A lead-cutting system, comprising: a rotation device configured to rotate a rotary table; a cutting device, being disposed on the rotary table, which is configured to cut leads of a lead component inserted into through-holes in a board; and a container, being disposed on the rotary table together with the cutting device, which contains leads cut by the cutting device.

A substrate inspection apparatus may include: a communication circuit; a plurality of light sources; an image sensor; at least one memory; and at least one processor. The processor may be configured to: generate insertion state information indicating an insertion state of each of a plurality of pins included in each of a plurality of first connectors by using the pattern light reflected from the pin tail of each of the plurality of pins; detect at least one second connector having an insertion defect by using the insertion reference information and the insertion state information of each of the plurality of pins; generate a control signal for adjusting at least one first process parameter, based on insertion state information for the plurality of pins included in the at least one second connector; and control the communication circuit to transmit the control signal to the connector insertion apparatus.

An integrated circuit package comprising one or more electronic component(s); a first substrate including a first surface and a second surface of the first substrate; and a second substrate including a first surface and a second surface of the second substrate. The first substrate including a first first-substrate cavity on the first surface of the first substrate. The second substrate includes a first second-substrate cavity on the first surface of the second substrate. The second surface of the first substrate and the second surface of the second substrate is located between the first surface of the first substrate and the first surface of the second substrate; or the first surface of the first substrate and the first surface of the second substrate is located between the second surface of the first substrate and the second surface of the second substrate.

A component supply device including a main body provided with an introducing region into which a component supply tape holding components is introduced and configured to supply the components by sending the component supply tape introduced into the main body via the introducing region in a longitudinal direction of the component supply tape. The device comprises a tape supporter insertable into the introducing region while supporting the component supply tape, and a clamping mechanism configured to sandwich and hold at least a part of a supported part of the component supply tape supported by the tape supporter with respect to the tape supporter. The component supply tape is introduced into the main body by inserting the tape supporter into the introducing region with the component supply tape held by the clamping mechanism.

A conductive ball mounting device is provided. The conductive ball mounting device includes: a mask having a thickness equal to or larger than a diameter of a conductive ball and having an opening formed therein, wherein the conductive ball is absorbed and desorbed into and from the opening; a frame having a vacuum hole formed therein and formed to enclose sides and an upper portion of the mask; and a porous member formed between the frame and the upper portion of the mask.

A mounting device for mounting a multi-segmented flexible printed circuit board includes: a circular stage on which a display substrate provided with a plurality of sub-pads and a multi-segmented flexible printed circuit board attached to a side of the display substrate are configured to be placed; and a pressing unit arranged adjacent to the circular stage and configured to press and attach the multi-segmented flexible printed circuit board to the plurality of sub-pads of the display substrate.

Semiconductor packages are described which increase the density of electronic components within. The semiconductor package may incorporate interposers with cavities formed into the top and/or bottom. The cavities may then be used as locations for the electronic components. Alternatively, narrow spacer interposers may be used to space apart standard more laterally elongated interposers to form the indentations used to house the electronic components. The semiconductor package designs described herein may be used to reduce footprint, reduce profile and increase electronic component and transistor density for semiconductor products.

A method of mounting a component includes an approaching step of causing the pair of clamping members to approach each other with the first body of the first component disposed between the paired clamping members, a clamping step of clamping the first component, and a mounting step of moving the pair of clamping members clamping the first component to the substrate and pressing out the first component clamped by the pair of clamping members with the pusher for mounting on the substrate, when the clamping members mount the first component on the substrate.

Semiconductor packages are described which increase the density of electronic components within. The semiconductor package may incorporate interposers with cavities formed into the top and/or bottom. The cavities may then be used as locations for the electronic components. Alternatively, narrow spacer interposers may be used to space apart standard more laterally elongated interposers to form the indentations used to house the electronic components. The semiconductor package designs described herein may be used to reduce footprint, reduce profile and increase electronic component and transistor density for semiconductor products.

A system in package comprising: one or more component(s); one or more heat spreader(s); and one or more substrate(s) having cavity(ies), wherein said cavity(ies) including a first cavity and a second cavity; said one or more component(s) is/are disposed within said first cavity and exposed to said second cavity; said one or more component(s) is/are coupled to said one or more substrate(s); and said one or more component(s) and said one or more substrate(s) are attached to said one or more heat spreader(s).