摘要
In order to solve the problem that the traditional electromechanical fuze cannot complete the insurance release under the weak environmental forces and the traditional MEMS solid state switch cannot achieve the low-voltage driving capacity (5~35 V). A MEMS solid-state fuze was proposed based on silicon-based MEMS processing technology and corona discharge effect. A micrometer-scale design idea was used to achieve energy and information communication between the solid-state fuze and the fuze control system. First, establishing a mathematical model of Corona discharge and using finite element analysis methods such as COMSOL, the solid-state insurance control layer based on low-voltage driving was completed, and the average driving voltage (33.1 V) of the control layer was achieved in laboratory static testing. Second, the capacitor discharge mode was combined with electrical and Joule thermal simulations, using the capacitor energy storage index (10 V, 10 μF). Finally, the structural design of the execution layer under different current intensity environments was completed. Based on the MEMS processing technology, the production of solid-state safety fuze was finally achieved.
| 投稿的翻译标题 | Design of Low-Voltage Drive Solid-State Safety& Arming Device Based on Weak Environmental Force Miniature Fuze |
|---|---|
| 源语言 | 繁体中文 |
| 页(从-至) | 231-236 |
| 页数 | 6 |
| 期刊 | Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology |
| 卷 | 41 |
| 期 | 3 |
| DOI | |
| 出版状态 | 已出版 - 3月 2021 |
关键词
- Corona discharge
- Low voltage drive
- MEMS fuze
- Solid state fuze
- Weak environmental force release