme comprising a logical frame having a logical frame start position that is offset by a rational number of said symbols from a reference symbol, said reference symbol is selected from said definite number of symbols, wherein said logical frame extends in time to coincide with at least part of the duration of said physical frame and at least part of the duration of another physical frame in said plurality of discrete physical frames.
US09660768B2
A method (of operating a central node to acknowledge received messages) includes: receiving multiple data messages from multiple instances of a message-sourceable end node, respectively, each end-node-instance having an at least substantially unique identification (“ID”); and sending a dense acknowledgement message (“dense ACK”) acknowledging receipt of the data messages but not explicitly identifying any of the IDs of the corresponding end-node-instances. And a method (of operating a given instance of the end node to infer a delivery-condition at the central node of a data message sent by the given instance) including: sending a given data message including the substantially unique ID; receiving a dense ACK including a payload indicating receipt of multiple data messages but not explicitly identifying IDs of the given end-node-instance nor of other end-node-instances corresponding to the received messages, respectively; and inferring the delivery-condition based on a manipulated payload of the dense ACK.
US09660766B2
The present invention provides hierarchical modulation methods for robust symbol transmission and reception in a wireless access system, and devices supporting same. A method for transmitting a hierarchically modulated (HM) symbol in a wireless access system, according to an embodiment of the present invention, comprises the steps of: generating a first symbol; generating a second symbol; generating an HM symbol by combining the first symbol and the second symbol; and transmitting the HM symbol, wherein the first symbol can be generated by means of a spatial multiplexing (SM) technique, a beam-forming technique, or a space-time coding technique and the second symbol can be generated by means of a spatial multiplexing (SM) technique, a beam-forming technique, or a space-time coding technique.
US09660765B1
Low latency wireless communication applications require highly dynamic allocation of resources. Providing allocation information on a highly dynamic basis increases the overhead of control signaling for allocation. A technique known as blind decoding is used to reduce the control signaling overhead for allocation information. However, blind decoding may occasionally lead to invalid detection of allocation messages which in turn may lead to a number of problems such as wasted bandwidth, increased power consumption, reduced throughput, etc. A method and apparatus are disclosed that detect the invalid allocation messages by maintaining a record of previously received allocation messages and using it to check the validity of the newly received allocation messages.
US09660753B2
An optical add/drop multiplexer incorporates an integrated receiver module and an integrated transmitter which are interfaced to an intervening electrical network to provide an add/drop/pass-through functionality. The receiver module incorporates a wavelength demultiplexer which is in turn combined with optical/electrical converters PIN photodiodes, and amplifiers on a per wavelength basis to output a plurality of parallel electrical signals in response to a common optical input. The transmitter module combines an integrated plurality of drive circuits and lasers for converting a plurality of parallel input electrical signals to a plurality of optical signals, on a per wavelength basis, which in turn are coupled via an optical wavelength multiplexer to a common output optical fiber. The interconnected electrical network, ring mesh or tree, can provide a reconfigurable electrical add/drop interface to other portions of the network.
US09660741B2
One disclosure of the present specification provides a method for performing measurement. The method may comprise the steps of: receiving measurement setting information and wireless resource setting information from a serving cell; and receiving setting information for a measurement interval if a frequency band of the serving cell and a frequency band of a neighboring cell belong to different inter-bands, wherein setting information for the measurement interval may indicate a setting in which the number of downlink (DL) subframes is 1 for 5 ms if the serving cell operates with a TDD UL-DL setting of 0 or 6. The method may comprise a step of performing measurement for reference signals from the serving cell and the neighboring cell during the measurement interval.
US09660740B2
A signal strength distribution establishing method includes establishing a plurality of distribution functions corresponding to a plurality of base stations; measuring a plurality of signal strengths from the plurality of base stations on at least a measuring location in an area to obtain a plurality of signal strengths measured values; adjusting the plurality of distribution functions according to the plurality of signal strengths on the at least a measuring location; computing a plurality of signal strength estimated values corresponding to a plurality of locations within the area according to the plurality of adjusted distribution functions; and establishing a signal strength distribution map corresponding to the area according to the plurality of signal strength measured values and the plurality of signal strength estimated values.
US09660737B2
An electronic device which operates in response to multi-frequency bands is provided. The electronic device includes an antenna, a reception module configured to amplify a signal received through the antenna and distribute the amplified signal according to the multi-frequency bands, and a circuit unit configured to process signals included in the multi-frequency bands.
US09660729B2
An HFC cable communication system comprising: a CMTS having a first attenuator to attenuate one or more upstream signals applied to the CMTS; an optical link having a dynamic range and comprising an optical receiver having a second attenuator to attenuate the upstream signal(s) and an optical transmitter having a third attenuator to attenuate the upstream signal(s); a coaxial RF link comprising one or more RF amplifiers having a fourth attenuator to attenuate the upstream signal(s); and one or more subscriber modems to generate the upstream signal(s) at respective transmit RF signal levels. The CMTS implements a long loop ALC to set the transmit RF signal level(s) based on received RF signal levels of the upstream signal(s) at the CMTS. Respective values for the first, second, third and fourth attenuators are selected based on the dynamic range of the optical link so as to facilitate implementation of the long loop ALC and effective transmission of upstream information carried by the upstream signal(s).
US09660725B2
Techniques are presented herein to enable identification of light fixtures. A light fixture modulates light emitted by the light fixture with an identifier associated with the light fixture. The identifier may be encoded or encrypted before it is modulated. In one example, the identifier is a Universally Unique Identifier (UUID). A user device is positioned to detect light emitted by the light fixture. The user device demodulates the light to obtain the identifier. The identifier, time and location associated with detection of the identifier are sent to a management entity for use in provisioning the light fixture on a network.
US09660724B2
There is provided a communication apparatus including a communication unit having an optical communication scheme and a different communication scheme from the optical communication scheme, a level setting unit configured to set a security level in data communication, and a communication scheme switching unit configured to switch communication schemes of the communication unit in accordance with the security level that is set by the level setting unit.
US09660714B2
One or more embodiments provide an apparatus and a method to estimate channel information even when channel information is not accurately known and design a relay filter based on the estimated information in a two-way relay system where a terminal having a single antenna and a relay exist. A relay apparatus of a two-way relay system includes a receiver, a controller, and a transmitter. The receiver receives a signal from at least one terminal. The controller estimates a channel between the terminals based on the received signal, and calculates a receiver matrix and a precoder. The transmitter transmits a signal precoded by the precoder.
US09660713B2
The present disclosure relates to a pre-5th-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4th-Generation (4G) communication system such as Long Term Evolution (LTE).The present disclosure discloses a method for obtaining channel direction information, which includes: transmitting a first detection signal and a second detection signal in at least one detection region, wherein there is differential information between the first detection signal and the second detection signal; receiving a signal receiving characteristic of the first detection signal and a signal receiving characteristic of the second detection signal from a receiver; and adjusting channel direction information (CDI) according to the signal receiving characteristic of the first detection signal and the signal receiving characteristic of the second detection signal. The present disclosure further discloses an apparatus for obtaining channel direction information.
US09660705B2
An on-board unit includes a first antenna and a second antenna, a traffic data service communicating section corresponding to a traffic data service; a billing service communicating section corresponding to a billing service, a switch which switches a connection relation between each of the first antenna and the second antenna and the traffic data service communicating section and the billing service communicating section, a control section which controls the switch. When the operation mode is switched from the traffic data service mode to the billing service mode, the on-board unit is set to a switching communication mode in which one of the first antenna and the second antenna is connected with the traffic data service communicating section and the other is connected with the billing service communicating section.
US09660693B1
A spatio-temporal signal monitoring system includes a sampler configured to receive a radio frequency signal and obtain first compressive sensing measurements of said received signal at a first resolution level, and a signal detector configured to identify at least one signal of interest based on said first compressive sensing measurements and perform second compressive sensing measurements on said at least one signal of interest at a second resolution level, said second resolution level being higher than said first resolution level. The received signal may be analyzed as an array or image having two or more dimensions, based on frequency and on at least one other parameter, such as angle-of arrival, and may be analyzed at a higher level of resolution at the frequencies and angles corresponding to a signal of interest (SOI). Estimates of the frequency and/or the at least one other parameter may be generated by the system. The system may be used to monitor a wideband RF spectrum and/or track signals, such as frequency-hopping signals.
US09660688B2
Apparatus and methods for power amplifier output matching is provided. In certain configurations, an output matching circuit includes a supply voltage biasing circuit electrically connected between an input node and a power high supply voltage, a second-order harmonic series resonant circuit electrically connected between the input node and a power low supply voltage, a third-order harmonic parallel resonant circuit electrically connected between the input node and a harmonic frequency grounding node, a third-order harmonic series resonant circuit electrically connected between the harmonic frequency grounding node and the power low supply voltage, and a DC blocking capacitor electrically connected between the harmonic frequency grounding node and an output node.
US09660685B1
An electronic device and a key module are provided. The electronic device includes a case, a key plate, a switch, a location sensor and a processor. The case has a first hole. The key plate is slidably disposed at the inner wall of the case. Portion of the key plate is exposed at the first hole, and the key plate is configured to slide between a first location and a second location. The switch is disposed at the case. The key plate is suitable for pressing the switch to enable the switch to send a switch signal. The location sensor is disposed at the case for sensing whether the key plate is located at the first location or the second location. The processor is electrically coupled to the switch and the location sensor and performs a first command or a second command in response to the switch signal and according the sensing result of the location sensor.
US09660683B2
A protective cover includes a housing and a support. The housing includes a receiving space for receiving a portable electronic device, an opening and a sliding rail. The support is received in the opening. The support includes a folding portion and a supporting portion. The folding portion includes a connecting element, a first main body, a second main body, and a free end. One end of the first main body is rotatably connected to one end of the opening by the connecting element, another end of the first main body, the second main body, and the free end are rotatably connected in turn. The free end is received in the sliding rail to slide along the sliding rail. One end of the supporting portion is fixed to the second main body, and another end of the supporting portion is free related to the first main body.
US09660682B2
A holder for an electronic device includes a body, a first receptacle, and a second receptacle. The body includes a surface, a first end portion, a second end portion, a medial portion, and an attachment mechanism configured for attaching the body to a wearable band. The attachment mechanism includes one or more deformable attachment protrusions configured for insertion into one or more corresponding attachment apertures of the wearable band. The first and second receptacles are each configured for removably retaining the electronic device to the body. The first and second receptacles each define a respective cavity bounded by a stretchable opening. Each opening is configured to receive and retain a respective end of the electronic device as well as ends of other electronic devices having a range of sizes.
US09660671B2
In a transformer, first and second coils are provided on different substrate layers of a multilayer body. The first and second coil conductors are interlayer-connected to each other by interlayer connection conductors. A coil aperture defined by the first coil conductor and a coil aperture defined by the second coil conductor overlap each other when seen in a plan view from a laminating direction of the multilayer body. The first and second coil conductors are connected to each other at at least two places with the interlayer connection conductors interposed therebetween. A parallel connection portion including a first portion of the first coil conductor and a first portion of the second coil conductor is provided, and a series connection portion including a second portion of the first coil conductor and a second portion of the second coil conductor is provided.
US09660661B2
A method for improving bandwidth of an oscilloscope involves, in preferred embodiments, the use of frequency up-conversion and down-conversion techniques. In an illustrative embodiment the technique involves separating an input signal into a high frequency content and a low frequency content, down-converting the high frequency content in the analog domain so that it may be processed by the oscilloscope's analog front end, digitizing the low frequency content and the down-converted high frequency content, and forming a digital representation of the received analog signal from the digitized low frequency content and high frequency content.
US09660657B2
A spread spectrum clock generator includes: a phase comparing unit that receives a reference clock signal and a feedback clock signal, and generates a control voltage corresponding to a phase difference between the reference clock signal and the feedback clock signal; a voltage-controlled oscillator that oscillates at an oscillating frequency corresponding to the control voltage, and generates an output clock signal; a delta-sigma modulator that receives a waveform signal for controlling spreading of a spectrum of the output clock signal, and outputs bits larger than 1 bit based on the waveform signal; a control circuit that controls a multiplication number according to an output signal of the delta-signal modulator; and a divider that generates the feedback clock signal by dividing the output clock signal according to the multiplication number controlled by the control circuit, and supplies the feedback clock signal to the phase comparing unit.
