Thyristor (epo) Patents (Class 257/E27.079)
-
Patent number: 8866125Abstract: Various embodiments provide materials and methods for integrating exemplary heterostructure field-effect transistor (HFET) driver circuit or thyristor driver circuit with LED structures to reduce or eliminate resistance and/or inductance associated with their conventional connections.Type: GrantFiled: May 1, 2013Date of Patent: October 21, 2014Assignee: STC.UNMInventor: Stephen D. Hersee
-
Patent number: 8598621Abstract: A memory cell includes a thyristor having a plurality of alternately doped, vertically superposed semiconductor regions; a vertically oriented access transistor having an access gate; and a control gate operatively laterally adjacent one of the alternately doped, vertically superposed semiconductor regions. The control gate is spaced laterally of the access gate. Other embodiments are disclosed, including methods of forming memory cells and methods of forming a shared doped semiconductor region of a vertically oriented thyristor and a vertically oriented access transistor.Type: GrantFiled: February 11, 2011Date of Patent: December 3, 2013Assignee: Micron Technology, Inc.Inventor: Sanh D. Tang
-
Patent number: 8461620Abstract: An optically triggered semiconductor switch includes an anode metallization layer; a cathode metallization layer; a semiconductor between the anode metallization layer and the cathode metallization layer and a photon source. The semiconductor includes at least four layers of alternating doping in the form P-N-P-N, in which an outer layer adjacent to the anode metallization layer forms an anode and an outer layer adjacent the cathode metallization layer forms a cathode and in which the anode metallization layer has a window pattern of optically transparent material exposing the anode layer to light. The photon source emits light having a wavelength, with the light from the photon source being configured to match the window pattern of the anode metallization layer.Type: GrantFiled: May 19, 2011Date of Patent: June 11, 2013Assignee: Applied Pulsed Power, Inc.Inventors: Steven C. Glidden, Howard D. Sanders
-
Patent number: 8390124Abstract: Provided is a semiconductor device including a substrate, and a first wiring layer, a second wiring layer, and a switch via formed on the substrate. The first wiring layer has first wiring formed therein and the second wiring layer has second wiring formed therein. The switch via connects the first wiring and the second wiring. The switch via includes at least at its bottom a switch element including a resistance change layer. A resistance value of the resistance change layer changes according to a history of an electric field applied thereto.Type: GrantFiled: February 16, 2010Date of Patent: March 5, 2013Assignee: Renesas Electronics CorporationInventors: Naoya Inoue, Yoshihiro Hayashi, Kishou Kaneko
-
Patent number: 8324656Abstract: Embodiments of integrated circuits for mitigating against electrostatic coupling are described. In an embodiment, first gate dielectrics are respectively located over first active regions. First isolation regions are respectively located between the first active regions. Second gate dielectrics are respectively located over second active regions. Second isolation regions are respectively located between the second active regions. In an embodiment, the first active regions are approximately 20 to 80 percent shorter in height/thickness than the second active regions. In another embodiment, the first isolation regions extend above an uppermost surface of the first gate dielectrics while providing gaps between the first isolation regions and sidewalls of the first active regions for receipt of material used in formation of conductive lines. In yet another embodiment, active area stripes are narrower in width at p-base regions and n-base regions than at cathode regions and anode regions respectively thereof.Type: GrantFiled: July 1, 2011Date of Patent: December 4, 2012Assignee: T-RAM Semiconductor, Inc.Inventors: Rajesh N. Gupta, Marc Laurent Tarabbia, Kevin J. Yang
-
Patent number: 8288795Abstract: Semiconductor devices including a plurality of thyristor-based memory cells, each having a cell size of 4F2, and methods for forming the same are provided. The thyristor-based memory cells each include a thyristor having vertically superposed regions of alternating dopant types, and a control gate. The control gate may be electrically coupled with one or more of the thyristors and may be operably coupled to a voltage source. The thyristor-based memory cells may be formed in an array on a conductive strap, which may function as a cathode or a data line. A system may be formed by integrating the semiconductor devices with one or more memory access devices or conventional logic devices, such as a complementary metal-oxide-semiconductor (CMOS) device.Type: GrantFiled: March 2, 2010Date of Patent: October 16, 2012Assignee: Micron Technology, Inc.Inventor: Sanh D. Tang
