Patent application number | Description | Published |
20090261409 | SEMICONDUCTOR DEVICES FOR HIGH POWER APPLICATION - Semiconductor devices for high voltage application are presented. A high power semiconductor device includes a first type doped semiconductor substrate and a second type doped epitaxial layer deposited thereon. A first type doped body region is disposed in the second type doped epitaxial layer. A heavily doped drain region is formed in the second type doped epitaxial layer and isolated from the first type doped body region with an isolation region and a channel. A second type deep heavily doped region extends from the heavily doped drain region to the semiconductor substrate. A pair of inversed type heavily doped source regions is disposed in the first type doped body region. A gate electrode is disposed overlying the channel with a dielectric layer interposed therebetween. The high power semiconductor device is isolated from the other semiconductor devices with a first type deep heavily doped region. | 10-22-2009 |
20100087054 | METHOD FOR FORMING DEEP WELL OF POWER DEVICE - The invention provides a method for forming a deep well region of a power device, including: providing a substrate with a first sacrificial layer thereon; forming a first patterned mask layer on the first sacrificial layer exposing a first open region; performing a first doping process to the first open region to form a first sub-doped region; removing the first patterned mask layer and the first sacrificial layer; forming an epitaxial layer on the substrate; forming a second sacrificial layer on the epitaxial layer; forming a second patterned mask layer on the second sacrificial layer exposing a second open region; performing a second doping process to the second open region to form a second sub-doped region; removing the second patterned mask layer; performing an annealing process to make the first and the second sub-doped regions form a deep well region; and removing the second sacrificial layer. | 04-08-2010 |
20100148253 | HIGH VOLTAGE SEMICONDUCTOR DEVICES WITH SCHOTTKY DIODES - High voltage semiconductor devices with Schottky diodes are presented. A high voltage semiconductor device includes an LDMOS device and a Schottky diode device. The LDMOS device includes a semiconductor substrate, a P-body region in a first region of the substrate, and an N-drift region in the second region of the substrate with a junction therebetween. A patterned isolation region defines an active region. An anode electrode is disposed on the P-body region. An N | 06-17-2010 |
20100163989 | SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - A method for fabrication of a semiconductor device is provided. A first type doped body region is formed in a first type substrate. A first type heavily-doped region is formed in the first type doped body region. A second type well region and second type bar regions are formed in the first type substrate with the second type bar regions between the second type well region and the first type doped body region. The first type doped body region, the second type well region, and each of the second type bar regions are separated from each other by the first type substrate. The second type bar regions are inter-diffused to form a second type continuous region adjoining the second type well region. A second type heavily-doped region is formed in the second type well region. | 07-01-2010 |
20100207174 | SEMINCONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - The invention provides a method for forming a semiconductor structure. A plurality of first type well regions is formed in the first type substrate. A plurality of second type well regions and a plurality of second type bar doped regions are formed in the first type substrate by a doping process using a mask. The second type bar doped regions are diffused to form a second type continuous region by annealing. The second type continuous region is adjoined with the first type well regions. A second type dopant concentration of the second type continuous region is smaller than a second type dopant concentration of the second type bar doped regions. A second type source/drain region is formed in the second type well region. | 08-19-2010 |
20100207207 | SEMICONDUCTOR STRUCTURE - The invention provides a semiconductor structure. A first type body doped region is deposited on a first type substrate. A first type heavily-doped region having a finger portion with an enlarged end region is deposited on the first type body doped region. A second type well region is deposited on the first type substrate. A second type heavily-doped region is deposited on the second type well region. An isolation structure is deposited between the first type heavily-doped region and the second type heavily-doped region. A gate structure is deposited on the first type substrate between the first type heavily-doped region and the isolation structure. | 08-19-2010 |
20100301385 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE - An electrostatic discharge protection device including a substrate, a first doped region, a first gate electrode, a second doped region, a second gate electrode, and a third doped region is disclosed. The substrate has a first conductive type. The first doped region has a second conductive type and is formed in the substrate. The first gate electrode is formed on the substrate. The second doped region has the second conductive type and is formed in the substrate. A transistor is constituted by the first doped region, the first gate electrode, and the second doped region. The second gate electrode is formed on the substrate. The first and the second gate electrodes are separated. The third doped region has the first conductive type and is formed in the substrate. A discharge element is constituted by the first doped region, the second gate electrode, and the third doped region. | 12-02-2010 |
20120223383 | SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - A method for fabrication of a semiconductor device is provided. A first type doped body region is formed in a first type substrate. A first type heavily-doped region is formed in the first type doped body region. A second type well region and second type bar regions are formed in the first type substrate with the second type bar regions between the second type well region and the first type doped body region. The first type doped body region, the second type well region, and each of the second type bar regions are separated from each other by the first type substrate. The second type bar regions are inter-diffused to form a second type continuous region adjoining the second type well region. A second type heavily-doped region is formed in the second type well region. | 09-06-2012 |
20120231598 | SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - A method for fabrication of a semiconductor device is provided. A first type doped body region is formed in a first type substrate. A first type heavily-doped region is formed in the first type doped body region. A second type well region and second type bar regions are formed in the first type substrate with the second type bar regions between the second type well region and the first type doped body region. The first type doped body region, the second type well region, and each of the second type bar regions are separated from each other by the first type substrate. The second type bar regions are inter-diffused to form a second type continuous region adjoining the second type well region. A second type heavily-doped region is formed in the second type well region. | 09-13-2012 |