Abstract: A split-gate flash memory cell having improved programming and erasing speed with a tilted trench source, and also a method of forming the same are provided. This is accomplished by forming two floating gates and their respective control gates sharing a common source region. A trench is formed in the source region and the walls are sloped to have a tilt. A source implant is performed at a tilt angle and the trench is lined with a gate oxide layer. Subsequently, a lateral diffusion of the source implant is performed followed by thermal cycling. The lateral enlargement of the diffused source is found to increase the coupling ratio of the split-gate flash memory cell substantially.

Abstract: A field-effect transistor and a method for its fabrication is described. The transistor includes a monocrystalline semiconductor channel region overlying and epitaxially continuous with a body region of a semiconductor substrate. First and second semiconductor source/drain regions laterally adjoin opposite sides of the channel region and are electrically isolated from the body region by an underlying first dielectric layer. The source/drain regions include both polycrystalline and monocrystalline semiconductor material. A conductive gate electrode is formed over a second dielectric layer overlying the channel region. The transistor is formed by patterning the first dielectric layer to selectively cover a portion of the substrate and leave an exposed portion of the substrate.

Abstract: The several embodiments of the invention provide for formation of gate electrode structures with recessed and partially recessed spacers. One embodiment, provides a gate electrode structure with recessed thick inner spacers and thick outer spacers. Another embodiment provides a gate electrode structure with recessed thin inner spacers and recessed thick outer spacers. Another embodiment provides a gate electrode structure with thin inner spacers and partially recessed outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with thin inner spacers and thin outer spacers. Another embodiment provides a gate electrode structure with two spacer stacks. The outermost spacer stack with recessed thin inner spacers and recessed thick outer spacers. The inner spacer stack with recessed thin inner spacers and recessed thin outer spacers.

Abstract: Described are structures for a device with a controllable dummy layer which can provide a low controllable trigger voltage and can be used as a first triggered device in ESD protection networks. A controllable dummy layer diode is provided which is structured as a butting diode with a dummy polysilicon layer above the butting region. The dummy polysilicon layer functions as an STI block to remove the STI between the n+ and p+ regions of the diode. In one embodiment the diode has the function of a controllable gate with a punchthrough-like-trigger, in which a capacitor-couple circuit couples a portion of the ESD voltage into the gate of the diode to provide a gate voltage.

Abstract: A flip-chip packaging process is proposed, which can help assure reliable electrical bonding between chip-side solder bumps and substrate-side bond pads without being made open-circuited by the electrically-insulative material being used for flip chip underfill. The proposed flip-chip packaging process is of the type utilizing a no-flow underfill technique to prevent short-circuiting between neighboring solder bumps, and is characterized in the fabrication of electrically-conductive sharp-pointed studs over substrate-side bond pads to prevent open-circuiting between chip-side solder bumps and substrate-side bond pads.

Abstract: A package for a semiconductor device and a method for packaging a semiconductor device are disclosed. The semiconductor package uses a tape which allows for the production of packaged semiconductor devices having different contact patterns. The contact pattern is configured to the required pin contact pattern by varying the number and placement of balls on the bottom of the tape. In one embodiment, the tape includes bonding pads and an array of contact pads. Each bonding pad is connected to one of the contact pads, and an opening is disposed in the tape below each contact pad. A semiconductor device is connected to the tape and is electrically connected to the bonding pads. The semiconductor device is then sealed on the top and sides by a plastic top which attaches to the tape. Balls are then selectively attached to the tape such that they electrically connect to select contact pads so as to form a desired contact pattern.

Abstract: A method of forming inter-level contacts or vias between metal layers using a tungsten film deposited into the via using non-collimated sputter deposition. The sputter chamber is configured with a pressure of about 1 mTorr to about 10 mTorr with an inert gas flow of at least at least 25 cm3/min to about 150 cm3/min. Shielding inside the chamber is coated with a material, preferably, aluminum oxide, that promotes adhesion of tungsten to the shielding. An adhesion layer of titanium may be included prior to deposition of the tungsten film. Non-collimated sputter deposition increases the target to substrate distance inside the sputter chamber; reduces the heating effect associated with traditional collimated sputtering; and provides more robust diffusion barriers.