In examples, an electronic device comprises a printed circuit board (PCB), an orifice extending through the PCB, and a semiconductor die suspended above the orifice by aluminum bond wires. The semiconductor die is vertically aligned with the orifice and the bond wires coupled to the PCB.

In examples, an electronic device comprises a printed circuit board (PCB), an orifice extending through the PCB, and a semiconductor die suspended above the orifice by aluminum bond wires. The semiconductor die is vertically aligned with the orifice and the bond wires coupled to the PCB.

Provided is a bonding apparatus including a bonding stage 83 for heating a substrate (lead frame) 61 placed on the upper surface thereof or a semiconductor die 63 mounted on the substrate (lead frame) 61, an imaging device 20 arranged above the bonding stage 83 to image the substrate 61 placed on the bonding stage 83 or the semiconductor die 63 mounted on the substrate 61, and a standing wave generating device 35 for generating an ultrasonic standing wave in the space between the upper surface of the bonding stage 83 and the imaging device 20. This improves the accuracy of image position detection by the imaging device with a simple structure.

A quantum device includes a quantum chip and a holder. The holder includes a pedestal, a recess portion formed in a main surface of the pedestal so as to be opposed to the quantum chip, and a suction tube provided such that in the recess portion, a suction opening is positioned in a bottom surface of the quantum chip.

In examples, an electronic device comprises a printed circuit board (PCB), an orifice extending through the PCB, and a semiconductor die suspended above the orifice by aluminum bond wires. The semiconductor die is vertically aligned with the orifice and the bond wires coupled to the PCB.

The present invention includes: a heat plate for heating a lower side of a substrate sliding on an upper surface; and a heat block for heating the heat plate. The heat block includes an air heating flow path for heating air which flows in from a bottom surface side and causing the air to flow out to the heat plate side, the heat plate includes air holes for discharging the air heated by the air heating flow path from the upper surface, the heated air discharged from the air holes forms a heated air atmosphere above the heat plate, and the substrate is transported through the heat air atmosphere. Thereby, curved deformation of the substrate is suppressed.

The present invention includes: a heat plate for heating a lower side of a substrate sliding on an upper surface; and a heat block for heating the heat plate. The heat block includes an air heating flow path for heating air which flows in from a bottom surface side and causing the air to flow out to the heat plate side, the heat plate includes air holes for discharging the air heated by the air heating flow path from the upper surface, the heated air discharged from the air holes forms a heated air atmosphere above the heat plate, and the substrate is transported through the heat air atmosphere. Thereby, curved deformation of the substrate is suppressed.

This mounting device (100) comprises: a base (10) that moves linearly in relation to a substrate (16); a bonding head (20) that is attached to the base (10); a camera (25) that is attached to the base (10) and identifies the position of the substrate (16); a linear scale (33) having a plurality of graduations along the movement direction; a bonding head-side encoder head (31); and a camera-side encoder head (32). A control unit (50) causes the base (10) to move to a position where the bonding head-side encoder head (31) detects the position of a graduation. Due to this configuration, positioning accuracy of a semiconductor die (15) in relation to the substrate (16) is improved.

An image sensor package according to an embodiment of the present technology includes: a solid-state image sensor; a transparent substrate; and a package substrate. The solid-state image sensor has a light-receiving surface including a light-reception unit and a first terminal unit, and a rear surface opposite to the light-receiving surface. The transparent substrate faces the light-receiving surface. The package substrate includes a frame portion, a second terminal unit, and a supporting body. The frame portion has a joint surface to be joined to the transparent substrate and includes a housing portion housing the solid-state image sensor. The second terminal unit is to be wire-bonded to the first terminal unit, the second terminal unit being provided in the frame portion. The supporting body is provided in a peripheral portion of the light-receiving surface or at a center portion of the rear surface and partially supports the light-receiving surface or the rear surface.

The present invention includes: a heat plate for heating a lower side of a substrate sliding on an upper surface; and a heat block for heating the heat plate. The heat block includes an air heating flow path for heating air which flows in from a bottom surface side and causing the air to flow out to the heat plate side, the heat plate includes air holes for discharging the air heated by the air heating flow path from the upper surface, the heated air discharged from the air holes forms a heated air atmosphere above the heat plate, and the substrate is transported through the heat air atmosphere. Thereby, curved deformation of the substrate is suppressed.