Design, Fabrication, and Characterization of a Laser-Controlled Explosion-Initiating Device with Integrated Safe-and-Arm, EMP-Resistant, and Fast-Acting Technology Based on Photovoltaic Power Converter

Abstract: To augment the intelligence and safety of a rocket or ammunition engine start, an intelligent initiation system needs to be included in the data link. A laser-controlled intelligent initiation system with inherent safety and a laser-controlled explosion-initiating device (LCEID) incorporating electromagnetic pulse (EMP) resistant, safe-and-arms fast-acting modular device based on photovoltaic power converter technology is designed and fabricated in this work. LCEID is an integrated multi-function module consis… Show more

“…Another group of authors designed and fabricated a laser-controlled intelligent initiation system with inherent safety and a laser-controlled explosion-initiating device (LCEID) using integrated safe-and-arm, electromagnetic pulse-resistant, and fast-acting technologies. A modular design and integrated circuit fabrication techniques were also used [ 15 ]. Some authors designed and fabricated an array piezoelectric–electromagnetic hybrid energy harvester and coupled the piezoelectric and electromagnetic energy by physically arranging permanent magnets on the cantilever beams, which gave the cantilever beam a customized resonant frequency and greater vibration amplitude under external excitation, thereby significantly improving the output power of the piezoelectric part [ 16 ].…”

Editorial for a Special Issue of Selected Papers from the 23rd Annual Conference and 12th International Conference of the Chinese Society of Micro-NanoTechnology (CSMNT 2021)

“…Another group of authors designed and fabricated a laser-controlled intelligent initiation system with inherent safety and a laser-controlled explosion-initiating device (LCEID) using integrated safe-and-arm, electromagnetic pulse-resistant, and fast-acting technologies. A modular design and integrated circuit fabrication techniques were also used [ 15 ]. Some authors designed and fabricated an array piezoelectric–electromagnetic hybrid energy harvester and coupled the piezoelectric and electromagnetic energy by physically arranging permanent magnets on the cantilever beams, which gave the cantilever beam a customized resonant frequency and greater vibration amplitude under external excitation, thereby significantly improving the output power of the piezoelectric part [ 16 ].…”

Editorial for a Special Issue of Selected Papers from the 23rd Annual Conference and 12th International Conference of the Chinese Society of Micro-NanoTechnology (CSMNT 2021)