Patents by Inventor Johannes J. T. M. Donkers
Johannes J. T. M. Donkers 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: 9041149Abstract: The invention relates to a semiconductor device (30) comprising a substrate (1), a semiconductor body (25) comprising a bipolar transistor that comprises a collector region (3), a base region (4), and an emitter region (15), wherein at least a portion of the collector region (3) is surrounded by a first isolation region (2, 8), the semiconductor body (25) further comprises an extrinsic base region (35) arranged in contacting manner to the base region (4). In this way, a fast semiconductor device with reduced impact of parasitic components is obtained.Type: GrantFiled: August 5, 2009Date of Patent: May 26, 2015Assignee: NXP, B.V.Inventors: Guillaume Boccardi, Mark C. J. C. M. Kramer, Johannes J. T. M. Donkers, Li Jen Choi, Stefaan Decoutere, Arturo Sibaja-Hernandez, Stefaan Van Huylenbroeck, Rafael Venegas
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Patent number: 8541812Abstract: A semiconductor device (10) comprising a bipolar transistor and a field effect transistor within a semiconductor body (1) comprising a projecting mesa (5) within which are at least a portion of a collector region (22d and 22e) and a base region (33d) of the bipolar transistor. The bipolar transistor is provided with a first insulating cavity (92) provided in the collector region (22d and 22e). The base region (33d) is narrower in the plane of the substrate than the collector region (22d and 22e) due to a second insulating cavity (94) provided around the base region (33d) and between the collector region (22d and 22e) and the emitter region (4). By blocking diffusion from the base region the first insulating cavity (92) provides a reduction in the base collector capacitance and can be described as defining the base contact.Type: GrantFiled: February 26, 2009Date of Patent: September 24, 2013Assignee: NXP B.V.Inventors: Philippe Meunier-Beillard, Mark C. J. C. M. Kramer, Johannes J. T. M. Donkers, Guillaume Boccardi
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Patent number: 8481365Abstract: A method of manufacturing a MEMS device comprises forming a MEMS device element (14). A sacrificial layer (20) is provided over the device element and a package cover layer (22) is provided over the sacrificial layer. The sacrificial layer is removed using at least one opening (22) in the cover layer and the at least one opening (24) is sealed by an anneal process.Type: GrantFiled: May 19, 2009Date of Patent: July 9, 2013Assignee: NXP B.V.Inventors: Greja J. A. M. Verhelijden, Philippe Meunier-Beillard, Johannes J. T. M. Donkers
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Patent number: 8476675Abstract: A semiconductor device (10) comprising a bipolar transistor and a field 5 effect transistor within a semiconductor body (1) comprising a projecting mesa (5) within which are at least a portion of a collector region (22c and 22d) and a base region (33c) of the bipolar transistor. The bipolar transistor is provided with an insulating cavity (92b) provided in the collector region (22c and 22d). The insulating cavity (92b) may be provided by providing a layer (33a) in the collector region (22c), creating an access path, for example by selectively etching polysilicon towards monocrystalline, and removing a portion of the layer (33a) to provide the cavity using the access path. The layer (33a) provided in the collector region may be of SiGe:C. By blocking diffusion from the base region the insulating cavity (92b) provides a reduction in the base collector capacitance and can be described as defining the base contact.Type: GrantFiled: February 26, 2009Date of Patent: July 2, 2013Assignee: NXP B.V.Inventors: Philippe Meunier-Beillard, Johannes J. T. M. Donkers, Erwin Hijzen
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Patent number: 8431966Abstract: Methods for manufacturing a bipolar transistor semiconductor device are described, along with devices fabricated in accordance with the methods. The methods include the steps of forming a stack of layers over a semiconductor body comprising a window definition layer (18,38), a layer (20) of semiconductor material, a first insulating layer (22), and a second insulating layer (24) which is selectively etchable with respect to the first insulating layer. A trench (26) is then etched into the stack down to the window definition layer. The portion of the trench extending through the second insulating layer is widened to form a wider trench portion (28) therethrough. A window (36) is defined in the window definition layer which is aligned with the wider trench portion, and serves to define the base-collector or base-emitter junction in the finished device.Type: GrantFiled: May 11, 2009Date of Patent: April 30, 2013Assignee: NXP B.V.Inventors: Philippe Meunier-Beillard, Erwin Hijzen, Johannes J. T. M. Donkers
