[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.

According to various embodiments, a wafer arrangement may be provided, the wafer arrangement may include: a wafer including at least one electronic component having at least one electronic contact exposed on a surface of the wafer; an adhesive layer structure disposed over the surface of the wafer, the adhesive layer structure covering the at least one electronic contact; and a carrier adhered to the wafer via the adhesive layer structure, wherein the carrier may include a contact structure at a surface of the carrier aligned with the at least one electronic contact so that by pressing the wafer in direction of the carrier, the contact structure can be brought into electrical contact with the at least one electronic contact of the at least one electronic component.

[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 includes a semiconductor die having a top surface with bond pads formed thereon, electrical connection elements each having a first end located at a first plane and electrically connected to one of the bond pads, and an opposite second end located at a second plane that is different from the first plane, and a molding material encapsulating the semiconductor die and the electrical connection elements, wherein the molding material defines a package body that has a top surface and one or more side surfaces, wherein the second end of each electrical connection element is exposed at the top surface and at least one of the one or more side surfaces of the package body.

[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.

According to various embodiments, a wafer arrangement may be provided, the wafer arrangement may include: a wafer including at least one electronic component having at least one electronic contact exposed on a surface of the wafer; an adhesive layer structure disposed over the surface of the wafer, the adhesive layer structure covering the at least one electronic contact; and a carrier adhered to the wafer via the adhesive layer structure, wherein the carrier may include a contact structure at a surface of the carrier aligned with the at least one electronic contact so that by pressing the wafer in direction of the carrier, the contact structure can be brought into electrical contact with the at least one electronic contact of the at least one electronic component.

[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.

According to various embodiments, a wafer arrangement may be provided, the wafer arrangement may include: a wafer including at least one electronic component having at least one electronic contact exposed on a surface of the wafer; an adhesive layer structure disposed over the surface of the wafer, the adhesive layer structure covering the at least one electronic contact; and a carrier adhered to the wafer via the adhesive layer structure, wherein the carrier may include a contact structure at a surface of the carrier aligned with the at least one electronic contact so that by pressing the wafer in direction of the carrier, the contact structure can be brought into electrical contact with the at least one electronic contact of the at least one electronic component.

[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.