-
Publication number: 20120205713Abstract: A memory cell includes a thyristor having a plurality of alternately doped, vertically superposed semiconductor regions; a vertically oriented access transistor having an access gate; and a control gate operatively laterally adjacent one of the alternately doped, vertically superposed semiconductor regions. The control gate is spaced laterally of the access gate. Other embodiments are disclosed, including methods of forming memory cells and methods of forming a shared doped semiconductor region of a vertically oriented thyristor and a vertically oriented access transistor.Type: ApplicationFiled: February 11, 2011Publication date: August 16, 2012Inventor: Sanh D. Tang
-
Patent number: 8174031Abstract: The light-emitting element chip includes: a substrate; a light-emitting portion including plural light-emitting elements each having a first semiconductor layer that has a first conductivity type and that is stacked on the substrate, a second semiconductor layer that has a second conductivity type and that is stacked on the first semiconductor layer, the second conductivity type being a conductivity type different from the first conductivity type, a third semiconductor layer that has the first conductivity type and that is stacked on the second semiconductor layer, and a fourth semiconductor layer that has the second conductivity type and that is stacked on the third semiconductor layer; and a controller including a logical operation element that performs logical operation for causing the plural light-emitting elements to perform a light-emitting operation, the logical operation element being formed by combining some sequential layers of the first, second, third and fourth semiconductor layers.Type: GrantFiled: February 3, 2009Date of Patent: May 8, 2012Assignee: Fuji Xerox Co., Ltd.Inventor: Yoshinao Kondoh
-
Patent number: 8164110Abstract: The present invention relates to integration of lateral high-voltage devices, such as a lateral high-voltage diode (LHVD) or a lateral high-voltage thyristor, with other circuitry on a semiconductor wafer, which may be fabricated using low-voltage foundry technology, such as a low-voltage complementary metal oxide semiconductor (LV-CMOS) process. The other circuitry may include low-voltage devices, such as switching transistors used in logic circuits, computer circuitry, or the like, or other high-voltage devices, such as a microelectromechanical system (MEMS) switch. The reverse breakdown voltage capability of the LHVD may be increased by using an intrinsic material between the anode and the cathode. Similarly, in a lateral high-voltage thyristor, such as a lateral high-voltage Silicon-controlled rectifier (LHV-SCR), the withstand voltage capability of the LHV-SCR may be increased by using an intrinsic material between the anode and the cathode.Type: GrantFiled: November 18, 2010Date of Patent: April 24, 2012Assignee: RF Micro Devices, Inc.Inventors: Daniel Charles Kerr, David C. Dening, Julio Costa
-
Patent number: 8129292Abstract: An integrated circuit arrangement includes a Shockley diode or a thyristor. An inner region of the diode or of the thyristor is completely or partially shielded during the implantation of a p-type well. This gives rise to a Shockley diode or a thyristor having improved electrical properties, in particular with regard to the use as an ESD protection element.Type: GrantFiled: January 20, 2010Date of Patent: March 6, 2012Assignee: Infineon Technologies AGInventors: Ulrich Glaser, Harald Gossner, Kai Esmark
-
Patent number: 8125003Abstract: One aspect of this disclosure relates to a memory cell. In various embodiments, the memory cell includes an access transistor having a floating node, and a diode connected between the floating node and a diode reference potential line. The diode includes an anode, a cathode, and an intrinsic region between the anode and the cathode. A charge representative of a memory state of the memory cell is held across the intrinsic region of the diode. In various embodiments, the memory cell is implemented in bulk semiconductor technology. In various embodiments, the memory cell is implemented in semiconductor-on-insulator technology. In various embodiments, the diode is gate-controlled. In various embodiments, the diode is charge enhanced by an intentionally generated charge in a floating body of an SOI access transistor. Various embodiments include laterally-oriented diodes (stacked and planar configurations), and various embodiments include vertically-oriented diodes.Type: GrantFiled: July 2, 2003Date of Patent: February 28, 2012Assignee: Micron Technology, Inc.Inventor: Arup Bhattacharyya
