Patent application number | Description | Published |
20130299921 | Method for Protecting a Gate Structure During Contact Formation - Various semiconductor devices are disclosed. An exemplary device includes: a substrate; a gate structure disposed over the substrate, wherein the gate structure includes a source region and a drain region; a first etch stop layer disposed over the gate structure, a second etch stop layer disposed over the source region and the drain region; a dielectric layer disposed over the substrate; and a gate contact, a source contact, and a drain contact. The dielectric layer is disposed over both etch stop layers. The gate contact extends through the dielectric layer and the first etch stop layer to the gate structure. The source contact and the drain contact extend through the dielectric layer and the second etch stop layer respectively to the source region and the drain region. | 11-14-2013 |
20140131814 | Photo Alignment Mark for a Gate Last Process - A semiconductor device is provided which includes a semiconductor substrate having a first region and a second region, the first and second regions being isolated from each other, a plurality of transistors formed in the first region, an alignment mark formed in the second region, the alignment mark having a plurality of active regions in a first direction, and a dummy gate structure formed over the alignment mark, the dummy gate structure having a plurality of lines in a second direction different from the first direction. | 05-15-2014 |
20140170820 | METHOD OF FABRICATING HYBRID IMPACT-IONIZATION SEMICONDUCTOR DEVICE - A method includes providing a semiconductor substrate having an active region and forming an isolation structure to isolate the active region. First and second gate structures are formed over the active region. First and second doped regions are formed within the active region of the substrate, the first doped region has a first conductivity type, the second doped region has the second conductivity type. The first and second gate structures are interposed between the first and second doped regions. | 06-19-2014 |
20140197496 | Semiconductor Structure with Suppressed STI Dishing Effect at Resistor Region - An integrated circuit includes a semiconductor substrate; a first shallow trench isolation (STI) feature of a first width and a second STI feature of a second width in a semiconductor substrate. The first width is less than the second width. The first STI feature has an etch-resistance less than that of the second STI feature. | 07-17-2014 |
20140203375 | Reduced Substrate Coupling for Inductors in Semiconductor Devices - The present disclosure provides reduced substrate coupling for inductors in semiconductor devices. A method of fabricating a semiconductor device having reduced substrate coupling includes providing a substrate having a first region and a second region. The method also includes forming a first gate structure over the first region and a second gate structure over the second region, wherein the first and second gate structures each include a dummy gate. The method next includes forming an inter layer dielectric (ILD) over the substrate and forming a photoresist (PR) layer over the second gate structure. Then, the method includes removing the dummy gate from the first gate structure, thereby forming a trench and forming a metal gate in the trench so that a transistor may be formed in the first region, which includes a metal gate, and an inductor component may be formed over the second region, which does not include a metal gate. | 07-24-2014 |
20140256102 | Vertical Tunneling Field-Effect Transistor Cell and Fabricating the Same - A method of making a tunneling field-effect transistor (TFET) device is disclosed. A frustoconical protrusion structure is disposed over the substrate and protrudes out of the plane of substrate. Isolation features are formed on the substrate. A drain region is disposed over the substrate adjacent to the frustoconical protrusion structure and extends to a bottom portion of the frustoconical protrusion structure as a raised drain region. A source region is formed as a top portion of the frustoconical protrusion structure. A series connection and a parallel connection are made among TFET devices units. | 09-11-2014 |
20140353794 | SEMICONDUCTOR ARRANGEMENT AND METHOD OF FORMING - A semiconductor arrangement is provided comprising a guard region. The semiconductor arrangement comprises an active region disposed on a first side of the guard region. The active region comprises an active device. The guard region of the semiconductor arrangement comprises residue from the active region. A method of forming a semiconductor arrangement is also provided. | 12-04-2014 |
20150020039 | CASCODE CMOS STRUCTURE - A MOS device includes an active area having first and second contacts. First and second gates are disposed between the first and second contacts. The first gate is disposed adjacent to the first contact and has a third contact. The second gate is disposed adjacent to the second contact and has a fourth contact coupled to the third contact. A transistor defined by the active area and the first gate has a first threshold voltage, and a transistor defined by the active area and the second gate has a second threshold voltage. | 01-15-2015 |