An apparatus for injecting solder material in via holes located in a top surface of a wafer is provided. The apparatus includes an injection head having a contact surface for contacting the top surface of the wafer, and at least one aperture for injecting the solder material though the injection head into the via holes. The apparatus further includes an evacuating device connected to the injection head for evacuating gas from the via holes. The injection head has a chamfer part on an edge of a contact surface contacting the top surface of the wafer.

Disclosed herein are microelectronic structures including bridges, as well as related assemblies and methods. In some embodiments, a microelectronic structure may include a substrate and a bridge.

An electronic component rework method including: driving an actuating device to open a plurality of holes of a gate to allow electronic components to pass through downward; driving a pneumatic control device to perform a negative pressure operation on a pneumatic channel of a tubular part to draw a to-be-outputted electronic component into the tubular part and hold the to-be-outputted electronic component therein; and moving the tubular part to above a target contact pad of a substrate, driving the pneumatic control device to terminate the negative pressure operation and then perform a blowing operation to send downward the to-be-outputted electronic component and prevent another electronic component from moving downward through the tubular part.

An apparatus for eutectic bonding includes (a) a bonding frame that includes two substrates and (b) a frame device situated on the substrates, the frame device including two frames, the apparatus being usable to develop a eutectic, formed during bonding, in a spatially defined manner, whereby a volume formed by the frames and the substrates can be filled up completely with the eutectic.

An apparatus for injecting solder material in via holes located in a top surface of a wafer is provided. The apparatus includes an injection head having a contact surface for contacting the top surface of the wafer, and at least one aperture for injecting the solder material though the injection head into the via holes. The apparatus further includes an evacuating device connected to the injection head for evacuating gas from the via holes. The injection head has a chamfer part on an edge of a contact surface contacting the top surface of the wafer.

Solder-bumped semiconductor substrates (e.g., semiconductor wafers) and methods for forming solder bumped semiconductor substrates are provided, in which solder bumps are formed on a semiconductor substrate using preformed solder balls having different compositions and/or sizes. Two or more solder balls masks are successively utilized to place different types of preformed solder balls (differing in composition and/or size) into corresponding cavities of a solder ball fixture, and thereby form an array of different types of preformed solder balls arranged in the solder ball fixture. The array of preformed solder balls in the solder ball fixture are then transferred to corresponding contact pads of a semiconductor substrate (e.g., semiconductor wafer) using a single solder reflow process. This process allows different types of preformed solder bumps to be bonded to a semiconductor substrate at the same time using a single solder reflow process.

Solder-bumped semiconductor substrates (e.g., semiconductor wafers) and methods for forming solder bumped semiconductor substrates are provided, in which solder bumps are formed on a semiconductor substrate using preformed solder balls having different compositions and/or sizes. Two or more solder balls masks are successively utilized to place different types of preformed solder balls (differing in composition and/or size) into corresponding cavities of a solder ball fixture, and thereby form an array of different types of preformed solder balls arranged in the solder ball fixture. The array of preformed solder balls in the solder ball fixture are then transferred to corresponding contact pads of a semiconductor substrate (e.g., semiconductor wafer) using a single solder reflow process. This process allows different types of preformed solder bumps to be bonded to a semiconductor substrate at the same time using a single solder reflow process.

Solder-bumped semiconductor substrates (e.g., semiconductor wafers) and methods for forming solder bumped semiconductor substrates are provided, in which solder bumps are formed on a semiconductor substrate using preformed solder balls having different compositions and/or sizes. Two or more solder balls masks are successively utilized to place different types of preformed solder balls (differing in composition and/or size) into corresponding cavities of a solder ball fixture, and thereby form an array of different types of preformed solder balls arranged in the solder ball fixture. The array of preformed solder balls in the solder ball fixture are then transferred to corresponding contact pads of a semiconductor substrate (e.g., semiconductor wafer) using a single solder reflow process. This process allows different types of preformed solder bumps to be bonded to a semiconductor substrate at the same time using a single solder reflow process.

An apparatus for injecting solder material in via holes located in a top surface of a wafer is provided. The apparatus includes an injection head having a contact surface for contacting the top surface of the wafer, and at least one aperture for injecting the solder material though the injection head into the via holes. The apparatus further includes an evacuating device connected to the injection head for evacuating gas from the via holes. The injection head has a chamfer part on an edge of a contact surface contacting the top surface of the wafer.

Systems and methods for testing semiconductor wafers using a wafer translator are disclosed herein. In one embodiment, an apparatus for adjusting a wafer translator for testing semiconductor dies includes the semiconductor wafer translator having a wafer translator substrate with a wafer-side configured to face the dies. A plurality of wafer-side contact structures is carried by the wafer-side of the wafer translator. The apparatus also includes a shaping wafer having a shaping wafer substrate, and a plurality of cavities in the shaping wafer substrate. The wafer-side contact structures are shaped by contacting surfaces of the cavities of the shaping wafer substrate.