Abstract: The present invention relates to methods for forming through-wafer interconnects in semiconductor substrates and the resulting structures. In one embodiment, a method for forming a through-wafer interconnect includes providing a substrate having a pad on a surface thereof, depositing a passivation layer over the pad and the surface of the substrate, and forming an aperture through the passivation layer and the pad using a substantially continuous process. An insulative layer is deposited in the aperture followed by a conductive layer and a conductive fill. In another embodiment of the invention, a semiconductor device is formed including a first interconnect structure that extends through a conductive pad and is electrically coupled with the conductive pad while a second interconnect structure is formed through another conductive pad while being electrically isolated therefrom. Semiconductor devices and assemblies produced with the methods are also disclosed.

Abstract: Non-symmetrically located lenses are employed with semiconductor devices comprising optically active regions which are non-symmetrically located on a surface thereof The optical axes of the lenses are aligned with the centers of the optically active regions. Wafer-level assemblies of semiconductor devices and lenses may be fabricated, mutually secured with the non-symmetrically placed lenses aligned over the non-symmetrically placed optically active regions, and singulated to form packages, such as image sensor packages. Related methods, and systems incorporating devices with non-symmetrically placed optically active regions and aligned lenses are also disclosed.

Abstract: Microelectronic imaging units and methods for manufacturing a plurality of imaging units at the wafer level are disclosed herein. In one embodiment, a method for manufacturing a plurality of imaging units includes providing an imager workpiece having a plurality of imaging dies including integrated circuits, external contacts electrically coupled to the integrated circuits, and image sensors operably coupled to the integrated circuits. The individual image sensors include at least one dark current pixel at a perimeter portion of the image sensor. The method includes depositing a cover layer onto the workpiece and over the image sensors. The method further includes patterning and selectively developing the cover layer to form discrete volumes of cover layer material over corresponding image sensors. The discrete volumes of cover layer material have sidewalls aligned with an inboard edge of the individual dark current pixels such that the dark current pixels are not covered by the discrete volumes.

Abstract: A radio frequency identification device includes an integrated circuit including a receiver, a transmitter, and a microprocessor. The receiver and transmitter together define an active transponder. The integrated circuit is preferably a monolithic single die integrated circuit including the receiver, the transmitter, and the microprocessor. Because the device includes an active transponder, instead of a transponder which relies on magnetic coupling for power, the device has a much greater range.

Abstract: Some embodiments includes RFIDs capable of activating an observable indicator upon receiving an indicate signal. Some embodiments includes RFIDs capable of activating an observable indicator based on a position of a manually operated switch. Some embodiments include interrogators capable of verifying a radio connection prior to sending an indicate signal to an RFID. Some embodiments include indication systems. Some embodiments include methods of determining a bi-directional communication range of an interrogator. Some embodiments include re-assessing a bi-directional communication range of an interrogator subsequent to an environment change. Some embodiments include methods of activating an observable indicator based on the position of a manually operated switch. Some embodiments include methods of indicating bi-directional functionality of a radio connection with an observable indicator of an RFID.

Abstract: An MRAM device having a plurality of MRAM cells formed of a fixed magnetic layer, a second soft magnetic layer and a dielectric layer interposed between the fixed magnetic layer and the soft magnetic layer. The MRAM cells are all formed simultaneously and at least some of the MRAM cells are designed to function as antifuse devices whereby the application of a selected electrical potential can short the antifuse device to thereby affect the functionality of the MRAM device.

Abstract: A wireless identification device including a housing; circuitry in the housing configured to provide a signal to identify the device in response to an interrogation signal; and a selectively actuated switch supported by the housing and controlling whether the circuitry identifies the device. A method of manufacturing a wireless identification device, the method comprising configuring circuitry to provide a signal to identify the device in response to an interrogation signal; coupling the circuitry to a push-on/push-off switch supported by the housing and controlling whether the circuitry provides the signal to identify the device; and encasing the circuitry in a housing such that the switch is actuable from outside the housing by touching a portion of the housing.

Abstract: A radio frequency identification device includes an integrated circuit including a receiver, a transmitter, and a microprocessor. The receiver and transmitter together define an active transponder. The integrated circuit is preferably a monolithic single die integrated circuit including the receiver, the transmitter, and the microprocessor. Because the device includes an active transponder, instead of a transponder which relies on magnetic coupling for power, the device has a much greater range.

Abstract: A device has a monolithic semiconductor integrated circuit with integrated circuitry, interrogation receiving circuitry provided on the monolithic integrated circuit forming at least part of the integrated circuitry and configured to receive an interrogation signal from the interrogator unit, an antenna electrically coupled to the interrogation receiving circuitry and configured to communicate with the remote interrogator unit, a power source electrically coupled to the integrated circuitry and configured to generate operating power for the communications device, and at least one of the antenna and the interrogation receiving circuitry having reconfigurable electrical characteristics, the electrical characteristics being reconfigurable to selectively tune the at least one of the antenna and the interrogation receiving circuitry within a range of tuned and detuned states to realize a desired receiver sensitivity of the communications device.