-
Patent number: 8124987Abstract: The light-emitting element chip includes: a substrate; a light-emitting portion including plural light-emitting elements each having a first semiconductor layer that has a first conductivity type and that is stacked on the substrate, a second semiconductor layer that has a second conductivity type and that is stacked on the first semiconductor layer, the second conductivity type being a conductivity type different from the first conductivity type, a third semiconductor layer that has the first conductivity type and that is stacked on the second semiconductor layer, and a fourth semiconductor layer that has the second conductivity type and that is stacked on the third semiconductor layer; and a controller including a logical operation element that performs logical operation for causing the plural light-emitting elements to perform a light-emitting operation, the logical operation element being formed by combining some sequential layers of the first, second, third and fourth semiconductor layers.Type: GrantFiled: February 3, 2009Date of Patent: February 28, 2012Assignee: Fuji Xerox Co., Ltd.Inventor: Yoshinao Kondoh
-
Publication number: 20110284920Abstract: An optically triggered semiconductor switch includes an anode metallization layer; a cathode metallization layer; a semiconductor between the anode metallization layer and the cathode metallization layer and a photon source. The semiconductor includes at least four layers of alternating doping in the form P-N-P-N, in which an outer layer adjacent to the anode metallization layer forms an anode and an outer layer adjacent the cathode metallization layer forms a cathode and in which the anode metallization layer has a window pattern of optically transparent material exposing the anode layer to light. The photon source emits light having a wavelength, with the light from the photon source being configured to match the window pattern of the anode metallization layer.Type: ApplicationFiled: May 19, 2011Publication date: November 24, 2011Applicant: APPLIED PULSED POWER, INCInventors: Steven C. Glidden, Howard D. Sanders
-
Patent number: 8049248Abstract: A semiconductor device includes a thyristor in which a first-conductivity-type first region, a second-conductivity-type second region having a conductivity type reverse to the first conductivity type, a first-conductivity-type third region, and a second-conductivity-type fourth region are sequentially arranged to form junctions. The third region is formed on a semiconductor substrate separated by an element isolation region. A gate electrode formed via a gate insulating film and side wall formed at wall side of both side of the gate electrode are provided on the third region, and the fourth region is formed so that one end thereof covers the joint portion between the other end of the third region and the element isolation regions, and so that the other end of the fourth region is joined with the sidewall on the other side.Type: GrantFiled: November 25, 2008Date of Patent: November 1, 2011Assignee: Sony CorporationInventor: Tetsuya Ikuta
-
Patent number: 7989885Abstract: A semiconductor device has a first semiconductor layer of a first conductivity type and a second semiconductor layer of a second conductivity type complementary to the first conductivity type arranged in or on the first semiconductor layer. The semiconductor device has a region of the first conductivity type arranged in the second semiconductor layer. A first electrode contacts the region of the first conductivity type and the second semiconductor layer. A trench extends into the first semiconductor layer, and a voltage dependent short circuit diverter structure has a highly-doped diverter region of the second conductivity type. This diverter region is arranged via an end of a channel region and coupled to a diode arranged in the trench.Type: GrantFiled: February 26, 2009Date of Patent: August 2, 2011Assignee: Infineon Technologies Austria AGInventors: Franz Hirler, Frank Dieter Pfirsch
-
Patent number: 7972908Abstract: A method of switching-off a monolithically integrated light-activated thyristor structure in an n-p-n-p-n-p sequence is herein presented. In the method a monolithically integrated semiconductor thyristor structure is illuminated through an optical aperture to convey light into the embedded switching semiconductor structure to electrically short a thyristor cathode and a thyristor base through a floating gate to turn off the thyristor.Type: GrantFiled: September 24, 2010Date of Patent: July 5, 2011Assignee: BAE Systems Information and Electronic Systems Integration Inc.Inventor: Yeuan-Ming Sheu
-
