Add to ORKGA novel lateral diffusion MOS-embedded silicon-controlled rectifier with a high holding current (LDMOS-SCR-HHC) is proposed and verified in a 0.25-μ m 18-V Bipolar-CMOS-DMOS process. By adding an imbedded P+ region located next to the source region of an LDMOS-SCR and connecting the P+ region to the gate, the LDMOS-SCR-HHC exhibits a relatively HHC, small trigger voltage, and strong electrostatic discharge (ESD) robustness. As such, the proposed LDMOS-SCR-HHC is an attractive device for constructing effective and latch-up immune ESD protection solutions for high-voltage I/O ports
Abstract—An electrostatic discharge (ESD) protection design for smart power applications with latera...
[[abstract]]A simple gate-controllable high-voltage silicon-controlled rectifier (GC-HVSCR) is propo...
In this paper, a TSMC 0.25-mu m BCD process is used to evaluate the electrostatic discharge (ESD) pr...
(DHVSCR) device is proposed and verified in a 0.25- m/2.5-V salicided CMOS process. In the DHVSCR de...
[[abstract]]In this paper, comparison between original and Silicon Controlled Rectifier (SCR) struct...
[[abstract]]In this paper, comparison between original and Silicon Controlled Rectifier (SCR) struct...
Robust and novel devices called high-holding low-voltage trigger silicon controlled rectifiers (HH-L...
Robust and novel devices called High Holding, Low-Voltage-Trigger Silicon Controlled Rectifiers (HH-...
Robust and novel devices called High Holding, Low-Voltage-Trigger Silicon Controlled Rectifiers (HH-...
A new silicon-controlled rectifier (SCR) is proposed and realized in a 0.35-mu m/3.3-V fully salicid...
A novel and robust un-assisted low-trigger and high-holding voltage silicon controlled rectifier (uS...
A new silicon-controlled rectifier (SCR) is proposed and realized in a 0.35-μm/3.3-V fully salicided...
Robust and novel devices called High Holding, Low-Voltage-Trigger Silicon Controlled Rectifiers (HH-...
In this paper, a TSMC 0.25-��m BCD process is used to evaluate the electrostatic discharge (ESD) pro...
While silicon controlled rectifiers (SCRs) are highly robust electrostatic discharge (ESD) protectio...
Abstract—An electrostatic discharge (ESD) protection design for smart power applications with latera...
[[abstract]]A simple gate-controllable high-voltage silicon-controlled rectifier (GC-HVSCR) is propo...
In this paper, a TSMC 0.25-mu m BCD process is used to evaluate the electrostatic discharge (ESD) pr...
(DHVSCR) device is proposed and verified in a 0.25- m/2.5-V salicided CMOS process. In the DHVSCR de...
[[abstract]]In this paper, comparison between original and Silicon Controlled Rectifier (SCR) struct...
[[abstract]]In this paper, comparison between original and Silicon Controlled Rectifier (SCR) struct...
Robust and novel devices called high-holding low-voltage trigger silicon controlled rectifiers (HH-L...
Robust and novel devices called High Holding, Low-Voltage-Trigger Silicon Controlled Rectifiers (HH-...
Robust and novel devices called High Holding, Low-Voltage-Trigger Silicon Controlled Rectifiers (HH-...
A new silicon-controlled rectifier (SCR) is proposed and realized in a 0.35-mu m/3.3-V fully salicid...
A novel and robust un-assisted low-trigger and high-holding voltage silicon controlled rectifier (uS...
A new silicon-controlled rectifier (SCR) is proposed and realized in a 0.35-μm/3.3-V fully salicided...
Robust and novel devices called High Holding, Low-Voltage-Trigger Silicon Controlled Rectifiers (HH-...
In this paper, a TSMC 0.25-��m BCD process is used to evaluate the electrostatic discharge (ESD) pro...
While silicon controlled rectifiers (SCRs) are highly robust electrostatic discharge (ESD) protectio...
Abstract—An electrostatic discharge (ESD) protection design for smart power applications with latera...
[[abstract]]A simple gate-controllable high-voltage silicon-controlled rectifier (GC-HVSCR) is propo...
In this paper, a TSMC 0.25-mu m BCD process is used to evaluate the electrostatic discharge (ESD) pr...