A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor structure is provided. The semiconductor structure includes a base, a seed layer, a compound semiconductor layer, a gate structure, a source structure, a drain structure, and a conductive paste. The seed layer is disposed on the base. The compound semiconductor layer is disposed on the seed layer. The gate structure is disposed on the compound semiconductor layer. The source structure and the drain structure are disposed on both sides of the gate structure. In addition, the conductive paste is disposed between the base and a lead frame, and the conductive paste extends to the side surface of the base.

A semiconductor includes a semiconductor element, a connecting terminal electrically connected to the semiconductor element, and a case including an opening space for housing the semiconductor element, a frame which surrounds the opening space and in which the connecting terminal is partially embedded, and a terminal arrangement portion protruding from the frame towards the opening space. The connecting terminal includes an internal terminal portion that extends towards the opening space with respect to the frame, the internal terminal portion having a front surface that is electrically connected to the semiconductor element and exposed to the opening space, and a rear surface that is fixed to the terminal arrangement portion.

A semiconductor includes a semiconductor element, a connecting terminal electrically connected to the semiconductor element, and a case including an opening space for housing the semiconductor element, a frame which surrounds the opening space and in which the connecting terminal is partially embedded, and a terminal arrangement portion protruding from the frame towards the opening space. The connecting terminal includes an internal terminal portion that extends towards the opening space with respect to the frame, the internal terminal portion having a front surface that is electrically connected to the semiconductor element and exposed to the opening space, and a rear surface that is fixed to the terminal arrangement portion.

A semiconductor package includes a semiconductor chip disposed over a first main surface of a first substrate, a package lid disposed over the semiconductor chip, and spacers extending from the package lid through corresponding holes in the first substrate. The spacers enter the holes at a first main surface of the first substrate and extend beyond an opposing second main surface of the first substrate.

A semiconductor package includes a semiconductor chip disposed over a first main surface of a first substrate, a package lid disposed over the semiconductor chip, and spacers extending from the package lid through corresponding holes in the first substrate. The spacers enter the holes at a first main surface of the first substrate and extend beyond an opposing second main surface of the first substrate.

A case includes a terminal disposition portion which includes a disposition surface projecting from an inner wall surface toward an open area, exposes an exposure region on a front surface of an external connecting terminal, and embeds therein a rear surface of the external connecting terminal. In the case, at at least part of both sides along a pair of opposite sides of the exposure region, the disposition surface is located between the front surface and the rear surface to have a level difference to the front surface. In a semiconductor device with the above-described configuration, the case does not extend to the exposure region on the front surface of the external connecting terminal. Therefore, no encapsulation resin flows into an interfacial debonding gap between the external connecting terminal and the case, thus curbing further advance of the interfacial debonding.

A micro LED display manufacturing method according to various embodiments may include: a first operation of bonding an anisotropic conductive film including a plurality of conductive particles onto one surface of a prepared substrate, the one surface including a circuit part; a second operation of forming a bonding layer on the anisotropic conductive film; a third operation of positioning a plurality of micro LED chips above the bonding layer, the micro LED chips being arranged on a carrier substrate while being spaced a first distance apart from the substrate; a fourth operation of attaching the plurality of micro LED chips onto the bonding layer by means of laser transfer; and a fifth operation of forming a conductive structure for electrically connecting a connection pad to the circuit part through the conductive particles by means of heating and pressurizing.