Patent application number | Description | Published |
20090102475 | INTEGRATED 3-AXIS FIELD SENSOR AND FABRICATION METHODS - A multi-axis magnetic or other field sensing device and method of fabricating a multi-axis magnetic or other field sensing device. An example sensing device is a 3-axis sensor package on a substrate with sensors on opposing sides of the substrate. One side of the substrate includes an X-axis sensor and a Y-axis sensor (or alternatively an integrated X-Y-axis sensor) and the opposite side of the substrate includes a Z-axis sensor on at least one sloped surface, the surface sloped with respect to both the first and second surface areas. One surface is mechanically and electrically bonded to a circuit board via conductive bumps. The other surface electrically connects to the circuit board through bonded wires and/or vias formed through the substrate. | 04-23-2009 |
20090315644 | HIGH-Q DISK NANO RESONATOR DEVICE AND METHOD OF FABRICATING THE SAME - A nanoresonator device with high quality factor and method for fabricating the same is disclosed herein. The nanoresonator device generally includes an input electrode, an output electrode, a nanoresonator anchored at its motionless nodal points of its resonance modes by support beam(s) and/or anchor. The nanoresonator device can be fabricated on various wafers including a silicon on insulator (SOI) wafer, which includes an insulating layer and a heavily doped silicon layer. The nano structures with high quality factor can be patterned on a film utilizing nano fabrication tools and the patterned structures can be utilized as a mask to form permanent nano structures on the silicon layer by reactive ion etching (RIE). The insulating layer can be removed to form the anchor beams and a cavity by wet etching utilizing an etching solution. | 12-24-2009 |
20100001355 | RF MEMS Switch - An RF MEMS switch having a beam composed of a material having a high resistivity and a large Young's modulus may provide a large restoring force, a large electrostatic force at a low actuation voltage, and good isolation between signal input and output. RF MEMS switch reliability may be improved by reducing failures due to stiction by providing a large restoring force. A reliable contact may be provided with a large electrostatic force. | 01-07-2010 |
20100024231 | NANOWIRE MAGNETIC COMPASS AND POSITION SENSOR - A nanowire magnetic sensor and position sensor for determining the position of a magnetic object and direction of magnetic field is disclosed herein. The magnetic compass includes a number of magnetic nanosensor printed on a flexible substrate, which covers 360-degree angle at equal intervals. Each magnetic nanosensor generally includes magneto-resistive nanowires with high magnetic sensitivity printed in sets e.g. of ten on the flexible substrate. The flexible substrate can also be bent to form a circular configuration to detect the azimuth direction of the magnetic field. The individual nanosensors can be connected into resistive Wheatstone bridge configurations by metalization. The magnetic nanosensors can be utilized as a position sensor of a magnetic object for position determination. Additional electronics can also be mounted or printed on the flexible substrate from other type of nanowires. | 02-04-2010 |
20100092806 | MINIATURE POWERED ANTENNA FOR WIRELESS COMMUNICATIONS AND RELATED SYSTEM AND METHOD - An apparatus includes a power source configured to provide power to one or more external components. The power source includes one or more metallization layers. At least one of the one or more metallization layers is configured as an antenna for transmitting or receiving wireless signals. The power source could include a hydrogen generator configured to produce hydrogen gas and a fuel cell configured to generate an electrical current using the hydrogen gas. The hydrogen generator could include a fuel for producing the hydrogen gas and a selectively permeable membrane surrounding the fuel. The fuel cell could include a first electrode surrounding the selectively permeable membrane, a proton exchange membrane surrounding the first electrode, and a second electrode surrounding the proton exchange membrane. The hydrogen generator may be configured to produce the hydrogen gas using water, and the power source may consume only oxygen gas and optionally water vapor from an ambient environment. | 04-15-2010 |
20100157801 | WIRELESS MESH NETWORK FOR INTER-COMPONENT DATA COMMUNICATIONS IN SATELLITE SYSTEMS - A network system for inter-component communications in an electronic device is disclosed. The system comprises a plurality of components for an electronic device, where each of the components communicates with at least one other component over a communications medium for a wireless mesh network. Each of the components comprises a communications transceiver operable to determine network traffic load levels for an exchange of communication data between the components, and allocate the network traffic between at least one pair of the components over a plurality of wireless links within the wireless mesh network based on potential-field based measurements at each of the components. In addition, each of the communications transceivers share the exchange of the communication data between the components based on a prescribed priority level for allocation of the network traffic. | 06-24-2010 |