US09660655B2
A system for providing ultra low phase noise frequency synthesizers using Fractional-N PLL (Phase Lock Loop), Sampling Reference PLL and DDS (Direct Digital Synthesizer). Modern day advanced communication systems comprise frequency synthesizers that provide a frequency output signal to other parts of the transmitter and receiver so as to enable the system to operate at the set frequency band. The performance of the frequency synthesizer determines the performance of the communication link. Current days advanced communication systems comprises single loop Frequency synthesizers which are not completely able to provide lower phase deviations for errors (For 256 QAM the practical phase deviation for no errors is 0.4-0.5°) which would enable users to receive high data rate. This proposed system overcomes deficiencies of current generation state of the art communication systems by providing much lower level of phase deviation error which would result in much higher modulation schemes and high data rate.
US09660651B2
An input part is supplied with a low voltage from a low voltage power supply line. A level shift part and an output part are supplied with a high voltage from a high voltage power supply line. An input terminal is pulled up by a resistor and connected to the level shift part through a buffer circuit and an inverter circuit. The level shift part is connected in series with an NMOS and turned on when the input terminal changes to a low level. The output terminal is pulled up by a resistor through the buffer circuit. Even when the level shift part operates unstably because of long delay time from rising of a potential of the high voltage power supply line to rising of a potential of the low voltage power supply line, the output voltage is maintained at a high level.
US09660649B2
A method for scaling voltages provided to different modules of a system-on-chip (SOC) includes receiving, at an energy-performance engine of the SOC, a first indication of usage history for a first module of the SOC and a second indication of usage history for a second module of the SOC. The method includes receiving a battery life indication that indicates a remaining battery life for a battery of the SOC. The method also includes adjusting a first supply voltage provided to the first module of the SOC based on the first indication, the second indication, and the battery life indication. The method further includes adjusting a second supply voltage provided to the second module of the SOC based on the first indication, the second indication, and the battery life indication.
US09660647B2
A calibration device for use in a memory system includes a bias circuit providing bias current, and a calibration unit generating a control signal for calibration. The bias circuit includes an internal resistor and measures a second bias current generated by mirroring a first bias current through the internal resistor, and adjusts the second bias current to generate the second bias current in a predetermined range as a third bias current. The calibration unit generates the control signal based on a comparison result between a reference voltage and a voltage generated based on the third bias current through an adjustable resistor.
US09660637B1
A driving circuit configured to control at least one switch element is disclosed in the present disclosure. The driving circuit includes a first voltage generating circuit, a second voltage generating circuit and a driving voltage generating circuit. The first voltage generating circuit is configured to generate a first voltage signal. The second voltage generating circuit is configured to generate a second voltage signal. The driving voltage generating circuit is electrically coupled with the first voltage generating circuit and the second voltage generating circuit. The driving voltage generating circuit outputs at least one driving voltage signal according to the first voltage signal and the second voltage signal. The at least one driving voltage signal comprises three levels. At least one level of the levels is lower than zero level.
US09660635B2
A power device drive circuit reduces the short-circuit resistance of a power device that switches an input voltage. The power device drive circuit includes an output amplifier that applies a control voltage to a control terminal of the power device so as to be turned on and off, and an internal power supply circuit that generates a drive voltage of the output amplifier in accordance with a change in the input voltage, thereby causing the control voltage to change. In particular, the internal power supply circuit reduces the drive voltage of the output amplifier when the input voltage rises, thereby reducing the short-circuit current of the power device.
US09660633B2
A circuit and method for power gating is provided. The circuit includes a switch circuit and a modulation oscillator. The switch circuit is connected between a circuit module and a power network having a target level. The switch circuit receives a control signal at its control signal input terminal to gate a connection between the circuit module and the power network under the control of the control signal. The switch circuit is connected to the circuit module at a first node. A modulation oscillator enabling signal input terminal is connected to a gating signal for enabling the modulation oscillator, a modulation oscillator control signal input terminal is connected to the first node, and an modulation oscillator output terminal is connected to the control signal input terminal of the switch circuit. The oscillation signal outputted from the modulation oscillator is modulated by the level of the first node.
US09660632B1
Noise introduced in an output signal of a pulse-width modulator (PWM) may be reduced by changing the time duration that a switch is driving the output node. Because the power supplies coupled to the switches are the source of noise in the output signal of the PWM, the time duration that the power supplies are driving the output may be reduced to obtain a subsequent reduction in noise in the output signal. For example, when a small signal is desired to be output by the PWM, the switches may be operated for shorter time durations. Thus, the switches couple the noise sources to ground for a duration of a cycle to reduce contribution of noise to the output. But, when a larger signal is desired to be output by the PWM, the switches may be operated for longer time durations or the conventional time durations described above.
US09660626B2
An integrated circuit includes a clock tree network that distributes a clock signal to a plurality of clocked components of the integrated circuit. The clock tree network includes clock lines, each of which includes a clock tree delay element that provides a modified clock signal that is provided to an individual one the clocked components. Among the plurality of clocked components, one or more of the clocked components provides a data signal to another one or more of the clocked components. The one or more clocked components are configured having a transmission duration for the data signal that is longer relative to a transmission duration of the modified clock signal of the receiving clocked component.
US09660619B2
The present invention relates to a high voltage pulse generator which can operate for a long time and has high pulse frequency. In the preferred embodiment of the invention, the air stored in the air container is transmitted to the air duct by means of a hose over the regulator that adjusts the pressure and flow rate of the air. The air given into the air duct blows into the chamber through the nozzles. Then, this air is taken into this air duct by means of the nozzles placed on the other air duct and is transferred to the outer environment over an exhaust valve placed under the air duct. The air coming from the air container takes the place of the removed air.
US09660611B2
Embodiments of resonator circuits and modulating resonators and are described generally herein. One or more acoustic wave resonators may be coupled in series or parallel to generate tunable filters. One or more acoustic wave resonances may be modulated by one or more capacitors or tunable capacitors. One or more acoustic wave modules may also be switchable in a filter. Other embodiments may be described and claimed.
US09660602B2
Device (1) for filtering electromagnetic interference, comprising: —a plurality of electrical conductors (5) mounted in parallel, each conductor (5) comprising a first coil (10) disposed between a first (7) and a second (8) end of the conductor (5), said first coils (10) being coupled magnetically together and exhibiting one and the same first number of turns, said first (7) and second (8) ends of the conductors (5) respectively defining first (7) and second (8) terminals for the device, —a plurality of capacitors (13), each capacitor (13) being mounted between the second and (8) of an electrical conductor (5) and a third terminal (15) of the device, and —an additional circuit (20) comprising a second coil (21) coupled magnetically with the first coils (10) and exhibiting a second number of turns, said circuit (20) furthermore comprising an additional coil (23).
US09660589B2
A power amplifier module includes an amplifier transistor and a bias circuit. A first power supply voltage based on a first operation mode or a second power supply voltage based on a second operation mode is supplied to the amplifier transistor. The amplifier transistor receives a first signal and outputs a second signal obtained by amplifying the first signal. The bias circuit supplies a bias current to the amplifier transistor. The bias circuit includes first and second resistors and first and second transistors. The first transistor is connected in series with the first resistor and is turned ON by a first bias control voltage which is supplied when the first operation mode is used. The second transistor is connected in series with the second resistor and is turned ON by a second bias control voltage which is supplied when the second operation mode is used.
US09660581B2
An oscillation circuit includes a circuit for oscillation, a first frequency adjustment circuit for adjusting a frequency, and a first terminal. The oscillation circuit has a first mode in which the circuit for oscillation and the first frequency adjustment circuit are electrically connected to each other and the first frequency adjustment circuit and the first terminal are not electrically connected to each other, and a second mode in which the circuit for oscillation and the first frequency adjustment circuit operate and a terminal on a side where a signal of the first frequency adjustment circuit is output and the first terminal are electrically connected to each other.
US09660576B2
The present invention is directed to methods, systems, and devices for predicting production of a photovoltaic (PV) system. A method may include establishing a reference performance model for a reference PV system at a reference site. Further, the method may include establishing a performance factor for an installed PV system based on configuration parameters of the installed PV system, measurements of the installed PV system, weather data at an installation site of the installed PV system and a comparison of the measurements of the installed PV system to the reference performance model. The method may also include predicting production of the installed PV system based on the performance factor, cumulative weather data and a time dependent performance ratio.
US09660571B2
A method for hybrid solar tracking, and an apparatus for hybrid solar tracking and a photovoltaic blind system using the same are disclosed. The method includes generating first predicted power output data by analyzing first measured power output data of the past; generating a lagged error; constructing a regression analysis (RA) model, and deriving second predicted power output data; constructing an artificial neural network (ANN) model, and deriving third predicted power output data; selecting either a method for solar tracking based on photovoltaic power output or a method for solar tracking based on location and time depending on whether the second measured power output data of the present time falls within a filtering range based on a first error range and a second error range; and determining the directions of photovoltaic panels according to the selected method for solar tracking.
US09660562B2
An apparatus for determining start of electric machine is disclosed wherein a frequency of a 3-phase current inputted from a motor is estimated to determine whether the motor has started using a difference between the estimated frequency and a frequency of output voltage of inverter configured to drive the motor.
US09660558B2
A system and a method for controlling regenerative braking of an electric vehicle are provided. The system and method calculate an available torque considering a battery system and an available torque considering a motor system to improve an accuracy of regenerative braking amount. The method includes calculating an available torque considering a battery system and an available torque considering a motor system when regenerative braking of the electric vehicle is required and calculating a regenerative braking capacity based on the available torque considering the battery system and the available torque considering the motor system.
US09660551B2
The present application teaches, inter alia, methods and circuits for operating B-TRANs (double-base bidirectional bipolar junction transistors). Base drive circuits provide high-impedance drive to the base contact region on whichever side of the device is (instantaneously) operating as the collector. (B-TRANs, unlike other bipolar junction transistors, are controlled by applied voltage, not applied current.) Control signals operate preferred drive circuits, providing diode-mode turn-on and pre-turnoff operation, and a hard ON state with a low voltage drop (the “transistor-ON” state). In some (not necessarily all) preferred embodiments, a self-synchronizing rectifier circuit provides an adjustable low voltage for the gate drive circuit. Also, in some preferred embodiments, the base drive voltage used to drive the c-base region (on the collector side) is varied while monitoring the base current at that terminal, so that no more base current than necessary is applied. This solves the difficult challenge of optimizing base drive in B-TRANs.
US09660542B2
The time when a switch is turned on from the time of one voltage valley to the time of another voltage valley may be adjusted for controlling an average load current or average load voltage. In some examples, the adjustment is instantaneous, and in some examples, the adjustment is gradual. Both of these example techniques provide for high switching efficiency of the switch.
US09660538B2
Apparatus and method for providing closed loop feedback control for switch-mode DC/DC power converter with multiple outputs using digital filter feedback, in contrast to analog error feedback. In the apparatus and method, multiple outputs for a switch-mode DC/DC power converter are regulated by digital means, including the allocating or partitioning of digital control resources among each of the multiple outputs. The partitioning of control resources may be in response to operating conditions.
US09660535B2
A switch mode power supply (SMPS) converter is periodically run backwards by using a synchronous switch instead of the normally used commutating diode. By running the SMPS converter backwards the SMPS output capacitor can be discharged very quickly to provide a fast turn off of (no current through) the LED's, thereby solving the color shift problem. This enables positioning the output voltage of the SMPS up or down by actively charging or discharging the bulk output capacitor. Having the capability of actively charging or discharging the bulk output capacitor allows generation of a current source comprising substantially square, e.g., substantially full current when on and substantially no current when off, current pulses that are preferable for driving LED lighting applications.
US09660530B2
A booster for a digital circuit block provides speed and reliability at lower static power supply voltages, reducing overall power consumption of the circuits. The booster includes a transistor that couples a dynamic power supply node to a static power supply and is disabled in response to a boost clock. An inductor and capacitance, which may be the block power supply shunt capacitance, coupled to the dynamic power supply resonates so that the voltage of the dynamic power supply increases in magnitude to a value greater the static power supply voltage. A boost transistor is included in some embodiments to couple an edge of the clock to the dynamic power supply, increasing the voltage rise. Another aspect of the booster includes multiple boost transistors controlled by different boost clock phases so that the resonant boost circuit is successively stimulated to increase the amount of voltage rise.
US09660528B2
A DC-to-DC converter includes an input voltage node, an inductor, and a switch coupled to the inductor and the input voltage node. More specifically, the switch has an on state and off state, wherein during the on state, current flowing through the inductor increases and the off state results in a decrease of the current flowing through the inductor via a driver coupled to the switch. The driver comprises a plurality of transistors and an adaptive voltage node, wherein a voltage level at the adaptive voltage node is to vary in accordance with the current flowing through the inductor so as to decrease a variation of the amount of time to turn off the switch.