Patent number: 7968402Abstract: One aspect of this disclosure relates to a memory cell. In various embodiments, the memory cell includes an access transistor having a floating node, and a diode connected between the floating node and a diode reference potential line. The diode includes an anode, a cathode, and an intrinsic region between the anode and the cathode. A charge representative of a memory state of the memory cell is held across the intrinsic region of the diode. In various embodiments, the memory cell is implemented in bulk semiconductor technology. In various embodiments, the memory cell is implemented in semiconductor-on-insulator technology. In various embodiments, the diode is gate-controlled. In various embodiments, the diode is charge enhanced by an intentionally generated charge in a floating body of an SOI access transistor. Various embodiments include laterally-oriented diodes (stacked and planar configurations), and various embodiments include vertically-oriented diodes.Type: GrantFiled: June 28, 2006Date of Patent: June 28, 2011Assignee: Micron Technology, Inc.Inventor: Arup Bhattacharyya
-
Patent number: 7910949Abstract: A power semiconductor device includes a conductive board and a switching element mounted on the conductive board and electrically connected thereto. The power semiconductor device also includes an integrated circuit mounted on the conductive board at a distance from the switching element and electrically connected thereto. The switching element turns ON/OFF a connection between first and second main electrodes in response to a control signal inputted to a control electrode. The integrated circuit includes a control circuit which controls ON/OFF the switching element and a back side voltage detection element which detects a voltage of the back side of the integrated circuit.Type: GrantFiled: October 10, 2007Date of Patent: March 22, 2011Assignee: Mitsubishi Electric CorporationInventors: Yukio Yasuda, Atsunobu Kawamoto, Shinsuke Goudo
-
Patent number: 7897440Abstract: A semiconductor device may comprise a plurality of memory cells. A memory cell may comprise a thyristor, at least a portion of which is formed in a pillar of semiconductor material. The pillar may comprise sidewalls defining a cylindrical circumference of a first diameter. In a particular embodiment, the pillars associated with the plurality of memory cells may define rows and columns of an array. In a further embodiment, a pillar may be spaced by a first distance of magnitude up to the first diameter relative to a neighboring pillar within its row. In an additional further embodiment, the pillar may be spaced by a second distance of a magnitude up to twice the first diameter, relative to a neighboring pillar within its column.Type: GrantFiled: November 24, 2008Date of Patent: March 1, 2011Assignee: T-RAM Semiconductor, Inc.Inventor: Andrew E. Horch
-
Patent number: 7888701Abstract: An integrated circuit arrangement includes a Shockley diode or a thyristor. An inner region of the diode or of the thyristor is completely or partially shielded during the implantation of a p-type well. This gives rise to a Shockley diode or a thyristor having improved electrical properties, in particular with regard to the use as an ESD protection element.Type: GrantFiled: January 20, 2010Date of Patent: February 15, 2011Assignee: Infineon Technologies AGInventors: Ulrich Glaser, Harald Gossner, Kai Esmark
-
Patent number: 7834363Abstract: A light-emitting element including a light-emitting thyristor and a Schottky barrier diode is provided. A Schottky barrier diode is formed by contacting a metal terminal to a gate layer of a three-terminal light-emitting thyristor consisting of a PNPN-structure. A self-scanning light-emitting element array may be driven at 3.0V by using such a Schottky barrier diode as a coupling diode of a diode-coupled self-scanning light-emitting element array.Type: GrantFiled: February 27, 2009Date of Patent: November 16, 2010Assignee: Fuji Xerox Co., Ltd.Inventor: Seiji Ohno
-
Patent number: 7800135Abstract: A semiconductor power switch having an array of basic cells in which peripheral regions in the active drain region extend beside the perimeter of the base-drain junction, the peripheral regions being of higher dopant density than the rest of the second drain layer. Intermediate regions in the centre of the active drain region are provided of lighter dopant density than the rest of the second drain layer. This provides an improved compromise between the on-state resistance and the breakdown voltage by enlarging the current conduction path at in its active drain region. On the outer side of each edge cell of the array, the gate electrode extends over and beyond at least part of the perimeters of the base-source junction and the base-drain junction towards the adjacent edge of the die. Moreover, on the outer side of each edge cell, the second drain layer includes a region of reduced dopant density that extends beyond the gate electrode right to the adjacent edge of the die.Type: GrantFiled: July 25, 2005Date of Patent: September 21, 2010Inventors: Jean-Michel Reynes, Stephane Alves, Alain Deram, Blandino Lopes, Joel Margheritta
