Patent application number | Description | Published |
20120099228 | ESD PROTECTION FOR RF CIRCUITS - An electrostatic discharge (ESD) circuit, adaptive to a radio frequency (RF) device, which includes a RF circuit coupled between a VDD power rail and a VSS power rail and having a RF I/O pad, includes an ESD clamp circuit coupled between a VDD power rail node and the VSS power rail node and a LC-tank structure coupled between the VDD power rail node and the VSS power rail node and to the RF I/O pad. The LC-tank structure includes a first ESD block between the VDD power rail node and the RF I/O pad, and a second ESD block between the VSS power rail node and the RF I/O pad. At least one of the first and second ESD blocks includes a pair of diodes coupled in parallel with each other and an inductor coupled in series with one of the pair of diodes. | 04-26-2012 |
20120104387 | Four-Terminal Metal-Over-Metal Capacitor Design Kit - A device includes a first MOM capacitor; a second MOM capacitor directly over and vertically overlapping the first MOM capacitor, wherein each of the first and the second MOM capacitors includes a plurality of parallel capacitor fingers; a first and a second port electrically coupled to the first MOM capacitor; and a third and a fourth port electrically coupled to the second MOM capacitor. The first, the second, the third, and the fourth ports are disposed at a surface of a respective wafer. | 05-03-2012 |
20120112314 | Low Cost Metal-Insulator-Metal Capacitors - A device includes a top metal layer over a substrate; a copper-containing metal feature in the top metal layer; a passivation layer over the top metal layer; and a capacitor. The capacitor includes a bottom electrode including at least a portion in the first passivation layer, wherein the bottom electrode includes aluminum; an insulator over the bottom electrode; and a top electrode over the insulator. | 05-10-2012 |
20120293191 | HVMOS Reliability Evaluation using Bulk Resistances as Indices - A method of determining the reliability of a high-voltage PMOS (HVPMOS) device includes determining a bulk resistance of the HVPMOS device, and evaluating the reliability of the HVPMOS device based on the bulk resistance. | 11-22-2012 |
20140042506 | Transistors, Methods of Manufacture Thereof, and Image Sensor Circuits - Transistors, methods of manufacturing thereof, and image sensor circuits are disclosed. In one embodiment, a transistor includes a buried channel disposed in a workpiece, a gate dielectric disposed over the buried channel, and a gate layer disposed over the gate dielectric. The gate layer comprises an I shape in a top view of the transistor. | 02-13-2014 |
20140264505 | Methods for Measuring the Full Well Capacity of CMOS Image Sensors - An integrated circuit device includes a transfer-gate transistor, and a photo diode connected to a source/drain region of the transfer-gate transistor. An electrical fuse is electrically coupled to a gate of the transfer-gate transistor. A diode is electrically coupled to the electrical fuse. | 09-18-2014 |
20150262891 | Methods for Measuring the Full Well Capacity of CMOS Image Sensors - An integrated circuit device includes a transfer-gate transistor, and a photo diode connected to a source/drain region of the transfer-gate transistor. An electrical fuse is electrically coupled to a gate of the transfer-gate transistor. A diode is electrically coupled to the electrical fuse. | 09-17-2015 |
20150288940 | PIXEL ARRAY WITH CLEAR AND COLOR PIXELS EXHIBITING IMPROVED BLOOMING PERFORMANCE - This disclosure provides pixel arrays made up of a clear pixel and a color pixel. The color pixel includes a first photo-detecting element and a color pixel access transistor to selectively couple the first photo-detecting element to a first charge-storage node. The clear pixel includes a second photo-detecting element and a clear pixel access transistor to selectively couple the second photo-detecting element to a second charge-storage node. The color pixel access transistor transfers a first charge per unit time between the first photo-detecting element and the first charge-storage node. The clear pixel access transistor transfers a second charge per unit time between the clear pixel access transistor and the second charge-storage node. The first charge per unit time is less than the second charge per unit time to mitigate blooming. In other embodiments, the clear pixel includes an excess-charge transfer path that couples the clear pixel to a DC supply node to mitigate blooming. | 10-08-2015 |