US09660513B2
A control circuit is driven by a driving voltage (VOC) generated by a generator circuit, and outputs a control signal. A drive circuit is driven by a driving voltage (VOD) generated by another generator circuit, and turns a switching element inside a switching circuit on or off by supplying, to the switching circuit, a drive signal based on the control signal. During activation of a switching device, a voltage generation controller detects a voltage value of the output voltage (VOC) of the generator circuit, and allows activation of the other generator circuit after verifying that the detected voltage value is at or above a designated threshold.
US09660510B2
The invention relates to a voltage converter (1) for a motor vehicle. Said voltage converter (1) comprises a transformer (10) and a power output stage (7). The power output stage (7) comprises at least two semiconductor switches (20, 22, 24, 26) that are connected to the transformer (10), in particular to a primary winding (12) of said transformer (10). The voltage converter (1) has a driver stage (31) which is connected, on the output side, to a control connection of the semiconductor switch (20, 22, 24, 26) and which is designed to actuate said semiconductor switch (20, 22, 24, 26) using a control signal (93, 94), for the purpose of generating an alternating voltage. According to the invention, the driver stage (31) is connected, on the input side, to a pulse signal generator (35) and an input capacitor (60, 62). The pulse signal generator (35) is designed to generate a pulse signal (37, 38) and to actuate the driver stage (31) using the pulse signal (37, 38) in order to generate the control signal (93, 94). For at least one incipient half-wave of the alternating voltage, the pulse signal (37, 38) has at least one prepulse and one main pulse that generates the half-wave, the prepulse being designed to preload the input capacitor (60, 62) of the driver stage (31) such that complete switching of the semiconductor switch (20, 22, 24, 26) can occur more quickly than it could without a prepulse.
US09660499B2
A stator is provided which exerts a combined electromagnetic force of a plurality of electromagnets on a drive shaft having a fluctuating load. A controller is provided which controls a current difference between a first coil current passed through a coil of the electromagnet generating an electromagnetic force in a direction opposite to that of the load and a second coil current passed through a coil of the electromagnet generating an electromagnetic force in the same direction as that of the load to perform a position control on the drive shaft. The controller adjusts the second coil current to reduce an average value of the second coil current.
US09660494B2
The invention relates to a joint between a copper short-circuiting ring (1) and a copper bar (2) of the damper winding in a permanent magnet synchronous machine, wherein the end of the bar is jointed to a hole (9) disposed in the short-circuiting ring by welding them together at the mating surfaces. Further, the invention relates to a corresponding method. According to the invention the short-circuiting ring (1) includes a blocking structure for limiting the heat flux from being conducted further into the short-circuiting ring from the weld between the short-circuiting ring and the bar.
US09660490B2
Provided is a permanent magnet type motor capable of improving a demagnetization proof stress almost without lowering a generated torque, and reducing a torque ripple and a cogging torque by improving a gap magnetic flux density distribution. Portions having a low demagnetization proof stress of a plurality of permanent magnets incorporated into a rotor core are partially and equally demagnetized.
US09660487B1
An automatic-positioning wireless power transfer system to wirelessly charge power to an object and is also capable of wirelessly harvesting power from an object. The power transfer system consists of a mobile housing configured to autonomously move about the object, and has a tiltable transceiver. The mobile housing can be tethered to a base station via a cable, or not physically tethered to a base station when it travels.
US09660485B2
Improved mechanisms for automated control of harvested energy delivery are described. A device harvests and stores energy and activates a controller when a sufficient level of stored energy is achieved. The controller retrieves previous power-off state information determines status information, and activates and powers a powered device. Just before insufficient energy remains to power the powered device, the controller stores shutdown status information and enters a power-off state.
US09660483B2
A power supply control apparatus is connected to an electric device to control supply of power to the electric device. The apparatus includes a main power switch to apply or interrupt main power to the electric device, the main power being external input commercial AC power, an auxiliary power storage unit supplied and charged with the main power as auxiliary power, a charging/discharging unit including a charging circuit to convert the main power into DC power and charge the converted DC power in the auxiliary power storage unit, and a discharging circuit to convert the DC power in the auxiliary power storage unit into AC power and discharge the converted AC power to the electric device, and a controller to control the main power switch, and control the charging/discharging unit to selectively drive the charging circuit or the discharging circuit.
US09660482B2
A power conversion device able to supply a constant load voltage even when the voltage of a 3-phase alternating current power supply fluctuates. A series circuit formed of switching element Q1 and switching element Q2 and a series circuit formed of switching element Q3 and switching element Q4 are connected to both ends of direct current power supply series circuit 3 formed of direct current power supply Psp and direct current power supply Psn, a bidirectional switch element S1 is connected between alternating current output terminals U and R, a bidirectional switch element S2 is connected between alternating current output terminal U and neutral terminal O, a bidirectional switch element S3 is connected between alternating current output terminal W and neutral terminal O, a bidirectional switch element S4 is connected between alternating current output terminal W and terminal T, and alternating current output terminals V and terminal S are connected.
US09660479B2
There is provided a wireless power transmitting device capable of simply being carried by a user and wirelessly transmitting a power to a power receiving device with a high transmission efficiency regardless of time and space. The wireless power transmitting device includes a power storage unit configured to store a direct current power, and a power transmitting unit configured to be operated by the direct current power stored in the power storage unit and to wirelessly transmit the power to a power receiving device.
US09660477B2
Devices, methods, and systems for charging input devices. A charging unit includes a sleeve for receiving a stylus and a base. The charging unit receives electrical power from an external power source via an interface and transfers the power to the stylus via a connection between the base's charging contacts and conductive charging zones on a portion of the input device in the base. A method detects insertion of a stylus into a charging unit having an internal battery and an interface capable of receiving power from an external power source. The method determines if the unit is connected to a power source. If so, the stylus is charged by transferring the received energy via a connection between the unit's charging contacts and conductive charging zones of the stylus. If energy is not being received from the external power source, the method charges the stylus using the unit's internal battery.
US09660473B2
A DC/DC converter converts an input DC voltage to an output DC voltage and charges a battery. The DC/DC converter includes: a DC/DC controller, operable for generating a driving signal according to a target value for the output voltage and a first detection signal indicative of the output voltage level to control switching circuitry and to adjust the output voltage level; and a battery charging controller, coupled to the DC/DC controller and the battery, that is operable for receiving the first detection signal indicative of the output voltage level and a second detection signal indicative of a battery voltage level, and for generating a loop control signal according to the first detection signal and the second detection signal to adjust the target value for the output voltage, wherein the difference between the first detection signal and the second detection signal indicates the amount of a battery charging current.
US09660465B2
A battery assembly includes a power module, a receptacle connector, a driving switch and a movable stop arm. The power module includes a battery control unit and a cell electrically connected to the battery control unit. The receptacle connector is disposed at the power module and electrically connected to the cell via the battery control unit. The receptacle connector includes an insertion opening. The driving switch is disposed corresponding to the receptacle connector and electrically connected to the battery control unit. A default setting of the driving switch is “switched off”. One end of the movable stop arm is outside of the insertion opening and blocks the same. The movable stop arm is movable toward the driving switch to touch and switch on the same.
US09660461B2
A charging assembly and a charging control method are provided for charging a battery pack in a fast charging voltage value which is greater than the rated charging voltage value. The charging assembly includes a battery pack, a charger and a control system configured to control the charger to charge the battery pack with a constant charging current. The method includes: detecting the open-circuit voltage of each battery cell and screening out a maximum open-circuit voltage value, calculating a maximum charging duration and controlling the charger to charge the battery cell assembly with a constant current when the charging voltage is equal to the fast charging voltage value or reaches the maximum charging duration.
US09660458B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for electrical load management. One of the systems includes a first electrical grid, one or more power sources coupled to the first electrical grid, a second electrical grid coupled to the first electrical grid by a power conversion system, one or more loads coupled to the second electrical grid, and one or more load control systems coupled to the one or more loads. A grid control system is configured to receive source information from the first electrical grid and send load instructions to the load control systems based on the source information.
US09660446B2
An aircraft power distribution system includes a first DC power distribution bus, a second DC power distribution bus, and a DC power source coupled with at least one of the first or second DC power distribution buses, wherein the DC power distribution buses are electrically coupled by a plurality of electrical couplings.
US09660444B2
In a control unit for a robot, an inverter which drives a motor installed in a robot. A control circuit controls drive of the motor. A drive power circuit supplies DC power to the motor, and a control power circuit DC power to the control circuit. A backup power circuit supplies backup DC power to the control circuit when the DC power from the control power circuit to the control circuit is shut down. A first switch is arranged between the backup power circuit and the inverter, the first switch being selectively switched on and off to open and close. A first switch control section switches on the first switch such that the DC power in the backup power circuit is supplementarily supplied to the inverter when the motor is driven to be accelerated.
US09660439B2
A direct current power (DC) distribution system includes a plurality of DC power sources, a ring bus, a plurality of switch assemblies, and a plurality of passive protection assemblies. Each DC power source is coupled to the ring bus by a respective switch assembly and a respective passive protection assembly.
US09660426B1
A compact tractor equipped for pulling wire through underground conduits having a boom and dipper on the rear of the compact tractor and a rotatable witch's hat spool assembly on the front of the compact tractor, wherein the spool assembly is mounted onto the loader lifter arms such that it can be easily tilted to dump a roll of cable onto the back of a trailer.
US09660415B2
This semiconductor laser device includes a semiconductor laser chip and a spatial light modulator SLM which is optically connected to the semiconductor laser chip. The semiconductor laser chip LDC includes an active layer 4, a pair of cladding layers 2 and 7 sandwiching the active layer 4, and a diffraction grating layer 6 which is optically connected to the active layer 4. The spatial light modulator SLM includes a transparent common electrode 25, a plurality of transparent pixel electrodes 21, a liquid crystal layer LC arranged between the common electrode 25 and the pixel electrodes 21. A laser beam output in a thickness direction of the diffraction grating layer 6 is modulated by the spatial light modulator SLM, passes therethrough, and is output to the outside.
US09660414B2
A heat dissipation system for an optical module, related to communication fittings technologies, is provided to improve heat dissipation efficiency of the optical module. The heat dissipation system for an optical module includes a circuit card on which at least one optical module is mounted, where the optical module includes a housing and a laser disposed inside the housing. A first heat dissipation apparatus is fixedly disposed on the circuit card. A heat dissipation window is provided in an area that is above the laser and on the housing of the optical module. The first heat dissipation apparatus performs heat dissipation on the heat dissipation window.
US09660413B2
A nitride semiconductor light emitting device includes a first coat film of aluminum nitride or aluminum oxynitride formed at a light emitting portion and a second coat film of aluminum oxide formed on the first coat film. The thickness of the second coat film is at least 80 nm and at most 1000 nm. Here, the thickness of the first coat film is preferably at least 6 nm and at most 200 nm.
US09660411B2
A wavelength tunable silicon-on-insulator (SOI) laser comprising: a laser cavity including: a semiconductor gain medium having a front end and a back end, wherein a mirror of the laser cavity is located at the back end of the semiconductor gain medium; and a phase-tunable waveguide platform coupled to the front end of the semiconductor gain medium, the phase-tunable waveguide platform comprising: a first resonator and a second resonator; at least one resonator being a phase-tunable resonator; wherein the first resonator is any one of: an MMI device including a pair of reflective surfaces defining a resonator cavity therebetween such that the device is configured to act as a Fabry-Perot filter; a ring resonator; or a waveguide Fabry-Perot filter; and wherein the second resonator is any one of: an MMI device including a pair of reflective surfaces defining a resonator cavity therebetween such that the device is configured to act as a Fabry-Perot filter; a ring resonator; or a waveguide Fabry-Perot filter.
US09660409B2
A laser for generating deep ultra-violet (DUV) continuous wave (CW) light includes a second-harmonic generator and a fourth-harmonic generator. The fourth-harmonic generator includes a plurality of mirrors as well as a first non-linear optical (NLO) crystal and a pair of tilted plates. The first NLO crystal generates the light having the fourth harmonic wavelength and a first astigmatism, and is placed in operative relation to the plurality of mirrors. The pair of tilted plates is placed in operative relation to the first NLO crystal such that the light having the second harmonic wavelength passes through both of the tilted plates. Notably, the pair of tilted plates are disposed at substantially equal and opposite angles about respective parallel axes such that they introduce a second astigmatism that corrects for the first astigmatism while minimizing displacement of the circulated light.
US09660407B2
This invention is a crimp head quick-change structure of a crimping tool that enables a crimping tool to quickly replace crimp heads of various specifications. The operating theory of the crimp head quick-change structure of a crimping tool is to utilize: a first crimp head protrusion and a first blocker back section notch pushing each other combines with a first crimp head notch and a first head pushing each other to cause the first crimp head to lodge at first clamp section.
