The present disclosure, in some embodiments, relates to an integrated chip processing tool. The integrated chip processing tool includes a first transfer module and a second transfer module. The first transfer module has a first robotic arm disposed within a housing. The first transfer module is configured to receive a single and unitary first die tray configured to hold a plurality of integrated chip (IC) die and to concurrently transfer all of the plurality of IC die held by the single and unitary first die tray to a single and unitary die boat. The second transfer module has an additional robotic arm disposed within the housing and configured to concurrently transfer all of the plurality of IC die from the single and unitary die boat to a single and unitary second die tray.

The present disclosure relates to an integrated chip (IC) processing tool having a die exchanger configured to automatically transfer a plurality of IC die between a die tray and a die boat, and an associated method. The integrated chip processing tool has a die exchanger configured to receive a die tray comprising a plurality of IC die. The die exchanger is configured to automatically transfer the plurality of IC die between the die tray and a die boat. An IC die processing tool is configured to receive the die boat from the die exchanger and to perform a processing step on the plurality of IC die within the die boat. By operating the die exchanger to automatically transfer IC die between the die tray and the die boat, the transfer time can be reduced and contamination and/or damage risks related to a manual transfer of IC die can be mitigated.

A method of manufacturing a plurality of electronic circuits is disclosed. Each electronic circuit comprises a respective first portion, comprising a respective group of contact pads, and a respective integrated circuit, IC, comprising a respective group of terminals and mounted on the respective group of contact pads with each terminal in electrical contact with a respective contact pad. The method comprises: providing a first structure comprising the plurality of first portions; providing a second structure comprising the plurality of ICs and a common support arranged to support the plurality of ICs; transferring said ICs from the common support onto a first roller; transferring said ICs from the first roller onto a second roller; and transferring said ICs from the second roller onto the first structure such that each group of terminals is mounted on a respective group of contact pads.

A carrier tape comprises a flexible body portion having a top surface. The flexible body portion comprises a plurality of pockets. Each of the plurality of pockets comprises pocket side walls, a base bottom portion fully circulating a raised bottom portion of a pedestal. The pedestal is made up of the raised bottom portion and pedestal side walls. The pedestal sidewalls, the base bottom portion and a lower part of the pocket side walls constitute a trench fully circulating the pedestal.

An integrated circuit (IC) solder ball mounting apparatus comprises a ball storage unit for storing solder balls, a ball buffer unit configured to receive the solder balls from the ball storage unit in response to one or more pressure-actuated actions, and a gate valve configured to allow the solder balls to transfer to a ball mounting brush configured to place the solder balls onto area array contact structures formed on a wafer containing the integrated circuit.