20100223797 | NANOWIRE MAGNETIC SENSOR - A nanowire magnetic sensor includes an array of magneto-resistive (MR) nanosensors with each MR nanosensor including a set of MR nanowires that are all aligned in the same position for one direction. The substrate can be a flexible substrate bent into a circular configuration for compass applications. A plurality of individual nanosensors can be connected into resistive Wheatstone bridge configurations by metallization. | 09-09-2010 |
20140021803 | DETERMINING CURRENT - Methods, systems, and devices for determining current are described herein. One method includes receiving power from a current conductor using a first quantity of coils of a wire around a magnetic core at least partially surrounding a portion of the current conductor, receiving an indication associated with a determined current through the current conductor from a current sensor associated with the wire, and receiving power from the current conductor using a second quantity of the coils of the wire, wherein the second quantity is determined based, at least in part, on the determined current. | 01-23-2014 |
20150021796 | METHODS, SYSTEMS, AND DEVICES FOR HUMIDIFYING - Methods, systems, and devices for humidifying are described herein. One method includes determining a temperature in a space associated with a humidifying unit, determining a relative humidity in the space, determining an air speed associated with the humidifying unit, and adjusting an amount of water sprayed by the humidifying unit based, at least in part, on the temperature, the relative humidity, and the air speed. | 01-22-2015 |
Patent application number | Description | Published |
20100140670 | INTEGRATION OF MEMS AND CMOS DEVICES ON A CHIP - A method of forming CMOS circuitry integrated with MEMS devices includes bonding a wafer to a top surface layer having contacts formed to CMOS circuitry. A handle wafer is then removed from one of the top or bottom surfaces of the CMOS circuitry, and MEMS devices are formed in a remaining silicon layer. | 06-10-2010 |
20110175746 | SCANNER FOR VIBRATION MAPPING - A method of detecting motion in components that form part of a structure. The method includes flooding a first component with transmitted radio frequency signals and receiving reflected radio frequency signals from the first component with an antenna. The method further includes generating a first set of intermediate frequency signals based on differences between the transmitted radio frequency signals and the reflected radio frequency signals and measuring the first set of intermediate frequency signals. The method further includes flooding a second component with transmitted radio frequency signals and receiving reflected radio frequency signals from the second component with an antenna. The method further includes generating a second set of intermediate frequency signals based on differences between the transmitted radio frequency signals and the additional reflected radio frequency signals and measuring the second set of intermediate frequency. | 07-21-2011 |
20110175766 | THREE DIMENSIONAL NONCONTACT MOTION SENSOR - A non-contact motion sensor comprising a radar detector that includes a first antenna, a second antenna that is orthogonal to the first antenna and a third antenna that is orthogonal to the first antenna and the second antenna. The non-contact motion sensor further includes a control that collects and analyzes signals that are received from the radar detector. | 07-21-2011 |
20110175768 | RELATIVE VIBRATION MEASUREMENT - A method of detecting motion in a load bearing member on a machine. The method includes positioning a Doppler radar detector on the machine and orienting the Doppler radar detector such that the Doppler radar detector floods the load bearing member transmitted radio frequency signals. The method further includes receiving reflected radio frequency signals from the load bearing member with an antenna and generating intermediate frequency signals based on differences between the transmitted radio frequency signals and the reflected radio frequency signals. The method further includes measuring the intermediate frequency signals. | 07-21-2011 |
20110283768 | SELF-CALIBRATING VIBRATION SENSOR - An antenna in a radar sensor is vibrated at a known frequency and velocity in a direction generally normal to the antenna surface. A response received by the antenna is used to scale or calibrate sensor responses at frequencies of interest. | 11-24-2011 |
20110285578 | RF BASED TRACKER FOR ROTATING OBJECTS - An RF beam is used to probe the presence or absence of a rotating blade in a known field of view. Timing of appearance or disappearance or “zero-crossing” of a reflected signal is correlated with timing of the blade movement. Blades which are leading or lagging versus other blades will produce different timing signatures representative of alignment of the blades | 11-24-2011 |
