An integrated circuit package comprising one or more electronic component(s); and one or more substrate(s), including a first substrate and a second substrate, wherein said first substrate including a first cavity on a first surface of said first substrate and a second cavity on a second surface of said first substrate, said second substrate includes a third cavity on a first surface of said second substrate and a fourth cavity on a second surface of said second substrate, said first substrate and said second substrate are stacked and coupled, and said one or more electronic component(s) is/are disposed inside said first cavity of first substrate and said fourth cavity of second substrate.

An integrated circuit package comprising a heat spreader; one or more substrate(s); one or more standoff(s); and one or more electronic component(s). One or more component(s) is/are coupled to a substrate and the substrate maybe coupled to a heat spreader. Standoff(s) are coupled on the heat spreader or substrates forming a cavity, and one or more component(s) and substrate(s) are located inside the cavity.

An information management device for managing information in a mounting system that mounts a component after determining usability of the component when the component is picked up from a wafer divided into multiple components and is mounted on a base material, includes an information storage section that stores various types of information, an information acquisition section that acquires information on a pickup position of the component on the wafer and information on a determination result of usability of the component, and an information processing section that stores information obtained by associating the pickup position of the component with the determination result of the usability in the information storage section.

The mounting device comprises: a mounting head, having a pickup member picking up a component, which moves and places the component at a placement position by picking up the component with the pickup member from a supply section having a holding member holding the component; an imaging section configured to image the component held by the mounting head; and a control section configured to execute: a first placement process in which the component is picked up by the mounting head, positional deviation is corrected based on imaging results of the component captured by the imaging section, and the component is placed at the placement position, and a second placement process in which the component is placed at the placement position by omitting the imaging process by the imaging section at the mounting head when the positional deviation is within a predetermined allowable range.

An electronic package comprising a first substrate that includes a first plurality of substrate vias and one or more cavities, a second substrate that includes a second plurality of substrate vias and one or more cavities, and a standoff substrate(s). The standoff substrate(s)positioned between the first and second substrate, the standoff substrate(s) is affixed to each of the first and second substrate, standoff substrate(s) forms a clearance between the first and second substrate, the standoff substrate(s) comprises an intervening plurality of substrate vias passing through the entire thickness of the standoff substrate(s), and a portion of the second plurality of substrate vias are configured to be or capable of being electrically connected to a portion of the first plurality of substrate vias by way of a portion of the intervening plurality of substrate vias.

A control device of the tape feeder includes: a step-out detecting section for detecting a step-out of a stepping motor; a memory section for storing a target angle of a sprocket for positioning one of multiple cavities at a supply section; and a restoration process section for performing origin alignment, when the step-out detecting section detects a step-out of the stepping motor, wherein pulse power is supplied to the stepping motor so that the sprocket reaches a predetermined angle, supplying the pulse power to the stepping motor in accordance with the current angle and the target angle of the sprocket after the origin alignment is completed, and moving one of the multiple cavities to the supply section.

An integrated circuit package comprising one or more electronic component(s); and one or more substrate(s), including a first substrate and a second substrate, wherein said first substrate including a first cavity on a first surface of said first substrate and a second cavity on a second surface of said first substrate, said second substrate includes a third cavity on a first surface of said second substrate and a fourth cavity on a second surface of said second substrate, said first substrate and said second substrate are stacked and coupled, and said one or more electronic component(s) is/are disposed inside said first cavity of first substrate and said fourth cavity of second substrate.

A semiconductor mounting device for mounting chip components on a substrate, wherein the device is reduced in size. A semiconductor mounting device 10 comprises: a temporary placement stage 12 on which are loaded a plurality of chip components 30a, 30b, 30c; a conveyance head 14 that conveys the chip components 30a, 30b, 30c to the temporary placement stage 12, and also loads each of the chip components 30a, 30b, 30c on the temporary placement stage 12 so that the relative positions of the plurality of chip components 30a, 30b, 30c reach predetermined positions; a mounting stage 16 that secures a substrate 36 by suction; and a mounting head 18 that suctions the plurality of chip components 30a, 30b, 30c loaded on the temporary placement stage 12, and pressurizes while keeping the relative positions at prescribed positions on the substrate 36 that is secured by suction to the mounting stage 16.

A system comprising a plurality of electronic components, wherein said plurality of electronic components including a first component and a second component, and said first component is a security component configured to generate and/or store security key(s); a substrate; one or more standoff substrate(s) comprising of cavity(3ies), wherein said one or more standoff substrate(s) is/are coupled to said substrate, said one or more standoff substrate(s) completely encircles said substrate, said security component is disposed inside said cavity(ies), said security component is coupled to said substrate, said security component is obfuscated by said substrate and said one or more standoff substrate(s), and said security component and said second component are configured to communicate security key(s) for performing device identification, authentication, encryption, and/or device integrity verification.

A component supply device supplies components stored in a component storage tape to a component extracting position. The component supply device includes a component exposing unit that exposes the components in the component storage tape fed by a tape feeding unit, the component storage tape traveling on a travel path formed from a tape travel path forming unit. The component exposing unit includes a cover tape raising unit that performs a raising process for a cover tape. In the travel path formed from the tape travel path forming unit, a first path part on which the cover tape raising unit is disposed is inclined to one direction side in a Z-axis direction from an upstream side toward a downstream side in a tape feeding direction.