An intelligent power module (IPM) comprises a first, second, third and fourth die supporting elements, a first group of insulated gate bipolar transistors (IGBTs), a second group of IGBTs, a first group of super-junction metal-oxide-semiconductor field-effect transistors (MOSFETs), a second group of super-junction MOSFETs, a fifth die supporting element, a low voltage IC, a high voltage IC, and a molding encapsulation. The low and high voltage ICs are attached to the fifth die supporting element. The molding encapsulation encloses the first, second, third and fourth die supporting elements, the first group of IGBTs, the second group of IGBTs, the first group of super-junction MOSFETs, the second group of super-junction MOSFETs, the fifth die supporting element, the low voltage IC, the high voltage IC.

An intelligent power module (IPM) comprises a first, second, third and fourth die supporting elements, a first group of insulated gate bipolar transistors (IGBTs), a second group of IGBTs, a first group of super-junction metal-oxide-semiconductor field-effect transistors (MOSFETs), a second group of super-junction MOSFETs, a fifth die supporting element, a low voltage IC, a high voltage IC, and a molding encapsulation. The low and high voltage ICs are attached to the fifth die supporting element. The molding encapsulation encloses the first, second, third and fourth die supporting elements, the first group of IGBTs, the second group of IGBTs, the first group of super-junction MOSFETs, the second group of super-junction MOSFETs, the fifth die supporting element, the low voltage IC, the high voltage IC.

A semiconductor device includes: a first semiconductor integrated circuit including at least a first terminal and a second terminal; a first lead frame connected to the first terminal; a second lead frame connected to the second terminal; and a mold resin covering the first semiconductor integrated circuit. The mold resin further covers the first lead frame with a portion of the first lead frame being exposed. The mold resin further covers the second lead frame with a tip of the second lead frame opposite to the second terminal being exposed. The mold resin includes a recess, and the recess is opened to expose only the portion and the mold resin.

A semiconductor device includes: a first semiconductor integrated circuit including at least a first terminal and a second terminal; a first lead frame connected to the first terminal; a second lead frame connected to the second terminal; and a mold resin covering the first semiconductor integrated circuit. The mold resin further covers the first lead frame with a portion of the first lead frame being exposed. The mold resin further covers the second lead frame with a tip of the second lead frame opposite to the second terminal being exposed. The mold resin includes a recess, and the recess is opened to expose only the portion and the mold resin.

An object is to provide a technique capable of improving heat dissipation while maintaining the workability of a product in a semiconductor device. A semiconductor device includes power chips, control chips configured to control the power chips, power side terminals, control side terminals, and a mold resin covering the power chips, the control chips, one ends side of the power side terminals, and one ends side of the control side terminals. An other ends side of the power side terminals and an other ends side of the control side terminals protrude horizontally from a side surface of the mold resin and bend downward at middle parts thereof. Of the power side terminals and the control side terminals, only on the other ends side of the power side terminals, heat dissipation portions protruding in a direction approaching or away from the mold resin from portions bent downward are formed.

An object is to provide a technique capable of improving heat dissipation while maintaining the workability of a product in a semiconductor device. A semiconductor device includes power chips, control chips configured to control the power chips, power side terminals, control side terminals, and a mold resin covering the power chips, the control chips, one ends side of the power side terminals, and one ends side of the control side terminals. An other ends side of the power side terminals and an other ends side of the control side terminals protrude horizontally from a side surface of the mold resin and bend downward at middle parts thereof. Of the power side terminals and the control side terminals, only on the other ends side of the power side terminals, heat dissipation portions protruding in a direction approaching or away from the mold resin from portions bent downward are formed.

The present disclosure provides a semiconductor device. The semiconductor device includes a substrate, amounting layer, switching elements, a moisture-resistant layer and a sealing resin. The substrate has a front surface facing in a thickness direction. The mounting layer is electrically conductive and disposed on the front surface. Each switching element includes an element front surface facing in the same direction in which the front surface faces along the thickness direction, a back surface facing in the opposite direction of the element front surface, and a side surface connected to the element front surface and the back surface. The switching elements are electrically bonded to the mounting layer with their back surfaces facing the front surface. The moisture-resistant layer covers at least one side surface. The sealing resin covers the switching elements and the moisture-resistant layer. The moisture-resistant layer is held in contact with the mounting layer and the side surface so as to be spanned between the mounting layer and the side surface in the thickness direction.

Inner leads having die pads having upper surfaces to which semiconductor elements are mounted each have a stepped profile, and surfaces of portions of the inner leads are exposed from a sealing resin in plan view. Outer leads connected to the inner leads have first bends at side surfaces of the sealing resin to extend in a direction on a side of the upper surfaces of the die pads, so that a miniaturized semiconductor device can be obtained.

Inner leads having die pads having upper surfaces to which semiconductor elements are mounted each have a stepped profile, and surfaces of portions of the inner leads are exposed from a sealing resin in plan view. Outer leads connected to the inner leads have first bends at side surfaces of the sealing resin to extend in a direction on a side of the upper surfaces of the die pads, so that a miniaturized semiconductor device can be obtained.

A semiconductor device includes: an insulating substrate; a first semiconductor element connected to the insulating substrate; a conductive member disposed on the insulating substrate, and including a first opposing portion and a second opposing portion located opposite each other with respect to the first semiconductor element in plan view; a first wire connected to the first semiconductor element and the first opposing portion; and a second wire connected to the first semiconductor element and the second opposing portion, and located opposite the first wire with respect to a connection point where the first wire and the first semiconductor element are connected to each other in plan view.