Lateral Bipolar Transistor In Combination With Diode, Capacitor, Or Resistor (epo) Patents (Class 257/E27.023)
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Patent number: 8637924Abstract: A transistor includes a trench formed in a semiconductor body, the trench having sidewalls and a bottom. The transistor further includes a first semiconductor material disposed in the trench adjacent the sidewalls and a second semiconductor material disposed in the trench and spaced apart from the sidewalls by the first semiconductor material. The second semiconductor material has a different band gap than the first semiconductor material. The transistor also includes a gate material disposed in the trench and spaced apart from the first semiconductor material by the second semiconductor material. The gate material provides a gate of the transistor. Source and drain regions are arranged in the trench with a channel interposed between the source and drain regions in the first or second semiconductor material so that the channel has a lateral current flow direction along the sidewalls of the trench.Type: GrantFiled: June 29, 2011Date of Patent: January 28, 2014Assignee: Infineon Technologies Austria AGInventors: Franz Hirler, Andreas Peter Meiser
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Patent number: 8587094Abstract: A semiconductor device having an active element and an MIM capacitor and a structure capable of reducing the number of the manufacturing steps thereof and a manufacturing method therefor are provided. The semiconductor device has a structure that the active element having an ohmic electrode and the MIM capacitor having a dielectric layer arranged between a lower electrode and an upper electrode are formed on a semiconductor substrate, wherein the lower electrode and ohmic electrode have the same structure. In an MMIC 100 in which an FET as an active element and the MIM capacitor are formed on a GaAs substrate 10, for example, a source electrode 16a and a drain electrode 16b, which are ohmic electrodes of the FET, are manufactured simultaneously with a lower electrode 16c of the MIM capacitor. Here the electrodes are formed with the same metal.Type: GrantFiled: May 25, 2011Date of Patent: November 19, 2013Assignee: Kabushiki Kaisha ToshibaInventor: Hisao Kawasaki
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Patent number: 8441084Abstract: A horizontal heterojunction bipolar transistor (HBT) includes doped single crystalline Ge having a doping of the first conductivity type as the base having an energy bandgap of about 0.66 eV, and doped polysilicon having a doping of a second conductivity type as a wide-gap-emitter having an energy bandgap of about 1.12 eV. In one embodiment, doped polysilicon having a doping of the second conductivity type is employed as the collector. In other embodiments, a single crystalline Ge having a doping of the second conductivity type is employed as the collector. In such embodiments, because the base and the collector include the same semiconductor material, i.e., Ge, having the same lattice constant, there is no lattice mismatch issue between the collector and the base. In both embodiments, because the emitter is polycrystalline and the base is single crystalline, there is no lattice mismatch issue between the base and the emitter.Type: GrantFiled: March 15, 2011Date of Patent: May 14, 2013Assignee: International Business Machines CorporationInventors: Jin Cai, Kevin K. Chan, Wilfried E. Haensch, Tak H. Ning
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Publication number: 20130075854Abstract: An ESD protection apparatus comprises a metal contact formed on the emitter of a transistor. The metal contact has a different conductivity type from the emitter. In addition, the metal contact and the emitter of the transistor form a diode connected in series with the transistor. The diode connected in series with the transistor provides extra headroom for the breakdown voltage of the ESD protection apparatus.Type: ApplicationFiled: September 23, 2011Publication date: March 28, 2013Applicant: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Yi-Feng Chang, Jam-Wem Lee
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Patent number: 8030731Abstract: An isolated diode comprises a floor isolation region, a dielectric-filled trench and a sidewall region extending from a bottom of the trench at least to the floor isolation region. The floor isolation region, dielectric-filled trench and a sidewall region are comprised in one terminal (anode or cathode) of the diode and together form an isolated pocket in which the other terminal of the diode is formed. In one embodiment the terminals of the diode are separated by a second dielectric-filled trench and sidewall region.Type: GrantFiled: December 17, 2007Date of Patent: October 4, 2011Assignees: Advanced Analogic Technologies, Inc., Advanced Analogic Technologies (Hong Kong) LimitedInventors: Richard K. Williams, Donald Ray Disney, Wai Tien Chan