-
Patent number: 7728350Abstract: One aspect of this disclosure relates to a memory cell. In various embodiments, the memory cell includes an access transistor having a floating node, and a diode connected between the floating node and a diode reference potential line. The diode includes an anode, a cathode, and an intrinsic region between the anode and the cathode. A charge representative of a memory state of the memory cell is held across the intrinsic region of the diode. In various embodiments, the memory cell is implemented in bulk semiconductor technology. In various embodiments, the memory cell is implemented in semiconductor-on-insulator technology. In various embodiments, the diode is gate-controlled. In various embodiments, the diode is charge enhanced by an intentionally generated charge in a floating body of an SOI access transistor. Various embodiments include laterally-oriented diodes (stacked and planar configurations), and various embodiments include vertically-oriented diodes.Type: GrantFiled: June 28, 2006Date of Patent: June 1, 2010Assignee: Micron Technology, Inc.Inventor: Arup Bhattacharyya
-
Patent number: 7679103Abstract: An integrated circuit arrangement includes a Shockley diode or a thyristor. An inner region of the diode or of the thyristor is completely or partially shielded during the implantation of a p-type well. This gives rise to a Shockley diode or a thyristor having improved electrical properties, in particular with regard to the use as an ESD protection element.Type: GrantFiled: November 27, 2006Date of Patent: March 16, 2010Assignee: Infineon Technologies AGInventors: Ulrich Glaser, Harald Gossner, Kai Esmark
-
Patent number: 7633095Abstract: Integrating high-voltage devices with other circuitry, which may be fabricated on a semiconductor wafer using low-voltage foundry technology, such as a low-voltage complementary metal oxide semiconductor (LV-CMOS) process. The other circuitry may include low-voltage devices, such as switching transistors used in logic circuits, computer circuitry, and the like, or other high-voltage devices, such as a microelectromechanical system (MEMS) switch. The high-voltage devices may be used to create useful high-voltage circuits, such as level-shifting circuits, input protection circuits, charge pump circuits, switching circuits, latch circuits, latching switch circuits, interface circuits, any combination thereof, or the like. The high-voltage circuits may be controlled by the other circuitry.Type: GrantFiled: June 17, 2008Date of Patent: December 15, 2009Assignee: RF Micro Devices, Inc.Inventors: Daniel Charles Kerr, David C. Dening, Julio Costa
-
Publication number: 20090140288Abstract: A semiconductor device may comprise a partially-depleted SOI MOSFET having a floating body region disposed between a source and drain. The floating body region may be driven to receive injected carriers for adjusting its potential during operation of the MOSFET. In a particular case, the MOSFET may comprise another region of semiconductor material in contiguous relationship with a drain/source region of the MOSFET and on a side thereof opposite to the body region. This additional region may be formed with a conductivity of type opposite the drain/source, and may establish an effective bipolar device per the body, the drain/source and the additional region. The geometries and doping thereof may be designed to establish a transport gain of magnitude sufficient to assist the injection of carriers into the floating body region, yet small enough to guard against inter-latching with the MOSFET.Type: ApplicationFiled: February 9, 2009Publication date: June 4, 2009Inventors: Zachary K. Lee, Farid Nemati, Scott Robins
-
Patent number: 7504286Abstract: A method is provided for fabricating a memory device. A semiconductor substrate is provided which includes a first well region having a first conductivity type, a second well region having the first conductivity type, a first gate structure overlying the first well region and the second gate structure overlying the second well region. An insulating material layer is conformally deposited overlying exposed portions of the semiconductor substrate. Photosensitive material is provided over a portion of the insulating material layer which overlies a portion of the second well region. The photosensitive material exposes portions of the insulating material layer. The exposed portions of the insulating material layer are anisotropically etched to provide a sidewall spacer adjacent a first sidewall of the second gate structure, and an insulating spacer block formed overlying a portion of the second gate structure and adjacent a second sidewall of the second gate structure.Type: GrantFiled: March 28, 2007Date of Patent: March 17, 2009Assignee: Advanced Micro Devices, Inc.Inventor: Hyun-Jin Cho