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Patent number: 8133791Abstract: The invention relates to a method according to the part of the surface of the semiconductor body adjoining the opening and which is to be kept free is provided with a cover layer after which the high-crystalline layer is formed by means of a deposition process. The material of the cover layer can then easily be chosen such that it can be selectively etched relative to the silicon underneath. In addition, the cover layer can easily be selectively deposited on the relevant part of the surface because use can be made of an anisotropic deposition process. In such a process the cover layer is not deposited in the hollow and on the bottom of the hollow. It will be apparent that for the high-crystalline layer also other materials can be chosen such as SiGe having such low Ge contents that the SiGe cannot be etched selectively very well compared to the Silicon.Type: GrantFiled: June 12, 2007Date of Patent: March 13, 2012Assignee: NXP B.V.Inventors: Erwin B. Hijzen, Philippe Meunier-Bellard, Johannes J. T. M. Donkers
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Publication number: 20110304019Abstract: Methods for manufacturing a bipolar transistor semiconductor device are described, along with devices fabricated in accordance with the methods. The methods include the steps of forming a stack of layers over a semiconductor body comprising a window definition layer (18,38), a layer (20) of semiconductor material, a first insulating layer (22), and a second insulating layer (24) which is selectively etchable with respect to the first insulating layer. A trench (26) is then etched into the stack down to the window definition layer. The portion of the trench extending through the second insulating layer is widened to form a wider trench portion (28) therethrough. A window (36) is defined in the window definition layer which is aligned with the wider trench portion, and serves to define the base-collector or base-emitter junction in the finished device.Type: ApplicationFiled: May 11, 2009Publication date: December 15, 2011Applicant: NXP B.V.Inventors: Pilippe Meunier-Beillard, Erwin Hijzen, Johannes J.T.M. Donkers
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Patent number: 8026146Abstract: The invention provides for an alternative and less complex method of manufacturing a bipolar transistor comprising a field plate (17) in a trench (7) adjacent to a collector region (21), which field plate (17) employs a reduced surface field (Resurf) effect. The Resurf effect reshapes the electric field distribution in the collector region (21) such that for the same collector-base breakdown voltage the doping concentration of the collector region (21) can effectively be increased resulting in a reduced collector resistance and hence an increased bipolar transistor speed. The method comprises a step of forming a base window (6) in a first base layer (4) thereby exposing a top surface of the collector region (21) and a part of an isolation region (3). The trench (7) is formed by removing the exposed part of the isolation region (3), after which isolation layers (9,10) are formed on the surface of the trench (7).Type: GrantFiled: August 29, 2007Date of Patent: September 27, 2011Assignee: NXP B.V.Inventors: Johannes J. T. M. Donkers, Sebastien Nuttinck, Guillaume L. R. Boccardi, Francois Neuilly
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Publication number: 20110215417Abstract: A semiconductor device (10) comprising a bipolar transistor and a field effect transistor within a semiconductor body (1) comprising a projecting mesa (5) within which are at least a portion of a collector region (22d and 22e) and a base region (33d) of the bipolar transistor. The bipolar transistor is provided with a first insulating cavity (92) provided in the collector region (22d and 22e). The base region (33d) is narrower in the plane of the substrate than the collector region (22d and 22e) due to a second insulating cavity (94) provided around the base region (33d) and between the collector region (22d and 22e) and the emitter region (4). By blocking diffusion from the base region the first insulating cavity (92) provides a reduction in the base collector capacitance and can be described as defining the base contact.Type: ApplicationFiled: February 26, 2009Publication date: September 8, 2011Applicant: NXP B.V.Inventors: Philippe Meunier-Beillard, Mark C.J.C.M. Kramer, Johannes J.T.M. Donkers, Guillaume Boccardi
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Publication number: 20110198746Abstract: A method of manufacturing a MEMS device comprises forming a MEMS device element (14). A sacrificial layer (20) is provided over the device element and a package cover layer (22) is provided over the sacrificial layer. The sacrificial layer is removed using at least one opening (22) in the cover layer and the at least one opening (24) is sealed by an anneal process.Type: ApplicationFiled: May 19, 2009Publication date: August 18, 2011Applicant: NXP B.V.Inventors: Greja J. A. M. Verhelijden, Philippe Meunier-Beillard, Johannes J. T. M. Donkers
