A. S. Kyuregyan, “High-power nano- and picosecond optoelectronic switches based on high-voltage silicon structures with $p$–$n$ junctions: II. Energy efficiency”, Fizika i Tekhnika Poluprovodnikov, 2017, Volume 51, Issue 9,Pages 1263

This article is cited in 2 papers

Semiconductor physics

High-power nano- and picosecond optoelectronic switches based on high-voltage silicon structures with $p$–$n$ junctions: II. Energy efficiency

A. S. Kyuregyan

Russian Electrotechnical Institute Named after V. I. Lenin, Moscow, Russia

Abstract: The energy efficiency of optoelectronic switches based on high-voltage silicon photodiodes, phototransistors, and photothyristors controlled by picosecond laser pulses during the formation of voltage pulses on resistive load $R_L$ is studied for the first time. It is shown that at the given values of the resistive load $R_L$, pulse amplitude $U_R$ and duration $t_R$, there exist optimum device areas, energies, and absorbances of control radiation providing a maximum total switch efficiency of $\sim$0.92. All three switch types feature almost the same efficiency at short $t_R$; at longer $t_R$, photothyristors have a noticeable advantage.

Received: 21.12.2016
Accepted: 28.02.2017

DOI: 10.21883/FTP.2017.09.44892.8495