Patent application number | Description | Published |
20100033884 | ESD PROTECTION TRIGGER CIRCUIT - This invention discloses a trigger circuit for an electrostatic discharge (ESD) protection device, the ESD protection device being turned on during an ESD event and being turned off during a normal operation, the trigger circuit comprises a voltage sensing circuit coupled to a bonding pad, the voltage sensing circuit being configured to produce a first predetermined voltage during a ESD event, and to produce a second predetermined voltage complimentary to the first predetermined voltage during a normal operation, and a voltage converting circuit having a positive feedback circuit and coupled between the voltage sensing circuit and the ESD protection device for converting the first predetermined voltage to a third predetermined voltage for turning on the ESD protection device, and for converting the second predetermined voltage to a fourth predetermined voltage for turning off the ESD protection device. | 02-11-2010 |
20110006342 | ELECTROSTATIC DISCHARGE (ESD) PROTECTION CIRCUITS, INTEGRATED CIRCUITS, SYSTEMS, AND METHODS FOR FORMING THE ESD PROTECTION CIRCUITS - An electrostatic discharge (ESD) protection circuit coupled with an input/output (I/O) pad is provided. The ESD protection circuit includes a first field oxide device coupled between a first terminal that is capable of providing a first supply voltage and the I/O pad. The first field oxide device includes a drain end having a first type of dopant and a source end having the first type of dopant. The first field oxide device includes a first doped region having a second type of dopant disposed adjacent to the drain end of the first field oxide device and a second doped region having the second type of dopant disposed adjacent to the source end of the first field oxide device. | 01-13-2011 |
20120241972 | LAYOUT SCHEME FOR AN INPUT OUTPUT CELL - An integrated circuit layout for an Input Output (IO) cell includes at least three metal layers. An IO pad is disposed directly over a top metal layer of the at least three metal layers. At least top two metal layers of the at least three metal layers provide a power bus and a ground bus. | 09-27-2012 |
20120280323 | DEVICE HAVING A GATE STACK - A device includes a drain, a source, and a gate stack. The gate stack has a gate dielectric layer, a gate conductive layer immediately on top of the gate dielectric layer, and first gate and a second gate layer that are immediately on top of the gate conductive layer. The first gate layer has a first resistance higher than a second resistance of the second gate layer. The second gate layer is conductive, is electrically coupled with the gate conductive layer, and has a contact terminal configured to serve as a gate contact terminal for the device. Fabrication methods of the gate stack are also disclosed. | 11-08-2012 |
20130093052 | SEMICONDUCTOR INTEGRATED CIRCUIT HAVING A RESISTOR AND METHOD OF FORMING THE SAME - The present application discloses a semiconductor integrated circuit including a substrate having electrical devices formed thereon, a local interconnection layer formed over the substrate, and a global interconnection layer formed over the local interconnection layer. The local interconnection layer has a first set of conductive structures arranged to electrically connect within the individual electrical devices, among one of the electrical devices and its adjacent electrical devices, or vertically between the devices and the global interconnection layer. At least one of the first set of conductive structures is configured to have a resistance value greater than 50 ohms. The global interconnection layer has a second set of conductive structures arranged to electrically interconnect the electrical devices via the first set conductive structures. | 04-18-2013 |
20130182356 | ESD Clamp with Novel RC Triggered Circuit - Some embodiments relate to an area efficient electrostatic discharge (ESD) clamp comprising an RC trigger circuit, having one or more low-voltage, thin-oxide devices, which is configured to operate with a high-voltage power supply. In some embodiments, the ESD clamp comprises an RC trigger circuit connected between a first circuit node having a first voltage and a second circuit node having a second voltage. The RC trigger circuit comprises a resistive element connected in series with a thin-oxide MOS capacitor. The MOS capacitor has a source and drain connected to an intermediate supply voltage between the first and second voltage, and a body connected to the second voltage. By connecting the source and drain to the intermediate supply voltage, the thin-oxide MOS capacitor is able to reliably operate with a high-voltage power supply. | 07-18-2013 |
20130342941 | SIGE BASED GATE DRIVEN PMOS TRIGGER CIRCUIT - Some embodiments of the present disclosure relate to a low-power, area efficient ESD protection device that provides ESD protection to an ESD susceptible circuit. The ESD protection device has a trigger circuit with a resistor. The resistor has a first terminal connected to the first external pin and a second terminal connected directly to a gate of a SiGe based PMOS shunt transistor. The trigger circuit generates a trigger signal that drives the gate of the PMOS device to shunt power away from the ESD susceptible circuit when an ESD event is present. The SiGe based PMOS shunt transistor has a lower gate leakage than a conventional NMOS shunt transistors, thereby providing for an ESD circuit with a low leakage current at small gate lengths. | 12-26-2013 |
20140045310 | METHOD OF MAKING STRUCTURE HAVING A GATE STACK - A method includes removing a first portion of a gate layer of a structure. The structure includes a drain region, a source region, and a gate stack, and the gate stack includes a gate dielectric layer, a gate conductive layer directly on the gate dielectric layer, and the gate layer directly on the gate conductive layer. A drain contact region is formed on the drain region, and a source contact region is formed on the source region. A conductive region is formed directly on the gate conductive layer and adjacent to a second portion of the gate layer. A gate contact terminal is formed in contact with the conductive region. | 02-13-2014 |