-
Publication number: 20090026493Abstract: An electrostatic protection circuit includes a thyristor that discharges an excess charge generated between a first power supply terminal and a second power supply terminal having a lower voltage than the first power supply terminal, a trigger device that supplies a current turning on the thyristor, and an electrostatic discharge element placed between the first power supply terminal and the second power supply terminal in parallel with thyristor and having a higher current supply capability than the trigger device at the same inter-power-terminal voltage, the electrostatic element changing to an on state in a time shorter than a turn-on time of the thyristor connected to the trigger device and at a voltage lower than a turn-on voltage of the thyristor.Type: ApplicationFiled: October 1, 2008Publication date: January 29, 2009Applicant: Kabushiki Kaisha ToshibaInventor: Takayuki Hiraoka
-
Patent number: 7391057Abstract: High voltage silicon carbide (SiC) devices, for example, thyristors, are provided. A first SiC layer having a first conductivity type is provided on a first surface of a voltage blocking SiC substrate having a second conductivity type. A first region of SiC is provided on the first SiC layer and has the second conductivity type. A second region of SiC is provided in the first SiC layer. The second region of SiC has the first conductivity type and is adjacent to the first region of SiC. A second SiC layer having the first conductivity type is provided on a second surface, opposite the first surface, of the voltage blocking SiC substrate. First, second and third contacts are provided on the first region of SiC, the second region of SiC and the second SiC layer, respectively. Related methods of fabricating high voltage SiC devices are also provided.Type: GrantFiled: May 18, 2005Date of Patent: June 24, 2008Assignee: Cree, Inc.Inventors: Sei-Hyung Ryu, Jason R. Jenny, Mrinal K. Das, Hudson McDonald Hobgood, Anant K. Agarwal, John W. Palmour
-
Patent number: 7332752Abstract: An optoelectronic circuit includes a resonant cavity formed on a substrate and into which is injected an input digital optical signal that encodes bits of information (each bit representing an OFF logic level or an ON logic level). A heterojunction thyristor device, formed in the resonant cavity, produces an output digital electrical signal corresponding to the input digital optical signal. A sampling clock defines sampling periods that overlap the bits (e.g., ON/OFF pulse durations) in the input digital optical signal. The sampling clock can be in the form of electrical pulses supplied to the n-channel injector terminal(s) and/or p-channel injector terminals of the heterojunction thyristor device. Alternatively, the sampling clock can be in the form of optical pulses that are part of the Optical IN signal that is resonantly absorbed by the device. The heterojunction thyristor device operates in an OFF state and an ON state.Type: GrantFiled: December 19, 2002Date of Patent: February 19, 2008Assignees: The University of Connecticut, Opel, Inc.Inventors: Geoff W. Taylor, Jianhong Cai
-
Patent number: 7326969Abstract: A semiconductor memory device may comprise a thyristor-based memory having some portions formed in strained silicon, and other portions formed in relaxed silicon. In a further embodiment, a thyristor in the thyristor-based memory may be formed in a region of relaxed silicon germanium, while an access device to the thyristor-based memory may have a body region incorporating a portion of a layer of strained silicon. In yet a further embodiment, different regions of the thyristor may be formed in vertical aligned relationship relative to an upper surface of the relaxed silicon germanium. For this embodiment, the thyristor may be formed substantially within the depth of the relaxed silicon germanium layer. In a method of forming the semiconductor device, relaxed silicon may be deposited over exposed regions of a silicon substrate, and a thin layer of strained silicon formed over a portion of the substrate having silicon germanium.Type: GrantFiled: December 2, 2004Date of Patent: February 5, 2008Assignee: T-RAM Semiconductor, Inc.Inventor: Andrew E. Horch
-