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Publication number: 20110198671Abstract: The invention relates to a semiconductor device (30) comprising a substrate (1), a semiconductor body (25) comprising a bipolar transistor that comprises a collector region (3), a base region (4), and an emitter region (15), wherein at least a portion of the collector region (3) is surrounded by a first isolation region (2, 8), the semiconductor body (25) further comprises an extrinsic base region (35) arranged in contacting manner to the base region (4). In this way, a fast semiconductor device with reduced impact of parasitic components is obtained.Type: ApplicationFiled: August 5, 2009Publication date: August 18, 2011Applicants: NXP B.V., INTERUNIVERSITAIR MICROELEKTRONICA CENTRUM VZWInventors: Guillaume Boccardi, Mark C. J. C. M. Kramer, Johannes J. T. M. Donkers, Li Jen Choi, Stefaan Decoutere, Arturo Sibaja-Hernandez, Stefaan Van Huylenbroeck, Rafael Venegas
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Patent number: 7939416Abstract: A method of manufacturing a bipolar transistor is compatible with FinFET processing. A collector region (18) is formed and patterned, base contact regions (26) formed on either side, and a gap formed between the base contact region. A base (28), spacers (30) and an emitter (32) are formed in the gap.Type: GrantFiled: March 30, 2009Date of Patent: May 10, 2011Assignee: NXP B.V.Inventors: Sebastien Nuttinck, Erwin Hijzen, Johannes J. T. M. Donkers, Guillaume L. R. Boccardi
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Patent number: 7932156Abstract: The invention relates to a semiconductor device (10) with a substrate (12) and a semiconductor body (11) of silicon comprising a bipolar transistor with an emitter region, a base region and a collector region (1,2,3) first conductivity type, a second conductivity type opposite to said first conductivity type and the first conductivity type, respectively, with a first semiconductor region (3) comprising the collector region or the emitter region being formed in the semiconductor body (11), on top of which a second semiconductor region (2) comprising the base region is present, on top of which a third semiconductor region (1) comprising the other of said collector region and said emitter region is present, said semiconductor body (11) being provided with a constriction at the location of the transition between the first and the second semiconductor region (3, 2), which constriction has been formed by means of an electrically insulating region (26, 27) buried in the semiconductor body (11).Type: GrantFiled: July 26, 2006Date of Patent: April 26, 2011Assignee: NXP B.V.Inventors: Johannes J. T. M. Donkers, Wibo D. Van Noort, Francois Neuilly
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Publication number: 20110034001Abstract: A method of manufacturing a bipolar transistor is compatible with FinFET processing. A collector region (18) is formed and patterned, base contact regions (26) formed on either side, and a gap formed between the base contact region. A base (28), spacers (30) and an emitter (32) are formed in the gap.Type: ApplicationFiled: March 30, 2009Publication date: February 10, 2011Applicant: NXP B.V.Inventors: Sebastien Nuttinck, Erwin Hijzen, Johannes J. T. M. Donkers, Guillaume L. R. Boccardi
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Publication number: 20100289022Abstract: The invention relates to a method of manufacturing a semiconductor device (10) with a substrate (11) and a semiconductor body (12) which is provided with at least one bipolar transistor having an emitter region (1), a base region (2) and a collector region (3), wherein in the semiconductor body (12) a first semiconductor region (13) is formed that forms one (3) of the collector and emitter regions (1,3) and on the surface of the semiconductor body (12) a stack of layers is formed comprising a first insulating layer (4), a polycrystalline semiconductor layer (5) and a second insulating layer (6) in which stack an opening (7) is formed, after which by non-selective epitaxial growth a further semiconductor layer (22) is deposited of which a monocrystalline horizontal part on the bottom of the opening (7) forms the base region (2) and of which a polycrystalline vertical part (2A) on a side face of the opening (7) is connected to the polycrystalline semiconductor layer (5), after which spacers (S) are formed paralType: ApplicationFiled: October 29, 2006Publication date: November 18, 2010Applicant: NXP B.V.Inventors: Joost Melai, Erwin Hijzen, Philippe Meunier-Beillard, Johannes J.T.M. Donkers
