Patent application number | Description | Published |
20130187218 | ESD PROTECTION CIRCUIT - A device which includes a substrate defined with a device region having an ESD protection circuit is disclosed. The ESD protection circuit has a transistor. The transistor includes a gate having first and second sides. A first diffusion region is disposed adjacent to the first side of the gate and a second diffusion region is disposed in the device region displaced away from the second side of the gate. The first and second diffusion regions include dopants of a first polarity type. A drift isolation region is disposed between the gate and the second diffusion region. A first device well encompasses the device region and a second device well is disposed within the first device well. A drain well having dopants of the first polarity type is disposed under the second diffusion region and within the first device well. | 07-25-2013 |
20130187231 | ESD PROTECTION CIRCUIT - A device having a substrate defined with a device region which includes an ESD protection circuit is disclosed. The ESD protection circuit has first and second transistors. A transistor includes a gate having first and second sides, a first diffusion region in the device region adjacent to the first side of the gate, and a second diffusion region in the device region displaced away from the second side of the gate. The first and second diffusion regions include dopants of a first polarity type. The device includes a first device well which encompasses the device region and second device wells which are disposed within the first device well. A well contact is coupled to the second device wells. The well contact surrounds the gates of the transistors and abuts the first diffusion regions of the transistors. | 07-25-2013 |
20130207179 | ESD PROTECTION CIRCUIT - A device which includes a substrate defined with a device region with an ESD protection circuit having at least first and second transistors is disclosed. Each of the transistors includes a gate having first and second sides, a first diffusion region in the device region adjacent to the first side of the gate, a second diffusion region in the device region displaced away from the second side of the gate, and a drift isolation region disposed between the gate and the second diffusion region. A first device well encompasses the device region and a second device well is disposed within the first device well. The device also includes a drift well which encompasses the second diffusion region. Edges of the drift well do not extend below the gate and is away from a channel region. A drain well is disposed under the second diffusion region and within the drift well. | 08-15-2013 |
20130222950 | LATCH UP DETECTION - A device is presented. The device includes a first circuit coupled to first and second power rails of the device. The first circuit is subject to a latch up event in the presence of a latch up condition. The latch up event includes a low resistance path created between the first and second power rails. The device also includes a latch up sensing (LUS) circuit coupled to the first circuit. The LUS circuit is configured to receive a LUS input signal from the first circuit and generates a LUS output signal to the first circuit. When the input signal is an active latch up signal which indicates the presence of a latch up condition, the LUS circuit generates an active LUS output signal which creates a break in the low resistance path to terminate the latch up event. | 08-29-2013 |
20130222952 | ESD PROTECTION WITHOUT LATCH-UP - A device having an ESD module is disclosed. The ESD module includes an ESD circuit coupled between first and second rails and a control circuit coupled between the rails and to the ESD circuit. When the control circuit senses an ESD event, it causes the ESD circuit to create a current path between the rails to dissipate ESD current. When no ESD event is sensed, the control circuit ensures that no current path is created between the rails to prevent latch-up. | 08-29-2013 |
20130235496 | ESD-ROBUST I/O DRIVER CIRCUITS - An ESD-robust I/O driver circuit is disclosed. Embodiments include providing a first NMOS transistor having a first source, a first drain, and a first gate; coupling the first source to a ground rail and the first drain to an I/O pad; coupling a gate driver control circuit to the first drain and the first gate; and providing a ground potential to the first gate, via the gate driver control circuit, during an ESD event occurring from the I/O pad to the ground rail. | 09-12-2013 |
20130235498 | CROSS-DOMAIN ESD PROTECTION SCHEME - A cross-domain ESD protection scheme is disclosed. Embodiments include coupling a first power clamp to a first power rail and a first ground rail; providing a first NMOS transistor having a first source, a first drain, and a first gate; coupling the first source to a second ground rail; providing a first PMOS transistor having a second source, a second drain, and a second gate; coupling the second source to the first power rail; and providing, via the first power clamp, a signal to turn on the first NMOS transistor during an ESD event that occurs at the first power rail. | 09-12-2013 |
