Patent application number | Description | Published |
20100258710 | OPTICAL SENSORS THAT REDUCE SPECTRAL REFLECTIONS - An optical sensor device, according to an embodiment of the present invention, includes a light source and a light detector. The light source includes one or more light emitting elements, and the light detector includes one or more light detecting elements. A first opaque light barrier portion, between the light source and the light detector, is configured to block light from being transmitted directly from the light source to the light detector. A second opaque light barrier portion, extending from the first opaque light barrier portion in a direction towards the light source, is configured to reduce an amount of specular reflections that would occur if a light transmissive cover plate were placed over the optical sensor device. A third opaque light barrier portion, extending from the first light barrier portion in a direction towards to the light detector, is configured to reduce an amount of specular reflections that would be detected by the light detector, if a light transmissive cover plate were placed over the optical sensor device. | 10-14-2010 |
20100258712 | OPTICAL SENSORS THAT REDUCE SPECTRAL REFLECTIONS - An optical sensor device comprises a light source, a light detector, and an opaque light barrier including a first portion to block light from being transmitted directly from the source to the detector. A second portion of the light barrier extends from the first portion in a direction towards the light source, such that a portion of the second portion covers at least a portion of light emitting element(s) of the source, to reduce an amount of specular reflections, if a light transmissive cover plate were placed over the sensor. Additionally, a third portion of the barrier can extend from the first portion, in a direction towards to the detector, such that a portion of the third portion covers at least a portion of light detecting element(s) of the detector, to reduce an amount of specular reflections that would be detected by the detecting element(s) of the detector, if a light transmissive cover plate were placed over the sensor. Additionally, an off-centered lens can cover a portion of the light source. | 10-14-2010 |
20100259766 | OPTICAL SENSORS AND METHODS FOR PROVIDING OPTICAL SENSORS - Provided herein are optical sensor devices, methods for making the same, and systems including the same. An optical sensor device, according to an embodiment, includes a light detector die and a light source die attached to the same or different die attachment substrates so that there is a space between the light source die and the light detector die. A light transmissive material covers the light detector die, the light source die and at least a portion of the space between the light detector die and the light source die. A groove is formed (e.g., saw, blade or laser cut, or cast) in the light transmissive material between the light detector die and the light source die, and an opaque material is put within the groove to provide a light barrier between the light detector die and the light source die. | 10-14-2010 |
20100276701 | LOW THERMAL RESISTANCE AND ROBUST CHIP-SCALE-PACKAGE (CSP), STRUCTURE AND METHOD - A chip scale package (CSP) semiconductor device can include a semiconductor layer, circuitry on an active surface of the semiconductor layer, and a diamond layer on a back side of the semiconductor layer. The diamond layer can provide an efficient heat sink for the semiconductor layer, with a thermal conductivity which can be more than three times greater than the thermal conductivity of copper. Further, a hardness of the diamond layer (up to about 10 times stronger than silicon) can provide effective protection against damage to the exposed semiconductor layer, for example during manufacturing, handling, and use of the CSP device. Thus a thin protective diamond layer can be used, which can result in a very thin CSP package design. | 11-04-2010 |
20110033724 | Tie-Bar Configuration For Leadframe Type Carrier Strips - A conductive clip having a riser or post formed along a side thereof includes a notch or opening formed in the riser or post to create a first riser or post section and second riser or post section separated by the notch or opening through which a tiebar extends. The conductive clip organization is will suited for formation as elongated strips of such conductive clips for automated machine assembly of the conductive clips in an integrated circuit package context. | 02-10-2011 |
20110163434 | STACKED POWER CONVERTER STRUCTURE AND METHOD - A power converter can include an output circuit having a high-side device and a low-side device which can be formed on a single die (a “PowerDie”). The power converter can further include a controller integrated circuit (IC) formed on a different die which can be electrically coupled to, and co-packaged with, the PowerDie. The PowerDie can be attached to a die pad of a leadframe, and the controller IC die can be attached to an active surface of the first die such that the first die is interposed between the controller IC die and the die pad. | 07-07-2011 |
20120098090 | HIGH-EFFICIENCY POWER CONVERTERS WITH INTEGRATED CAPACITORS - A power converter device comprises a substrate, a power die mounted on the substrate, and a capacitor die mounted over the power die in a stacked configuration. The capacitor die is electrically coupled to the power die. A packaging material encapsulates the power die and the capacitor die. An integrated circuit die can also be mounted to the substrate and electrically coupled to the power die to receive power signals from the power die, with the packaging material also encapsulating the integrated circuit die. | 04-26-2012 |
20130314879 | CIRCUIT MODULE SUCH AS A HIGH-DENSITY LEAD FRAME ARRAY (HDA) POWER MODULE, AND METHOD OF MAKING SAME - A circuit module includes a plurality of electronic components and a single-layer conductive package substrate. The single-layer conductive package substrate is adapted to physically support and electrically interconnect the electronic components. The substrate has a peripheral portion and an interior portion. The peripheral portion includes a plurality of peripheral contact pads coupled to corresponding electronic components. The interior portion includes a plurality of floating contact pads that are electrically isolated from the peripheral contact pads and are coupled to corresponding electronic components. | 11-28-2013 |