Patents Assigned to Vishay General Semiconductor LLC
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Publication number: 20110227152Abstract: A termination structure for a power transistor includes a semiconductor substrate having an active region and a termination region. The substrate has a first type of conductivity. A termination trench is located in the termination region and extends from a boundary of the active region to within a certain distance of an edge of the semiconductor substrate. A doped region has a second type of conductivity disposed in the substrate below the termination trench. A MOS gate is formed on a sidewall adjacent the boundary. The doped region extends from below a portion of the MOS gate spaced apart from the boundary toward a remote sidewall of the termination trench. A termination structure oxide layer is formed on the termination trench and covers a portion of the MOS gate and extends toward the edge of the substrate. A first conductive layer is formed on a backside surface of the semiconductor substrate.Type: ApplicationFiled: October 21, 2010Publication date: September 22, 2011Applicant: VISHAY GENERAL SEMICONDUCTOR LLCInventors: Chih-Wei HSU, Florin UDREA, Yih-Yin LIN
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Publication number: 20110227151Abstract: A termination structure is provided for a power transistor. The termination structure includes a semiconductor substrate having an active region and a termination region. The substrate has a first type of conductivity. A termination trench is located in the termination region and extends from a boundary of the active region toward an edge of the semiconductor substrate. A doped region having a second type of conductivity is disposed in the substrate below the termination trench. A MOS gate is formed on a sidewall adjacent the boundary. The doped region extends from below a portion of the MOS gate spaced apart from the boundary toward the edge of the semiconductor substrate. A termination structure oxide layer is formed on the termination trench covering a portion of the MOS gate and extends toward the edge of the substrate.Type: ApplicationFiled: March 16, 2010Publication date: September 22, 2011Applicant: VISHAY GENERAL SEMICONDUCTOR LLCInventors: Chih-Wei HSU, Florin UDREA, Yih-Yin LIN
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Patent number: 8014117Abstract: A low forward voltage drop transient voltage suppressor utilizes a low-reverse-voltage-rated PN diode electrically connected in parallel to a high-reverse-voltage-rated Schottky rectifier in a single integrated circuit device. The transient voltage suppressor is ideally suited to fix the problem of high forward voltage drop of PN diodes and high leakage of low reverse breakdown of Schottky rectifiers. The low-reverse-voltage PN rectifier can be fabricated through methods such as 1) double layers of epi (with higher concentration layer epi in the bottom) or 2) punch through design of PN diode by base with compression.Type: GrantFiled: June 20, 2007Date of Patent: September 6, 2011Assignee: Vishay General Semiconductor, LLCInventors: Lung-Ching Kao, Pu-Ju Kung, Yu-Ju Yu
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Publication number: 20110171784Abstract: The semiconductor assembly includes a first subassembly having a heat sink. Solder material is disposed on the exposed portion of a first surface of heat sink. A power semiconductor die is located on the first surface of the heat sink and is thermally coupled thereto by the solder material. A packaging patterned polymer layer is disposed on a second surface of the heat sink opposing the first surface and defines an interior surface portion of the heat sink. A semiconductor package is provided in which the first subassembly, solder material and die are located such that the interior surface portion of the second surface of the heat sink is not enclosed by the semiconductor package.Type: ApplicationFiled: February 22, 2011Publication date: July 14, 2011Applicant: VISHAY GENERAL SEMICONDUCTOR LLCInventors: Wan-Lan Chiang, Kuang Hann Lin, Chih-Ping Peng
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Publication number: 20110084332Abstract: A trench MOS device includes a base semiconductor substrate, an epitaxial layer grown on the base semiconductor substrate, a first trench in the epitaxial layer, and a stepped trench comprising a second trench and a third trench in the epitaxial layer. There is a mesa between the first trench and the stepped trench. There is a spacer on a the sidewall of the second trench, wherein the third trench having a depth below the spacer. There is a dielectric layer extending along sidewalls and bottom walls of the second trench and the third trench. There is also a metal layer extending over the first trench, over a sidewall of the stepped trench and a portion of the bottom of the stepped trench.Type: ApplicationFiled: October 8, 2009Publication date: April 14, 2011Applicant: VISHAY GENERAL SEMICONDUCTOR, LLC.Inventor: Lung-Ching Kao
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Patent number: 7915728Abstract: The semiconductor assembly includes a first subassembly having a heat sink. Solder material is disposed on the exposed portion of a first surface of heat sink. A power semiconductor die is located on the first surface of the heat sink and is thermally coupled thereto by the solder material. A packaging patterned polymer layer is disposed on a second surface of the heat sink opposing the first surface and defines an interior surface portion of the heat sink. A semiconductor package is provided in which the first subassembly, solder material and die are located such that the interior surface portion of the second surface of the heat sink is not enclosed by the semiconductor package.Type: GrantFiled: July 12, 2007Date of Patent: March 29, 2011Assignee: Vishay General Semiconductor LLCInventors: Wan-Lan Chiang, Kuang Hann Lin, Chih-Ping Peng
