A radio frequency identification (RFID) reader sequentially carries out inventory rounds with passive RFID sensor tags. Each RFID sensor tag has at least one sensing element arranged to sense a predetermined quantity. The reader reads one value of the predetermined quantity based on a backscattering modulation frequency used by the passive RFID sensor tag during each inventory round and releases the RFID sensor tag prior to reading next value of the predetermined quantity based on a backscattering modulation frequency used by the passive RFID sensor tag during a subsequent inventory round. If the passive RFID sensor comprises two or more sensing elements having different sensor characteristics, the reader reads one of the sensing elements of the passive RFID tag during one inventory round and releases the passive RFID sensor tag prior to reading another one of the sensing elements of the passive RFID sensor tag during a subsequent inventory round.

A semiconductor package and a method for manufacturing a semiconductor package are provided. The semiconductor package includes a first semiconductor device, a second semiconductor device, and an alignment material. The first semiconductor device has a first bonding layer, and the first bonding layer includes a first bond pad contacting an organic dielectric material. The second semiconductor device has a second bonding layer, and the second bonding layer includes a second bond pad contacting the organic dielectric material. The alignment material is between the first bonding layer and the second bonding layer.

A substrate processing apparatus for polishing a substrate by pressing the substrate against a polishing pad, comprises: an acoustic sensor having a sensor body that detects polishing sound of the substrate and outputs the polishing sound as an acoustic signal, and a cover member that houses the sensor body; an end point detection unit that detects an end point of polishing of the substrate from the acoustic signal; and a gas supply device that supplies a gas into the cover member so as to prevent adhesion of moisture (water droplets and water vapor) to the sensor body. The gas supply device is connected to the sensor body on an opposite side of a detection surface for the polishing sound, a groove for passing the gas from the gas supply device is formed in the cover member, and a plurality of micro openings for passing the gas from the gas supply device are formed on a waterproof sheet.

A semiconductor package and a method for manufacturing a semiconductor package are provided. The semiconductor package includes a first semiconductor device, a second semiconductor device, and an alignment material. The first semiconductor device has a first bonding layer, and the first bonding layer includes a first bond pad contacting an organic dielectric material. The second semiconductor device has a second bonding layer, and the second bonding layer includes a second bond pad contacting the organic dielectric material. The alignment material is between the first bonding layer and the second bonding layer.

A pattern forming apparatus according to an embodiment includes: a pre-alignment unit that performs pre-alignment for a substrate; a transfer unit that transfers the substrate into the pre-alignment unit; a placing table on which the substrate transferred into the pre-alignment unit is placed; a position detecting unit provided at a position included in the placing table and overlapping with an edge of the substrate, and adapted to detect a position of the edge of the substrate; and a control unit that calculates a positional displacement amount of the substrate from the position of the edge of the substrate detected by the position detecting unit, and controls the placing table on the basis of the positional displacement amount of the substrate to correct the position of the substrate.

An interconnection system includes a mating substrate that is configured to be placed in electrical communication with a main board along an insertion direction so as to define a separable interface. The interconnection system is configured to align the mating substrate with the main board along first and second transverse directions that are perpendicular to each other and to the insertion direction.

A pattern forming apparatus according to an embodiment includes: a pre-alignment unit that performs pre-alignment for a substrate; a transfer unit that transfers the substrate into the pre-alignment unit; a placing table on which the substrate transferred into the pre-alignment unit is placed; a position detecting unit provided at a position included in the placing table and overlapping with an edge of the substrate, and adapted to detect a position of the edge of the substrate; and a control unit that calculates a positional displacement amount of the substrate from the position of the edge of the substrate detected by the position detecting unit, and controls the placing table on the basis of the positional displacement amount of the substrate to correct the position of the substrate.

An embodiment of the present invention provides a method and system of manufacturing a redistribution platform comprising: providing a substrate; patterning a first layer of a routing trace over the substrate; semi-curing a first translucent material around the first layer of the routing trace; testing the first layer of the routing trace; patterning a second layer of the routing trace over the first translucent material; and fully curing the first translucent material subsequent to the patterning of the second layer of the routing trace.

In one example, an electronic device includes a lower substrate comprising a lower substrate upper side and a lower substrate lower side, and an upper substrate comprising an upper substrate upper side and an upper substrate lower side. The electronic device also includes a first electronic component and a second electronic component coupled to the upper substrate upper side. A first device interconnect and a second device interconnect couple the lower substrate upper side to the upper substrate lower side. The electronic device also includes a connect die coupled to the lower substrate upper side that electrically couples the first electronic component to the second electronic component. Other examples and related methods are also disclosed herein.

According to one embodiment, an electronic device includes a first substrate including a first basement and a first conductive layer, a second substrate including a second basement opposed to the first basement and the first conductive layer, and a second conductive layer, a sealing material located between the first substrate and the second substrate to bond the first substrate to the second substrate, a contact hole penetrating the second basement, the sealing material and the first conductive layer, and a connecting material electrically connecting the first conductive layer with the second conductive layer via the contact hole.