Design and analysis of a multi-finger dual-direction SCR discharging electro-static current in a gradual transition manner

Abstract: In order to seek an electro-static discharge with higher failure current per unit area and latch-up immunity, a novel multi-finger dual-direction silicon controlled rectifier (DDSCR) using the 0.5 µm complementary and double-diffusion metal-oxide-semiconductor technology was proposed. The working principle of the device is analyzed by using equivalent circuit and technology computer aided design simulation. From the test result of the transmission line pulse testing system we can see that the holding voltages … Show more

“…High-tech chip applications place higher demands on onchip integrated ESD devices. The SCR can achieve high ESD robustness through structural improvement, layout optimization and other measures [1][2][3][4][5]. In a large number of studies on SCR devices, Wang et al proposed a bidirectional SCR device for a high-voltage communication bus.…”

Analysis of High-Failure Mechanism Based on Gate-Controlled Device for Electro-Static Discharge Protection

“…High-tech chip applications place higher demands on onchip integrated ESD devices. The SCR can achieve high ESD robustness through structural improvement, layout optimization and other measures [1][2][3][4][5]. In a large number of studies on SCR devices, Wang et al proposed a bidirectional SCR device for a high-voltage communication bus.…”

Analysis of High-Failure Mechanism Based on Gate-Controlled Device for Electro-Static Discharge Protection