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Publication number: 20110068439Abstract: A high power density or low forward voltage rectifier which utilizes at least one trench in both the anode and cathode. The trenches are formed in opposing surfaces of the substrate, to increase the junction surface area per unit surface area of the semiconductor die. This structure allows for increased current loads without increased horizontal die space. The increased current handling capability allows for the rectifier to operate at lower forward voltages. Furthermore, the present structure provides for increased substrate usage by up to 30 percent.Type: ApplicationFiled: September 23, 2009Publication date: March 24, 2011Applicant: VISHAY GENERAL SEMICONDUCTOR, LLC.Inventors: Hung-Ping Tsai, Shih-Kuan Chen, Lung-Ching Kao
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Publication number: 20110049700Abstract: A semiconductor assembly includes a first subassembly comprising a heat sink and a first patterned polymer layer disposed on a surface of the heat sink to define an exposed portion of the first surface. The exposed portion of the first surface extends radially inward along the heat sink surface from the first layer. The subassembly also includes a second patterned polymer layer disposed on a radially outer portion of the first patterned polymer layer. The first and second layers define a cell for accommodating a power semiconductor die. Solder material is disposed on the exposed portion of the heat sink surface and in the cell. A power semiconductor die is located within the cell on a radially inward portion of the first layer and thermally coupled to the heat sink by the solder material.Type: ApplicationFiled: November 4, 2010Publication date: March 3, 2011Applicant: VISHAY GENERAL SEMICONDUCTOR LLCInventors: Wan-Lan Chiang, Kuang Hann Lin, Chih-Ping Peng
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Patent number: 7838985Abstract: A semiconductor assembly includes a first subassembly comprising a heat sink and a first patterned polymer layer disposed on a surface of the heat sink to define an exposed portion of the first surface. The exposed portion of the first surface extends radially inward along the heat sink surface from the first layer. The subassembly also includes a second patterned polymer layer disposed on a radially outer portion of the first patterned polymer layer. The first and second layers define a cell for accommodating a power semiconductor die. Solder material is disposed on the exposed portion of the heat sink surface and in the cell. A power semiconductor die is located within the cell on a radially inward portion of the first layer and thermally coupled to the heat sink by the solder material.Type: GrantFiled: July 12, 2007Date of Patent: November 23, 2010Assignee: Vishay General Semiconductor LLCInventors: Wan-Lan Chiang, Kuang Hann Lin, Chih-Ping Peng
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Publication number: 20100216283Abstract: A lead frame facilitates the handling, positioning, attachment, and/or continued integrity of multiple dies, without the use of multiple separate parts, such as jumpers. The lead frame includes a number of structures, each of which is attached to at least one lead. At least one receiving surface, arranged to receive a die, is associated with each structure. When dies are disposed on the receiving surfaces, anodes are similarly-oriented. A number of fingers are attached to the lead frame, and one or more electrode contact surfaces are attached to each finger. Each electrode contact surface can be positioned (for example, bent) with respect to one receiving surface, to facilitate electrical connection between the anode of a die and a lead. The lead frame may be used in connection with surface- and through-hole-mountable electronic devices, such as bridge rectifier modules.Type: ApplicationFiled: May 6, 2010Publication date: August 26, 2010Applicant: VISHAY GENERAL SEMICONDUCTOR LLCInventors: Peter Chou, Lucy Tian, Bear Zhang
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Patent number: 7755102Abstract: A multiple layer overvoltage protection device is provided. The method begins by providing a substrate having a first impurity concentration of a first conductivity type to define a mid-region layer. A dopant of a second conductivity type is introduced into the substrate with a second impurity concentration less than the first impurity concentration. An upper base region having a second type of conductivity is formed on the upper surface of the mid-region layer. A lower base region layer having a second type of conductivity is formed on a lower surface of the mid-region layer. A first emitter region having a first type of conductivity is formed on a surface of the upper base region layer. A first metal contact is coupled to the upper base region layer and a second metal contact is coupled to the lower base region layer.Type: GrantFiled: October 3, 2006Date of Patent: July 13, 2010Assignee: Vishay General Semiconductor LLCInventors: Lung-Ching Kao, Pu-Ju Kung
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Patent number: 7741703Abstract: A lead frame facilitates the handling, positioning, attachment, and/or continued integrity of multiple dies, without the use of multiple separate parts, such as jumpers. The lead frame includes a number of structures, each of which is attached to at least one lead. At least one receiving surface, arranged to receive a die, is associated with each structure. When dies are disposed on the receiving surfaces, anodes are similarly-oriented. A number of fingers are attached to the lead frame, and one or more electrode contact surfaces are attached to each finger. Each electrode contact surface can be positioned (for example, bent) with respect to one receiving surface, to facilitate electrical connection between the anode of a die and a lead. The lead frame may be used in connection with surface- and through-hole-mountable electronic devices, such as bridge rectifier modules.Type: GrantFiled: October 6, 2006Date of Patent: June 22, 2010Assignee: Vishay General Semiconductor LLCInventors: Peter Chou, Lucy Tian, Bear Zhang
