In an embodiment, a system includes: a warehousing apparatus configured to interface with a semiconductor die processing tool configured to process a semiconductor die singulated from a wafer, wherein the semiconductor die processing tool comprise an in-port and an out-port, wherein the warehousing apparatus is configured to: move a first die vessel that contains the semiconductor die to the in-port from a first die vessel container, wherein the first die vessel container is configured to house the first die vessel; move the first die vessel from the in-port to a buffer region; and move a second die vessel from the buffer region to the out-port.

A semiconductor package includes a die pad, a die, a first lead, a plurality of second leads, and a mold material. The die is electrically coupled to the die pad. The first lead is electrically coupled to the die. The plurality of second leads are electrically coupled to the die. The plurality of second leads are adjacent to the first lead. The mold material encapsulates at least a portion of the die pad, the die, the first lead, and the plurality of second leads. Each of the plurality of second leads extends a farther distance from the mold material than the first lead.

A method of forming dice includes the following steps. First, a wafer structure is provides, which includes a substrate and a stack of semiconductor layers disposed in die regions and a scribe line region. Then, the substrate and the stack of the semiconductor layers in the scribe line region are removed to forma groove in the substrate. After the formation of the groove, the substrate is further thinned to obtain the substrate with a reduced thickness. Finally, a separation process is performed on the substrate with the reduced thickness.

A multiple die container load port may include a housing with an opening, and an elevator to accommodate a plurality of different sized die containers. The multiple die container load port may include a stage supported by the housing and moveable within the opening of the housing by the elevator. The stage may include one or more positioning mechanisms to facilitate positioning of the plurality of different sized die containers on the stage, and may include different portions movable by the elevator to accommodate the plurality of different sized die containers. The multiple die container load port may include a position sensor to identify one of the plurality of different sized die containers positioned on the stage.

Examples of molded substrates are described herein. In some examples, a molded substrate may support integrated circuitry. In some examples, the molded substrate and the integrated circuitry are included in a circuitry package for a replaceable print component. In some examples, the molded substrate is relatively flat. In some examples, molding remnants may be on the molded substrate.

The present disclosure relates to a tray assembly. The tray assembly may include a die transport tray. The die transport tray may include an inner bottom surface for accommodating a plurality of dies. The tray assembly may further include a lid. The lid may include an inner top surface, wherein the inner top surface of the lid may face the inner bottom surface of the die transport tray when the lid is assembled over the die transport tray. The lid may further include a shock absorbing material on the inner top surface for contacting the plurality of dies, if present.

A method of forming dice includes the following steps. First, a wafer structure is provides, which includes a substrate and a stack of semiconductor layers disposed in die regions and a scribe line region. Then, the substrate and the stack of the semiconductor layers in the scribe line region are removed to form a groove in the substrate. After the formation of the groove, the substrate is further thinned to obtain the substrate with a reduced thickness. Finally, a separation process is performed on the substrate with the reduced thickness.

In an embodiment, a system includes: a warehousing apparatus configured to interface with a semiconductor die processing tool configured to process a semiconductor die singulated from a wafer, wherein the semiconductor die processing tool comprise an in-port and an out-port, wherein the warehousing apparatus is configured to: move a first die vessel that contains the semiconductor die to the in-port from a first die vessel container, wherein the first die vessel container is configured to house the first die vessel; move the first die vessel from the in-port to a buffer region; and move a second die vessel from the buffer region to the out-port.

A semiconductor package includes a die pad, a die, a first lead, a plurality of second leads, and a mold material. The die is electrically coupled to the die pad. The first lead is electrically coupled to the die. The plurality of second leads are electrically coupled to the die. The plurality of second leads are adjacent to the first lead. The mold material encapsulates at least a portion of the die pad, the die, the first lead, and the plurality of second leads. Each of the plurality of second leads extends a farther distance from the mold material than the first lead.

Containers for supporting one or more semiconductor devices therein may include walls positioned to at least partially surround a semiconductor device. At least one of the walls may include a radiation-shielding material. A support structure may be shaped, positioned, and configured to support the semiconductor device within the walls.