Systems and methods are provided for method for etch assisted gold (Au) through silicon mask plating (EAG-TSM). An example method comprises providing a seed layer on a substrate and providing a silicon mask on at least a portion of the seed layer on the substrate. The silicon mask includes one or more via to be filled with Au. The masked substrate is subjected to at least one processing cycle, each processing cycle including an Au plating sub-step and an etch treatment sub-step. The cycles are repeated until a selected via fill thickness is achieved.

A method for printing solder onto a wafer (101) including the steps of depositing solder paste (102) onto a wafer (101), applying an inline reflow process to the deposited solder paste (102) to form solder bumps (103) on the wafer (101), and cleaning the reflowed solder bumps (103). The method for printing solder onto the wafer (101) is based on a system thereof that includes a wafer solder printer (1), an inline reflow means (2) and a de-fluxing means (3), wherein each step has its parameters optimized by means of a staging process control.

A method of using an oven includes supporting a substrate on a rotatable spindle in a processing chamber of the oven and rotating the substrate. The method may also include raising the spindle with the substrate to a heating zone and activating a lamp assembly to heat a top surface of the substrate. The substrate may then be lowered to a dosing zone and a chemical vapor directed into the processing chamber above the substrate. The substrate may then be further heated using the lamp assembly and cooled.

A unitary wafer assembly arrangement for the application of solder balls onto a substrate for subsequent use in the electronics industry. This wafer tool assembly comprises a number of modules connected to one another and all serviced by a robotic arm to transfer processed wafers from one module to another. The tool assembly comprises a load port and pre-aligner module, a binder module, a solder ball mount module and a reflow module. A wafer inspection and repair module arrangement is also part of the tool assembly.

A solder member mounting method includes providing a substrate having bonding pads formed thereon, detecting a pattern interval of the bonding pads, selecting one of solder member attachers having different pattern intervals from each other, such that the one selected solder member attacher of the solder member attachers has a pattern interval corresponding to the detected pattern interval of the bonding pads, and attaching solder members on the bonding pads of the substrate, respectively, using the one selected solder member attacher.

An apparatus and method for manufacturing a semiconductor package structure are provided. The method includes: providing a process line comprising a first semiconductor manufacturing portion configured to provide a first operation including a first process step, and a second semiconductor manufacturing portion configured to provide a second operation including a second process step; passing a packaging structure through the second semiconductor manufacturing portion, wherein the second semiconductor manufacturing portion applies the second process step to the packaging structure; passing the packaging structure through the first semiconductor manufacturing portion, wherein the first semiconductor manufacturing portion applies the first process step to the packaging structure; and passing the packaging structure through the second semiconductor manufacturing portion again without applying the second process step thereon.

Protruding solder structures are created for electrical attachment of semiconductor devices. A rigid mold having one or more mold openings is attached to and used in combination with a decal structure that has one or more decal holes. The decal structure is disposed on the rigid mold so that the decal openings are aligned over the mold openings. Each of the decal hole and mold opening in contact form a single combined volume. The single combined volumes are filled with solder to form protruding solder structures. Various structures and methods of making and using the structures are disclosed.

A system and method are provided for depositing a substance onto a substrate, the system comprising: a chamber adapted to operate under high vacuum; an apparatus for receiving and cleaning the substrate to produce a clean substrate and for delivering the clean substrate to a coating position in the chamber under high vacuum; a carrier assembly for receiving the clean substrate from the apparatus and for retaining the substrate at the coating position; an evaporator adapted to hold a supply of the substance in the chamber and to evaporate and produce a discharge of the substance; and a collimator disposed within the chamber between the supply of the substance and the carrier assembly, the collimator being configured to define an aperture proximal to the substrate and to capture the discharge but for that which is directed through the aperture.

An object is to allow for simple measurement of a bump height. There is provided. a device for measuring a bump height comprising: a light sensor provided with a light source and a light-receiving element and configured to irradiate a substrate including a seed layer, a resist layer formed on the seed layer and a bump formed in an opening of the resist layer, with light emitted from the light source and to detect reflected light that is reflected from the seed layer via the resist layer and reflected light that is reflected from the bump, by the light-receiving element; and a control device configured to calculate a height of the bump relative to the seed layer, based on the reflected light from the seed layer and the reflected light from the bump and to subtract an error caused by a refractive index of the resist layer from the height of the bump calculated based on the reflected lights, so as to correct the height of the bump.

A system and method are provided for depositing a substance onto a substrate, the system comprising: a chamber adapted to operate under high vacuum; an apparatus for receiving and cleaning the substrate to produce a clean substrate and for delivering the clean substrate to a coating position in the chamber under high vacuum; a carrier assembly for receiving the clean substrate from the apparatus and for retaining the substrate at the coating position; an evaporator adapted to hold a supply of the substance in the chamber and to evaporate and produce a discharge of the substance; and a collimator disposed within the chamber between the supply of the substance and the carrier assembly, the collimator being configured to define an aperture proximal to the substrate and to capture the discharge but for that which is directed through the aperture.