摘要:
A low contact resistance and low junction leakage metal interconnect contact structure for use with ICs. The contact structure includes an interconnect dielectric material layer on the surface of an IC semiconductor substrate. The interconnect dielectric material layer has a contact opening which extends to a predetermined region of the semiconductor substrate (e.g. a source region, drain region, or polysilicon gate layer). The contact structure also includes a cobalt (or nickel) silicide interface layer on the surface of the predetermined region that is aligned with the bottom of the contact opening, a cobalt (or nickel) adhesion layer on the sidewall surface of the contact opening, a refractory metal-based barrier layer on the metal adhesion layer and the metal silicide interface layer, and a conductive plug. Manufacturing process steps for such a contact structure include first providing a semiconductor substrate with at least one predetermined region (e.g. a drain region, source region or polysilicon gate layer), followed by depositing an interconnect dielectric material layer on the surface of the semiconductor substrate. Contact openings are formed through the interconnect dielectric material layer to expose the predetermined region. A cobalt (or nickel) adhesion layer is then deposited, followed by the deposition of a refractory metal-based barrier layer, and the reaction of cobalt (or nickel) from the adhesion layer with silicon from the exposed predetermined region to form a metal silicide interface layer. Finally, a conductive plug layer is deposited on the barrier layer, filling the contact opening.
摘要:
A merged single polysilicon bipolar NPN transistor, rather than using separate isolation islands for emitter-base and collector contacts, utilizes a single isolation island. This significantly reduces device area because elimination of the second isolation island used in conventional designs reduces the N+ sink to NPN spacing. Buried layer and isolation layer processing proceed in the conventional manner. At sink mask, however, the mask is sized to uncover one end of the main device active region and a sink implant is performed. At base mask, the sink implant remains covered, rather than being exposed as in the conventional flow. At silicide exclusion, the oxide spacer layer is patterned to exclude silicide from the area above the sink implant region.
摘要:
A BiCMOS method and device. The BiCMOS device achieves improved performance through the use of wrap-around silicide contacts, improved MOS gate formation, the use of n- and p-type LDD's, the formation of very shallow base regions in bipolar transistors, and through separate implants for base regions of the bipolar transistors and source/drains of the MOSFETS.
摘要:
A semiconductor device is described that includes a first electrical circuit and a second electrical circuit formed on a semiconductor on insulator wafer. The semiconductor on insulator wafer has a layer of semiconducting material formed over a buried layer of insulating material formed over a supporting layer of material. A wide deep trench is formed in the semiconductor on insulator wafer to galvanically isolate the first electrical circuit from the second electrical circuit. The first electrical circuit and the second electrical circuit are coupled together for exchanging energy between the galvanically isolated electrical circuits.
摘要:
A process for the controlled formation of dual thickness cobalt silicide layers on predetermined regions during the manufacturing of an integrated circuit that requires a minimum number of steps and is compatible with standard MOS processing techniques. In the process according to the present invention, an integrated circuit (IC) structure is first provided. The IC structure includes a plurality of MOS transistor structures with exposed silicon surfaces, such as source regions, drain regions and polysilicon gates. A cobalt layer is then deposited over the IC structure, followed by the deposition of a titanium capping layer on the cobalt layer. The titanium capping layer is then pattered above predetermined regions of the IC structure. Cobalt in the cobalt layer that is in direct contact with silicon in the exposed silicon surfaces is subsequently reacted to form relatively thick cobalt silicide layers on the predetermined regions and relatively thin cobalt silicide layers elsewhere. The present invention also provides an IC structure with dual thickness cobalt silicide layers. The IC structure includes pluralities of first and second MOS transistor structures having source regions, drain regions and polysilicon gates. Relatively thin cobalt silicide layers are disposed on the first MOS transistor structures with shallow source and drain regions, while relatively thick cobalt silicide layers are disposed on the second MOS transistor structures with deep source and drain regions.
摘要:
A BiCMOS method and device. The BiCMOS device achieves improved performance through the use of wraparound silicide contacts, improved MOS gate formation, the use of n- and p-type LDD's, the formation of very shallow base regions in bipolar transistors, and through separate implants for base regions of the bipolar transistors and source/drains of the MOSFETS.
摘要:
A process for the controlled formation of dual thickness cobalt silicide layers on predetermined regions during the manufacturing of an integrated circuit that requires a minimum number of steps and is compatible with standard MOS processing techniques. In the process according to the present invention, an integrated circuit (IC) structure is first provided. The IC structure includes a plurality of MOS transistor structures with exposed silicon surfaces, such as source regions, drain regions and polysilicon gates. A cobalt layer is then deposited over the IC structure, followed by the deposition of a titanium capping layer on the cobalt layer. The titanium capping layer is then pattered above predetermined regions of the IC structure. Cobalt in the cobalt layer that is in direct contact with silicon in the exposed silicon surfaces is subsequently reacted to form relatively thick cobalt silicide layers on the predetermined regions and relatively thin cobalt silicide layers elsewhere. The present invention also provides an IC structure with dual thickness cobalt silicide layers. The IC structure includes pluralities of first and second MOS transistor structures having source regions, drain regions and polysilicon gates. Relatively thin cobalt silicide layers are disposed on the first MOS transistor structures with shallow source and drain regions, while relatively thick cobalt silicide layers are disposed on the second MOS transistor structures with deep source and drain regions.
摘要:
A polysilicon emitter of a bipolar device is formed utilizing a self-aligned Damascene technique. An oxide mask is patterned over epitaxial silicon implanted to form the intrinsic base. The oxide mask is then etched to form a window. Polysilicon is uniformly deposited over the oxide mask and into the window. The polysilicon is then polished to remove polysilicon outside of the window. Etching of the oxide mask follows, with good selectivity of oxide over silicon. This selectivity produces a polysilicon emitter atop an intrinsic base, the base flush with the silicon surface rather than recessed because of overetching associated with conventional processes.
摘要:
A method of forming a double polysilicon NPN transistor using a self-aligned process flow. The method includes use of a sacrificial oxide layer deposited over an epitaxial silicon layer prior to deposition and doping of the polysilicon layer from which the base electrode is formed. The sacrificial oxide layer acts as an etch stop for the plasma etch used to pattern the polysilicon layer. After patterning of the doped polysilicon layer, the sacrificial layer is removed using a wet etch. Etching of the oxide layer is performed in a manner which undercuts the doped polysilicon layer. Polysilicon is then deposited by a CVD process in the undercut region from which the initial polysilicon layer has been removed. The CVD deposited polysilicon fills in the gap between the doped polysilicon layer and the underlying epitaxial silicon layer caused by the oxide etch. The CVD deposited polysilicon is then oxidized. The portion of the CVD deposited polysilicon between the doped polysilicon layer and the single crystal silicon remains unoxidized. The oxidized CVD deposited polysilicon is then etched to form sidewall spacers. A second polysilicon layer is then deposited over the substrate and then implanted with an appropriate N+ type dopant. The transistor structure is then annealed to form junctions for the device.
摘要:
A BiCMOS method and device. The BiCMOS device achieves improved performance through the use of wrap-around silicide contacts, improved MOS gate formation, the use of n- and p-type LDD's, the formation of very shallow base regions in bipolar transistors, and through separate implants for base regions of the bipolar transistors and source/drains of the MOSFETS.