A method of operating an ultrasonic bonding machine is provided. The method includes the steps of: (a) imaging at least one of (i) a semiconductor element supported by a substrate, and (ii) a clamping structure adapted for securing the substrate during a bonding operation; and (b) determining if a relative position of the semiconductor element and the clamping structure is acceptable using predetermined criteria and information from step (a).

A method of operating an ultrasonic bonding machine is provided. The method includes the steps of: (a) imaging at least one of (i) a semiconductor element supported by a substrate, and (ii) a clamping structure adapted for securing the substrate during a bonding operation; and (b) determining if a relative position of the semiconductor element and the clamping structure is acceptable using predetermined criteria and information from step (a).

There is provided with a surface for contacting a wire. At least a part of the surface comprises a surface of a ceramic sintered body containing aluminum oxide as a main ingredient and titanium carbide as an accessory ingredient.

A manufacturing method for a wire bonding structure of the present invention includes a step of preparing a wire made of Cu and a step of joining the wire to a first joining target formed on an electronic device. Before the joining step, the wire has an outer circumferential surface and a withdrawn surface. The withdrawn surface is withdrawn toward a central axis of the wire from the outer circumferential surface. In the joining step, ultrasonic vibration is applied to the wire in a state in which the withdrawn surface is pressed against the first joining target.

[Object] A semiconductor device is configured to release heat from semiconductor chips more efficiently. [Means for Solution] A semiconductor device includes: a die pad 11 which has a die pad main surface 111 and a die pad rear surface 112; a semiconductor chip 41 mounted on the die pad main surface 111; a sealing resin portion 7 formed with a recess 75 for exposure of the die pad rear surface 11 and covering the die pad 11 and the semiconductor chip 41; and a heat releasing layer 6 disposed in the recess 75. The recess 75 has a recess groove 753 outside the die pad 11 in a direction in which the die pad rear surface 112 extends, and the recess groove 753 is closer to the die pad main surface 111 than to the die pad rear surface 112. The heat releasing layer 6 has a junction layer which is in contact with the die pad rear surface 112 and having part thereof filling the recess groove 753.

A ribbon bonding tool including a body portion is provided. The body portion includes a tip portion. The tip portion includes a working surface between a front edge of the tip portion and a back edge of the tip portion. The working surface includes a region defining at least one of a plurality of recesses and a plurality of protrusions. The working surface also defines at least one of (1) a first planar portion between the region and the front edge of the tip portion, and (2) a second planar portion between the region and the back edge of the tip portion.

[Object] A semiconductor device is configured to release heat from semiconductor chips more efficiently. [Means for Solution] A semiconductor device includes: a die pad 11 which has a die pad main surface 111 and a die pad rear surface 112; a semiconductor chip 41 mounted on the die pad main surface 111; a sealing resin portion 7 formed with a recess 75 for exposure of the die pad rear surface 11 and covering the die pad 11 and the semiconductor chip 41; and a heat releasing layer 6 disposed in the recess 75. The recess 75 has a recess groove 753 outside the die pad 11 in a direction in which the die pad rear surface 112 extends, and the recess groove 753 is closer to the die pad main surface 111 than to the die pad rear surface 112. The heat releasing layer 6 has a junction layer which is in contact with the die pad rear surface 112 and having part thereof filling the recess groove 753.

A semiconductor device manufacturing method which enhances the reliability of a semiconductor device. The method includes a step in which a source wire is connected with a semiconductor chip while jigs are pressed against a die pad. The jigs each have a first support portion with a first projection and a second support portion with a second projection. Using the jigs thus structured, the first projection is made to contact with a first point on the front surface of the die pad and then the second projection is made to contact with a second point on the front surface of the die pad located closer to a suspension lead than the first point.

There is provided with a surface for contacting a wire. At least a part of the surface comprises a surface of a ceramic sintered body containing aluminum oxide as a main ingredient and titanium carbide as an accessory ingredient.

A semiconductor device manufacturing method which enhances the reliability of a semiconductor device. The method includes a step in which a source wire is connected with a semiconductor chip while jigs are pressed against a die pad. The jigs each have a first support portion with a first projection and a second support portion with a second projection. Using the jigs thus structured, the first projection is made to contact with a first point on the front surface of the die pad and then the second projection is made to contact with a second point on the front surface of the die pad located closer to a suspension lead than the first point.