Patent application number | Description | Published |
20130049168 | RESISTOR AND MANUFACTURING METHOD THEREOF - A method for forming a resistor integrated with a transistor having metal gate includes providing a substrate having a transistor region and a resistor region defined thereon, forming a transistor having a polysilicon dummy gate in the transistor region and a polysilicon main portion with two doped regions positioned at two opposite ends in the resistor region, performing an etching process to remove the polysilicon dummy gate to form a first trench and remove portions of the doped regions to form two second trenches, and forming a metal gate in the first trench to form a transistor having the metal gate and metal structures respectively in the second trenches to form a resistor. | 02-28-2013 |
20130099307 | SEMICONDUCTOR DEVICE HAVING METAL GATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of a semiconductor device having metal gate includes providing a substrate having a first semiconductor device and a second semiconductor device formed thereon, the first semiconductor device having a first gate trench and the second semiconductor device having a second gate trench, forming a first work function metal layer in the first gate trench, forming a second work function metal layer in the first gate trench and the second gate trench, forming a first patterned mask layer exposing portions of the second work function metal layer in the first gate trench and the second gate trench, and performing an etching process to remove the exposed second work function metal layer. | 04-25-2013 |
20130106448 | TEST KEY STRUCTURE AND METHOD FOR MEASURING STEP HEIGHT BY SUCH TEST KEY STRUCTURE | 05-02-2013 |
20130130460 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A method for fabricating a semiconductor device comprises steps as follows: A first dummy gate having a first high-k gate insulator layer, a first composite sacrificial layer, and a first dummy gate electrode sequentially stacked on a substrate is firstly provided. The first dummy gate electrode is subsequently removed to expose the first composite sacrificial layer. The first composite sacrificial layer is then removed. Thereafter, a first work function layer is formed on the first high-k gate insulator layer, and a first metal gate electrode is formed on the first work function layer. | 05-23-2013 |
20130137256 | SEMICONDUCTOR PROCESS - A semiconductor process is provided. The prior steps include: a first gate including a first cap layer and a second gate including a second cap layer are formed on a substrate. A hard mask layer is formed to cover the first gate and the second gate. The material of the hard mask layer is different from the material of the first cap layer and the second cap layer. The hard mask layer is removed entirely after a lithography process and an etching process are performed. The following steps include: a material is formed to entirely cover the first gate and the second gate. The material, the first gate and the second gate are etched back to make the first gate and the second gate have the same level and expose layers in both of them. | 05-30-2013 |
20130168816 | RESISTOR AND FABRICATION METHOD THEREOF - The present invention provides a structure of a resistor comprising: a substrate having an interfacial layer thereon; a resistor trench formed in the interfacial layer; at least a work function metal layer covering the surface of the resistor trench; at least two metal bulks located at two ends of the resistor trench and adjacent to the work function metal layer; and a filler formed between the two metal bulks inside the resistor trench, wherein the metal bulks are direct in contact with the filler. | 07-04-2013 |
20130234216 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE AND PMOS DEVICE FABRICATED BY THE METHOD - A method for fabricating a semiconductor device is described. A gate layer, a C-doped first protective layer and a hard mask layer are formed on a substrate and then patterned to form a first stack in a first area and a second stack in a second area. A second protective layer is formed on the sidewalls of the first and the second stacks. A blocking layer is formed in the first area and a first spacer formed on the sidewall of the second protective layers on the sidewall of the second stack in the second area. A semiconductor compound is formed in the substrate beside the first spacer. The blocking layer and the first spacer are removed. The hard mask layer in the first stack and the second stack is removed. | 09-12-2013 |
20130277754 | Semiconductor Integrated Structure - The present invention provides a resistor structure including a substrate, an ILD layer, a transistor and a resistor. The substrate includes a resistor region and an active region. The ILD layer is disposed directly on the substrate. The transistor is disposed in the active region in the ILD layer wherein the transistor includes a metal gate. The resistor is disposed in the resistor region above the ILD layer, wherein the resistor directly contacts the ILD layer. | 10-24-2013 |
20140089869 | LAYOUT METHOD OF SEMICONDUCTOR CIRCUIT STRUCTURE - A layout method of a semiconductor circuit is provided. The layout method is firstly putting a plurality of circuit patterns on a substrate, wherein a first distance is the largest distance between any one of the circuit patterns and one of other circuit patterns adjacent thereto. The layout method is then determining whether the first distance is larger than a first critical value. Later, when the first distance is larger than the first critical value, at least a closed loop dummy pattern is putted in one of the areas corresponding to the first distance between the pair of the circuit patterns. The closed loop dummy pattern is putted in a same layer with the circuit patterns, surrounds between the pair of circuit patterns and is insulated from the circuit patterns. | 03-27-2014 |