Patents Assigned to Tegal Corporation
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Patent number: 7235484Abstract: A process to deposit a thin film by chemical vapor deposition includes evacuating a chamber of gases; exposing a device to a gaseous first reactant, wherein the first reactant deposits on the device to form the thin film having a plurality of monolayers in thickness; evacuating the chamber of gases; exposing the device, coated with the first reactant, to a gaseous second reactant under a plasma treatment, wherein the thin film is treated by the first reactant; and repeating the previous steps.Type: GrantFiled: March 1, 2004Date of Patent: June 26, 2007Assignee: Tegal CorporationInventors: Tue Nguyen, Tai Dung Nguyen
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Patent number: 7223699Abstract: A plasma etch reactor 20 includes a upper electrode 24, a lower electrode 24, a peripheral ring electrode 26 disposed therebetween. The upper electrode 24 is grounded, the peripheral electrode 26 is powered by a high frequency AC power supply, while the lower electrode 28 is powered by a low frequency AC power supply, as well as a DC power supply. The reactor chamber 22 is configured with a solid source 50 of gaseous species and a protruding baffle 40. A nozzle 36 provides a jet stream of process gases in order to ensure uniformity of the process gases at the surface of a semiconductor wafer 48. The configuration of the plasma etch reactor 20 enhances the range of densities for the plasma in the reactor 20, which range can be selected by adjusting more of the power supplies 30, 32.Type: GrantFiled: March 23, 2005Date of Patent: May 29, 2007Assignee: Tegal CorporationInventors: Stephen P. DeOrnellas, Leslie G. Jerde, Alferd Cofer, Robert C Vail, Kurt A. Olson
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Patent number: 7208396Abstract: A plurality of successive layers are firmly adhered to one another and to a wafer surface and an electrical component or sub-assembly even when the wafer surface is not even and the layers are bent. The wafer surface is initially cleaned by an ion bombardment of an inert gas (e.g. argon) on the wafer surface in an RF discharge at a relatively high gas pressure. The wafer surface is then provided with a microscopic roughness by applying a low power so that the inert gas (e.g. argon) ions do not have sufficient energy to etch the surface. A layer of chromium is then sputter deposited on the wafer surface as by a DC magnetron with an intrinsic tensile stress and low gas entrapment by passing a minimal amount of the inert gas through the magnetron and by applying no RF bias to the wafer. The chromium layer is atomically bonded to the microscopically rough wafer surface.Type: GrantFiled: January 16, 2002Date of Patent: April 24, 2007Assignee: Tegal CorporationInventor: Valery V. Felmetsger
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Patent number: 7179350Abstract: An asymmetric alternating voltage (preferably 40 KHz) is provided between a pair of targets having a coaxial (preferably frusto-conical) relationship to (1) deposit the material in a uniform thickness on the substrate surface (2) eliminate dielectric material from the surfaces of the targets and other components (3) provide a single ignition of the targets and eliminate target ignitions thereafter and (4) reduce the substrate temperature by using low energy (“cold”) electrons from a plasma discharge to produce a low energy current. The asymmetry may result from amplitude differences between the voltage in alternate half cycles and the voltage in the other half cycles. A second alternating voltage (preferably radio frequency) modulates the asymmetric alternating voltage to provide the smooth plasma ignition.Type: GrantFiled: May 23, 2003Date of Patent: February 20, 2007Assignee: Tegal CorporationInventors: Pavel N. Laptev, Valery V. Felmetsger
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Patent number: 7169623Abstract: Magnetic tunnel junction (MTJ) devices can be fabricated by a stop-on-alumina process whereby the tunnel junction layer serves as the stop layer during plasma overetching of the upper magnetic layer. The resulting side walls of the MTJ device are non-vertical in the vicinity of the tunnel junction layer which serves to electrically isolate the upper magnetic layer from the lower magnetic layer. The gas employed during plasma overetching excludes halogen containing species which results in highly selective etching of the magnetic layer vis-à-vis the alumina tunnel barrier layer. The introduction of oxygen in the gas may enhance the reproducibility of the overetch process. Finally, plasma treatment with He and H2 followed by rinsing and baking subsequent to removal of the photoresist mask during the fabrication process enhances yield.Type: GrantFiled: September 9, 2004Date of Patent: January 30, 2007Assignee: Tegal CorporationInventor: Robert Ditizio
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Publication number: 20070020898Abstract: Systems and methods are disclosed to perform semiconductor processing with a process chamber; a flash lamp adapted to be repetitively triggered; and a controller coupled to the control input of the flash lamp to trigger the flash lamp. The system can deploy a solid state plasma source in parallel with the flash lamp in wafer processing.Type: ApplicationFiled: May 31, 2006Publication date: January 25, 2007Applicant: TEGAL CORPORATIONInventors: Tue Nguyen, Tai Nguyen, Craig Bercaw
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Publication number: 20070020945Abstract: Systems and methods are disclosed to perform semiconductor processing with a process chamber; a flash lamp adapted to be repetitively triggered; and a controller coupled to the control input of the flash lamp to trigger the flash lamp. The system can deploy a solid state plasma source in parallel with the flash lamp in wafer processing.Type: ApplicationFiled: May 31, 2006Publication date: January 25, 2007Applicant: TEGAL CORPORATIONInventors: Tue Nguyen, Tai Nguyen, Craig Bercaw