US09660404B2
Provided is a connection structure for a detection terminal of shunt resistor that allows a lead wire, that is to be connected to an electrode of the shunt resistor and is for detecting electrical current, to be easily and compactly connected to the electrode within a narrow and small module. A terminal connection structure for a resistor, which connects a detection terminal to an electrode, comprises a shunt resistor (13) that has a pair of electrodes (12) at both ends of a resistor body (11); a connector base (14) formed of insulating material; and an electrically conductive section (15a) formed on the connector base (14); wherein the connector base (14) is fit onto the shunt resistor (13) such that the electrically conductive section (15a) is electrically connected to the electrodes (12). The connector base (14) is provided with a joint section (C) that can be fit onto the resistor body (11). The resistor body (11) and the electrode (12) is provided with a level difference and the connector base (14) is fit into between the electrodes (12,12).
US09660397B2
A mounting system for facilitating ordered mating of plural connectors includes a bracket having at least one feature for securing to a pole or wall. A plate is connected to the bracket and includes plural mounting positions. Optional grounding and/or surge arrestors may be included. In a keying embodiment, each mounting position has an inner perimeter shape different than the inner perimeter shapes of the other mounting positions. Each connector of plural first connectors includes a threaded portion holding a first nut with an outer perimeter having a shape unique as compared to the first nuts of other first connectors. The outer perimeter of the first nut seats into one, and only one, of the plural mounting positions of the plate. Optionally, a second plate may be mounted to and spaced from the first plate. The second plate includes plural keyholes which are aligned to the plural mounting positions. Each keyhole has an inner perimeter shape matching the inner perimeter shape of the mounting position to which the keyhole is aligned. The keyholes only permit a second connector, with a matching key nut, to pass therethrough and mate into the first connector in the aligned mounting position.
US09660391B1
An adapter having a rotatable plug is provided. The adapter includes a case having an installation hole which provides access to an interior of the case; a rotation member installed within the installation hole of the case, the rotation member being rotatable within the installation hole relative to the case; at least one connection pin installed in the rotation member and protruding from the case; and a guide member provided adjacent to installation hole in the interior of the case and configured to guide rotation of the rotation member.
US09660390B2
A cable connector assembly includes: an insulative housing; a number of contacts retained in the insulative housing; a cable including a plurality of wires electrically connected with the contacts and an insulative outer coating enclosing the wires; and a shielding case enclosing the insulative housing; wherein the insulative housing includes a first main body extending along a docking direction and a second main body extending along a direction perpendicular to the docking direction, an end of the second main body is exposed to the first main body along the docking direction, and the insulative outer coating of the cable extends along a direction away from the docking direction to form an angle relative to the extending direction of the second main body.
US09660376B2
A magnetic connector system having a durable and reliable construction and a reduced height while maintaining sufficient holding strength. A connector insert may utilize a crimping piece to crimp a braiding of a cable. The crimping piece may be fixed to an attraction plate and a board in the insert for mechanical reliability. Retention clips may be used to fix a shell to the attraction plate. A connector receptacle may employ a magnetically conductive label to improve holding strength.
US09660375B2
An anti-corrosive material includes: an ultraviolet curable resin including a polymerizable compound as a main component, the polymerizable compound composed of at least one of a photopolymerizable (meth)acrylate monomer and a photopolymerizable (meth)acrylate oligomer. The polymerizable compound is composed of a combination of a monofunctional (meth)acrylate monomer and a bifunctional (meth)acrylate monomer, or a combination of at least one of a monofunctional (meth)acrylate monomer and a bifunctional (meth)acrylate monomer and at least one of a trifunctional (meth)acrylate monomer and a polyfunctional (meth)acrylate monomer having four or more functional groups. The anti-corrosive material has a viscosity at 25° C. of 18900 mPa·s or less measured according to JIS Z8803.
US09660374B2
An electrical connector providing a sealed electrical link between an inside environment subjected to corrosive gases or liquids under pressure and an outside environment of different pressure. The connector includes a connector body, conductor cables, a thermoplastic insulator, and a sealing element. The connector body is secured to a structure and includes insulating feed-throughs for receiving electrical contacts connecting an outside environment to an inside environment. The conductor cables, comprising an outer insulating layer made of a fusible thermoplastic material, are connected to said electrical contacts inside said inside environment. The thermoplastic insulator is secured to said connector body and surrounds the conductor cables. The thermoplastic insulator and cable outer insulating layers are made of a same type of fusible thermoplastic material making it possible, by localized fusion, to form a thermoplastic weld therebetween. The sealing element is mounted between the connector body and the thermoplastic insulator.
US09660363B2
What is described is a battery terminal having a pole contact element which is designed to surround a pole of a rechargeable battery on a mounting plane; a first limb and a second limb which are each connected to the pole contact element, the spacing between the first and second limbs being reducible by application of force in order to fasten the pole contact element to the pole, and a tensioning arrangement which couples the two limbs to one another, said tensioning arrangement having a tensioning screw which can be actuated so as to apply force to the two limbs and which is oriented along a tensioning direction which is tilted with respect to the mounting plane. In this case, the tensioning arrangement comprises a first clamping piece which can be positioned on the first limb and a second clamping piece which can be positioned on the second limb, wherein the tensioning screw is passed through a first screw receptacle formed in the first clamping piece and a second screw receptacle formed in the second clamping piece, said first and second screw receptacles being aligned with one another along the tensioning direction.
US09660356B1
In a semiconductor device, a plurality of semiconductor units is electrically connected in parallel using a connecting device. The connecting device includes a first connecting unit and a second connecting unit. The first connecting unit is electrically connected to a control terminal of each semiconductor unit. The second connecting unit is electrically connected to a main terminal of each semiconductor unit.
US09660345B1
A millimeter-wave (MMW) communication system may include an antenna array structure operating within a MMW band, having both a first antenna coupling point and a second antenna coupling point, whereby the first and the second location of the antenna coupling points are within a coplanar surface on which the antenna array structure is formed. The system may further include a single MMW transmitter device having a power splitter that splits a data modulated MMW signal into a first MMW data modulated signal and a second MMW data modulated signal identical to the first MMW data modulated signal, such that the first data modulated MMW signal is coupled to the first antenna coupling point for radio propagation at a first direction, and the second data modulated MMW signal is coupled to the second antenna coupling point for radio propagation at a second direction.
US09660342B2
A wireless communication device includes a substrate and an antenna structure. The substrate includes a first surface and a second surface opposite the first surface. The antenna structure includes a feeding antenna, a metal ring, and a parasitic antenna. The feeding antenna has a feeding point configured to feed current signal. The metal ring is positioned apart from the feeding antenna, the metal ring is configured to be grounded and resonate with the feeding antenna to generate a first high-frequency resonate mode. The parasitic antenna is connected to the metal ring, the parasitic antenna is configured to resonate with the feeding antenna to generate a second high-frequency resonate mode, and resonate with the metal ring to generate a low-frequency mode.
US09660341B2
In a signal line module and a communication terminal apparatus, a first connection portion connected to a feeding circuit, a second connection portion connected to a radiation element, a first high-frequency line portion, a second high-frequency line portion, and a matching circuit portion defining all of or a portion of a first matching circuit are integrally provided in a multilayer body including a plurality of base material layers. The first connection portion, the first high-frequency line portion, and the matching circuit portion are in a ground zone superposed with a ground conductor, when viewed in plan in a stacking direction of the multilayer body, and the second high-frequency line portion and the second connection portion are in a non-ground zone. The second high-frequency line portion and the second connection portion, together with the radiation element, operate as a radiation portion.
US09660337B2
One or more embodiments are directed to a multimode antenna structure for transmitting and receiving electromagnetic signals in a communications device. The communications device includes circuitry for processing signals communicated to and from the antenna structure. The antenna structure is configured for optimal operation in a given frequency range. The antenna structure includes a plurality of antenna ports operatively coupled to the circuitry, and a plurality of antenna elements, each operatively coupled to a different one of the antenna ports. Each of the plurality of antenna elements is configured to have an electrical length selected to provide optimal operation within the given frequency range. The antenna structure also includes one or more connecting elements electrically connecting the antenna elements such that electrical currents on one antenna element flow to a connected neighboring antenna element and generally bypass the antenna port coupled to the neighboring antenna element. The electrical currents flowing through the one antenna element and the neighboring antenna element are generally equal in magnitude, such that an antenna mode excited by one antenna port is generally electrically isolated from a mode excited by another antenna port at a given desired signal frequency range without the use of a decoupling network connected to the antenna ports, and the antenna structure generates diverse antenna patterns.
US09660336B2
Embodiments of the present disclosure provide devices, methods, and systems that support electrical connection, signal delivery, and/or communication between internal and external portions of a Faraday cage. In some embodiments, devices and methods are provided for transmitting electrical signals through a waveguide port of a Faraday cage. In some embodiments, aspects of the present disclosure are employed to adapt a magnetic resonance imaging system for communications between a scanner room and a control room.
US09660326B2
A antenna for a wireless device is provided. The antenna may include a dielectric substrate, a counterpoise disposed on the dielectric substrate, a first conductive element electrically connected to the counterpoise, and a second conductive element electrically connected to a feed point. The first conductive element may form at least a portion of a radiating loop resonant at a first frequency, and the second conductive element may form at least a portion of a radiating spur resonant at a second frequency higher than the first frequency. The antenna may further include a conductive frame constituting at least a portion of the radiating loop or the radiating spur.
US09660324B2
A hybrid antenna including a piezoelectric device and an RF radiator. The hybrid antenna is capable of providing both RF and piezoelectric device functionality, e.g., radio frequency transmission/reception capabilities for radio frequency devices as well as sound-producing and/or energy-scavenging functionality via the piezoelectric device. The piezoelectric device may be in conductive contact with the RF radiator or may not be in conductive contact with the RF radiator.
US09660314B1
A tunable antenna includes a patch antenna including a substrate, a metallic patch mounted on a first side of the substrate, a signal line connected through the substrate to the metallic patch, and a ground plane on a second side of the substrate opposite the first side. The tunable antenna includes an ionizable gas adjacent to the patch antenna.
US09660305B2
A method of controlling a high-temperature storage battery connected to an electric power system, an apparatus for controlling the storage battery, and an electric power control system reside in that, when the temperature of the storage battery is equal to or lower than a reference temperature, charging and discharging the storage battery with charging and discharging electric power, which is the sum of charging and discharging electric power based on a preset process of operating the storage battery and charging and discharging electric power corresponding to charging and discharging cycles each of a continuous charging time of 1 hour or shorter and a continuous discharging time of 1 hour or shorter, for thereby supplying thermal energy to the storage battery.
US09660304B2
Disclosed herein is a battery pack including a plurality of battery modules, each having a battery cell or a unit module (unit cell) that can be charged and discharged, mounted in a pack case, wherein two or more unit cells constitute one battery module, two or more battery modules are arranged in a length direction of the battery pack to constitute one battery module group, two battery module groups are arranged in a width direction of the battery pack in a state in which the batter module groups are spaced apart from each other such that a coolant discharge part is defined between the battery module groups, a coolant inlet port is independently formed at a region of the pack case corresponding to each of the battery modules located at a position opposite to the coolant discharge part, and a coolant outlet port is formed at a front or a rear of the pack case in the length direction of the battery pack such that coolant introduced through the respective coolant inlet ports cools the unit cells of the respective battery modules while passing through the respective battery modules and is then discharged out of the pack case.
US09660302B2
Disclosed herein is a secondary battery pack including a battery cell having a cathode terminal and an anode terminal formed on one surface including a sealed portion to seal the battery cell and a protection circuit module (PCM) including a protection circuit board (PCB) having a protection circuit formed thereon, an external input and output terminal electrically connected to the protection circuit, a connector electrically connected to the external input and output terminal, and an electrically insulative PCM case in which the PCB is mounted, wherein the PCM is loaded on the sealed portion in a state in which the PCM is electrically connected to the battery cell and the connector is formed on the PCM such that the connector does not protrude outward from the secondary battery pack.
US09660300B2
A method for manufacturing a sealed battery includes: injecting an electrolytic solution into an exterior; introducing a detection gas into the exterior; and detecting a leakage by detecting a leakage of the detection gas introduced into the exterior, the electrolytic solution in an electrolytic solution tank is pressure fed into the exterior by pressurizing the electrolytic solution tank by feeding a gas of a kind the same as the detection gas in the electrolytic solution tank where the electrolytic solution is stored, in order to inject the electrolytic solution into the battery container.
US09660294B2
An electrolyte solution comprising an additive wherein the additive is not substantially consumed during charge and discharge cycles of the electrochemical cell. Additives include Lewis acids, electron-rich transition metal complexes, and electron deficient pi-conjugated systems.
