Patent application number | Description | Published |
20090072310 | SEMICONDUCTOR STRUCTURE INCLUDING HIGH VOLTAGE DEVICE - A high voltage device includes a substrate with a device region defined thereon. A gate stack is disposed on the substrate in the device region. A channel region is located in the substrate beneath the gate stack, while a first diffusion region is located in the substrate on a first side of the gate stack. A first isolation structure in the substrate, located on the first side of the gate stack, separates the channel and the first diffusion region. The high voltage device also includes a first drift region in the substrate coupling the channel to the first diffusion region, wherein the first drift region comprises a non-uniform depth profile conforming to a profile of the first isolation structure. | 03-19-2009 |
20090302385 | HIGH PERFORMANCE LDMOS DEVICE HAVING ENHANCED DIELECTRIC STRAIN LAYER - An LDMOS device includes a substrate having a surface and a gate electrode overlying the surface and defining a channel region in the substrate below the gate electrode. A drain region is spaced apart from the channel region by an isolation region. The isolation region includes a region of high tensile stress and is configured to induce localized stress in the substrate in close proximity to the drain region. The region of high tensile stress in the isolation region can be formed by high-stress silicon oxide or high-stress silicon nitride. In a preferred embodiment, the isolation region is a shallow trench isolation region formed in the substrate intermediate to the gate electrode and the drain region. | 12-10-2009 |
20100109045 | INTEGRATED CIRCUIT SYSTEM EMPLOYING STRESS-ENGINEERED LAYERS - An integrated circuit system that includes: providing a substrate including an active device; forming a trench within the substrate adjacent the active device; forming a first layer with a first lattice constant within the trench; and forming a second layer with a second lattice constant over the first layer, the second lattice constant differing from the first lattice constant. | 05-06-2010 |
20100109097 | INTEGRATED CIRCUIT SYSTEM EMPLOYING AN ELEVATED DRAIN - A method for manufacturing an integrated circuit system that includes: providing a substrate including an active device; forming a drift region in the substrate, the drift region bounded in part by a top surface of the substrate and spaced apart from a source; and forming a drain above the drift region. | 05-06-2010 |
20110042743 | LDMOS Using A Combination of Enhanced Dielectric Stress Layer and Dummy Gates - First example embodiments comprise forming a stress layer over a MOS transistor (such as a LDMOS Tx) comprised of a channel and first, second and third junction regions. The stress layer creates a stress in the channel and the second junction region of the Tx. Second example embodiments comprise forming a MOS FET and at least a dummy gate over a substrate. The MOS is comprised of a gate, channel, source, drain and offset drain. At least one dummy gate is over the offset drain. A stress layer is formed over the MOS and the dummy gate. The stress layer and the dummy gate improve the stress in the channel and offset drain region | 02-24-2011 |
20110079850 | SEMICONDUCTOR STRUCTURE INCLUDING HIGH VOLTAGE DEVICE - A high voltage device includes a substrate with a device region defined thereon. A gate stack is disposed on the substrate in the device region. A channel region is located in the substrate beneath the gate stack, while a first diffusion region is located in the substrate on a first side of the gate stack. A first isolation structure in the substrate, located on the first side of the gate stack, separates the channel and the first diffusion region. The high voltage device also includes a first drift region in the substrate coupling the channel to the first diffusion region, wherein the first drift region comprises a non-uniform depth profile conforming to a profile of the first isolation structure. | 04-07-2011 |
20120119293 | HIGH PERFORMANCE LDMOS DEVICE HAVING ENHANCED DIELECTRIC STRAIN LAYER - An LDMOS device includes a substrate having a surface and a gate electrode overlying the surface and defining a channel region in the substrate below the gate electrode. A drain region is spaced apart from the channel region by an isolation region. The isolation region includes a region of high tensile stress and is configured to induce localized stress in the substrate in close proximity to the drain region. The region of high tensile stress in the isolation region can be formed by high-stress silicon oxide or high-stress silicon nitride. In a preferred embodiment, the isolation region is a shallow trench isolation region formed in the substrate intermediate to the gate electrode and the drain region. | 05-17-2012 |
20150287822 | SEMICONDUCTOR DEVICE PRODUCTION METHOD AND SEMICONDUCTOR DEVICE - A semiconductor device production method includes a first step of forming a planar silicon layer on a silicon substrate and forming first and second pillar-shaped silicon layers on the planar silicon layer; a second step of forming a gate insulating film around the first and second pillar-shaped silicon layers, forming a metal film and a polysilicon film around the gate insulating film, controlling a thickness of the polysilicon film to be smaller than a half of a distance between the first and second pillar-shaped silicon layers, depositing a resist, exposing the polysilicon film on side walls of upper portions of the first and second pillar-shaped semiconductor layers, etching-away the exposed polysilicon film, stripping the third resist, and etching-away the metal film; and a third step of forming a resist for forming a gate line and performing anisotropic etching to form a gate line and first and second gate electrodes. | 10-08-2015 |