20130265676 | POWER CLAMP FOR HIGH VOLTAGE INTEGRATED CIRCUITS - A clamp circuit includes both nmos and pmos devices connected in series between a voltage source terminal, such as an integrated circuit pad, and ground. A trigger unit, connected between the voltage source and ground, includes a plurality of output terminals coupled to the clamp circuit. The trigger unit is responsive to a voltage threshold, such as caused by an ESD occurrence, between the voltage source and ground to apply clamping signals at its output terminals to couple the voltage source terminal to ground through both nmos and pmos devices. | 10-10-2013 |
20130279052 | ESD PROTECTION DEVICE WITH A TUNABLE HOLDING VOLTAGE FOR A HIGH VOLTAGE PROGRAMMING PAD - An ESD protection device with a tunable holding voltage is disclosed. Embodiments include: providing a silicon-controlled rectifier (SCR) having a first n-type layer with a cathode connection, a first p-type layer with a first control connection, a second n-type layer with a second control connection, and a second p-type layer with an anode connection; coupling the anode connection to a power rail; coupling the cathode connection to a ground rail; providing a tunable holding voltage control unit including a first NMOS having a first gate, a first drain, and a first source, wherein during an ESD event, the first NMOS is turned off and a holding voltage of the SCR is low; coupling the first drain to the first control connection; coupling the first source to the ground rail; and coupling the first gate to a program circuit. | 10-24-2013 |
20130286516 | GATE DIELECTRIC PROTECTION - Protecting a gate dielectric is achieved with a gate dielectric protection circuit coupled to a transistor at risk. The protection circuit is activated to reduce the voltage across the gate dielectric (V | 10-31-2013 |
20130308231 | ESD PROTECTION FOR HIGH VOLTAGE APPLICATIONS - An ESD module includes an ESD circuit coupled between a first source and a second source. A trigger circuit is also included in the ESD module for activating the ESD circuit to provide a low resistance current path between the first and second sources. The trigger circuit includes a reverse diode between the first source and the ESD circuit or between the second source and main ESD circuit. The trigger circuit provides a low trigger voltage to activate the ESD circuit. | 11-21-2013 |
20130320398 | LATCH-UP ROBUST SCR-BASED DEVICES - An approach for providing a latch-up robust silicon control rectifier (SCR) is disclosed. Embodiments include providing a first N+ region and a first P+ region in a substrate for a SCR; providing first and second n-well regions in the substrate proximate the first N+ and P+ regions; providing a second N+ region in the first n-well region, and a second P+ region in the second n-well region; and coupling the first N+ and P+ regions to a ground rail, the second N+ region to a power rail, and the second P+ region to an I/O pad. | 12-05-2013 |
20130321961 | ESD PROTECTION DEVICE FOR CIRCUITS WITH MULTIPLE POWER DOMAINS - A ESD protection scheme is disclosed for circuits with multiple power domains. Embodiments include: coupling a first power clamp to a first power rail and a first ground rail of a first domain; coupling a second power clamp to a second power rail and a second ground rail of a second domain; providing a blocking circuit for blocking current from an ESD event; providing an I/O interface connection in the first domain for transmitting signals from the first domain to the blocking circuit; providing a core interface connection in the second domain for transmitting signals from the blocking circuit to the second domain; coupling an input connection of the blocking circuit to the I/O interface connection; and coupling an output connection of the blocking circuit to a core interface connection. | 12-05-2013 |
20130321962 | ESD-ROBUST I/O DRIVER CIRCUITS - An ESD-robust I/O driver circuit is disclosed. Embodiments include providing a first NMOS transistor having a first source, a first drain, and a first gate; coupling the first source is coupled to a ground rail, and the first drain to an I/O pad; providing a gate driver control circuit including a second NMOS transistor having a second source, a second drain, and a second gate; and coupling the second drain to the first gate, the second source to the ground rail, wherein the gate driver control circuit provides a ground potential to the first gate during an ESD event occurring from the I/O pad to the ground rail. | 12-05-2013 |
20130321963 | ESD PROTECTION CIRCUIT - An ESD circuit is disclosed. The ESD circuit includes a pad and a ground and a sensing element coupled between the pad and ground for sensing an ESD current. The sensing element generates an active sense output signal when an ESD current is sensed and an inactive sense output signal when no ESD current is sensed. The ESD circuit also includes a bypass element comprising a bi-polar junction transistor. The bypass element is coupled in parallel to the sensing element between the pad and ground. The active sense output signal causes the bypass element to be activated to provide a current path between the pad and ground. | 12-05-2013 |