US09660293B2
An electrical combination. The combination comprises a hand held power tool, a battery pack and a controller. The battery pack includes a battery pack housing connectable to and supportable by the hand held power tool, a plurality of battery cells supported by the battery pack housing, each of the plurality of battery cells having a lithium-based chemistry, being individually tapped and having an individual state of charge. A communication path is provided by a battery pack sense terminal and a power tool sense terminal. The controller is operable to monitor a state of charge of a number of battery cells less than the plurality of battery cells and to generate a signal based on the monitored state of charge of the number of battery cells less than the plurality of battery cells, the signal being operable to control the operation of the hand held power tool.
US09660292B2
An electrode structure for use in an energy storage device comprising a population of electrodes, a population of counter-electrodes and a microporous separator separating members of the electrode population from members of the counter-electrode population. Each member of the electrode population comprises an electrode active material layer and an electrode current conductor layer, and each member of the electrode population has a bottom, a top, a length LE, a width WE and a height HE, wherein the ratio of LE to each of WE and HE is at least 5:1, the ratio of HE to WE is between 0.4:1 and 1000:1, and the electrode current collector layer of each member of the electrode population has a length LC that is measured in the same direction as and is at least 50% of length LE.
US09660287B2
An apparatus for preventing deformation of a fuel cell stack is provided. The apparatus includes a support unit, respective ends of which are connected to first endplates of a pair of stacked fuel cell stacks. The apparatus further includes a support protrusion that protrudes from a surface of the support unit and extends through a gap between the pair of fuel cell stacks.
US09660274B2
A component, such as a SOFC interconnect, and methods of making the component are provided using various chromium powders, including powder particles with a chromium core covered with an iron shell, a pre-alloyed Cr—Fe powder or a chromium powder produced by hydrogen reduction with hydrogen.
US09660270B2
The present invention provides a production method that can produce a garnet-type compound containing zirconium and lithium, the compound being in the form of fine particles, with high productivity. The method produces a garnet-type compound containing Zr, Li, and element M1 (wherein M1 is at least one element selected from the group consisting of La, Sc, Y, and Ce) as constituent elements. The method includes a first step of (1) mixing a first raw material and a second raw material to obtain a precipitate, the first raw material being a solution containing a zirconium carbonate complex and having a pH of at least 7.0 and not more than 9.5, and the second raw material containing a compound containing the above element M1 as a constituent element; and (2) a second step of mixing the precipitate and a third raw material containing Li as a constituent element to obtain a mixture, and then firing the mixture at a temperature of less than 1,000° C. to obtain a fired product. The first raw material is prepared by mixing, at a prescribed molar ratio, at least a compound that contains a carbonate species and a compound that contains a zirconium species.
US09660269B2
The present invention provides positive and negative electrodes, for a lithium secondary battery, allowing a battery to be quickly and fully charged in a very short period of time, for example, within one minute and allowing the battery to be used for vehicles at low temperatures. An organic electrolytic solution is permeated into an electrode group formed by winding positive and negative electrodes or by laminating the positive and negative electrodes one upon another with a separator being interposed therebetween to repeatingly occlude and release lithium ions. The positive electrode active substance and the negative electrode active substance have at least one phase selected from among a graphene phase and an amorphous phase as a surface layer thereof. An activated carbon layer is formed on a surface of the positive electrode active substance and that of the negative electrode active substance.
US09660267B2
An LFP electrode material is provided which has improved impedance, power during cold cranking, rate capacity retention, charge transfer resistance over the current LFP based cathode materials. The electrode material comprises crystalline primary particles and secondary particles, where the primary particle is formed from a plate-shaped single-phase spheniscidite precursor and a lithium source. The LFP includes an LFP phase behavior where the LFP phase behavior includes an extended solid-solution range.
US09660261B2
The invention provides a high-capacity positive electrode active material capable of sufficiently exploiting the excellent characteristics of magnesium metal or the like as a negative electrode active material, such as high energy capacity; a method for producing the same; and an electrochemical device using the positive electrode active material. A positive electrode 11 includes a positive electrode can 1, a positive pole pellet 2 having a positive electrode active material and the like, and a metal mesh support 3. A negative electrode 12 includes a negative electrode cap 4 and a negative electrode active material 5 such as magnesium metal. The positive electrode pellet 2 and the negative electrode active material 5 are disposed so as to sandwich a separator 6, and an electrolyte 7 is injected into the separator 6. The positive electrode active material, which provides the feature of the invention, is synthesized by a step of reacting a permanganate, such as potassium permanganate, with hydrochloric acid preferably having a concentration of 3 to 4 mol/l to produce a precipitate, and a step of filtering the precipitate, thoroughly washing the filtered precipitate with water, and then subjecting the washed precipitate to heat treatment preferably at a temperature of 300 to 400° C. for not less than 2 hours, thereby giving a manganese oxide.
US09660258B2
The negative electrode is formed from silicon, an amount of heat generation in a negative electrode, which is measured by a differential scanning calorimeter within a range of 210 to 380° C. during full charge, is 850 J/g or less, and a cyclic carbonate including ethylene carbonate and a chain carbonate which has a chemical formula expressed by R1—O—CO—OR2, and in which R1 and R2 represent an alkyl group having a carbon number of 2 or more are used for an electrolytic solution.
US09660256B2
A storage element for a solid electrolyte battery is provided, having a main member including a porous ceramic matrix in which particles that are made of a first metal and/or a metal oxide and jointly form a redox couple are embedded. The storage element further includes particles made of another metal and/or an associated metal oxide, the other metal being electrochemically more noble than the first metal.
US09660250B2
A secondary battery 100 comprises a positive electrode current collector 221 and a positive electrode active material layer 223 applied on the positive electrode current collector 221 and containing at least a positive electrode active material. The lithium-ion secondary battery 100 further comprises a negative electrode current collector 241 provided so as to oppose the positive electrode current collector 221 and a negative electrode active material layer 243 applied on the negative electrode current collector 241 and containing at least a negative electrode active material. The lithium-ion secondary battery 100 is also formed with a porous insulating layer 245 which contains stacked resin particles having insulating properties and is formed so as to cover at least one of the positive electrode active material layer 223 and the negative electrode active material layer 243 (in this case, negative electrode active material layer 243). The lithium-ion secondary battery 100 further comprises, on the edge of the insulating layer 245, a molten part 246 where the resin particles are melted.
US09660240B2
Provided is a very safe secondary battery that can prevent the occurrence of battery abnormalities even when the internal battery temperature increases due to, for example, overcharging. A separator 70 in this secondary battery has a laminated structure that is provided with at least two porous layers 76A, 72, 76B, wherein one of these layers forms a porous electroconductive layer 72 in which an electroconductive material 74 is dispersed in the porous layer.
US09660237B2
The present disclosure includes a battery module having a housing that includes a lid and a battery cell with a battery cell terminal and a battery cell vent on an end of the battery cell. The battery cell vent is configured to exhaust battery cell effluent. The battery module includes a printed circuit board positioned in an immediate vent direction of the battery cell, a vent shield channel positioned between the battery cell vent and the printed circuit board along the immediate vent direction of battery cell effluent, where the vent shield plate is immediately adjacent to the printed circuit board and configured to block the effluent from contacting the printed circuit board and to redirect the battery cell effluent along a desired vent path, and a module vent fluidly coupled to the desired vent path and configured to direct the battery cell effluent out of the battery module.
US09660234B2
An enclosure for a traction motor battery of a vehicle is disclosed that includes a plurality of impact absorbing members on the exterior of the enclosure. The impact absorbing members have an arc-shaped or partially cylindrical wall and a flat wall that define a partially cylindrical pocket. In an impact, the arc-shaped wall collapses toward the flat wall to absorb the impact force.
US09660223B2
A printing apparatus includes a printing mask, which is disposed between a substrate having a display area and a non-display area surrounding the display area. The apparatus further includes a nozzle discharging an organic light emitting liquid onto the substrate. The printing mask includes a mask open part and a mask cover part. The mask open part exposes the display area, and the mask cover part surrounds the mask open part and covers the non-display area. The apparatus can be used to form an organic emitting layer on the substrate.
US09660210B2
The present invention provides a method for manufacturing an OLED device and an OLED device manufactured therewith. The method for manufacturing an OLED device includes: (1) providing a substrate and forming, in sequence, an anode and a hole transporting layer on the substrate; (2) forming an emissive layer on the hole transporting layer through a solution film casting process, wherein the emissive layer comprises a red sub-pixel, a green sub-pixel, a blue sub-pixel, and a white sub-pixel, of which at least one sub-pixel is formed of a quantum dot and at least one sub-pixel is formed of an organic light-emitting material; (3) forming, in sequence, an electron transporting layer and a cathode on the emissive layer; and (4) providing a package cover plate, which is set above the cathode, wherein the substrate and the package cover plate are bonded together by sealing enclosing resin to complete packaging of the OLED device. Since each sub-pixel of the emissive layer is formed through a solution film casting process, the manufacture of the OLED device requires no use of a fine metal mask so that the manufacturing cost is low, the utilization rate of material is high, and the yield rate is good.
US09660197B2
A condensed cyclic compound represented by Formula 1: Also disclosed is an organic light-emitting device including a first electrode; a second electrode; and an organic layer between the first electrode and the second electrode, the organic layer including an emission layer and the condensed cyclic compound of Formula 1. An organic light-emitting device including the condensed cyclic compound of Formula 1 may have low driving voltage, high efficiency, a high luminance, and long lifetime.
US09660196B2
Organic dye for a Dye Sensitized Solar Cell (DSSC) comprising at least one electron donor group and at least two electron acceptor groups, each of said electron acceptor groups being bound to said electron donor group through a π-conjugated unit.Said organic dye is particularly useful in a dye sensitized photoelectric transformation element, which, in its turn, can be used in a Dye Sensitized Solar Cell (DSSC).
US09660191B2
A thin film deposition apparatus including a deposition source having a crucible to contain a deposition material and a heater to heat and vaporize the deposition material; a nozzle unit disposed at a side of the deposition source along a first direction and having a plurality of nozzle slits to discharge the deposition material that was vaporized; a plurality of emission coefficient increasing units disposed toward the nozzle unit within the deposition source and increasing a quantity of motion of the deposition material that is discharged toward the nozzle unit; a patterning slit sheet disposed opposite to the nozzle unit and having a plurality of patterning slits arranged along the first direction; and a barrier plate assembly disposed between the nozzle unit and the patterning slit sheet along the first direction, and having a plurality of barrier plates that partition a space between the nozzle unit and the patterning slit sheet into a plurality of sub-deposition spaces.
US09660189B1
Subject matter disclosed herein may relate to correlated electron switch devices, and may relate more particularly to one or more barrier layers having various characteristics formed under and/or over and/or around correlated electron material.
US09660187B1
A method of forming a layer includes providing a first insulator and a second insulator over a lower structure, generating a first ion source and a second ion source from the first insulator and the second insulator, respectively, and forming an insulating layer on the lower structure using the first ion source and the second ion source. The first and second insulators are vertically spaced apart from the lower structure and are laterally spaced apart from each other. The first insulator and the second insulator include the same material.
US09660182B2
A plasma processing method of etching a multilayered material having a structure where a first magnetic layer 105 and a second magnetic layer 103 are stacked with an insulating layer 104 therebetween is performed by a plasma processing apparatus 10 including a processing chamber 12 where a processing space S is formed; and a gas supply unit 44 of supplying a processing gas into the processing space, and includes a first etching process where the first magnetic layer is etched by supplying a first processing gas and generating plasma, and the first etching process is stopped on a surface of the insulating layer; and a second etching process where a residue Z is removed by supplying a second processing gas and generating plasma. The first magnetic layer and the second magnetic layer contain CoFeB, the first processing gas contains Cl2, and the second processing gas contains H2.
US09660179B1
A magnetic memory device includes a magnetic memory stack including a bottom electrode and having a hard mask formed thereon. An encapsulation layer is formed over sides of the magnetic memory stack and has a thickness adjacent to the sides formed on the bottom electrode. A dielectric material is formed over the encapsulation layer and is removed from over the hard mask and gapped apart from the encapsulation layer on the sides of the magnetic memory stack to form trenches between the dielectric material and the encapsulation layer at the sides of the magnetic memory stack. A top electrode is formed over the hard mask and in the trenches such that the top electrode is spaced apart from the bottom electrode by at least the thickness.
