Patents by Inventor Ingo Ewert
Ingo Ewert has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8871631Abstract: Described is a method of forming a solder deposit on a substrate comprising the following steps i) provide a substrate that includes at least one inner contact area, ii) contact the entire substrate area including the at least one inner contact area with a solution suitable to provide a conductive layer on the substrate surface, iii) form a patterned resist layer, iv) electroplate a solder deposit layer containing a tin or tin alloy onto the inner contact area, v) remove the patterned resist layer, vi) form a solder resist layer having solder resist openings on the substrate surface.Type: GrantFiled: June 23, 2011Date of Patent: October 28, 2014Assignee: Atotech Deutschland GmbHInventors: Sven Lamprecht, Kai-Jens Matejat, Ingo Ewert, Stephen Kenny
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Publication number: 20140138252Abstract: The invention relates to an aqueous acidic bath for electrolytic deposition of copper, comprising, at least one source of copper ions, at least one acid, at least one brightener compound, and at least one leveler for copper-deposition, wherein at least one leveler is a ruthenium compound, and to a process for the electrolytic deposition of copper, in particular for filling a blind micro Vertical Interconnect Access (VIA), through hole VIA, trench and similar structures on printed circuit boards, chip carriers and semiconductor wafers.Type: ApplicationFiled: April 25, 2012Publication date: May 22, 2014Applicant: ATOTECH DEUTSCHLAND GMBHInventors: Nina Dambrowsky, Uwe Hauf, Ingo Ewert, Christof Erben, René Wenzel
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Patent number: 8507376Abstract: Described is a method of forming a solder deposit on a substrate comprising the following steps i) provide a substrate including a surface bearing electrical circuitry that includes at least one contact area, ii) form a solder mask layer that is placed on the substrate surface and patterned to expose the at least one contact area, iii) contact the entire substrate area including the solder mask layer and the at least one contact area with a solution suitable to provide a conductive layer on the substrate surface, iv) electroplate a solder deposit layer containing a tin or tin alloy onto the conductive layer and v) etch away an amount of the solder deposit layer containing tin or tin alloy sufficient to remove the solder deposit layer from the solder mask layer area leaving a solder material layer on the at least one contact area.Type: GrantFiled: October 7, 2009Date of Patent: August 13, 2013Assignee: Atotech Deutschland GmbHInventors: Ingo Ewert, Sven Lamprecht, Kai-Jens Matejat, Thomas Pliet
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Patent number: 8497200Abstract: Method of forming a solder alloy deposit on a substrate comprising i) provide a substrate including a surface bearing electrical circuitry that includes at least one inner layer contact area, ii) form a solder mask layer on the substrate surface and patterned to expose at least one contact area, iii) contact the entire substrate area including the solder mask layer and the at least one contact area with a solution to provide a metal seed layer on the substrate surface, iv) form a structured resist layer on the metal seed layer, v) electroplate a first solder material layer containing tin onto the conductive layer, vi) electroplate a second solder material layer onto the first solder material layer, vii) remove the structured resist layer and etch away an amount of the metal seed layer sufficient to remove the metal seed layer from the solder mask layer area and reflow the substrate.Type: GrantFiled: June 23, 2011Date of Patent: July 30, 2013Assignee: Atotech Deutschland GmbHInventors: Kai-Jens Matejat, Sven Lamprecht, Ingo Ewert
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Publication number: 20130168438Abstract: Described is a method of forming a solder deposit on a substrate comprising the following steps i) provide a substrate that includes at least one inner contact area, ii) contact the entire substrate area including the at least one inner contact area with a solution suitable to provide a conductive layer on the substrate surface, iii) form a patterned resist layer, iv) electroplate a solder deposit layer containing a tin or tin alloy onto the inner contact area, v) remove the patterned resist layer, vi) form a solder resist layer having solder resist openings on the substrate surface.Type: ApplicationFiled: June 23, 2011Publication date: July 4, 2013Applicant: ATOTECH DEUTSCHLAND GMBHInventors: Sven Lamprecht, Kai-Jens Matejat, Ingo Ewert, Stephen Kenny
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Publication number: 20130105329Abstract: Described is a method of forming a metal or metal alloy layer onto a substrate comprising the following steps i) provide a substrate including a permanent resin layer on top of at least one contact area and a temporary resin layer on top of the permanent resin layer, ii) contact the entire substrate area including the at least one contact area with a solution suitable to provide a conductive layer on the substrate surface and i) electroplate a metal or metal alloy layer onto the conductive layer.Type: ApplicationFiled: July 29, 2011Publication date: May 2, 2013Applicant: ATOTECH DEUTSCHLAND GMBHInventors: Kai-Jens Matejat, Sven Lamprecht, Ingo Ewert, Catherine Schoenenberger, Jürgen Kress
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Publication number: 20130082091Abstract: Method of forming a solder alloy deposit on a substrate comprising i) provide a substrate including a surface bearing electrical circuitry that includes at least one inner layer contact area, ii) form a solder mask layer on the substrate surface and patterned to expose at least one contact area, iii) contact the entire substrate area including the solder mask layer and the at least one contact area with a solution to provide a metal seed layer on the substrate surface, iv) form a structured resist layer on the metal seed layer, v) electroplate a first solder material layer containing tin onto the conductive layer, vi) electroplate a second solder material layer onto the first solder material layer, vii) remove the structured resist layer and etch away an amount of the metal seed layer sufficient to remove the metal seed layer from the solder mask layer area and reflow the substrate.Type: ApplicationFiled: June 23, 2011Publication date: April 4, 2013Applicant: Atotech Deutschland GmbHInventors: Kai-Jens Matejat, Sven Lamprecht, Ingo Ewert
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Publication number: 20110189848Abstract: Described is a method of forming a solder deposit on a substrate comprising the following steps i) provide a substrate including a surface bearing electrical circuitry that includes at least one contact area, ii) form a solder mask layer that is placed on the substrate surface and patterned to expose the at least one contact area, iii) contact the entire substrate area including the solder mask layer and the at least one contact area with a solution suitable to provide a conductive layer on the substrate surface, iv) electroplate a solder deposit layer containing a tin or tin alloy onto the conductive layer and v) etch away an amount of the solder deposit layer containing tin or tin alloy sufficient to remove the solder deposit layer from the solder mask layer area leaving a solder material layer on the at least one contact area.Type: ApplicationFiled: October 7, 2009Publication date: August 4, 2011Inventors: Ingo Ewert, Sven Lamprecht, Kai-Jens Matejat, Thomas Pliet