| GREAT POWER SEMICONDUCTOR CORP. Patent applications |
| Patent application number | Title | Published |
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| 20120040503 | FABRICATION METHOD OF INTEGRATING POWER TRANSISTOR AND SCHOTTKY DIODE ON A MONOLITHIC SUBSTRATE - A fabrication method of integrating a power transistor and a schottky diode on a monolithic substrate is provided. Firstly, a substrate of a first conductive type is provided. Then, at least a polysilicon gate and a second polysilicon structure are formed on the substrate. At least a portion of the second polysilicon structure is located on an upper surface of the substrate. Thereafter, a body of a second conductive type and a source region of the first conductive type are formed between the polysilicon gate and the second polysilicon structure. Then, an interlayer dielectric film is formed on the polysilicon gate to define a source contact window, but the second polysilicon structure is still exposed. Afterward, a portion of the second polysilicon structure is removed to form a schottky contact window to expose the substrate. | 02-16-2012 |
| 20110316077 | POWER SEMICONDUCTOR STRUCTURE WITH SCHOTTKY DIODE AND FABRICATION METHOD THEREOF - A power semiconductor structure with schottky diode is provided. In the step of forming the gate structure, a separated first polysilicon structure is also formed on the silicon substrate. Then, the silicon substrate is implanted with dopants by using the first polysilicon structure as a mask to form a body and a source region. Afterward, a dielectric layer is deposited on the silicon substrate and an open penetrating the dielectric layer and the first polysilicon structure is formed so as to expose the source region and the drain region below the body. The depth of the open is smaller than the greatest depth of the body. Then, a metal layer is filled into the open to electrically connect to the source region and the drain region. | 12-29-2011 |
| 20110306194 | FABRICATION METHOD OF SELF-ALIGNED TRENCHED POWER SEMICONDUCTOR STRUCTURE - A fabrication method of a self-aligned power semiconductor structure is provided. Firstly, a trenched polysilicon gate is formed in a silicon substrate. Then, a self-aligned polysilicon extending structure is formed on the trenched polysilicon gate. A width of the self-aligned polysilicon extending structure is smaller than that of the trenched polysilicon gate. Thereafter, the self-aligned polysilicon extending structure is oxidized to form a silicon oxide protruding structure on the trenched polysilicon gate. Then, a first spacer is formed on a sidewall of the silicon oxide protruding structure to define a source contact window. | 12-15-2011 |
| 20110298042 | POWER SEMICONDUCTOR DEVICE WITH TRENCH BOTTOM POLYSILICON AND FABRICATION METHOD THEREOF - A power semiconductor device comprising a base, a trench, a heavily doped polysilicon structure, a polysilicon gate, a gate dielectric layer, and a heavily doped region is provided. The trench is formed in the base. The heavily doped polysilicon structure is formed in the lower portion of the trench. At least a side surface of the heavily doped polysilicon structure touches the naked base. The polysilicon gate is located in the upper portion of the trench. The gate dielectric layer is interposed between the polysilicon gate and the heavily doped polysilicon structure. The dopants in the heavily doped polysilicon structure are diffused outward to form a heavily doped region. | 12-08-2011 |
| 20110278642 | POWER SEMICONDUCTOR STRUCTURE WITH FIELD EFFECT RECTIFIER AND FABRICATION METHOD THEREOF - A power semiconductor structure with a field effect rectifier having a drain region, a body region, a source region, a gate channel, and a current channel is provided. The body region is substantially located above the drain region. The source region is located in the body region. The gate channel is located in the body region and adjacent to a gate structure. The current channel is located in the body region and is extended from the source region downward to the drain region. The current channel is adjacent to a conductive structure coupled to the source region. | 11-17-2011 |
| 20110215397 | HIGH CELL DENSITY TRENCHED POWER SEMICONDUCTOR STRUCTURE AND FABRICATION METHOD THEREOF - The fabrication method of a high cell density trenched power semiconductor structure is provided. The fabrication method comprises the steps of: a) forming at least a gate trench in a substrate with a silicon oxide patterned layer formed thereon, said silicon oxide patterned layer having at least an open aligned to the gate trench; b) forming a polysilicon gate in the gate trench; c) forming a dielectric structure in the open, the dielectric structure has a sidewall thereof being lined with an etching protection layer; d) removing the silicon oxide patterned layer by selective etching; and e) forming a spacer on a side surface of the dielectric structure to define at least a contact window. | 09-08-2011 |