US09660178B2
Provided is an electronic device. The electronic device according to an implementation of the disclosed technology includes a semiconductor memory, the semiconductor memory including: a substrate; an interlayer insulating layer formed over the substrate; a metal-containing insulating layer formed over the interlayer insulating layer and including a second metal; a contact hole formed through the interlayer insulating layer and the metal-containing insulating layer; a contact plug filling a portion of the contact hole; a contact pad formed over the contact plug so as to fill the remaining portion of the contact hole; and a variable resistance element formed over the contact pad, wherein the contact pad includes a metal-containing material including a first metal, and the second metal has a higher electron affinity than the first metal.
US09660177B2
An improved method for etching a magnetic tunneling junction (MTJ) structure is achieved. A stack of MTJ layers is provided on a bottom electrode. The MTJ stack is patterned to form a MTJ device wherein sidewall damage or sidewall redeposition is formed on sidewalls of the MTJ device. A dielectric layer is deposited on the MTJ device and the bottom electrode. The dielectric layer is etched away using ion beam etching at an angle relative to vertical of greater than 50 degrees wherein the dielectric layer on the sidewalls is etched away and wherein sidewall damage or sidewall redeposition is also removed and wherein some of the dielectric layer remains on horizontal surfaces of the bottom electrode.
US09660174B2
Provided is a lead-free piezoelectric material having a high Curie temperature, a satisfactory mechanical quality factor, and a satisfactory Young's modulus, and a piezoelectric element and a multilayered piezoelectric element each using the piezoelectric material. The piezoelectric material contains 0.04 mol % or more to 2.00 mol % or less of Cu with respect to 1 mol of a perovskite-type metal oxide represented by the following general formula: (KvBiwBa1-v-w)1-yNax(NbyTi1-y)O3 where relationships of 0
US09660164B2
Elements are added to a light emitting device to reduce the stress within the light emitting device caused by thermal cycling. Alternatively, or additionally, materials are selected for forming contacts within a light emitting device based on their coefficient of thermal expansion and their relative cost, copper alloys being less expensive than gold, and providing a lower coefficient of thermal expansion than copper. Elements of the light emitting device may also be structured to distribute the stress during thermal cycling.
US09660163B2
A semiconductor light-emitting device, and a method of manufacturing the same. The semiconductor light-emitting device includes a first electrode layer, an insulating layer, a second electrode layer, a second semiconductor layer, an active layer, and a first semiconductor layer that are sequentially stacked on a substrate, a first contact that passes through the substrate to be electrically connected to the first electrode layer, and a second contact that passes through the substrate, the first electrode layer, and the insulating layer to communicate with the second electrode layer. The first electrode layer is electrically connected to the first semiconductor layer by filling a contact hole that passes through the second electrode layer, the second semiconductor layer, and the active layer, and the insulating layer surrounds an inner circumferential surface of the contact hole to insulate the first electrode layer from the second electrode layer.
US09660162B2
Provided is an illumination device that includes a light emitting device having a first electrode and a second electrode and a mounting substrate including a first wiring pattern and a second wiring pattern. The first wiring pattern and the second wiring pattern face and are bonded to the first electrode and the second electrode, respectively, through a bonding material. The second electrode and the second wiring pattern are configured to be at least partially overlapped with each other in a plan view irrespective of an orientation of the light emitting device, under condition that the first electrode and the first wiring pattern are at least partially overlapped with each other in the plan view.
US09660153B2
A horizontal LED die is flip-chip mounted on a mounting substrate to define a gap that extends between the closely spaced apart anode and cathode contacts of the LED die, and between the closely spaced apart anode and cathode pads of the substrate. An encapsulant is provided on the light emitting diode die and the mounting substrate. The gap is configured to prevent sufficient encapsulant from entering the gap that would degrade operation of the LED.
US09660133B2
Heterostructures for use in optoelectronic devices are described. One or more parameters of the heterostructure can be configured to improve the reliability of the corresponding optoelectronic device. The materials used to create the active structure of the device can be considered in configuring various parameters the n-type and/or p-type sides of the heterostructure.
US09660129B2
A solar cell is discussed, which includes a pair of connecting electrodes having a portion having a width smaller than a width of a plurality of bus bar electrodes, and the pair of connecting electrodes connects a plurality of second finger electrodes to both sides of an end of one of the plurality of bus bar electrodes, respectively, wherein the end of the one of the plurality of bus bar electrodes being positioned in a second direction, wherein an area not including the plurality of second finger electrodes is positioned between the pair of connecting electrodes, and wherein an auxiliary electrode not connected to the plurality of second finger electrodes and having a width smaller than the width of the plurality of bus bar electrodes is disposed in the area not including the plurality of second finger electrodes.
US09660125B2
A method of making a solar concentrator may include forming a receiving wall having an elongated wall, a first side wall and a second side wall; attaching the first side wall and the second side wall to a reflecting wall to form a housing having an internal volume with an opening; forming a lip on the receiving wall and the reflecting wall; attaching a cover to the receiving wall and the reflecting wall at the lip to seal the opening into the internal volume, thereby creating a rigid structure; and mounting at least one receiver having at least one photovoltaic cell on the elongated wall to receive solar radiation entering the housing and reflected by the receiving wall, the receiver having an axis parallel with a surface normal of the photovoltaic cell, such that the axis is disposed at a non-zero angle relative to the vertical axis of the opening.
US09660122B2
A compact low concentration photovoltaic (LCPV) apparatus totally enclosed in a protective clear dome against harsh environment without active cooling. A conical mirror reflector, a circular lens refractor and a planar circular crystalline silicon photovoltaic solar panel rotate simultaneously inside the dome to concentrate sun rays and instantly produce electricity. The mirror increases electrical current three times and the lens increases one time for total four times using low overall concentration of five to twenty times sun. The lens is offset from the plane parallel to the photovoltaic solar panel, while the panels forming the mirror are angled offset to a center axis perpendicular to the solar panel. The optical assembly and solar panel are mounted in a conical aluminum cage which is pivoted from a rotary turntable for the daily azimuth and altitude rotations. The dual axis movements consist of irregular intermittent increments of less than one second “on time” and less than two minutes “off time” while following the sun path. The electrical power produced is at least two times more than from fixed conventional crystalline silicon solar panel occupying the same planar surface area. LCPV dual tracking systems offer reduced electricity generation costs, reduced installation costs and increased flexibility in deployment.
US09660121B2
A solar module and a method for fabricating a solar module comprising a plurality of rear contact solar cells are described. Rear contact solar cells (1) are provided with a large size of e.g. 156×156 mm2. Soldering pad arrangements (13, 15) applied on emitter contacts (5) and base contacts (7) are provided with one or more soldering pads (9, 11) arranged linearly. The soldering pad arrangements (13, 15) are arranged asymmetrically with respect to a longitudinal axis (17). Each solar cell (1) is then separated into first and second cell portions (19, 21) along a line (23) perpendicular to the longitudinal axis (17). Due to such cell separation and the asymmetrical design of the soldering pad arrangements (13, 15), the first and second cell portions (19, 21) may then be arranged alternately along a line with each second cell portion (21) arranged in a 180°-orientation with respect to the first cell portions (19) and such that emitter soldering pad arrangements (13) of a first cell portion (19) are aligned with base soldering pad arrangements (15) of neighboring second cell portions (21), and vice versa. Simple linear ribbon-type connector strips (25) may be used for interconnecting the cell portions (19, 21) by soldering onto the underlying aligned emitter and base soldering pad arrangements (13, 15). The interconnection approach enables using standard ribbon-type connector strips (25) while reducing any bow as well as reducing series resistance losses.
US09660119B2
A polyester film has excellent resistance to hydrolysis, excellent heat resistance in high temperatures and low humidity, and mechanical strength. The polyester film satisfies a stress heat resistant coefficient f(125)≧3 and a wet thermo retention (=100×S(120)/S(0)) of 30% or more. f(125) is a value obtained by substituting t=125° C. in an approximation represented by f(t); t represents a temperature (° C.) at thermo processing; f(t) represents a stress heat resistant coefficient f at the thermo temperature t and represents an approximation to a straight line obtained by linear approximation by a least squares method of values plotted from a relationship between the thermo temperature t and a logarithm (log T(t)) of time T at which a rupture stress is 50% when t is 150° C., 160° C., 170° C., or 180° C.; T(t) is a time (hr) at which the maximum stress in a tensile test after thermo processing at t° C. and 0% RH is 50% of the maximum stress in a tensile test before thermo processing; S(120) is breaking elongation (%) after aging for 100 hours at 120° C. and 100% RH, and S(0) represents a breaking elongation (%) before aging.
US09660117B1
A semiconductor device has a layered structure. The semiconductor device includes a metallic layer of thickness 1-100 nm, with a thickness optimized to absorb light in a wavelength range of operation. The device further includes an adjacent semiconductor layer additionally adjacent to an ohmic electrical contact, wherein the interface between the metallic layer and the semiconductor layer is electrically rectifying and energy selective. The device further includes a reflective back surface positioned opposite to the semiconductor layer relative to incident light providing broadband reflection in the wavelength range of operation. The semiconductor layer includes a quantum well adjacent to the metallic layer, wherein the energy selectivity is provided by the quantum well allowing charge carrier tunneling from the metallic layer. The device further may include an additional anti-reflection dielectric layer deposited on the metallic layer that is configured to minimize reflection of light in the wavelength range of operation.
US09660115B2
Provided is a detector that includes a scintillator, a common electrode, a pixel electrode, and a plurality of insulating layers, with a plurality of nano-pillars formed in the plurality of insulating layers, a nano-scale well structure between adjacent nano-pillars, with a-Se separating the adjacent nano-pillars, and a method for operation thereof.
US09660093B2
Stable electrical characteristics of a transistor including an oxide semiconductor layer are achieved. A highly reliable semiconductor device including the transistor is provided. The semiconductor device includes a multilayer film formed of an oxide layer and an oxide semiconductor layer, a gate insulating film in contact with the oxide layer, and a gate electrode overlapping with the multilayer film with the gate insulating film interposed therebetween. The oxide layer contains a common element to the oxide semiconductor layer and has a large energy gap than the oxide semiconductor layer. The composition between the oxide layer and the oxide semiconductor layer gradually changes.
US09660091B2
A thin film transistor (TFT) and a method of driving the same are disclosed. The TFT includes: an active layer; a bottom gate electrode disposed below the active layer to drive a first region of the active layer; and a top gate electrode disposed on the active layer to drive a second region of the active layer. The TFT controls the conductivity of the active layer by using the bottom gate electrode and the top gate electrode.
US09660075B2
Integrated circuits having silicide contacts with reduced contact resistance and methods for fabricating integrated circuits having silicide contacts with reduced contact resistance are provided. In an embodiment, a method for fabricating an integrated circuit includes providing a semiconductor substrate with fin structures having source/drain regions in PFET areas and in NFET areas. The method includes selectively forming a contact resistance modulation material on the source/drain regions in the PFET areas. Further, the method includes depositing a band-edge workfunction metal overlying the source/drain regions in the PFET areas and in the NFET areas.
US09660072B2
A laterally diffused metal oxide semiconductor (LDMOS) is provided. A substrate has a deep well with a second conductive type therein. A gate is disposed on the substrate. A first doped region of a second conductive type and a second doped region of a first conductive type are located in the deep well and at the corresponding two sides of the gate. A drain region of a second conductive type is located in the first doped region. A drain contact is disposed on the drain region. A doped region of a first conductive type is located in the first doped region and under the drain region but not directly below the drain contact. A source region is located in the second doped region. A field drift metal oxide semiconductor (FDMOS) which is similar to the laterally diffused metal oxide semiconductor (LDMOS) is also provided.
US09660071B2
A semiconductor device includes a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type, a third semiconductor region of the first conductivity type, a conductive layer, a gate electrode, and a first electrode. The conductive layer includes a first portion, a second portion, and a third portion. The first portion is surrounded by the first semiconductor region via a first insulating portion. The second portion extends in a second direction, is provided on the first semiconductor region, and is provided on the second region. The third portion is connected between the first portion and the second portion and extends in a third direction. The first electrode is electrically connected to the third semiconductor region and the conductive layer. The second portion electrically connects the first electrode to the third portion.
US09660069B2
A method of forming a structure that can be used to integrate Si-based devices, i.e., nFETs and pFETs, with Group III nitride-based devices is provided. The method includes providing a substrate containing an nFET device region, a pFET device region and a Group III nitride device region, wherein the substrate includes a topmost silicon layer and a <111> silicon layer located beneath the topmost silicon layer. Next, a trench is formed within the Group III nitride device region to expose a sub-surface of the <111> silicon layer. The trench is then partially filled with a Group III nitride base material, wherein the Group III nitride material base material has a topmost surface that is coplanar with, or below, a topmost surface of the topmost silicon layer.
