Patent application number | Description | Published |
20090135532 | ELECTROSTATIC DISCHARGE PROTECTION CIRCUITS - An electrostatic discharge (ESD) protection circuit is provided. A transistor is coupled between a node and a ground, and has a gate coupled to the ground. A diode chain is coupled between the node and a pad, and comprises a plurality of first diodes connected in series, wherein the first diode is coupled in a forward conduction direction from the pad to the node. A second diode is coupled between the node and the pad, and the second diode is coupled in a forward conduction direction from the node to the pad. | 05-28-2009 |
20090140370 | SEMICONDUCTOR DEVICE - A semiconductor device is described. The semiconductor device comprises a protected device in a protected device area of a substrate. An electrostatic discharge power clamp device comprising an outer first guard ring and an inner second guard ring is in a guard ring area of the substrate, enclosing the protected device. The first guard ring comprises a first well region having a first conductive type. A first doped region having the first conductive type and a second doped region having a second conductive type are in the first well region. The second guard ring comprises a second well region having a second conductive type. A third doped region has the second conductive type in the second well region. An input/output device is in a periphery device area, coupled to the electrostatic discharge power clamp device. | 06-04-2009 |
20090261417 | TRIG MODULATION ELECTROSTATIC DISCHARGE (ESD) PROTECTION DEVICES - Trig modulation electrostatic discharge (ESD) protection devices are presented. An ESD protection device includes a semiconductor substrate. A high voltage N-well (HVNW) region is formed in the semiconductor substrate. An NDD region, a first P-body region and a second P-body region are formed in the HVNW region, wherein the first P-body region is separated from the second P-body region with a predetermined distance, and wherein the NDD region is isolated from the first P-body region with an isolation region. An N | 10-22-2009 |
20100187566 | INSULATED GATE BIPOLAR TRANSISTOR (IGBT) ELECTROSTATIC DISCHARGE (ESD) PROTECTION DEVICES - Insulated gate bipolar transistor (IGBT) electrostatic discharge (ESD) protection devices are presented. An IGBT-ESD device includes a semiconductor substrate and patterned insulation regions disposed on the semiconductor substrate defining a first active region and a second active region. A high-V N-well is formed in the first active region of the semiconductor substrate. A P-body doped region is formed in the second active region of the semiconductor substrate, wherein the high-V N-well and the P-body doped region are separated with a predetermined distance exposing the semiconductor substrate. A P | 07-29-2010 |
20100208398 | ELECTROSTATIC DISCHARGE PROTECTION CIRCUIT AND INTEFRATED CIRCUIT UTILIZING THE SAME - An ESD protection circuit coupled between a first power line and a second power line to avoid damage to an integrated circuit by an ESD event is disclosed. The ESD protection circuit includes a detection unit, a trigger unit, and a discharging unit. The detection unit asserts a detection signal when the ESD event occurs. The trigger unit asserts a first trigger signal and a second trigger signal when the detection is asserted. The discharging unit provides a discharge path to release an ESD current caused by the ESD event when the first and the second trigger signals are asserted. | 08-19-2010 |
20110012204 | TRIG MODULATION ELECTROSTATIC DISCHARGE (ESD) PROTECTION DEVICES - Trig modulation electrostatic discharge (ESD) protection devices are presented. An ESD protection device includes a semiconductor substrate. A high voltage N-well (HVNW) region is formed in the semiconductor substrate. An NDD region, a first P-body region and a second P-body region are formed in the HVNW region, wherein the first P-body region is separated from the second P-body region with a predetermined distance, and wherein the NDD region is isolated from the first P-body region with an isolation region. An N | 01-20-2011 |
20120001225 | INSULATED GATE BIPOLAR TRANSISTOR (IGBT) ELECTROSTATIC DISCHARGE (ESD) PROTECTION DEVICES - Insulated gate bipolar transistor (IGBT) electrostatic discharge (ESD) protection devices are presented. An IGBT-ESD device includes a semiconductor substrate and patterned insulation regions disposed on the semiconductor substrate defining a first active region and a second active region. A high-V N-well is formed in the first active region of the semiconductor substrate. A P-body doped region is formed in the second active region of the semiconductor substrate, wherein the high-V N-well and the P-body doped region are separated with a predetermined distance exposing the semiconductor substrate. A P | 01-05-2012 |
20120056239 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE - An electrostatic discharge protection device is coupled between a first power line and a second power line and comprises a P-type well, a first N-type doped region, a first P-type doped region, a second P-type doped region and a second N-type doped region. The first N-type doped region is formed in the P-type well. The first P-type doped region is formed in the first N-type doped region. The second P-type doped region comprises a first portion and a second portion. The first portion of the second P-type doped region is formed in the first N-type doped region. The second portion of the second P-type doped region is formed outside of the first N-type doped region. The second N-type doped region is formed in the first portion of the second P-type doped region. The first P-type doped region, the first N-type doped region, the second P-type doped region and the second N-type doped region constitute an insulated gate bipolar transistor (IGBT). | 03-08-2012 |
20120146151 | ELECTROSTATIC DISCHARGE PROTECTION DEVICE - An electrostatic discharge (ESD) protection device including a substrate, a first doped region, a second doped region, and a third doped region, a gate and a plurality of contacts is disclosed. The substrate includes a first conductive type. The first doped region is formed in the substrate and includes a second conductive type. The second doped region is formed in the substrate and includes the second conductive type. The third doped region is formed in the substrate, includes the first conductive type and is located between the first and the second doped regions. The gate is formed on the substrate, located between the first and the second doped regions and comprises a first through hole. The contacts pass through the first through hole to contact with the third doped region. | 06-14-2012 |