| Patent application number | Description | Published |
|---|
| 20080268626 | Semiconductor device having a plurality of kinds of wells and manufacturing method thereof - A semiconductor device has a configuration in which more than three kinds of wells are formed with small level differences. One kind of well from among the more than three kinds of wells has a surface level higher than other kinds of wells from among the more than three kinds of wells. The one kind of well is formed adjacent to and self-aligned to at least one kind of well from among the other kinds of wells. The other kinds of wells are different in one of a conductivity type, an impurity concentration and a junction depth, and include at least two kinds of wells having the same surface level. | 10-30-2008 |
| 20090050978 | SEMICONDUCTOR DEVICE - A disclosed semiconductor device includes a driver transistor including a source and a drain of a second conductive type provided with an interval therebetween in a semiconductor substrate of a first conductive type, a gate electrode extending in a predetermined direction and provided on the semiconductor substrate via a gate insulating film between the source and the drain, plural insular back gate diffusion layers of the first conductive type provided in the source so as to be in contact with the semiconductor substrate, wherein the back gate diffusion layers are spaced apart and arranged in the predetermined direction in the source, and a contact hole extending in the predetermined direction on the source and at least one of the back gate diffusion layers. | 02-26-2009 |
| 20090064791 | STRESS-DISTRIBUTION DETECTING SEMICONDUCTOR PACKAGE GROUP AND DETECTION METHOD OF STRESS DISTRIBUTION IN SEMICONDUCTOR PACKAGE USING THE SAME - A disclosed stress-distribution detecting semiconductor package group includes multiple stress-distribution detecting semiconductor packages each formed by resin-encapsulating a stress detecting semiconductor chip of the same size using an identical resin encapsulation structure. Each stress detecting semiconductor chip includes a piezoelectric element for stress detection and at least two electrode pads electrically connected to the piezoelectric element to measure an electrical property of the piezoelectric element. The piezoelectric elements of the stress detecting semiconductor chips are respectively disposed on the corresponding stress detecting semiconductor chips to be located at different positions from one another when superimposed on a single imaginary semiconductor chip plane having the same plane size as that of the stress detecting semiconductor chips. | 03-12-2009 |
| 20090068811 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device is disclosed that comprises a high breakdown voltage MOSFET. The MOSFET includes a source region of a second conductivity type and a drain region of the second conductivity type formed apart from each other in a well region of a first conductivity type, a channel region formed between the source region and the drain region, a gate insulation film formed on the channel region, a LOCOS oxide film having a greater film thickness than the gate insulation film and formed adjacent to the gate insulation film, and a gate electrode formed across the gate insulation film and the LOCOS oxide film. | 03-12-2009 |
| 20090309146 | SEMICONDUCTOR DEVICE - A disclosed semiconductor device includes a MOS transistor that causes no problems concerning the formation of a thick gate insulating film and that is applicable to high withstand voltage devices. A drain region has a double diffusion structure including an N-drain region | 12-17-2009 |
| 20100193887 | Stress-Distribution Detecting Semiconductor Package Group And Detection Method Of Stress Distribution In Semiconductor Package Using The Same - A disclosed stress-distribution detecting semiconductor package group includes multiple stress-distribution detecting semiconductor packages each formed by resin-encapsulating a stress detecting semiconductor chip of the same size using an identical resin encapsulation structure. Each stress detecting semiconductor chip includes a piezoelectric element for stress detection and at least two electrode pads electrically connected to the piezoelectric element to measure an electrical property of the piezoelectric element. The piezoelectric elements of the stress detecting semiconductor chips are respectively disposed on the corresponding stress detecting semiconductor chips to be located at different positions from one another when superimposed on a single imaginary semiconductor chip plane having the same plane size as that of the stress detecting semiconductor chips. | 08-05-2010 |
| 20110185326 | NET LIST GENERATION METHOD AND CIRCUIT SIMULATION METHOD - Disclosed is a net list generation method of generating a net list based on layout data; stress map data indicating stress distribution on a silicon chip, the stress being generated due to packaging of the silicon chip; and standard curve data indicating a relationship between the stress and characteristic variation of a device. The method includes the steps of reading data items from the layout data; reading a value of stress at the position of the device from the stress map data; reading the characteristic variation of the device, the characteristic variation corresponding to the value of the stress, from the standard curve data corresponding to the device; and correcting characteristics of the device based on the characteristic variation. | 07-28-2011 |
| 20120061828 | SEMICONDUCTOR DEVICE AND LAYOUT METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device that is resin-sealed in a wafer level after a rewiring layer forming process and a metal post forming process forming a metal post are performed on a semiconductor substrate of the semiconductor device includes devices formed on the semiconductor substrate. Further all of the devices are disposed in respective positions other than positions overlapping a peripheral border of the metal post when viewed from a top of the semiconductor substrate. | 03-15-2012 |