US09660068B2
According to this GaN-based HFET, resistivity ρ of a semi-insulating film forming a gate insulating film is 3.9×109Ωcm. The value of this resistivity ρ is a value derived when the current density is 6.25×10−4 (A/cm2). By inclusion of the gate insulating film by a semi-insulating film having a resistivity ρ=3.9×109Ωcm, a withstand voltage of 1000 V can be obtained. Meanwhile, the withstand voltage abruptly drops as the resistivity of the gate insulating film exceeds 1 ×1011Ωcm, and the gate leak current increases when the resistivity of the gate insulating film drops below 1 ×107Ωcm.
US09660064B2
Transistors or transistor layers include an InAlN and AlGaN bi-layer capping stack on a 2DEG GaN channel, such as for GaN MOS structures on Si substrates. The GaN channel may be formed in a GaN buffer layer or stack, to compensate for the high crystal structure lattice size and coefficient of thermal expansion mismatch between GaN and Si. The bi-layer capping stack an upper InAlN layer on a lower AlGaN layer to induce charge polarization in the channel, compensate for poor composition uniformity (e.g., of Al), and compensate for rough surface morphology of the bottom surface of the InAlN material. It may lead to a sheet resistance between 250 and 350 ohms/sqr. It may also reduce bowing of the GaN on Si wafers during growth of the layer of InAlN material, and provide a AlGaN setback layer for etching the InAlN layer in the gate region.
US09660061B2
A p-type well is formed in a semiconductor substrate, and an n+-type semiconductor region and a p+-type semiconductor region are formed in the p-type well to be spaced apart from each other. The n+-type semiconductor region is an emitter semiconductor region of a bipolar transistor, and the p-type well and the p+-type semiconductor region are base semiconductor regions of the bipolar transistor. An electrode is formed on an element isolation region between the n+-type semiconductor region and the p+-type semiconductor region, and at least a part of the electrode is buried in a trench which is formed in the element isolation region. The electrode is electrically connected to the n+-type semiconductor region.
US09660045B2
The characteristics of a semiconductor device are improved. A semiconductor device is formed so as to have a channel layer formed over a substrate, a barrier layer, a trench penetrating through the barrier layer in an opening region, and reaching some point of the channel layer, a gate electrode arranged in the trench via a gate insulation film, and an insulation film formed over the barrier layer outside the opening region. Then, the insulation film has a lamination structure of a Si-rich silicon nitride film, and a N-rich silicon nitride film situated thereunder. Thus, the upper layer of the insulation film is set as the Si-rich silicon nitride film. This enables the improvement of the breakdown voltage, and further, enables the improvement of the etching resistance. Whereas, the lower layer of the insulation film is set as the N-rich silicon nitride film. This can suppress collapse.
US09660039B2
According to one embodiment, a thin-film transistor includes a semiconductor layer SC including a channel region, and a source region and a drain region on both sides of the channel region, a gate electrode GE, a first electrode SE connected to the source region via a first contact hole CH1, a second electrode DE connected to the drain region via a second contact hole CH2, a source line connected to the first electrode, and a drain line connected to the second electrode. A distance from the first and second contact holes to an end of the respective regions in a direction of a channel width is greater than or equal to 5 μm and less than or equal to 30 μm. The source line and the drain line extend in directions different from each other.
US09660031B2
A method includes epitaxially growing a first III-V compound semiconductor, wherein the first III-V compound semiconductor is of p-type. The first III-V compound semiconductor is grown using precursors including a first precursor comprising Cp2Mg, and a second precursor comprising a donor impurity. A second III-V compound semiconductor is grown overlying and contacting the first III-V compound semiconductor. The second III-V compound semiconductor is of n-type.
US09660028B1
A semiconductor device includes a first gate stack arranged about a first nanowire and a second nanowire, the first nanowire is arranged above a second nanowire, the first nanowire is connected to a first source/drain region and a second source/drain region. A second gate stack is arranged about a third nanowire and a fourth nanowire, the third nanowire is arranged above a fourth nanowire, the third nanowire is connected to a third source/drain region and a fourth source/drain region. An insulator layer having a first thickness is arranged adjacent to the first gate stack.
US09660025B2
Structures and formation methods of a semiconductor device structure are provided. The semiconductor device structure includes a fin structure over a semiconductor substrate. The fin structure includes a first surface and a second surface. The first surface is inclined to the second surface. The semiconductor device structure also includes a passivation layer covering the first surface and the second surface of the fin structure. The thickness of a first portion of the passivation layer covering the first surface is substantially the same as that of a second portion of the passivation layer covering the second surface.
US09660022B2
A method of fabricating a single diffusion break includes providing a fin with two gate structures crossing the fin and a middle dummy gate structure crossing the fin, wherein the middle dummy gate structure is sandwiched by the gate structures. Later, numerous spacers are formed and each spacer respectively surrounds the gate structures and the middle dummy gate structure. Then, the middle dummy gate structure, and part of the fin directly under the middle dummy gate structure are removed to form a recess. Finally, an isolating layer in the recess is formed to close an entrance of the recess so as to form a void embedded within the recess.
US09660013B2
Disclosed herein is a chip inductor. The chip inductor according to the present invention includes a substrate on which a trough-hole is formed, a conductive coil that is formed on the substrate, an upper resin composite magnetic layer that is filled to surround the conductive coil so that a core is formed on a center portion of the substrate, a lower resin composite magnetic layer that is formed on a bottom portion of the substrate, and an external electrode that is formed on both sides of the upper and lower resin composite magnetic layers.
US09660008B2
A large-format substrate with distributed control elements is formed by providing a substrate and a wafer, the wafer having a plurality of separate, independent chiplets formed thereon; imaging the wafer and analyzing the wafer image to determine which of the chiplets are defective; removing the defective chiplet(s) from the wafer leaving remaining chiplets in place on the wafer; printing the remaining chiplet(s) onto the substrate forming empty chiplet location(s); and printing additional chiplet(s) from the same or a different wafer into the empty chiplet location(s).
US09660003B2
An organic electroluminescent device with a touch sensor including: a first substrate; a second substrate arranged opposite to the first substrate; an organic EL element layer arranged above the first substrate; a first sealing film arranged toward the second substrate of the organic EL element layer, covering the organic EL element layer, and including a first inorganic layer; plural first detection electrodes extending in one direction, and arranged in parallel toward the second substrate of the first sealing film; a second sealing film arranged toward the second substrate of the first detection electrodes, and including a second inorganic layer; plural second detection electrodes extending in another direction different from the one direction, and arranged in parallel toward the second substrate of the second sealing film; and a touch sensor control unit controlling a potential to detect a touch with a display surface.
US09659986B2
A two-dimensional solid-state image capture device includes pixel areas arranged in a two-dimensional matrix, each pixel area being constituted by multiple sub-pixel regions, each sub-pixel region having a photoelectric conversion element. A polarization member is disposed at a light incident side of at least one of the sub-pixel regions constituting each pixel area. The polarization member has strip-shaped conductive light-shielding material layers and slit areas, provided between the strip-shaped conductive light-shielding material layers. Each sub-pixel region further has a wiring layer for controlling an operation of the photoelectric conversion element, and the polarization member and the wiring layer are made of the same material and are disposed on the same virtual plane.
US09659981B2
A semiconductor image sensor device having a negatively-charged layer includes a semiconductor substrate having a p-type region, a plurality of radiation-sensing regions in the p-type region proximate a front side of the semiconductor substrate, and a negatively-charged layer adjoining the p-type region proximate the plurality of radiation-sensing regions. The negatively-charged layer may be an oxygen-rich silicon oxide, a high-k metal oxide, or a silicon nitride formed as a liner in a shallow trench isolation feature, a sidewall spacer or an offset spacer of a transistor gate, a salicide-block layer, a buffer layer under a salicide-block layer, a backside surface layer, or a combination of these.
US09659971B2
The present invention relates to the field of liquid crystal display technology and provides an array substrate and a liquid crystal display device which can solve the problem of low transmissivity of existing liquid crystal display devices. The array substrate of the present invention comprises a plurality of pixel units, each pixel unit is provided with a plate electrode and a slit electrode arranged above the plate electrode, an insulation layer is provided between the plate electrode and the slit electrode, and the plate electrode extends to the periphery region of the pixel unit, the slit electrode extends to the periphery region of the pixel unit; the slit electrode and the plate electrode are both provided in at least part of the peripheral region of the pixel unit. the present invention is applicable to liquid crystal display devices, especially the liquid crystal display devices taking a “dual gate lines” design.
US09659967B2
A thin-film transistor includes a substrate, a gate electrode formed over the substrate, a gate insulating layer formed over the gate electrode and the substrate, an oxide semiconductor layer formed over the gate insulating layer and comprising a source section and a drain section, a first electrode formed over the substrate and electrically connected to the source section, and a second electrode formed over the substrate and electrically connected to the drain section. The thin-film transistor further includes a first barrier layer disposed between the oxide semiconductor layer and the first electrode, a second barrier layer disposed between the first barrier layer and the first electrode, and the first electrode being electrically connected to the oxide semiconductor layer via the first barrier layer and the second barrier layer.
US09659955B1
A method of forming a device includes forming an alternating stack of insulating layers and sacrificial material layers over a substrate, forming a memory opening extending through the alternating stack, and forming an aluminum oxide layer on sidewall surfaces of the sacrificial material layers and on sidewall surfaces of the insulating layers around the memory opening. First aluminum oxide portions of the aluminum oxide layer are located on sidewall surfaces of the sacrificial material layers, and second aluminum oxide portions of the aluminum oxide layer are located on sidewalls of the insulating layers. The method also includes removing the second aluminum oxide portions at a greater etch rate than the first aluminum oxide portions employing a selective etch process, such that all or a predominant portion of each first aluminum oxide portion remains after removal of the second aluminum oxide portions.
US09659948B2
A semiconductor device includes a substrate with a memory region and a logic region, a logic gate stack, and a non-volatile gate stack. The substrate has a recess disposed in the memory region. The logic gate stack is disposed in the logic region and has a first top surface. The non-volatile gate stack is disposed in the recess and has a second top surface. The second top surface is lower than the first top surface by a step height.
US09659942B1
A method for forming a semiconductor device includes depositing spacer material on a first sidewall and a second sidewall of a fin formed on a substrate. The spacer material is removed from the first sidewall. A selective epitaxy process is performed on the first sidewall of the fin.
US09659941B2
Embodiments of the present disclosure provide an integrated circuit (IC) structure and methods of electrically connecting multiple IC structures. An IC structure according to embodiments of the present disclosure can include: a first conductive region; a second conductive region laterally separated from the first conductive region; a first vertically-oriented semiconductor fin formed over and contacting the first conductive region; a second vertically-oriented semiconductor fin formed over and contacting the second conductive region; and a first gate contacting each of the first vertically-oriented semiconductor fin and the second conductive region, wherein the first gate includes: a substantially horizontal section contacting the first vertically-oriented semiconductor fin, and a substantially vertical section contacting the second conductive region.
US09659940B2
A method of manufacturing a semiconductor device includes: preparing a wafer in which a first cell area and a second cell area are defined; forming a bottom electrode structure in the first cell area and a dummy structure located in the second cell area; and sequentially forming a dielectric layer and a top electrode on the bottom electrode structure and the dummy structure, wherein the bottom electrode structure includes a plurality of bottom electrodes extending in a first direction in the first cell area and first and second supporters to support the plurality of bottom electrodes, wherein the dummy structure includes a first mold film, a first supporter film, a second mold film, and a second supporter film that are sequentially formed to cover the second cell area, and the second supporter and the second supporter film are at a same level relative to the wafer.
US09659930B1
A semiconductor device includes first and second FETs including first and second channel regions, respectively. The first and second FETs include first and second gate structures, respectively. The first and second gate structures include first and second gate dielectric layers formed over the first and second channel regions and first and second gate electrode layers formed over the first and second gate dielectric layers. The first and second gate structures are aligned along a first direction. The first gate structure and the second gate structure are separated by a separation plug made of an insulating material. A width of the separation plug in a second direction perpendicular to the first direction is smaller than a width of the first gate structure in the second direction, when viewed in plan view.
US09659929B2
A semiconductor device includes enhancement FinFET cells and depletion FinFET cells. The enhancement FinFET cells include first gate structures separating first semiconductor fins. The depletion FinFET cells include second gate structures separating second semiconductor fins. Between the first and second gate structures a connection structure separates the first semiconductor fins from the second semiconductor fins. The connection structure has a specific conductance which is higher than a specific conductance in the second semiconductor fins.
