Abstract: A light emitting device package is provided comprising a light emitting device including at least one light emitting diode and a body including a first lead frame on which the light emitting device is mounted and a second lead frame spaced apart from the first lead frame, wherein at least one of the first and second lead frames is extending to a bending region in a first direction by a predetermined length on the basis of an outer surface of the body and is bent in a second direction intersecting the first direction.

Abstract: A semiconductor module includes a base plate; a plurality of substrates placed on one surface of the base plate, with each substrate of the plurality of substrates including a switching element, a diode element, and a connection terminal area; and a parallel flow forming device that forms parallel coolant flow paths that are provided so as to be in contact with the other surface of the base plate.

Abstract: In one embodiment of the invention, contact patterning may be divided into two or more passes which may allow designers to control the gate height critical dimension relatively independent from the contact top critical dimension.

Abstract: A semiconductor apparatus having improved thermal fatigue life is provided by lowering maximum temperature on jointing members and reducing temperature change. A jointing member is placed between a semiconductor chip and a lead electrode, and a thermal stress relaxation body is arranged between the chip and a support electrode. Jointing members are placed between the thermal stress relaxation body and the chip and between the thermal stress relaxation body and the support electrode. A second thermal stress relaxation body made from a material having a thermal expansion coefficient between the coefficients of the chip and the lead electrode is located between the chip and the lead electrode. The first thermal stress relaxation body is made from a material which has a thermal expansion coefficient in between the coefficients of the chip and the support electrode, and has a thermal conductivity of 50 to 300 W/(m·° C.).

Abstract: The power semiconductor apparatus includes a resin package made up of a power semiconductor element and a control semiconductor element which are mounted on a main front surface of a lead frame and sealed with mold resin, a power terminal led out of the resin package and electrically connected to the power semiconductor element, a control terminal led out of the resin package and electrically connected to the control semiconductor element and a cylindrical case which is formed in a manner separable from the resin package and encloses the resin package, wherein the power terminal and the control terminal are led out of lead insertion slots formed in the case, and a part of the power terminal which is led out of the case is bent along an end face of the case.