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Patent number: 8022477Abstract: A semiconductor apparatus comprises: a semiconductor substrate; and a lateral type MIS transistor disposed on a surface part of the semiconductor substrate. The lateral type MIS transistor includes: a line coupled with a gate of the lateral type MIS transistor; a polycrystalline silicon resistor that is provided in the line, and that has a conductivity type opposite to a drain of the lateral type MIS transistor; and an insulating layer through which a drain voltage of the lateral type MIS transistor is applied to the polycrystalline silicon resistor.Type: GrantFiled: February 21, 2008Date of Patent: September 20, 2011Assignee: DENSO CORPORATIONInventors: Nozomu Akagi, Shigeki Takahashi, Takashi Nakano, Yasushi Higuchi, Tetsuo Fujii, Yoshiyuki Hattori, Makoto Kuwahara
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Patent number: 7723823Abstract: An improved lateral bipolar electrostatic discharge (ESD) protection device (40) comprises a semiconductor (SC) substrate (42), an overlying epitaxial SC layer (44), emitter-collector regions (48, 50) laterally spaced apart by a first distance (52) in the SC layer, a base region (54) adjacent the emitter region (48) extending laterally toward and separated from the collector region (50) by a base-collector spacing (56) that is selected to set the desired trigger voltage Vt1. By providing a buried layer region (49) under the emitter region (48) Ohmically coupled thereto, but not providing a comparable buried layer region (51) under the collector region (50), an asymmetrical structure is obtained in which the DC trigger voltage (Vt1DC) and transient trigger voltage (Vt1TR) are closely matched so that |Vt1TR?Vt1DC|˜0.Type: GrantFiled: July 24, 2008Date of Patent: May 25, 2010Assignee: Freescale Semiconductor, Inc.Inventors: Chai Ean Gill, Changsoo Hong, James D. Whitfield, Rouying Zhan
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Patent number: 7675141Abstract: In a semiconductor device of the present invention, an N type epitaxial layer is divided into a plurality of element formation regions by an isolation region. In one of the element formation regions, an NPN transistor is formed. Around the NPN transistor, a protection element having a PN junction region is formed. The PN junction region has a junction breakdown voltage lower than that of a PN junction region of the NPN transistor. By use of this structure, when negative ESD surge is applied to a pad for a base electrode, the PN junction region of the protection element breaks down. Accordingly, the NPN transistor can be protected.Type: GrantFiled: April 23, 2007Date of Patent: March 9, 2010Assignee: Sanyo Electric Co., Ltd.Inventor: Seiji Otake
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Patent number: 7633139Abstract: The invention is directed to a semiconductor device having a diode element which prevents a leakage current due to a vertical parasitic bipolar transistor and enhances current efficiency. An element isolation insulation film is provided on an N well layer, and a first P+ layer and a second P+ layer are formed on the N well layer surrounded by the element isolation insulation film, the second P+ layer being formed at a distance from the first P+ layer. An electrode layer is formed on the N well layer between the first P+ layer and the second P+ layer. An N+ layer for a contact is formed on the N well layer between the element isolation insulation film and other element isolation insulation film. The first P+ layer is connected with an anode wiring, and the electrode layer, the second P+ layer, and the N+ layer are connected with a cathode wiring. A diode element utilizing a lateral PNP bipolar transistor is thus formed on the semiconductor substrate.Type: GrantFiled: April 16, 2007Date of Patent: December 15, 2009Assignee: Sanyo Electric Co., Ltd.Inventors: Takashi Hiroshima, Kazutomo Goshima
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Patent number: 7569903Abstract: One embodiment of the invention relates to a component arrangement including a load and an open-load detector. The load transistor has a first transistor region arranged in a semiconductor body, a second transistor region arranged in the semiconductor body and a third transistor region arranged between the first transistor region and the second transistor region and doped in complementary fashion to the first transistor region and the second transistor region. The open-load detector has a sense region arranged in the third transistor region and of conduction type complementary to the third transistor region and having an evaluation circuit connected to the sense region.Type: GrantFiled: March 7, 2006Date of Patent: August 4, 2009Assignee: Infineon Technologies Austria AGInventors: Emanuele Bodano, Nicola Macri