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Patent number: 7163721Abstract: A method for protecting an organic polymer underlayer during a plasma assisted process of depositing a subsequent film on the organic polymer underlayer is disclosed. The method provides the deposition of a protective continuous layer using organic polymer damage-free technique in order to not damage the organic polymer underlayer and to protect the organic polymer underlayer during the plasma assisted process of depositing a subsequent film. The organic polymer damage-free technique is a non-plasma process, using only thermal energy and chemical reactions to deposit the continuous layer. The organic polymer damage-free technique can also be a plasma assisted process using a reduced plasma power low enough in order to not damage the organic polymer underlayer.Type: GrantFiled: February 4, 2003Date of Patent: January 16, 2007Assignee: Tegal CorporationInventors: Zhihong Zhang, Tai Dung Nguyen, Tue Nguyen
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Patent number: 7153542Abstract: An apparatus for sequential processing of a workpiece comprises an assembly line processing system. The apparatus comprises multiple workpieces moving in an assembly line fashion under multiple process stations. The multiple process stations provide different processes onto the workpieces for a sequential processing of the workpieces. The sequential processing action is carried out by the movement of the workpieces under the various process stations.Type: GrantFiled: August 6, 2002Date of Patent: December 26, 2006Assignee: Tegal CorporationInventors: Tue Nguyen, Tai Dung Nguyen, Craig Alan Bercaw
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Patent number: 7115169Abstract: A replaceable shielding apparatus provides a cost effective way of shielding a portion of a workpiece during processing. The apparatus includes a replaceable shield, made of comparable weight as the workpiece for allowing replacement of the shield in the same way as the replacement of the workpiece. With this feature, the replacement of the shield is a routine process and would not interfere much with the workpiece operation. The invention further includes a shield clamp for clamping the shield onto the workpiece. In a preferred embodiment, the invention further includes a non-reactive gas inlet for creating a pressurized cavity in the vicinity of the shielded portion of the workpiece.Type: GrantFiled: August 7, 2003Date of Patent: October 3, 2006Assignee: Tegal CorporationInventor: Tue Nguyen
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Publication number: 20060186496Abstract: Magnetic tunnel junction (MTJ) devices can be fabricated by a stop-on-alumina process whereby the tunnel junction layer serves as the stop layer during plasma overetching of the upper magnetic layer. The resulting side walls of the MTJ device are non-vertical in the vicinity of the tunnel junction layer which serves to electrically isolate the upper magnetic layer from the lower magnetic layer. The gas employed during plasma overetching excludes halogen containing species which results in highly selective etching of the magnetic layer vis-à-vis the alumina tunnel barrier layer. The introduction of oxygen in the gas may enhance the reproducibility of the overetch process. Finally, plasma treatment with He and H2 followed by rinsing and baking subsequent to removal of the photoresist mask during the fabrication process enhances yield.Type: ApplicationFiled: April 20, 2006Publication date: August 24, 2006Applicant: TEGAL CORPORATIONInventor: Robert Ditizio
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Patent number: 7087522Abstract: A multilayer copper structure has been provided for improving the adhesion of copper to a diffusion barrier material, such as TiN, in an integrated circuit substrate. The multilayer copper structure comprises a thin high-resistive copper layer to provide improved adhesion to the underlying diffusion barrier layer, and a low-resistive copper layer to carry the electrical current with minimum electrical resistance. The invention also provides a method to form the multilayer copper structure.Type: GrantFiled: March 8, 2004Date of Patent: August 8, 2006Assignee: Tegal CorporationInventor: Tue Nguyen
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Patent number: 7074278Abstract: A semiconductor processing system includes a chamber adapted to process a wafer, the chamber having an opening to facilitate access to the interior of the chamber. The system has a lid coupled to the chamber opening, the lid having an open position and a closed position. An actuator is connected to the lid to move the lid between the closed position and the open position. The system may include a floating pivot coupled to the lid and the actuator to align the lid with the opening when the lid closes.Type: GrantFiled: July 10, 2003Date of Patent: July 11, 2006Assignee: Tegal CorporationInventors: Tue Nguyen, Craig Alan Bercaw
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Publication number: 20060131363Abstract: A high pressure trapping system is provided to collect chemical vapor by-products in successive stages through chemical reasons conducted at progressively colder temperatures. A hot trap receives chemical vapor exhaust and collects a first waste, typically a solid, as a result of the high temperature completing a chemical reason in the vapor. Surviving gaseous by-products continue to the next process. The following chamber is colder, and collects waste as a solid or a liquid as a result of a chemical process dependent on the cold temperature. Sometimes a third chamber is used for even a colder chemical reaction to collect waste products. As a solid, these waste products are easier to collect, remove, and even reuse.Type: ApplicationFiled: December 27, 2005Publication date: June 22, 2006Applicant: Tegal CorporationInventor: Tue Nguyen