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Publication number: 20100025808Abstract: The invention provides a bipolar transistor with a reduced collector series resistance integrated in a trench (4, 44) of a standard CMOS shallow trench isolation region. The bipolar transistor includes a collector region (6, 34) manufactured in one fabrication step, therefore having a shorter conductive path with a reduced collector series resistance, improving the high frequency performance of the bipolar transistor. The bipolar transistor further includes a base region (8, 22, 38) with a first part on a selected portion of the collector region (6, 34), which is on the bottom of the trench (4, 44), and an emitter region (10, 24, 39) on a selected portion of the first part of the base region (8, 22, 38). A base contact (11, 26, 51) electrically contacts the base region (8, 22, 38) on a second part of the base region (8, 22, 38), which is on an insulating region (2, 42). The collector region (6, 34) is electrically contacted on top of a protrusion (5, 45) with a collector contact (13, 25, 50).Type: ApplicationFiled: January 12, 2006Publication date: February 4, 2010Applicant: NXP B.V.Inventors: Johannes J. T. M. Donkers, Wibo D. Van Noort, Philippe Meunier-Beillard
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Publication number: 20100022056Abstract: The invention provides for an alternative and less complex method of manufacturing a bipolar transistor comprising a field plate (17) in a trench (7) adjacent to a collector region (21), which field plate (17) employs a reduced surface field (Resurf) effect. The Resurf effect reshapes the electric field distribution in the collector region (21) such that for the same collector-base breakdown voltage the doping concentration of the collector region (21) can effectively be increased resulting in a reduced collector resistance and hence an increased bipolar transistor speed. The method comprises a step of forming a base window (6) in a first base layer (4) thereby exposing a top surface of the collector region (21) and a part of an isolation region (3). The trench (7) is formed by removing the exposed part of the isolation region (3), after which isolation layers (9,10) are formed on the surface of the trench (7).Type: ApplicationFiled: August 29, 2007Publication date: January 28, 2010Applicant: NXP, B.V.Inventors: Johannes J. T. M. Donkers, Sebastien Nuttinck, Guillaume L. R. Boccardi, Francois Neuilly
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Patent number: 7618858Abstract: The invention provides a method for fabricating a heterojunction bipolar transistor with a base connecting region (23), which is formed self-aligned to a base region (7) without applying photolithographic techniques. Further, a collector connecting region (31) and an emitter region (29) are formed simultaneously and self-aligned to the base connecting region (23) without applying photolithographic techniques.Type: GrantFiled: April 3, 2006Date of Patent: November 17, 2009Assignee: NXP B.V.Inventors: Philippe Meunier-Beillard, Johannes J. T. M. Donkers, Hijzen Erwin, Melai Joost
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Patent number: 7605027Abstract: A method of fabricating a bipolar transistor in a first trench (11) is disclosed wherein only one photolithographic mask is applied which forms a first trench (11) and a second trench (12). A collector region (21) is formed self-aligned in the first trench (11) and the second trench (12). A base region (31) is formed self-aligned on a portion of the collector region (21), which is in the first trench (11). An emitter region (41) is formed self-aligned on a portion of the base region (31). A contact to the collector region (21) is formed in the second trench (12) and a contact to the base region (31) is formed in the first trench (11). The fabrication of the bipolar transistor may be integrated in a standard CMOS process.Type: GrantFiled: April 24, 2006Date of Patent: October 20, 2009Assignee: NXP B.V.Inventors: Philippe Meunier-Beillard, Erwin Hijzen, Johannes J. T. M. Donkers, Francois Neuilly
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Publication number: 20090174034Abstract: The invention relates to a semiconductor device (10) with a substrate (12) and a semiconductor body (11) of silicon comprising a bipolar transistor with an emitter region, a base region and a collector region (1,2,3) first conductivity type, a second conductivity type opposite to said first conductivity type and the first conductivity type, respectively, with a first semiconductor region (3) comprising the collector region or the emitter region being formed in the semiconductor body (11), on top of which a second semiconductor region (2) comprising the base region is present, on top of which a third semiconductor region (1) comprising the other of said collector region and said emitter region is present, said semiconductor body (11) being provided with a constriction at the location of the transition between the first and the second semiconductor region (3, 2), which constriction has been formed by means of an electrically insulating region (26, 27) buried in the semiconductor body (11).Type: ApplicationFiled: July 26, 2006Publication date: July 9, 2009Applicant: NXP B.V.Inventors: Johannes J., T., M. Donkers, Wibo D. Van Noort, Francois Neuilly