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Patent number: 7554146Abstract: In a metal-insulator-metal (MIM) capacitor and a method of fabricating the MIM capacitor, a metal-insulator-metal (MIM) capacitor comprises: a lower electrode pattern which is formed on a substrate and includes a conductive layer having a portion as a lower interconnect; a dielectric layer on the lower electrode pattern; a first upper electrode pattern on the dielectric layer; an interlayer insulating layer which covers the first upper electrode pattern, the dielectric layer, and the lower electrode pattern and has a planarized upper surface; a second upper electrode opening pattern formed in the interlayer insulating layer to expose the first upper electrode pattern; a second upper electrode which fills the opening pattern and has an upper surface that is substantially level with an upper surface of the interlayer insulating layer; and an upper interconnect on the interlayer insulating layer and contacts the second upper electrode.Type: GrantFiled: December 23, 2005Date of Patent: June 30, 2009Assignee: Samsung Electronics Co., Ltd.Inventors: Seok-jun Won, Dae-jin Kwon
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Publication number: 20090115018Abstract: A transient voltage-suppressing (TVS) device supported on a semiconductor substrate is applied to protect an electronic device from a transient voltage. The TVS device includes a clamp diode functions with a high-side and a low side diodes for clamping a transient voltage disposed on a top layer of the semiconductor substrate insulated by a insulation layer constituting a TVS on silicon-on-insulator (SOI) device. In an exemplary embodiment, the insulator layer further includes a thick body oxide (BOX) layer having a thickness in the range of 250 Angstroms to 1 micrometer to sustain an application with a breakdown voltage higher than 25 volts. In another exemplary embodiment, the clamp diode further surrounded by a P-well and the P-well is formed on top of a P?/P+ substrate layer disposed above the insulator layer.Type: ApplicationFiled: November 1, 2007Publication date: May 7, 2009Inventor: Shekar Mallikarjunaswamy
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Publication number: 20090057833Abstract: A semiconductor device structure comprises a plurality of vertical layers and a plurality of conductive elements wherein the vertical layers and plurality of conductive elements co-operate to function as at least two active devices in parallel. The semiconductor device structure may also comprise a plurality of horizontal conductive elements wherein the structure is arranged to support at least two concurrent current flows, such that a first current flow is across the plurality of vertical conductive elements and a second current flow is across the plurality of horizontal conductive elements.Type: ApplicationFiled: March 13, 2006Publication date: March 5, 2009Inventors: Philippe Renaud, Patrice Besse, Amaury Gendron
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Publication number: 20080157122Abstract: An integrated semiconductor structure includes a heterojunction bipolar transistor and a Schottky diode. The structure has a substrate, the heterojunction bipolar transistor overlying and contacting the substrate, wherein the heterojunction bipolar transistor includes a transistor collector layer, and a Schottky diode overlying the substrate and overlying the transistor collector layer. The Schottky diode includes a Schottky diode barrier layer structure that desirably is not of the same material, doping, and thickness as the transistor collector layer.Type: ApplicationFiled: February 26, 2008Publication date: July 3, 2008Applicant: THE BOEING COMPANYInventor: Berinder P.S. BRAR
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Patent number: 7271070Abstract: The invention relates to a method for producing integrable semiconductor components, especially transistors or logic gates, using a p-doped semiconductor substrate. First of all, a mask is applied to the semiconductor substrate in order to define a window that is delimited by a peripheral edge. An n-doped trough is then produced in the semiconductor substrate by means of ion implantation using an energy that is sufficient for ensuring that a p-doped inner area remains on the surface of the semiconductor substrate. The edge area of the n-doped trough extends as far as the surface of the semiconductor substrate. The other n-doped and/or p-doped areas that make up the structure of the transistor or logic gate are then inserted into the p-doped inner area of the semiconductor substrate. The inventive method is advantageous in that it no longer comprises expensive epitaxy and insulation processes. In an n-doped semiconductor substrate, all of the implanted ions are replaced by the complementary species; i.e.Type: GrantFiled: August 13, 1999Date of Patent: September 18, 2007Inventors: Hartmut Grutzediek, Joachim Scheerer