US09659908B1
Discussed generally herein are methods and devices for more reliable Package on Package (PoP) Through Mold Interconnects (TMIs). A device can include a first die package including a first conductive pad on or at least partially in the first die package, a dielectric mold material on the first die package, the mold material including a hole therethrough at least partially exposing the pad, a second die package including a second conductive pad on or at least partially in the second die package the second die package on the mold material such that the second conductive pad faces the first conductive pad through the hole, and a shape memory structure in the hole and forming a portion of a solder column electrical connection between the first die package and the second die package.
US09659905B2
A semiconductor package may include a first die, a second die disposed adjacent to the first die, and configured to share an address with the first die. The semiconductor package may include a first address pin included with the first die, and configured for receiving the address. The semiconductor package may include a second address pin included with the second die, and configured for receiving the address. The first die and the second die may output data corresponding to the address. Timings of the address in the first die and the second die may be aligned according to delay signals applied from a controller.
US09659903B2
A die includes a substrate, a metal pad over the substrate, and a passivation layer covering edge portions of the metal pad. A metal pillar is formed over the metal pad. A portion of the metal pillar overlaps a portion of the metal pad. A center of the metal pillar is misaligned with a center of the metal pad.
US09659898B1
Embodiments of the present disclosure are directed towards apparatuses, systems, and methods for die attach coatings for semiconductor packages. In one embodiment, a die may be coupled with a substrate by a die attach and a coating may be applied to an edge of the die attach.
US09659886B2
The invention provides a semiconductor device including a substrate, a dielectric layer, a dummy bonding pad, a bonding pad, a redistribution layer, and a metal interconnect. The substrate includes a non-device region and a device region. The dielectric layer is on the non-device region and the device region. The dummy bonding pad is on the dielectric layer of the non-device region. The metal interconnect is in the dielectric layer of the non-device region and connected to the dummy bonding pad. The bonding pad is on the dielectric layer of the device region. The buffer layer is between the bonding pad and the dielectric layer. The buffer layer includes metal, metal nitride, or a combination thereof. The redistribution layer is on the dielectric layer and connects the dummy bonding pad and the bonding pad.
US09659867B2
The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed.
US09659865B2
There is provided a field-effect transistor including: a gate electrode; a semiconductor layer having a source region and a drain region with the gate electrode in between; contact plugs provided on the source region and the drain region; first metals stacked on the contact plugs; and a low-dielectric constant region provided in a region between the first metals along an in-plane direction of the semiconductor layer and provided at least in a first region below bottom surfaces of the first metals along a stacking direction.
US09659861B2
A semiconductor device includes a lower wiring layer made of a conductive material; an upper wiring layer formed in an upper layer than the lower wiring layer; and a fuse film, at least a portion of the fuse film being formed in a plug formation layer in which a plug for connecting the lower wiring layer and the upper wiring layer is formed, and made of a conductive material including a metallic material other than copper.
US09659855B2
A cavity package is set forth along with a method of manufacturing thereof. The method comprises applying a selective plating resist to a metallic substrate in a pattern to expose portions for a ring, tie bars, die attach pad and input/output wire bonding pads; elective depositing of metal plating using the selective plating resist; removing the selective metal plating resist; applying a selective etching resist to the substrate; selectively etching portions of the substrate not covered by the selective etching resist; stripping away the selective etching resist; pre-molding a leadframe to the substrate so as to surround the die attach pad portion; etching the tie bars away from the bottom surface of the substrate; attaching a semiconductor device die to the die attach pad; wire bonding the semiconductor device to the input/output wire bonding pads; and attaching a cap to the ring portion of the substrate and the die attach pad to protect the wire bonded semiconductor device die and permit electrical grounding.
US09659845B2
A power quad flat no-lead (PQFN) package includes a driver integrated circuit (IC) situated on a leadframe. The PQFN package further includes low-side U-phase, low-side V-phase, and low-side W-phase power switches situated on the leadframe. A logic ground of the leadframe is coupled to a support logic circuit of the driver IC. A power stage ground of the leadframe is coupled to sources of the low-side U-phase, low-side V-phase, and low-side W-phase power switches. The power stage ground can further be coupled to gate drivers of the driver IC.
US09659842B2
A method for fabricating a quad flat non-leaded (QFN) package includes: forming die pads and bump solder pads by pressing a metal plate, wherein each of the die pads and the bump solder pads has at least a cross-sectional area greater than another cross-sectional area located underneath along its vertical thickness dimension, thereby enabling the die pads and the solder pads to be securely embedded in an encapsulant.
US09659841B2
A method of producing a semiconductor device, comprising the steps of forming a through hole in a semiconductor substrate having a first main surface, a second main surface opposite to the first main surface, and a first conductive layer disposed on the second main surface so that the through hole passes through the semiconductor substrate from the first main surface to the second main surface; forming an insulation film to extend from a bottom portion of the through hole to the first main surface through a side surface of the through hole; coating an organic member on the insulation film on the side surface of the through hole and the first main surface; removing an air bubble in the organic member and between the organic member and the insulation film; and forming a first opening portion in the organic member.
US09659840B2
A method of forming a TSV isolation layer and a transistor-to-BEOL isolation layer during a single deposition process and the resulting device are disclosed. Embodiments include providing a gate stack, with source/drain regions at opposite sides thereof, and an STI layer on a silicon substrate; forming a TSV trench, laterally separated from the gate stack, through the STI layer and the silicon substrate; forming an isolation layer on sidewalls and a bottom surface of the TSV trench and over the gate stack, the STI layer, and the silicon substrate; forming a TSV in the TSV trench; forming a dielectric cap over the isolation layer and the TSV; and forming a source/drain contact through the dielectric cap and the isolation layer down to the source/drain contract regions.
US09659835B1
A technique for designing an integrated circuit includes placing standard cells across a first surface of a substrate of an integrated circuit (IC) design. At least two unoccupied regions are located across the first surface that do not include standard cells. Aspect ratios for one or more micro fill vias that can be placed in the at least two unoccupied regions are determined. The one or more micro fill vias are placed in the at least two unoccupied regions. Finally, one or more partial thermal vias are placed from a second surface of the integrated circuit, opposite the first surface, to thermally couple the one or more partial thermal vias to the one or more micro fill vias to create thermal paths from the first surface to the second surface.
US09659830B2
A dimension detection device includes a first detection unit which is moved to a first predetermined position in a first direction, and configured to detect a current position of the first member, and when the current position of the first member is not a third predetermined position corresponding to the first predetermined position, send a first signal; a second detection unit which is moved to a second predetermined position in the first direction, and configured to detect a current position of the second member, and when the current position of the second member is not a fourth predetermined position corresponding to the second predetermined position, send a second signal; a movement unit which is configured to move the first detection unit and the second detection unit; and an alarm unit configured to send an alarm upon the receipt of the first signal and/or the second signal.
US09659814B2
Described are methods for controlling the doping of metal nitride films such as TaN, TiN and MnN. The temperature during deposition of the metal nitride film may be controlled to provide a film density that permits a desired amount of doping. Dopants may include Ru, Cu, Co, Mn, Mo, Al, Mg, Cr, Nb, Ta, Ti and V. The metal nitride film may optionally be exposed to plasma treatment after doping.
US09659811B1
A method of forming a semiconductor device includes forming a low-k dielectric layer over a substrate and forming a first dielectric layer on the low-k dielectric layer. A first metal hard mask layer is formed on the first dielectric layer, and a second dielectric layer is formed on the first metal hard mask layer. A second metal hard mask layer is formed on the second dielectric layer, and a first trench opening is formed in the second metal hard mask layer and the second dielectric layer exposing the first metal hard mask layer. A first via opening is formed in the exposed first metal hard mask layer in the first trench opening, and the first trench opening and first via opening are extended into the low-k dielectric layer to form a first trench and a first via.
US09659810B2
The present disclosure provides many different embodiments of fabricating a FinFET device that provide one or more improvements over the prior art. In one embodiment, a method of fabricating a FinFET includes providing a semiconductor substrate and a plurality of dummy fins and active fins on the semiconductor substrate. A predetermined group of dummy fins is removed.
US09659796B2
An apparatus for manufacturing integrated circuits on a wafer includes a polish pad; a rinse arm movable over the polish pad; and a post-polish cleaner. The post-polish cleaner includes a brush for brushing the wafer; and a nozzle aiming at the wafer. The apparatus further includes a mixer configured to mix an additive and de-ionized water; and a pipe connecting the mixer to at least one of the rinse arm and the nozzle.
US09659793B2
A method for producing a material-bonding connection between a semiconductor chip and a metal layer is disclosed. For this purpose, a semiconductor chip, a metal layer, which has a chip mounting portion, and also a bonding medium containing a metal powder are provided. The metal powder is sintered in a sintering process. In this case, throughout a prescribed sintering time, the prescribed requirements are met, that the bonding medium is arranged between the semiconductor chip and the metal layer and extends right through from the semiconductor chip to the metal layer, that the semiconductor chip and the metal layer are pressed against one another in a pressing-pressure range that lies above a minimum pressing pressure, that the bonding medium is kept in a temperature range that lies above a minimum temperature and that a sound signal is introduced into the bonding medium.
US09659790B2
A method of forming a pattern, the method including forming a mask layer on a feature layer on a substrate; forming guides regularly arranged with a first pitch on the mask layer in a first region and dummy guides regularly arranged with the first pitch on the mask layer in a second region spaced apart from the first region with a separation region therebetween, the separation region having a width greater than the first pitch; forming a block copolymer layer on the mask layer; phase-separating the block copolymer layer to form a self-assembled layer; forming a mask pattern by etching the mask layer using the self-assembled layer; and patterning the feature layer by transferring a shape of the mask pattern to the feature layer in the first region while blocking the shape of the mask pattern from being transferred to the feature layer in the second region.
US09659783B2
A method for etching features in a stack is provided. A combination hardmask is formed by forming a first hardmask layer comprising carbon or silicon oxide over the stack, forming a second hardmask layer comprising metal over the first hardmask layer, and patterning the first and second hardmask layers. The stack is etched through the combination hardmask.
US09659782B2
A method for fabricating memory device is disclosed. The method includes the steps of: providing a substrate having a tunnel oxide layer on the substrate, a first electrode layer on the tunnel oxide layer, an oxide-nitride-oxide (ONO) stack on the first electrode layer, and a second electrode layer on the ONO stack, and then removing part of the second electrode layer, part of the ONO stack, and part of the first electrode layer so that the tunnel oxide layer is not exposed.
US09659778B2
Methods of fabricating semiconductor devices and structures thereof are disclosed. In one embodiment, a method of manufacturing a semiconductor device includes forming a gate material stack over a substrate having a first region and a second region. The gate material stack includes a semiconductive gate material. A thickness is altered or a substance is introduced to the semiconductive gate material in the first region or the second region of the substrate. The gate material stack is patterned in the first region and the second region resulting in a first transistor in the first region of the substrate comprising an NMOS FET of a CMOS device and a second transistor in the second region of the substrate comprising an NMOS FET of the CMOS device. The first transistor has a first threshold voltage and the second transistor has a second threshold voltage different than the first threshold voltage.
US09659772B2
Semiconductor devices and methods of manufacturing the semiconductor devices are provided. The semiconductor devices may include a first line pattern that includes a first main line having a first width and a first subline having a second width, and a second line pattern that includes a second main line having the first width and a second subline having a third width. The first line pattern may include a first width changer whose width increases from the first width to the second width. The second line pattern may include a second width changer whose width increases from the first width to the third width.
US09659761B2
A method and apparatus of compensating a magnetic field inhomogeneity in a dynamically harmonized FT-ICR cell is presented, based on adding of extra electrodes into the cell, the extra electrodes being shaped in such a way that the averaged electric field created by these electrodes produces a counter force to the forces caused by the inhomogeneous magnetic field on the cycling ions.
US09659748B2
Methods and systems are described for processing cellulosic and lignocellulosic materials and useful intermediates and products, such as energy and fuels. For example, irradiating methods and systems are described to aid in the processing of the cellulosic and lignocellulosic materials. The electron beam accelerator has multiple windows foils and these foils are cooled with cooling gas. In one configuration a secondary foil is integral to the electron beam accelerator and in another configuration the secondary foil is part of the enclosure for the biomass conveying system.
US09659741B2
An electron emitter can include: a plurality of elongate rungs connected together end to end from a first emitter end to a second emitter end in a plane so as to form a planar pattern; a plurality of corners, wherein each elongate rung is connected to another elongate rung through a corner having a corner apex and an opposite corner nadir; a first gap between adjacent non-connected elongate rungs, wherein the first gap extends from the first emitter end to a middle rung; a second gap between adjacent non-connected elongate rungs, wherein the second gap extends from the second emitter end to the middle rung, wherein the first gap does not intersect the second gap; and one or more cutouts at one or more of the corners of the plurality of corners between the corner apex and corner nadir or at the corner nadir.
