A die sorter tool may include a first conveyor, and a first lane to receive, from one or more load ports and via the first conveyor, a carrier with a set of dies. The die sorter tool may include a die flip module to receive the carrier from the first lane, manipulate one or more dies of the set of dies by changing orientations of the one or more dies, and return the one or more dies to the carrier after manipulating the one or more dies and without changing positions of the one or more dies within the carrier. The die sorter tool may include a second conveyor, and a second lane to receive, via the second conveyor, the carrier from the die flip module, and provide, via the first conveyor, the carrier to the one or more load ports.

In an embodiment a transfer tool includes an adhesive stamp having an adhesive surface configured to pick up a semiconductor chip and a device configured to adjust a surface area of the adhesive surface, wherein the adhesive stamp is deformable, wherein the adhesive surface is formed by a part of an outer surface of the adhesive stamp, wherein the surface area of the adhesive surface is adjustable by deformation of the adhesive stamp, and wherein the adhesive surface is free of interruptions.

A unit sorting system comprising: a net table for receiving units and a unit lifter for depositing said units on the net table; the net table having a first and second zone; wherein the unit lifter is arranged to engage a batch of units and then deposit a first half of the batch to the first zone and deposit a first half of the batch to the second zone.

A method and apparatus for loading substrates in an inspection station is disclosed herein. In one embodiment a loading module is disclosed that includes a loading station for two or more substrate cassettes, a first lane comprising a first conveyor that is substantially aligned with one of the two or more substrate cassettes and a conveyor system, a second lane comprising a second conveyor that is substantially aligned with another of the two or more substrate cassettes and positioned in a spaced-apart relation relative to the first lane, and a lateral transfer module positioned between the first lane and the second lane that is adapted to move substrates from the second lane to the first lane.

A process includes measuring at least one component parameter of a plurality of components with a testing device; and arranging at least a portion of the plurality of components in a sequential order based on the at least one component parameter with an implementation system in at least one of the following: a shipping format and a device implementation of the portion of the plurality of components. A system is disclosed as well.

Disclosed are methods and systems of controlling the placement of micro-objects on the surface of a micro-assembler. Control patterns may be used to cause electrodes of the micro-assembler to generate dielectrophoretic (DEP) and electrophoretic (EP) forces which may be used to manipulate, move, position, or orient one or more micro-objects on the surface of the micro-assembler. The control patterns may be part of a library of control patterns.

A wafer manufacturing method includes a wafer preparing step of preparing a wafer including a semiconductor device formed in each of a plurality of regions demarcated by a plurality of streets intersecting each other, a removing step of removing, from the wafer, a defective device region including a semiconductor device determined to be a defective product among a plurality of the semiconductor devices formed in the wafer, and a fitting step of fitting, into a removed region formed by removing the defective device region from the wafer, a device chip including a semiconductor device as a non-defective product having same functions as those of the semiconductor device determined to be a defective product and having a size capable of being fitted into the removed region.

Disclosed herein are implementations of a particles-transferring system, particle transferring unit, and method of transferring particles in a pattern. In one implementation, a particles-transferring system includes a first substrate including a first surface to support particles in a pattern, particle transferring unit including an outer surface to be offset from the first surface by a first gap, and second substrate including a second surface to be offset from the outer surface by a second gap. The particle transferring unit removes the particles from the first surface in response to the particles being within the first gap, secures the particles in the pattern to the outer surface, and transports the particles in the pattern. The second substrate removes the particles in the pattern from the particle transferring unit in response to the particles being within the second gap. The particles are to be secured in the pattern to the second surface.

A method for sorting optoelectronic semiconductor components is specified. The semiconductor components each include an active region for emission or detection of electromagnetic radiation. The method includes the following steps: introducing the semiconductor components into a sorting region on a specified path; irradiating the optoelectronic semiconductor components with electromagnetic radiation of a first wavelength range to generate dipole moments by charge separation in the active regions of the optoelectronic semiconductor components; and deflecting the optoelectronic semiconductor components from the specified path as a function of their dipole moment by means of a non-homogeneous electromagnetic field. A device for sorting optoelectronic semiconductor components is further specified.

A support member system is described for association with an overhead transport system. The support member system provides a safety feature to the overhead transport system by which the overhead transport system is able to avoid damage to wafers that are contained within a wafer cassette that is unintentionally released by the overhead transport system. The support member system is able to prevent such released cassettes from impacting the ground or tools located under the overhead transport system. The support member system targets wafer cassettes that have dimensions which are different than the dimensions of wafer cassettes for which the overhead transport system was originally designed to transport. Stocker systems for receiving, storing and delivering different types of wafer cassettes are also described.