20130341675 | LATCH-UP FREE ESD PROTECTION - An ESD module having a first portion (FP) and a second portion (SP) in a substrate is presented. The FP includes a FP well of a second polarity type and first and second FP contact regions. The first FP contact region is of a first polarity type and the second FP contact region is of a second polarity type. The SP includes a SP well of a first polarity type and first and second SP contact regions. The first SP contact region is of a first polarity type and the second SP contact region is of a second polarity type. An intermediate portion (IP) is disposed in the substrate between the FP and SP in the substrate. The IP includes a well of the second polarity type. The IP increases trigger current and holding voltage of the module to prevent latch up during normal device operation. | 12-26-2013 |
20140002934 | LATCH-UP IMMUNE ESD PROTECTION | 01-02-2014 |
20140049313 | LATCH-UP ROBUST PNP-TRIGGERED SCR-BASED DEVICES - An approach for providing a latch-up robust PNP-triggered SCR-based device is disclosed. Embodiments include providing a silicon control rectifier (SCR) region; providing a PNP region having a first n-well region proximate the SCR region, a first N+ region and a first P+ region in the first n-well region, and a second P+ region between the SCR region and the first n-well region; coupling the first N+ region and the first P+ region to a power rail; and coupling the second P+ region to a ground rail. | 02-20-2014 |
20140054696 | NOVEL LATCH-UP IMMUNITY NLDMOS - An improved nLDMOS ESD protection device having an increased holding voltage is disclosed. Embodiments include: providing in a substrate a DVNW region; providing a HVPW region in the DVNW region; providing bulk and source regions in the HVPW region; providing a drain region in the DVNW region, separate from the HVPW region; and providing a polysilicon gate over a portion of the HVPW region and the DVNW region. | 02-27-2014 |
20140084366 | ESD PROTECTION CIRCUIT - A device having a substrate defined with a device region is presented. The device region includes an ESD protection circuit having a transistor. The transistor includes a gate having first and second sides, a first diffusion region adjacent to the first side of the gate and a second diffusion region displaced away from the second side of the gate. The device includes a first device well which encompasses the device region and a second device well disposed within the first device well. The device further includes a drift well which encompasses the second diffusion region of which edges of the drift well do not extend below the gate and is away from a channel region, and a drain well which is disposed under the second diffusion region and extends below the gate. | 03-27-2014 |
20140160604 | LATCH-UP FREE RC-BASED NMOS ESD POWER CLAMP IN HV USE - An RC-based electrostatic discharge protection device provides an extended snapback trigger voltage range, thereby avoiding latch-up. Two parallel current discharge paths are provided between supply terminals during an electrostatic discharge event by virtue of an added external resistor. The first current discharge path includes body resistance of the protection device and the second current discharge path includes the external resistor. | 06-12-2014 |
20140160605 | HIGH NOISE IMMUNITY WITH LATCH-UP FREE ESD CLAMP - A triple stack NMOS integrated circuit structure protection circuit for a plurality of terminals operative at respective voltage levels is coupled between the plurality of terminals. First and second NMOS elements of the triple stack NMOS share a common active region. A third NMOS element, vertically positioned with respect to the first and second NMOS elements, has an active region separate from the active region of the first and second NMOS elements. The first, second and third NMOS elements are connected in series between two terminals of the plurality of terminals. | 06-12-2014 |
20140247526 | FALSE-TRIGGERED IMMUNITY AND RELIABILITY-FREE ESD PROTECTION DEVICE - An acceptable voltage margin between a voltage level for triggering electrostatic current discharge and a voltage level for programming operation of an OTP device is determined. Activation of an ESD protection circuit is controlled in part in response to a false trigger prevention circuit. To avoid gate oxide breakdown that may occur with a MOSFET protection device used for higher voltage requirements of an OTP device, the ESD protection circuit employs a bipolar transistor. | 09-04-2014 |
20140264556 | ESD PROTECTION CIRCUIT - A device having a substrate defined with a device region is presented. The device region includes an ESD protection circuit having a transistor. The transistor includes a gate having first and second sides, a first diffusion region disposed adjacent to the first side of the gate and a second diffusion region displaced away from the second side of the gate. The device includes a first device well encompasses the device region and a second device well disposed within the first device well. The second device well encompasses the first diffusion region and at least a part of the gate. The device also includes a third well which is disposed within the second device well and a drain well which encompasses the second diffusion region and extends below the gate. | 09-18-2014 |