New triggering-speed-characterization method for diode-triggered SCR using TLP

The key parameters in the optimization of the Diode Triggered Silicon-Controlled Rectifier (DTSCR) as a RF ESD protection, are the turn-on time and the trigger-voltage overshoots seen before the SCR turns on, during very fast ESD transients [1]. But at this time, there is no normalized method to eva...

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Veröffentlicht in:	Microelectronics and reliability 2017-09, Vol.76-77, p.692-697
Hauptverfasser:	Mahane, Mouna, Trémouilles, David, Bafleur, Marise, Thon, Benjamin, Diatta, Marianne, Jaouen, Lionel
Format:	Artikel
Sprache:	eng
Schlagworte:	Critical charge DTSCR Electronics Electrostatic discharge (ESD) Engineering Sciences IEC Micro and nanotechnologies Microelectronics Radio frequency (RF) TLP Turn-on time
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container_title	Microelectronics and reliability
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creator	Mahane, Mouna Trémouilles, David Bafleur, Marise Thon, Benjamin Diatta, Marianne Jaouen, Lionel
description	The key parameters in the optimization of the Diode Triggered Silicon-Controlled Rectifier (DTSCR) as a RF ESD protection, are the turn-on time and the trigger-voltage overshoots seen before the SCR turns on, during very fast ESD transients [1]. But at this time, there is no normalized method to evaluate and report the ESD device turn-on speed [2]. Such a method would be required to effectively compare device performance. In this work a new method, based on stored-charge, is investigated to characterize the triggering speed of DTSCR using Transmission Line Pulsing (TLP) measurements. •The turn-on speed of different DUT could be compared by extracting their minimum stored charge using TLP current waveforms.•The critical charge is independent of the stress source impedance, whereas the turn-on time depends on how the DUT is biased.•The stored charge is a specific parameter of each thyristor structure, and depends on design and process parameters.•The lowest is the minimum stored charge, the faster is the DUT triggering.
doi_str_mv	10.1016/j.microrel.2017.07.063
format	Article
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But at this time, there is no normalized method to evaluate and report the ESD device turn-on speed [2]. Such a method would be required to effectively compare device performance. 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subjects	Critical charge DTSCR Electronics Electrostatic discharge (ESD) Engineering Sciences IEC Micro and nanotechnologies Microelectronics Radio frequency (RF) TLP Turn-on time
title	New triggering-speed-characterization method for diode-triggered SCR using TLP
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