United Microelectronics Corporation

About: United Microelectronics Corporation is a company organization based out in Sunnyvale, California, United States. It is known for research contribution in the topics: Layer (electronics) & Gate oxide. The organization has 9220 authors who have published 6576 publications receiving 60677 citations. The organization is also known as: UMC.

Semiconductor device and method of fabricating the same

Abstract: A method of fabricating a semiconductor device includes following steps. A substrate is provided, wherein a first dielectric layer having a trench therein is formed on the substrate, a source/drain region is formed in the substrate at two sides of the trench, and a second dielectric layer is formed on the substrate in the trench. A first physical vapor deposition process is performed to form a Ti-containing metal layer in the trench. A second physical vapor deposition process is performed to form an Al layer on the Ti-containing metal layer in the trench. A thermal process is performed to anneal the Ti-containing metal layer and the Al layer so as to form a work function metal layer. A metal layer is formed to fill the trench.

Copper damascene technology for ultra large scale integration circuits

Abstract: A copper-palladium alloy damascene technology applied to the ultra large scale integration (ULSI) circuits fabrication is disclosed. First, a TaN barrier is deposited over an oxide layer or in terms of the inter metal dielectric (IMD) layer. Then a copper-palladium seed is deposited over the TaN barrier. Furthermore, a copper-palladium gap-fill electroplating layer is electroplated over the dielectric oxide layer. Second, a copper-palladium annealing process is carried out. Then the copper-palladium electroplating surface is planarized by means of a chemical mechanical polishing (CMP) process. Third, the CoWP cap is self-aligned to the planarized copper-palladium alloy surface. Finally, a second IMD layer is deposited over the first IMD layer. Furthermore, a contact hole in the second dielectric layer over said CoWP cap layer is formed, and then the CoWP cap of the first IMD layer is connected with the copper-palladium alloy bottom surface of the second IMD layer directly. The other deposition processes are subsequently performed the same way.

Multi-step high density plasma chemical vapor deposition process

Abstract: A method for depositing dielectric material into gaps between wiring lines in the formation of a semiconductor device includes the deposition of three oxide layers using high density plasma chemical vapor deposition (HDPCVD). A first HDPCVD step is carried out while keeping the substrate unbiased to form an oxide layer over the lines and in the gap. A second HDPCVD step in which the substrate is biased deposits a second oxide layer over the first oxide layer. During the second HDPCVD step some etching occurs and a portion of the first oxide layer is removed. A third HDPCVD step is carried out at a greater etch and sputtering rate than the second step to complete filling of the gap with dielectric material. The first oxide layer acts to protect the underlying structures from etching damage during the third step. Gaps between wiring lines can be filled with dielectric material without forming voids, even for high aspect ratio gaps.

Process for producing non-volatile memory devices having closely spaced buried bit lines and non-overlapping code implant areas

Abstract: This inventions provides a method to form metal lines with smaller line pitches than is possible using the conventional photolithographic single coating process. This invention provides for a double photolithographic process where the surface is coated, exposed and developed twice to form two sets of resist patterns. These resist patterns are used to form metal lines over all the buried bit lines. These metal lines provide better masking of the bit lines from the code implants thereby reducing bit line resistance and increasing ROM read speed.

Three-dimensional multichip package and methods of fabricating

Abstract: A process for fabricating a three-dimensional multi-chip array package wherein master semiconductor substrate is formed having a peripheral inner row of contact pads and a peripheral outer row of terminal pads. A plurality of subordinate semiconductor substrates are formed provided with a peripheral row of contact pads that match the contact pads on the master substrate. Openings are formed through centers of the contact pads that extend through the subordinate substrates. The subordinate substrates are stacked on the master substrate with the openings in alignment over the contact pads. The openings are then filled with a conductive material to interconnect the contact pads on all its substrates.