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Patent number: 7049549Abstract: A deposition shield partially covering a substrate and having two zones of different thermal properties can provide minimal deposition on the shield together with minimal heat loss due to substrate contact. A zone of low thermal transmittivity is contact shielding the substrate, and due to the low thermal transmittivity property, there is minimal heat loss of the heated substrate, resulting in a more uniform temperature profile and a more uniform film deposition. A zone of high thermal transmittivity is in the rest of the shield, allowing thermal energy from the heated substrate to transmit through, resulting in a cooler shield and minimal deposition on the shield.Type: GrantFiled: July 20, 2004Date of Patent: May 23, 2006Assignee: Tegal CorporationInventors: Tue Nguyen, Craig Alan Bercaw
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Publication number: 20060051881Abstract: Magnetic tunnel junction (MTJ) devices can be fabricated by a stop-on-alumina process whereby the tunnel junction layer serves as the stop layer during plasma overetching of the upper magnetic layer. The resulting side walls of the MTJ device are non-vertical in the vicinity of the tunnel junction layer which serves to electrically isolate the upper magnetic layer from the lower magnetic layer. The gas employed during plasma overetching excludes halogen containing species which results in highly selective etching of the magnetic layer vis-à-vis the alumina tunnel barrier layer. The introduction of oxygen in the gas may enhance the reproducibility of the overetch process. Finally, plasma treatment with He and H2 followed by rinsing and baking subsequent to removal of the photoresist mask during the fabrication process enhances yield.Type: ApplicationFiled: September 9, 2004Publication date: March 9, 2006Applicant: TEGAL CORPORATIONInventor: Robert Ditizio
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Publication number: 20060046412Abstract: An apparatus and method for sequential and isolated processing of a workpiece comprises a two compartment chamber and a mechanism to transfer the workpiece from a fist compartment to a second compartment by rotating the workpiece on a workpiece mover through an internal pathway. The transfer mechanism comprises two doors coupled to the workpiece mover to seal the internal pathway between the first and second compartments so that the two compartments are isolated and the workpiece can be processed sequentially and in isolation. The apparatus further comprises components to enable the processing of a workpiece. The preferred method of processing a workpiece is to deposit or adsorb a thin layer in the first compartment and then transfer by rotating the workpiece on the workpiece mover to the second compartment for further processing.Type: ApplicationFiled: May 26, 2005Publication date: March 2, 2006Applicant: Tegal CorporationInventors: Tue Nguyen, Tai Nguyen
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Publication number: 20060040055Abstract: An apparatus and method for sequential and isolated processing of a workpiece comprises a two compartment chamber and a mechanism to transfer the workpiece from a fist compartment to a second compartment by rotating the workpiece on a workpiece mover through an internal pathway. The transfer mechanism comprises two doors coupled to the workpiece mover to seal the internal pathway between the first and second compartments so that the two compartments are isolated and the workpiece can be processed sequentially and in isolation. The apparatus further comprises components to enable the processing of a workpiece. The preferred method of processing a workpiece is to deposit or adsorb a thin layer in the first compartment and then transfer by rotating the workpiece on the workpiece mover to the second compartment for further processing.Type: ApplicationFiled: June 23, 2005Publication date: February 23, 2006Applicant: Tegal CorporationInventors: Tue Nguyen, Tai Nguyen
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Patent number: 6998097Abstract: A high pressure trapping system is provided to collect chemical vapor by-products in successive stages through chemical reactions conducted at progressively colder temperatures. A hot trap receives chemical vapor exhaust and collects a first waste, typically a solid, as a result of the high temperature completing a chemical reaction in the vapor. Surviving gaseous by-products continue to the next process. The following chamber is colder, and collects waste as a solid or a liquid as a result of a chemical process dependent on the cold temperature. Sometimes a third chamber is used for even a colder chemical reaction to collect waste products. As a solid, these waste products are easier to collect, remove, and even reuse.Type: GrantFiled: June 7, 2000Date of Patent: February 14, 2006Assignee: Tegal CorporationInventor: Tue Nguyen
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Patent number: 6958295Abstract: A method for containing the critical dimension growth of the feature on a semiconductor substrate includes placing a substrate with a hard mask comprised of a reactive metal or an oxidized reactive metal in a chamber and etching the wafer. The method further includes using a hard mask which has a low sputter yield and a low reactivity to the etch chemistry of the process.Type: GrantFiled: October 19, 2000Date of Patent: October 25, 2005Assignee: Tegal CorporationInventors: Stephen P. DeOrnellas, Leslie G. Jerde, Alferd Cofer