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Patent number: 7737533Abstract: A semiconductor junction device includes a substrate of low resistivity semiconductor material having a preselected polarity. A tapered recess extends into the substrate and tapers inward as it extends downward from an upper surface of the substrate. A semiconductor layer is disposed within the recess and extends above the upper surface of the substrate. The semiconductor layer has a polarity opposite from that of the substrate. A metal layer overlies the semiconductor layer.Type: GrantFiled: July 11, 2007Date of Patent: June 15, 2010Assignee: Vishay General Semiconductor LLCInventors: Sheng-Huei Dai, Ya-Chin King, Hai-Ning Wang, Ming-Tai Chiang
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Patent number: 7736976Abstract: A method is provided for forming a power semiconductor device. The method begins by providing a substrate of a second conductivity type and then forming a voltage sustaining region on the substrate. The voltage sustaining region is formed by depositing an epitaxial layer of a first conductivity type on the substrate and forming at least one terraced trench in the epitaxial layer. The terraced trench has a plurality of portions that differ in width to define at least one annular ledge therebetween. A barrier material is deposited along the walls of the trench. A dopant of a second conductivity type is implanted through the barrier material lining the annular ledge and said trench bottom and into adjacent portions of the epitaxial layer. The dopant is diffused to form at least one annular doped region in the epitaxial layer and at least one other region located below the annular doped region.Type: GrantFiled: December 4, 2007Date of Patent: June 15, 2010Assignee: Vishay General Semiconductor LLCInventors: Richard A. Blanchard, Jean-Michel Guillot
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Patent number: 7719096Abstract: A semiconductor device mountable to a substrate is provided. The device includes a semiconductor die and an electrically conductive attachment region having a first attachment surface and a second attachment surface. The first attachment surface is arranged for electrical communication with the semiconductor die. An interlayer material is formed on the second attachment surface of the electrically conductive attachment region. The interlayer material is a thermally conductive, dielectric material. A housing at least in part encloses the semiconductor die and the interlayer material.Type: GrantFiled: July 9, 2007Date of Patent: May 18, 2010Assignee: Vishay General Semiconductor LLCInventors: Ta-Te Chou, Xiong-Jie Zhang, Xian Li, Hai Fu, Yong-Qi Tian
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Patent number: 7671611Abstract: An electronic element testing apparatus for use with a number of probes. Each probe has a lower pole and an upper pole. The apparatus includes: a first plate having a first side and a second side, the first side having an array of lower pole regions disposed thereabout, each lower pole region configured to receive a lower pole of a probe; and a plurality of signal conductor regions disposed proximate the array of lower pole regions, each signal conductor region arranged to provide a non-cable electrical path between a lower pole region and a switching circuit. The switching circuits are operable to sequentially connect each electronic element to a testing circuit via the upper and lower poles.Type: GrantFiled: February 13, 2008Date of Patent: March 2, 2010Assignee: Vishay General Semiconductor LLCInventors: Kuang-Jung Li, Chin-Chen Hsu, Yi-Li Lin, Shyan-I Wu
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Patent number: 7560355Abstract: A method is provided of making a semiconductor wafer for a semiconductor junction diode device having a target forward voltage drop and a target reverse breakdown voltage. The method begins by doping a semiconductor substrate of a first conductivity type through the back surface with a first dopant of the first conductivity type in an amount sufficient to form a semiconductor junction diode device having a target forward voltage drop. Next, the substrate is doped through the front surface with a second dopant of the first conductivity type in an amount sufficient to form the semiconductor junction diode device such that it has a target reverse breakdown voltage.Type: GrantFiled: October 24, 2006Date of Patent: July 14, 2009Assignee: Vishay General Semiconductor LLCInventors: Lung-Ching Kao, Pu-Ju Kung
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Publication number: 20090096078Abstract: A semiconductor device mountable to a substrate is provided. The device includes a semiconductor package having at least one semiconductor die, an electrically conductive attachment region, and a packaging material in which is embedded the semiconductor die and a first portion of the electrically conductive attachment region contacting the die. A metallic shell encloses the embedded semiconductor die and the first portion of the electrically conductive attachment region.Type: ApplicationFiled: October 10, 2007Publication date: April 16, 2009Applicant: Vishay General Semiconductor LLCInventors: Ta-Te Chou, Yong-Qi Tian, Xian Li
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Patent number: D573116Type: GrantFiled: October 19, 2006Date of Patent: July 15, 2008Assignee: Vishay General Semiconductor LLCInventors: Ta-Te Chou, Xiong-Jie Zhang, Xian Li, Hai Fu, Yong-Qi Tian
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Patent number: D616387Type: GrantFiled: July 15, 2008Date of Patent: May 25, 2010Assignee: Vishay General Semiconductor LLCInventors: Ta-Te Chou, Xiong-Jie Zhang, Xian Li, Hai Fu, Yong-Qi Tian