Embodiments of the present invention are directed to a method of manufacturing a semiconductor package with an internal routing circuit. The internal routing circuit is formed from multiple molding routing layers in a plated and etched copper terminal semiconductor package by using an inkjet process to create conductive paths on each molding compound layer of the semiconductor package.

An integrated circuit (IC) includes a lead frame that has a set of leads coupled to a corresponding set of pins. A semiconductor die with contacts is coupled to the set of leads. Encapsulating material encloses the semiconductor die, such that the set of pins extend beyond the encapsulating material. An additive coating covers one or more of the plurality of pins.

Semiconductor chip package device and semiconductor chip package method are provided. The semiconductor chip package device includes: a lead frame, chips, an encapsulating layer, and an electroplating layer. The lead frame includes a first surface, a second surface, first grooves, second grooves, and third grooves. The first grooves are connected to the second grooves to form through holes and the third grooves disposed at ends of the lead frame. The chips are electrically connected to the lead frame. The encapsulating layer is formed by using an encapsulating material to encapsulate the chips and at least a portion of the lead frame. The first grooves are filled with the encapsulating material. The electroplating layer is disposed on the second surface of the lead frame, and extends into the third grooves or into the third grooves and the second grooves.

One example discloses a lead-frame, comprising: a die-pad having a die coupling surface; a set of terminals each having an outer terminal edge and an inner terminal edge; wherein the outer terminal edge faces away from the die-pad and the inner terminal edge faces toward the die-pad; and a terminal connector having a first side coupled to the inner terminal edge and a second side coupled to the die-pad.

A lead frame includes an electrode, a hanger lead, and an outer frame and is formed integrally with a supporting member supporting the electrode, so that a package having a depression in which a light-emitting element will be mounted is formed. The depression is open on the upper side, its side walls are mainly constituted of the supporting member, and at least a part of its bottom surface includes the electrode. The electrode is disposed in a supporting member forming region. The hanger lead extends from the outer frame to reach the supporting member forming region. A chamfered surface is formed on at least a part of an upper side corner of an end of the hanger lead.

A semiconductor device that includes a first die pad, an adhesive, and a second die pad fixed to the top surface of the first die pad via the adhesive. The second die pad includes a body portion and a protrusion portion provided on a side surface of the body portion. A semiconductor chip is fixed to a top surface of the second die pad, and a lead is electrically connected to the semiconductor chip. The semiconductor device further includes a package material that covers the first die pad, the second die pad, the semiconductor chip, and the lead. The first die pad is substantially as thick as the lead.

A package comprises a molding and a conductive terminal in contact with the molding and having a first surface exposed to a first surface of the molding. The conductive terminal includes a cavity having a first portion extending along at least half of the first surface of the conductive terminal and a second portion extending along less than half of the first surface of the conductive terminal.

A structure comprises a plurality of top pads protruding over a top surface of a package substrate, wherein a top pad comprises a first half-circle portion, a second half-circle portion and a first rectangular portion between the first half-circle portion and the second half-circle portion, a plurality of bottom pads embedded in the package substrate, wherein a bottom pad comprises a third half-circle portion, a fourth half-circle portion and a second rectangular portion between the third half-circle portion and the fourth half-circle portion and a plurality of vias coupled between the top pads and their respective bottom pads.

A semiconductor device includes a semiconductor chip, a plurality of leads that each includes a lead body portion which has amounting portion which includes an upper surface whereon a semiconductor chip is bonded, and a lead connecting portion for external connection which projects downward from a lower surface of the lead body portion, a first sealing resin that seals a space that is defined by each lead body portion and each lead connecting portion of the plurality of leads in a region below the upper surface of each lead body portion of the plurality of leads, and a second sealing resin that seals the semiconductor chip in a region above the upper surface of each lead body portion of the plurality of leads.

A device includes a first semiconductor chip that is arranged over a first carrier and includes a first electrical contact. The device further includes a second semiconductor chip arranged over a second carrier and including a second electrical contact arranged over a surface of the second semiconductor chip facing the second carrier. The second carrier is electrically coupled to the first electrical contact and the second electrical contact.