Patent application number | Description | Published |
20090014791 | Lateral Power MOSFET With Integrated Schottky Diode - A semiconductor device includes a substrate. The substrate includes a semiconductor material. An electrically isolated region is formed over the substrate. A metal-oxide-semiconductor field-effect transistor (MOSFET) is formed over the substrate within the electrically isolated region. The electrically isolated region includes a trench formed around the electrically isolated region. An insulative material such as silicon dioxide (SiO2) may be deposited into the trench. A diode is formed over the substrate within the electrically isolated region. In one embodiment, the diode is a Schottky diode. A metal layer may be formed over a surface of the substrate to form an anode of the diode. A first electrical connection is formed between a source of the MOSFET and an anode of the diode. A second electrical connection is formed between a drain of the MOSFET and a cathode of the diode. | 01-15-2009 |
20090283826 | Semiconductor Device and Method of Forming High Voltage SOI Lateral Double Diffused MOSFET with Shallow Trench Insulator - A semiconductor device has a buried oxide layer formed over a substrate. An active silicon layer is formed over the buried oxide layer. A drain region is formed in the active silicon layer. An LDD drift region is formed in the active silicon layer adjacent to the drain region. The drift region has a graded doping distribution. A co-implant region is formed in the active silicon. A source region is formed in the co-implant region. A shallow trench insulator is formed along a top surface of the LDD drift region. The shallow trench isolator has a length less than the LDD drift region. The shallow trench insulator terminates under the polysilicon gate and within the LDD drift region. A polysilicon gate is formed above the active silicon layer between the source region and LDD drift region and at least partially overlapping the shallow trench insulator. | 11-19-2009 |
20090321784 | Semiconductor Device and Method of Forming Lateral Power MOSFET with Integrated Schottky Diode on Monolithic Substrate - A monolithic semiconductor device has an insulating layer formed over a first substrate. A second substrate is disposed over the first insulating layer. A power MOSFET with body diode is formed over the second substrate. A Schottky diode is formed over the second substrate in proximity to the MOSFET. An insulation trench is formed within the second substrate between the MOSFET and Schottky diode. The isolation trench surrounds the MOSFET and first Schottky diode. A first electrical connection is formed between a source of the MOSFET and an anode of the Schottky diode. A second electrical connection is formed between a drain of the MOSFET and a cathode of the Schottky diode. The Schottky diode reduces charge build-up within the body diode and reverse recovery time of the first power MOSFET. The power MOSFET and integrated Schottky can be used in power conversion or audio amplifier circuit. | 12-31-2009 |
20110140200 | Lateral Power MOSFET With Integrated Schottky Diode - A semiconductor device includes a substrate having a first region and a second region. The first region is electrically isolated from the second region. The semiconductor device further includes a lateral field-effect transistor (FET) disposed within the first region. The lateral FET includes a first terminal and a second terminal. The semiconductor device further includes a diode disposed within the second region, the diode including a plurality of anode regions and a plurality of cathode regions. The semiconductor device further includes a first electrical connection between the first terminal of the lateral FET and the anode regions of the diode, and a second electrical connection between the second terminal of the lateral FET and the cathode regions of the diode. The first and second electrical connections are disposed over a surface of the substrate. | 06-16-2011 |
20120044720 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING LOW VOLTAGE MOSFET FOR PORTABLE ELECTRONIC DEVICES AND DATA PROCESSING CENTERS - A semiconductor device has a well region formed within a substrate. A gate structure is formed over a surface of the substrate. A source region is formed within the substrate adjacent to the gate structure. A drain region is formed within the substrate adjacent to the gate structure. A first clamping region and second clamping region below the source region and drain region. A trench is formed through the source region. The trench allows the width of the source region to be reduced to 0.94 to 1.19 micrometers. A plug is formed through the trench. A source tie is formed through the trench over the plug. An interconnect structure is formed over the source region, drain region, and gate structure. The semiconductor device can be used in a power supply to provide a low voltage to electronic equipment such as a portable electronic device and data processing center. | 02-23-2012 |
20120161248 | Semiconductor Device and Method of Forming Low Voltage MOSFET for Portable Electronic Devices and Data Processing Centers - A semiconductor device has a well region formed within a substrate. A gate structure is formed over a surface of the substrate. A source region is formed within the substrate adjacent to the gate structure. A drain region is formed within the substrate adjacent to the gate structure. A first clamping region and second clamping region below the source region and drain region. A trench is formed through the source region. The trench allows the width of the source region to be reduced to 0.94 to 1.19 micrometers. A plug is formed through the trench. A source tie is formed through the trench over the plug. An interconnect structure is formed over the source region, drain region, and gate structure. The semiconductor device can be used in a power supply to provide a low voltage to electronic equipment such as a portable electronic device and data processing center. | 06-28-2012 |
20120205740 | Lateral Power MOSFET With Integrated Schottky Diode - A semiconductor device includes a substrate having a first region and a second region. The first region is electrically isolated from the second region. The semiconductor device further includes a lateral field-effect transistor (FET) disposed within the first region. The lateral FET includes a first terminal and a second terminal. The semiconductor device further includes a diode disposed within the second region, the diode including a plurality of anode regions and a plurality of cathode regions. The semiconductor device further includes a first electrical connection between the first terminal of the lateral FET and the anode regions of the diode, and a second electrical connection between the second terminal of the lateral FET and the cathode regions of the diode. The first and second electrical connections are disposed over a surface of the substrate. | 08-16-2012 |