20110288796 | CONDITION BASED MONITORING SYSTEM BASED ON RADAR SENSOR - A sensing system comprising a radar-based vibration sensor and processing unit used to collect and process vibration information from a machine of interest. The radar-based vibration sensor obtains vibration data from mechanical operation of a component or series of components in the machine, and may be steered toward specific regions of interest of the machine. The processing unit analyzes the data, and may fuse data from a plurality of vibration sensors, such as radar-based vibration sensors and multiple machine-mounted sensors such as accelerometers. From this analysis, indications related to a status of the mechanical operation of the components in the machine of interest may be provided to relevant users. | 11-24-2011 |
20130327156 | ULTRASONIC FLOW SENSOR AND METHOD - A flow sensor includes a conduit and an ultrasonic transceiver. The conduit has an inner surface and an outer surface. The inner surface defines a flow passage through which a fluid may flow in a flow direction. The ultrasonic transceiver is coupled to, and surrounds a portion of, the outer surface of the conduit. The ultrasonic transceiver is configured to transmit ultrasonic waves into the fluid that propagate in a direction that is parallel to the flow direction, receive ultrasonic waves, and supply sensor signals representative of the received ultrasonic waves. | 12-12-2013 |
Patent application number | Description | Published |
20090195365 | APPARATUS AND METHOD FOR RANGING OF A WIRELESS TRANSCEIVER WITH A SWITCHING ANTENNA - A sensor includes a transceiver configured to receive a wireless signal from an interrogator and to reflect the wireless signal back. The sensor also includes an antenna-switching modulator configured to modulate a radar cross-section of the sensor by repeatedly switching an antenna between, for example, a short-circuit position and an operational circuit position. The operational circuit position could be associated with an impedance matched receiver, and the short-circuit position could be associated with ground. Also, the sensor could be further configured to transmit the wireless signal to a second sensor and to receive a reflected wireless signal from the second sensor, and the sensor could further include a phase comparator configured to compute a phase difference between the transmitted wireless signal and the reflected wireless signal. The phase comparator could be further configured to compute a distance between the sensor and the second sensor based on the phase difference. | 08-06-2009 |
20110193422 | SECURE NON-CONTACT SWITCH - A redundant non-contact switch reports a status as closed or open for a first member and a second member that move relative to each other between an open state and a closed state. In some embodiments, the redundant non-contact switch includes a wireless authentication (WA) pair and a magnetic pair. The WA pair may include a WA responder attached to one of the first member and the second member, and a WA interrogator attached to the other of the first member and the second member. The WA pair may be configured to register a WA status of closed or open, depending on a WA authentication between the WA responder and the WA interrogator. The magnetic pair may include a magnet attached to one of the first member and the second member, and a magnet sensor attached to the other of the first member and the second member. The magnetic pair may be configured to register a magnetic status of closed or open, depending on whether a magnet distance between the magnet and magnet sensor is beyond a threshold magnet distance. In some instances, the redundant non-contact switch reports the status as closed only if both the WA status is registered as closed and the magnetic status is registered as closed. | 08-11-2011 |
20110193663 | SECURE NON-CONTACT SWITCH - A redundant non-contact switch reports a status as closed or open for a first member and a second member that move relative to each other between an open state and a closed state. In some embodiments, the redundant non-contact switch includes a wireless authentication (WA) pair and a magnetic pair. The WA pair may include a WA responder attached to one of the first member and the second member, and a WA interrogator attached to the other of the first member and the second member. The WA pair may be configured to register a WA status of closed or open, depending on a WA authentication between the WA responder and the WA interrogator. The magnetic pair may include a magnet attached to one of the first member and the second member, and a magnet sensor attached to the other of the first member and the second member. The magnetic pair may be configured to register a magnetic status of closed or open, depending on whether a magnet distance between the magnet and magnet sensor is beyond a threshold magnet distance. In some instances, the redundant non-contact switch reports the status as closed only if both the WA status is registered as closed and the magnetic status is registered as closed. | 08-11-2011 |