Publication number: 20080002463Abstract: A semiconductor device includes a bulk semiconductor substrate, a plurality of storage elements, a bit line, a first voltage being applied to the first region side of the thyristor, and a voltage lower than the first voltage being applied to a word line. The plurality of storage elements formed on the bulk semiconductor substrate and each including a thyristor formed on the bulk semiconductor substrate and including a first region of a first conductor type, a second region of a second conduction type opposite to the first conduction type, a third region of the first conduction type and a fourth region of the second conduction type jointed together in order, a gate electrode formed on the third region, and a field effect transistor formed on the semiconductor substrate on which the thyristor is formed and connected to the fourth region of the thyristor.Type: ApplicationFiled: June 13, 2007Publication date: January 3, 2008Inventor: Taro Sugizaki
-
Patent number: 7276778Abstract: A semiconductor system includes a self arc-extinguishing device, and an IGBT that works as a thyristor when a current between a first terminal and a second terminal connected to a second well electrode is small, and as a bipolar transistor when that current is large, and automatically switches between them according to the magnitude of the current. The IGBT is formed with a first conductivity-type semiconductor substrate. On a surface layer of the substrate is a second conductivity-type well region to which a first well electrode is connected. A first conductivity-type emitter region, to which an emitter electrode is connected, is disposed on a surface layer in the well region. A control electrode is disposed through an insulating film partially covering the well and emitter regions. A second conductivity-type well layer, to which the second well electrode is connected, is disposed on a back surface side of the substrate.Type: GrantFiled: June 30, 2005Date of Patent: October 2, 2007Assignee: Fuji Electric Holdings Co., Ltd.Inventor: Koh Yoshikawa
-
Patent number: 7262443Abstract: Method and apparatus for forming a semiconductor device. The method includes defining a plurality of rows in a semiconductor layer. Thereafter, on one or more of the plurality of rows, one or more bipolar junction devices are formed. Each of the bipolar junction devices has a first end region and a second end region. A quantity of a pre-amorphization ion is then implanted into at least one of the first end region and the second end region of a bipolar junction device for example. A silicide is formed in the semiconductor layer at the first end region and the second end region having implanted therein the quantity of the pre-amorphization ion. Additionally, laterally extending upper edges of the plurality of rows forming corners may be rounded prior to the implantation of the pre-amorphization.Type: GrantFiled: December 29, 2004Date of Patent: August 28, 2007Assignee: T-Ram Semiconductor Inc.Inventor: Kevin J. Yang
-
Publication number: 20070158680Abstract: A semiconductor device includes: a semiconductor substrate having first and second semiconductor layers; an IGBT having a collector region, a base region in the first semiconductor layer, an emitter region in the base region, and a channel region in the base region between the emitter region and the first semiconductor layer; a diode having an anode region in the first semiconductor layer and a cathode electrode on the first semiconductor layer; and a resistive region. The collector region and the second semiconductor layer are disposed on the first semiconductor layer. The resistive region for increasing a resistance of the second semiconductor layer is disposed in a current path between the channel region and the cathode electrode through the first semiconductor layer and the second semiconductor layer with bypassing the collector region.Type: ApplicationFiled: January 3, 2007Publication date: July 12, 2007Applicant: DENSO CORPORATIONInventors: Yoshihiko Ozeki, Norihito Tokura, Yukio Tsuzuki
-
Patent number: 7183591Abstract: A semiconductor device includes a thyristor body having at least one region in a substrate. According to an example embodiment of the present invention, a trench is in a substrate and adjacent to a thyristor body region in the substrate. The trench is lined with an insulative material and further includes conductive material that is insulated from the thyristor body region in the substrate by the liner material. A conductive thyristor control port is located in the trench and adapted for capacitively coupling to the thyristor body region in the substrate and to control current in the thyristor body by causing an outflow of minority carriers in the thyristor. With this approach, conductive material can be used to fill a portion of the trench while using the trench portion including the conductive material to electrically isolate a portion of the thyristor body in the substrate.Type: GrantFiled: September 29, 2005Date of Patent: February 27, 2007Assignee: T-RAM Semiconductor, Inc.Inventors: Andrew Horch, Scott Robins