A light emitting device includes: a base including: a main body, and a frame disposed on an upper surface of the main body; one or more laser elements disposed on the upper surface of the main body and positioned inward of the frame; a cover including: a support member that is fixed on an upper surface of the frame and has an opening inside the frame, and a light transmissive portion disposed so as to close the opening; and a lens body disposed on the support member and above the light transmissive portion. A difference between a thermal expansion coefficient of the light transmissive portion and a thermal expansion coefficient of the lens body is smaller than a difference between a thermal expansion coefficient of the light transmissive portion and a thermal expansion coefficient of the main body.

A semiconductor device includes a substrate, a power device, a protection circuit, a dielectric layer, a drain pad, a source pad, and a gate pad. The power device and the protection circuit are disposed on the substrate. The power device includes a drain electrode, a source electrode, and a gate electrode. The protection circuit has a first terminal electrically connected with the source pad and a second terminal electrically connected with the gate pad. The dielectric layer is disposed on the power device and the protection circuit. The drain pad, the source pad, and the gate pad are disposed on the dielectric layer and respectively electrically connected with the drain electrode, the source electrode, and the gate electrode. At least part of the protection circuit is disposed under the source pad, the gate pad, or the drain pad.

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 light emitting device includes: a base including: a main body, and a frame disposed on an upper surface of the main body; one or more laser elements disposed on the upper surface of the main body inward of the frame; a cover comprising: a support member that is fixed on an upper surface of the frame and has an opening inside the frame, and a light transmissive portion disposed so as to close the opening; and a lens body disposed above the light transmissive portion. The support member includes; a first portion fixed on the upper surface of the frame, a second portion on which the lens body is disposed, the second portion being positioned inward of and lower than the first portion, and a third portion on which the light transmissive portion is disposed, the third portion being disposed inward of and lower than the second portion.

A semiconductor device includes an active layer having first and second active regions, first and second source electrodes, first and second drain electrodes, first and second gate electrodes, a first source metal layer, first and second drain metal layers, and a source pad electrically connected to the first source metal layer. The second drain metal layer is electrically connected to the second drain electrode and the first source metal layer. A projection of the second drain metal layer on the active layer forms a drain metal layer region. An projection of the source pad on the active layer forms a source pad region. An area of an overlapping region between the source pad region and the drain metal layer region is smaller than or equal to 40% of an area of the drain metal layer region.

Semiconductor package structures are provided. An interposer is bonded to a printed circuit board (PCB) or package substrate through first solder bumps disposed on a first side of the interposer. The first solder bumps have a first pitch. A plurality of semiconductor chips are formed, and each of the semiconductor chips is bonded to a second side of the interposer through second solder bumps. The second solder bumps have a second pitch that is less than the first pitch. Each of the semiconductor chips includes a substrate with one or more transistors or integrated circuits formed thereon.

A semiconductor device including an active layer made of III-V group semiconductors, a source electrode and a drain electrode disposed on the active layer, a gate electrode disposed on or above the active layer and between the source electrode and the drain electrode, an interlayer dielectric covering the source electrode, the drain electrode, and the gate electrode and having a plurality of inter-gate via holes. The semiconductor device further includes an inter-source layer, an inter-drain layer, and an inter-gate layer disposed on the interlayer dielectric. The semiconductor device further includes an inter-gate plug filled in the inter-gate via hole and electrically connected to the gate electrode and the inter-gate layer, and a gate field plate being separated from the gate electrode and electrically connected to the gate electrode through the inter-gate layer.

A semiconductor device including an active layer made of III-V group semiconductors, a source electrode and a drain electrode disposed on the active layer, a gate electrode disposed on or above the active layer and between the source electrode and the drain electrode, an interlayer dielectric covering the source electrode, the drain electrode, and the gate electrode and having a plurality of inter-gate via holes. The semiconductor device further includes an inter-source layer, an inter-drain layer, and an inter-gate layer disposed on the interlayer dielectric. The semiconductor device further includes an inter-gate plug filled in the inter-gate via hole and electrically connected to the gate electrode and the inter-gate layer, and a gate field plate being separated from the gate electrode and electrically connected to the gate electrode through the inter-gate layer.

A III-N enhancement-mode transistor includes a III-N structure including a conductive channel, source and drain contacts, and a gate electrode between the source and drain contacts. An insulator layer is over the III-N structure, with a recess formed through the insulator layer in a gate region of the transistor, with the gate electrode at least partially in the recess. The transistor further includes a field plate having a portion between the gate electrode and the drain contact, the field plate being electrically connected to the source contact. The gate electrode includes an extending portion that is outside the recess and extends towards the drain contact. The separation between the conductive channel and the extending portion of the gate electrode is greater than the separation between the conductive channel and the portion of the field plate that is between the gate electrode and the drain contact.

According to a first aspect of the present disclosure, a semiconductor device is provided. The semiconductor device includes a first transistor, a second transistor, at least one source terminal, at least one gate terminal, at least one drain terminal, a source wire, a gate wire, a drain wire and a support part. The support part includes two first support-part edges and two second support-part edges. Each of the two first support-part edges is parallel to a first direction, and the two first support-part edges are spaced apart from each other in a second direction that is perpendicular to the first direction. Each of the two second support-part edges is physically connected to the two first support-part edges. The source wire, the gate wire and the drain wire cross at least one of the two second support-part edges in plan view.