Patent application number | Description | Published |
20140203367 | Transistor Structure for Electrostatic Discharge Protection - The present invention discloses a transistor structure for electrostatic discharge protection. The structure includes a substrate, a doped well, a first doped region, a second doped region and a third doped region. The doped well is disposed in the substrate and has a first conductive type. The first doped region is disposed in the substrate, encompassed by the doped well and has the first conductive type. The second doped region is disposed in the substrate, encompassed by the doped well and has a second conductive type. The third doped region is disposed in the substrate, encompassed by the doped well and has the second conductive type. A gap is disposed between the first doped region and the second doped region. | 07-24-2014 |
20140284720 | SEMICONDUCTOR DEVICE FOR ELECTROSTATIC DISCHARGE PROTECTION - A semiconductor device includes a substrate, a gate positioned on the substrate, a drain region and a source region formed at respective two sides of the gate in the substrate, at least a first doped region formed in the drain region, and at least a first well having the first doped region formed therein. The source region and the drain region include a first conductivity type, the first doped region and the first well include a second conductivity type, and the first conductivity type and the second conductivity type are complementary to each other. | 09-25-2014 |
20150221634 | SEMICONDUCTOR DEVICE FOR ELECTROSTATIC DISCHARGE PROTECTION - A semiconductor device includes a substrate, a gate positioned on the substrate, a drain region and a source region formed at respective two sides of the gate in the substrate, at least a first doped region formed in the drain region, and at least a first well having the first doped region formed therein. The source region and the drain region include a first conductivity type, the first doped region and the first well include a second conductivity type, and the first conductivity type and the second conductivity type are complementary to each other. | 08-06-2015 |
20150228771 | ELECTROSTATIC DISCHARGE PROTECTION STRUCTURE CAPABLE OF PREVENTING LATCH-UP ISSUE CAUSED BY UNEXPECTED NOISE - An electrostatic discharge protection structure includes a first well, a second well disposed in the first well, a first and a second doped region disposed in the first well, a third and a fourth doped region disposed in the second well, a first electrode electrically connected to the first doped region and the second doped region, and a second electrode electrically connected to the fourth doped region. | 08-13-2015 |
20150236010 | ELECTROSTATIC DISCHARGE PROTECTION STRUCTURE CAPABLE OF PREVENTING LATCH-UP ISSUE CAUSED BY UNEXPECTED NOISE - The electrostatic discharge protection structure includes an N-well disposed on a substrate, a P-well disposed on the substrate and adjacent to the N-well, a first doped region of N-type conductivity disposed in the N-well, a second doped region of N-type conductivity disposed in the N-well, a third doped region of P-type conductivity disposed in the N-well, a fifth doped region of P-type conductivity disposed in the P-well, a fourth doped region of N-type conductivity disposed between the third doped region and the fifth doped region in the P-well, an anode electrically connected to the first doped region and the second doped region, and a cathode electrically connected to the fourth doped region and the fifth doped region. | 08-20-2015 |
20150243776 | LATERALLY DIFFUSED METAL OXIDE SEMICONDUCTOR AND FIELD DRIFT METAL OXIDE SEMICONDUCTOR - A laterally diffused metal oxide semiconductor (LDMOS) is provided. A substrate has a deep well with a second conductive type therein. A gate is disposed on the substrate. A first doped region of a second conductive type and a second doped region of a first conductive type are located in the deep well and at the corresponding two sides of the gate. A drain region of a second conductive type is located in the first doped region. A drain contact is disposed on the drain region. A doped region of a first conductive type is located in the first doped region and under the drain region but not directly below the drain contact. A source region is located in the second doped region. A field drift metal oxide semiconductor (FDMOS) which is similar to the laterally diffused metal oxide semiconductor (LDMOS) is also provided. | 08-27-2015 |
20160035823 | SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate, a gate positioned on the substrate, a drain region and a source region formed in the substrate at two respectively sides of the gate, a first well region formed in the substrate, and a plurality of first doped islands formed in the source region. The drain region and the source region include a first conductivity, and the first well region and the first doped islands include a second conductivity. The source region is formed in the first well region, and the first doped islands are spaced apart from the first well region. | 02-04-2016 |
20160043216 | SEMICONDUCTOR DEVICE - A semiconductor device is includes a substrate, a gate positioned on the substrate, and a drain region and a source region formed at two respective sides of the gate in the substrate. The drain region includes a first doped region having a first conductivity type, a second doped region having a second conductivity type, and a third doped region. The first conductivity type and the second conductivity type are complementary to each other. The semiconductor device further includes a first well region formed under the first doped region, a second well region formed under the second doped region, and a third well region formed under the third doped region. The first well region, the second well region, and the third well region all include the first conductivity type. A concentration of the second well region is different from a concentration of the third well region. | 02-11-2016 |