20120248601 | Semiconductor Device and Method of Forming a Land Grid Array Flip Chip Bump System - A semiconductor device has a semiconductor wafer with a plurality of semiconductor die including a plurality of contact pads. An insulating layer is formed over the semiconductor wafer and contact pads. An under bump metallization (UBM) is formed over and electrically connected to the plurality of contact pads. A mask is disposed over the semiconductor wafer with a plurality of openings aligned over the plurality of contact pads. A conductive bump material is deposited within the plurality of openings in the mask and onto the UBM. The mask is removed. The conductive bump material is reflowed to form a plurality of bumps with a height less than a width. The plurality of semiconductor die is singulated. A singulated semiconductor die is mounted to a substrate with bumps oriented toward the substrate. Encapsulant is deposited over the substrate and around the singulated semiconductor die. | 10-04-2012 |
20120313147 | Semiconductor Device and Method of Forming a Power MOSFET With Interconnect Structure Silicide Layer and Low Profile Bump - A semiconductor device has a substrate with a source region and a drain region formed on the substrate. A silicide layer is disposed over the source region and drain region. A first interconnect layer is formed over the silicide layer and includes a first runner connected to the source region and second runner connected to the drain region. A second interconnect layer is formed over the first interconnect layer and includes a third runner connected to the first runner and a fourth runner connected to the second runner. An under bump metallization (UBM) is formed over and electrically connected to the second interconnect layer. A mask is disposed over the substrate with an opening in the mask aligned over the UBM. A conductive bump material is deposited within the opening in the mask. The mask is removed and the conductive bump material is reflowed to form a bump. | 12-13-2012 |
20130015569 | Semiconductor Device and Method of Forming Substrate With Seated Plane for Mating With Bumped Semiconductor DieAANM Anderson; Samuel J.AACI TempeAAST AZAACO USAAGP Anderson; Samuel J. Tempe AZ USAANM Smiley; Thomas B.AACI CarlsbadAAST CAAACO USAAGP Smiley; Thomas B. Carlsbad CA US - A semiconductor device has a first insulating layer formed over a substrate. The substrate has a plurality of conductive layers and plurality of second insulating layers formed between the conductive layers. The substrate can be a PCB or interposer. A plurality of openings is formed in the first insulating layer by etching or laser direct ablation. A semiconductor die has a plurality of bumps formed over a surface of the semiconductor die. The pattern of openings coincides with a pattern of the bumps. The die is mounted to the substrate with the bumps disposed within the openings in the first insulating layer. Alternatively, a conductive paste can be disposed within the openings in the first insulating layer. The bumps are reflowed to electrically connect the die to the first substrate. The bumps are substantially contained within the openings of the first insulating layer to reduce bridging between adjacent bumps. | 01-17-2013 |
20130134598 | Semiconductor Device and Method of Forming a Power MOSFET With Interconnect Structure to Achieve Lower RDSON - A semiconductor device has a substrate and gate structure over the substrate. A source region is formed in the substrate adjacent to the gate structure. A drain region in the substrate adjacent to the gate structure opposite the source region. An interconnect structure is formed over the substrate by forming a conductive plane electrically connected to the source region, and forming a conductive layer within openings of the conductive plane and electrically connected to the drain region. The interconnect structure can be formed as stacked conductive layers laid out in alternating strips. The conductive plane extends under a gate terminal of the semiconductor device. An insulating layer is formed over the substrate and a field plate is formed in the insulating layer. The field plate is electrically connected the source terminal. A stress relief layer is formed over a surface of the substrate opposite the gate structure. | 05-30-2013 |
20140231901 | Monolithic MOSFET and Schottky Diode for Mobile Phone Boost Converter - A cell phone has a plurality of interconnected electronic components for performing the electrical functions of the phone. A DC/DC converter provides an operating voltage which is applied to power supply terminals of the plurality of interconnected electronic components. The DC/DC converter uses a monolithic semiconductor device containing a power metal oxide semiconductor field effect transistor (MOSFET) and Schottky diode. The semiconductor device has the lateral diffused MOSFET formed on a surface of the semiconductor device. The MOSFET is formed with a plurality conduction fingers. The Schottky diode is also formed on the surface of the semiconductor device and integrated between the plurality of conduction fingers of the MOSFET. The drain of the MOSFET is connected to the anode of the diode on the surface of the monolithic semiconductor device. | 08-21-2014 |
20150021686 | Device Structure and Methods of Forming Superjunction Lateral Power MOSFET with Surrounding LDD - A semiconductor device has a substrate and a gate formed over the substrate. An LDD region is formed in the substrate adjacent to the gate. A superjunction is formed in the LDD region while a portion of the LDD region remains between the superjunction and gate. A mask is formed over the substrate. A first region is doped with a first type of dopant using the mask. A stripe is doped with a second type of dopant using a portion of the mask. A drain contact region is formed in the substrate. The first region extends to the drain contact region. The first region and stripe are formed using chain implants. A source field plate and drain field plate are formed over the substrate. A trench is formed in the substrate. A source contact region is formed in the trench. | 01-22-2015 |