Abstract: Microfeature workpieces having interconnects and conductive backplanes and associated systems and methods are disclosed herein. One such device includes a semiconductor substrate having integrated circuitry and terminals electrically coupled to the integrated circuitry. The device also includes electrically conductive interconnects extending through at least a portion of the semiconductor substrate and electrically coupled to corresponding terminals. The device further includes a conductive backplane assembly having a conductive layer at a back side of the semiconductor substrate. One or more of the interconnects are electrically coupled to the conductive layer at the back side of the semiconductor substrate.

Abstract: A fuel nozzle for a gas turbine engine includes an engine mount end and a discharge end that discharges an air/fuel mixture into a combustion chamber. The fuel nozzle includes a centerbody and a heat shield. The heat shield is fixed to the centerbody at a mid-mount position that is centrally located between first and second ends of the heat shield to allow the heat shield to remain thermally isolated from radially adjacent components to reduce the adverse effects of thermal stresses.

Abstract: A method of forming a magnetic tunnel junction memory element and the resulting structure are disclosed. A magnetic tunnel junction memory element comprising a thick nonmagnetic layer between two ferromagnetic layers. The thick nonmagnetic layer has an opening in which a thinner tunnel barrier layer is disposed. The resistance of a magnetic tunnel junction memory element may be controlled by adjusting the surface area and/or thickness of the tunnel barrier layer without regard to the surface area of the ferromagnetic layers.

Abstract: An adjustable radio frequency data communications device has a monolithic semiconductor integrated circuit with integrated circuitry, interrogation receiving circuitry provided on the monolithic integrated circuit forming at least part of the integrated circuitry and configured to receive an interrogation signal from the interrogator unit, an antenna electrically coupled to the interrogation receiving circuitry and configured to communicate with the remote interrogator unit, a power source electrically coupled to the integrated circuitry and configured to generate operating power for the communications device, and at least one of the antenna and the interrogation receiving circuitry having reconfigurable electrical characteristics, the electrical characteristics being reconfigurable to selectively tune the at least one of the antenna and the interrogation receiving circuitry within a range of tuned and detuned states to realize a desired receiver sensitivity of the communications device.

Abstract: Microelectronic workpieces that have bump sites over bond-pads and methods of fabricating such bump sites. One embodiment of such a workpiece, for example, includes a substrate having a plurality of microelectronic dies comprising integrated circuitry and bond-pads, such as copper bond-pads, electrically coupled to the integrated circuitry. The workpiece further includes (a) a dielectric structure having a plurality of openings with sidewalls projecting from corresponding bond-pads, and (b) a plurality of caps over corresponding bond-pads. The individual caps can include a discrete portion of a barrier layer attached to the bond-pads and the sidewalls of the openings, and a discrete portion of a cap layer on the barrier layer. The caps are electrically isolated from each other and self-aligned with corresponding bond-pads without forming a mask layer over the cap layer.

Abstract: A device for magnetically annealing magnetoresistive elements formed on wafers includes a heated chuck and a delivery mechanism for individually placing the wafers individually on the chuck one at a time. A coil is adjacent to the chuck and generates a magnetic field after the wafer is heated to a Néel temperature of an anti-ferromagnetic layer. A control system regulates the temperature of the heated chuck, the strength of the magnetic field, and a time period during which each chuck is heated to control the annealing process. The annealed elements are incorporated in the fabrication of magnetic memory devices.

Abstract: An integrated circuit includes operational circuitry; a sensor configured to sense an environmental parameter; and adjustment circuitry coupled to the sensor and to the operational circuitry and configured to affect the operational circuitry to at least partially counteract the effects of the environmental parameter. A method of testing an integrated circuit includes supporting a sensor in the integrated circuit and using the sensor to sense environmental data.

Abstract: Cards communication devices, and methods of forming the same and encoding visibly perceptible information on communication devices are provided. A remote intelligent communication device includes: a card-thin housing including: an upper surface; a lower surface; and at least one side extending between the upper surface and the lower surface forming the card-thin housing, the side having visibly perceptible information thereon; and communication circuitry within the housing configured to at least one of communicate and receive electronic signals. A method of forming a card includes: providing a substrate having: an upper surface; a lower surface, and the upper and lower surfaces individually having a length and a width; and a plurality of sides individually having a thickness less than the lengths and the widths of the surfaces; and encoding visibly perceptible information on at least one of the sides.

Abstract: An MRAM device having a plurality of MRAM cells formed of a fixed magnetic layer, a second soft magnetic layer and a dielectric layer interposed between the fixed magnetic layer and the soft magnetic layer. The MRAM cells are all formed simultaneously and at least some of the MRAM cells are designed to function as antifuse devices whereby the application of a selected electrical potential can short the antifuse device to thereby affect the functionality of the MRAM device.

Abstract: A radio frequency identification device includes an integrated circuit including a receiver, a transmitter, and a microprocessor. The receiver and transmitter together define an active transponder. The integrated circuit is preferably a monolithic single die integrated circuit including the receiver, the transmitter, and the microprocessor. Because the device includes an active transponder, instead of a transponder which relies on magnetic coupling for power, the device has a much greater range.

Abstract: The invention includes methods for forming integrated circuits within substrates, and embedded circuits. In one aspect, the invention includes a method of forming an integrated circuit within a substrate comprising: a) providing a recess in a substrate; b) printing an antenna within the recess; and c) providing an integrated circuit chip and a battery in electrical connection with the antenna.