A semiconductor module includes: a first metal plate including a first mount part joined with a bottom-surface electrode of a first switching element, a second mount part joined with a positive-electrode terminal, and a first narrow part between the first and second mount parts and being narrower than a part jointing the first switching element to the first mount part and the positive-electrode terminal; a second metal plate being joined with a bottom-surface electrode of a second switching element, and connected to a top-surface electrode of the first switching element; a third metal plate including a sixth mount part joined with a negative-electrode terminal, a seventh mount part connected to a top-surface electrode of the second switching element, and being narrower than the negative-electrode terminal, and a second narrow part between the sixth and seventh mount parts; and a snubber circuit connecting the first and second narrow parts.

A semiconductor device includes a plurality of arms each including: a heat dissipation plate; a switching element; a metal terminal; and a sealing material, the metal terminals of the two specific arms adjacent to each other in the first direction has a first protruding portion which protrudes from a portion of the sealing material on one side in the second direction, the first protruding portion of one specific arm is arranged on a side closer to the other specific arm than a center portion in the first direction is, at the portion of the sealing material on the one side in the second direction, and the first protruding portion of the other specific arm is arranged on a side closer to the one specific arm than a center portion in the first direction is, at the portion of the sealing material on the one side in the second direction.

A semiconductor device includes a first die pad having a main surface, a second die pad having a second main surface, a first switching element connected to the first main surface, a second switching element connected to the second main surface, a first connecting member connecting the first main surface electrode of the first switching element to the second die pad, an encapsulation resin encapsulating the first switching element, the second switching element, the first die pad, the second die pad, and the first connecting member, and leads projecting out of one of the resin side surfaces of the encapsulation resin.

Provided are a discrete component, a power module and a heat sink system. The discrete component includes a lead frame and a chip. The lead frame includes a top and a bottom disposed adjacent to each other. The top includes a support surface and multiple lateral surfaces connected in sequence. The multiple lateral surfaces are located between the support surface and the bottom. The chip is disposed on each of at least one lateral surface of the multiple lateral surfaces separately. The top of the lead frame is configured to be a metal structure.

A semiconductor device includes: a first semiconductor chip including a first MOSFET of n-type and a first parasitic diode; and a second semiconductor chip including a second MOSFET of n-type and a second parasitic diode. A first source electrode and a first gate wiring are formed in a first front surface of the first semiconductor chip, and a first drain electrode is formed in a first back surface of the first semiconductor chip. A second source electrode and a second gate wiring are formed in a second front surface of the second semiconductor chip, and a second drain electrode is formed in a second back surface of the second semiconductor chip. The first front surface and the second front surface face each other such that the first source electrode and the second source electrode are in contact with each other via a conductive paste.

A semiconductor device includes a semiconductor die attached to a substrate and a metal clip attached to a side of the semiconductor die facing away from the substrate by a soldered joint. The metal clip has a plurality of slots dimensioned so as to take up at least 10% of a solder paste that reflowed to form the soldered joint. Corresponding methods of production are also described.

An embodiment related to a device. The device includes a first die with first and second die surfaces. The second die surface is bonded to a first die attach pad (DAP) disposed on a first substrate surface of a package substrate and the first die surface includes a first die contact pad. The device also includes a first clip bond including a first clip bond horizontal planar portion attached to the first die contact pad on the first die surface, and a first clip bond vertical portion disposed on an edge of the first clip bond horizontal planar portion. The first clip bond vertical portion is attached to a first substrate bond pad on the first substrate surface. The device further includes a first conductive clip-die bonding layer with spacers on the first die contact pad of the first die. The first conductive clip-die bonding layer bonds the first clip bond horizontal planar portion to the first die contact pad, and the spacers maintain a uniform Bond Line Thickness (BLT) of the first conductive clip-die bonding layer.

A multi-clip structure includes a first clip for die bonding and a second clip for die bonding. The multi-clip structure further includes a retaining tape fixed to the first clip and to the second clip to hold the first clip and the second clip together.

A semiconductor module includes a laminated substrate that includes a heat radiating plate, and an insulation layer having a conductive pattern thereof and being disposed on a top surface of the heat radiating plate, a semiconductor element disposed on a top surface of the conductive pattern, an integrated circuit that controls driving of the semiconductor element, a control-side lead frame having a primary surface on which the integrated circuit is disposed, and a mold resin that seals the laminated substrate, the semiconductor element, the integrated circuit, and the control-side lead frame. The control-side lead frame has a rod-shaped first pin having a first end, a first end side of the first pin extending toward the top surface of the heat radiating plate, and the heat radiating plate has at least one insertion hole into one of which the first end of the first pin is press-fitted.

A power electronics module includes a substrate with a substrate metallization layer, which is separated into conducting areas for providing conducting paths for the power electronics module; a semiconductor switch chip bonded with a first power electrode to a first conducting area of the substrate metallization layer; a conductor plate bonded to a second power electrode of the semiconductor switch chip opposite to the first power electrode.