A power module providing a half bridge comprises at least one substrate and an inner metallization area, two intermediate metallization areas and two outer metallization areas, each of which extends in a longitudinal direction of the at least one substrate; wherein the two intermediate metallization areas are arranged besides the inner metallization area with respect to a cross direction of the at least one substrate and each outer metallization area is arranged beside one of the two intermediate metallization areas with respect to the cross direction; wherein the power module comprises two inner sets of semiconductor switches, each inner set of semiconductor switches bonded to an intermediate metallization area and electrically connected to the inner metallization area, such that the inner sets of semiconductor switches form a first arm of the half bridge; wherein the power module comprises two outer sets of semiconductor switches, each outer set of semiconductor switches bonded to an outer metallization area and electrically connected to an intermediate metallization area, such that the outer sets of semiconductor switches form a second arm of the half bridge.

A power module providing a half bridge comprises at least one substrate and an inner metallization area, two intermediate metallization areas and two outer metallization areas, each of which extends in a longitudinal direction of the at least one substrate; wherein the two intermediate metallization areas are arranged besides the inner metallization area with respect to a cross direction of the at least one substrate and each outer metallization area is arranged beside one of the two intermediate metallization areas with respect to the cross direction; wherein the power module comprises two inner sets of semiconductor switches, each inner set of semiconductor switches bonded to an intermediate metallization area and electrically connected to the inner metallization area, such that the inner sets of semiconductor switches form a first arm of the half bridge; wherein the power module comprises two outer sets of semiconductor switches, each outer set of semiconductor switches bonded to an outer metallization area and electrically connected to an intermediate metallization area, such that the outer sets of semiconductor switches form a second arm of the half bridge.

The present invention provides a power module including a substrate and a modular housing structure. The substrate includes an electronic element disposed thereon. The modular housing structure is disposed on the substrate and located around the electronic element. The modular housing structure includes a plurality of sidewalls configured to connect with each other detachably. Each sidewall includes two connecting elements disposed on two opposite ends thereof respectively. The two connecting elements of any one of the sidewalls are connected to two corresponding connecting elements of two adjacent sidewalls respectively. Consequently, the numbers and connections of the sidewalls are adjustable and varied according to the size of the substrate so as to avoid the waste of space and enhance the power density.

A semiconductor device according to the invention includes an insulating substrate including an insulating plate, a circuit pattern that is formed on a front surface of the insulating plate, and a radiator plate that is fixed to a rear surface of the insulating plate, a semiconductor chip that is fixed to the circuit pattern, an external lead terminal that is connected to a surface electrode of the semiconductor chip through a wiring line, a molding resin that covers the insulating substrate, the semiconductor chip, the wiring line, and the external lead terminal such that a rear surface of the radiator plate and a portion of the external lead terminal are exposed, and an anchor layer including a stripe-shaped concave portion which is formed in the circuit pattern by laser beam irradiation.

A semiconductor device according to the invention includes an insulating substrate including an insulating plate, a circuit pattern that is formed on a front surface of the insulating plate, and a radiator plate that is fixed to a rear surface of the insulating plate, a semiconductor chip that is fixed to the circuit pattern, an external lead terminal that is connected to a surface electrode of the semiconductor chip through a wiring line, a molding resin that covers the insulating substrate, the semiconductor chip, the wiring line, and the external lead terminal such that a rear surface of the radiator plate and a portion of the external lead terminal are exposed, and an anchor layer including a stripe-shaped concave portion which is formed in the circuit pattern by laser beam irradiation.

A composite circuit board includes a composite circuit board unit, a first solder mask formed on a first metal protection layer of the composite circuit board unit, and a second solder mask formed on a second metal protection layer of the composite circuit board unit. Two ends of a first outer conductive circuit are bent back toward each other and spaced apart a predetermined distance to form a first window. Two ends of a second outer conductive circuit are bent back toward each other and spaced apart a predetermined distance to form a second window.

Provided are a power device, a sensor which measures a physical state of the power device to transmit a signal according to the physical state, a main electrode terminal through which a main current of the power device flows, a sensor signal terminal which is connected to the sensor to receive a signal from the sensor, a driving terminal which receives driving power for driving the power device, and an open bottomed case which houses the power device, the sensor, the main electrode terminal, the sensor signal terminal and the driving terminal, the sensor signal terminal and the driving terminal each having a first terminal and a second terminal which are provided away from an inner side wall surface of the case, the first and second terminals electrically conducting to each other to form a double structure.

A terminal element or bus bar for a power semiconductor module arrangement includes a first end configured to be arranged inside a housing of the power semiconductor module arrangement, a second end configured to be arranged outside of the housing of the power semiconductor module arrangement, and at least a first section and a second section arranged successively between the first end and the second end along a length of the terminal element or bus bar, wherein either the first section includes a first material, the second section includes a second material, and the first material differs from the second material, or the first section has a first thickness, the second section has a second thickness, and the first thickness differs from the second thickness, or both.

A power semiconductor module arrangement includes two or more individual semiconductor devices arranged on a base layer. Each semiconductor device includes a lead frame, a semiconductor body arranged on the lead frame, and a molding material enclosing the semiconductor body and at least part of the lead frame. A frame is arranged on the base layer such that the frame surrounds the two or more individual semiconductor devices. A casting compound at least partly fills a capacity formed by the base layer and the frame, such that the casting compound at least partly encloses the two or more individual semiconductor devices.

A power semiconductor module arrangement includes two or more individual semiconductor devices arranged on a base layer. Each semiconductor device includes a lead frame, a semiconductor body arranged on the lead frame, and a molding material enclosing the semiconductor body and at least part of the lead frame. A frame is arranged on the base layer such that the frame surrounds the two or more individual semiconductor devices. A casting compound at least partly fills a capacity formed by the base layer and the frame, such that the casting compound at least partly encloses the two or more individual semiconductor devices.