A plating system comprising a plating tank for applying plate processing to a substrate, a sensor configured to measure actual plating film thickness of the substrate, and a controller configured to control plating current supplied to the plating tank and plating time for the plate processing of the substrate within the plating tank. The controller is capable of setting target plating film thickness, plating current, and plating time as a plate processing recipe. At least one of the plating current and the plating time is automatically corrected so that the actual plating film thickness and the target plating film thickness become equal to each other, and the result is reflected in the plate processing for the subsequent substrate.

A vertically oriented treatment chamber for the processing of a flux-free solder ball (or plated solder ball) loaded wafer chip. A treatment chamber comprises a first or upper heater at an upper end of the treatment chamber and a second or lower heater at a lower end of the treatment chamber. The treatment chamber includes a centrally disposed, preloaded flux free solder ball loaded wafer chip support ring movable upwardly and downwardly within the treatment chamber in response to temperature sensed monitoring of a wafer chip supported on the wafer chip support ring.

A semiconductor device manufacturing method including: simultaneously forming a plurality of conductive bumps respectively on a plurality of formation sites by adjusting a forming factor in accordance with an environmental density associated with each formation site; wherein the plurality of conductive bumps including an inter-bump height uniformity smaller than a value, and the environmental density is determined by a number of neighboring formation sites around each formation site in a predetermined range.

Provided is a plating apparatus for plating a substrate by using a substrate holder including an elastic projection that seals a to-be-plated surface of the substrate, the plating apparatus comprising a measurement device configured to measure a deformed state of the elastic projection by measuring at least either one of a compression amount of the elastic projection and load applied to the elastic projection at a time when the substrate physically contacts the elastic projection of the substrate holder; and a controlling device configured to make a judgment on the basis of the measured deformed state as to whether sealing by the elastic projection is normal.

A method for manufacturing an electronic device includes: providing a base layer, wherein the base layer includes a plurality of first dies and a plurality of second dies, and a number of the plurality of first dies is greater than a number of the plurality of second dies; forming a circuit layer on the base layer; and performing an electricity test to confirm whether the circuit layer is electrically connected to one of the plurality of second dies.

A plating system comprising a plating tank for applying plate processing to a substrate, a sensor configured to measure actual plating film thickness of the substrate, and a controller configured to control plating current supplied to the plating tank and plating time for the plate processing of the substrate within the plating tank. The controller is capable of setting target plating film thickness, plating current, and plating time as a plate processing recipe. At least one of the plating current and the plating time is automatically corrected so that the actual plating film thickness and the target plating film thickness become equal to each other, and the result is reflected in the plate processing for the subsequent substrate.

A method for estimating a thickness related to multiple conductive structural elements of an object, the method includes estimating a height difference between an upper surface of a conductive structural element and an upper surface of a photoresists layer portion that surrounds the conductive structural element, to provide multiple height differences; estimating thicknesses of the multiple photoresists layer portions, based at least on the second part of the emitted radiation; and calculating thickness values related to the multiple conductive structural elements, wherein the calculating is based at least on the multiple height differences and on the estimated thickness of the multiple photoresists layer portions.

A device for inspecting a bump height includes an illumination device, an imaging device, and a control device. The illumination device irradiates a substrate with light. The substrate includes a resist and a bump formed on an opening portion of the resist. The imaging device images a pattern of the resist and the bump. The control device evaluates a height of the bump based on a luminance value of image data of the pattern obtained by the imaging device.

The present invention features a system and manufacturing arrangement for multiple die chips onto a receiver substrate. The system includes a donor chuck; a receiver chuck configured for supporting the receiver substrate; a pick and place gripper mechanism configured for retrieving a die chip supported on the donor chuck; a gang carrier configured for receiving the die chip from the gripper mechanism; a flipper mechanism configured for delivering the die chip in an inverted orientation relative to the orientation of the die chip when received by the gang carrier; and computer controlled interconnected inspection cameras configured for ensuring accurate alignment of the receiver substrate relative to the die chip in the inverted orientation. The gang carrier has a thermocouple controlled heating element therein to maintain a proper computer controlled temperature therewithin.

Methods of reflowing electrically conductive elements on a wafer may involve directing a laser beam toward a region of a surface of a wafer supported on a film of a film frame to reflow at least one electrically conductive element on the surface of the wafer. In some embodiments, the wafer may be detached from a carrier substrate and be secured to the film frame before laser reflow. Apparatus for performing the methods, and methods of repairing previously reflowed conductive elements on a wafer are also disclosed.