1) panoramic laser proximity fuse
周视激光引信
2) laser fuse
激光引信
1.
Design of laseremission unit in laser fuse;
激光引信中发射单元的设计
2.
Cloudy influence analysis of alitimetry performance of laser fuse and a solution;
云对激光引信测高性能的影响分析及解决方案
3.
In the sender of laser fuse,the factor M2 of the linear array laser cannot be measured as a single laser diode because the facular of the linear array laser diode is superposed by that of several single laser diode.
激光引信发射组件中,由于线性阵列激光二极管的光斑是由若干激光二极管的光斑叠加而成,其M2因子的测量不能简单地按照单个激光二极管M2因子的方法进行测量。
3) laser detonator
激光引信
1.
By using computer simulation technology and light scattering theory of a rough surface, the laser detonator received power is calculated,with the good agreeme nt with measurement practically.
基于激光引信近场散射模型 ,采用波束分割技术来处理宽波束局部照射目标的散射功率的计算 ,提出一种激光近场散射仿真算法 ,并运用计算机仿真技术结合粗糙面光散射理论 ,模拟计算激光引信接收功率。
4) Laser fuze
激光引信
1.
Collimation and test of semiconductor lasers in laser fuze;
激光引信中半导体激光器的准直及其测试
2.
Study on the PWM driver circuit of LD for laser fuze;
脉冲式激光引信用连续可调LD驱动电路的研究
3.
Laser fuze design for ballistic missile;
弹道导弹激光引信方案设计
5) laser proximity fuze
激光近炸引信
1.
The target detection with laser proximity fuze was simulated by collision detection;the speed of collision detection was improved using volume of object and target miss problem is solved.
研究了一种配有激光近炸引信的防空导弹毁伤效果评估仿真方法。
2.
The fixed distance precision of laser proximity fuze with the laser pulse-phase detecting system is discussed in this article.
研究了脉冲激光鉴相体制激光近炸引信的定距精度,提出了影响脉冲激光鉴相体制的激光定距引信技术精度的四个因素,并对影响精度的主要因素提出了减小定距误差的方法,采用了对数放大法和提高激光发射模块发射频率的方法相结合,从而能够满足定距精度为0。
3.
With the laser measuring distance pulsed phase the fixed distance precision of laser proximity fuze is discussed in this article.
文中对采用脉冲激光鉴相体制的激光近炸引信的定距精度进行了研究。
补充资料:激光视盘
分子式:
CAS号:
性质: 视盘由普通外径为300mm、厚度1.2mm的两块圆片相互黏合而成,每面预先刻录有携带图像和声音信息的250亿个微孔(信息槽)。每个微孔的深度约为0.12gm,宽约0.4/lm,长约0.9~3.3μm。由这些孔形成间距为1.6μm的螺旋形记录道。盘的中心孔径为35mm,四周用黏合剂密封,以防止水分侵入影响金属反射层的反射性能。外层有基片材料,一般用有机玻璃或其他类似材料构成。信息槽是由镍模压制在以丙烯酸酯为衬底的光敏漆层上,此漆用紫外光透过固化。
CAS号:
性质: 视盘由普通外径为300mm、厚度1.2mm的两块圆片相互黏合而成,每面预先刻录有携带图像和声音信息的250亿个微孔(信息槽)。每个微孔的深度约为0.12gm,宽约0.4/lm,长约0.9~3.3μm。由这些孔形成间距为1.6μm的螺旋形记录道。盘的中心孔径为35mm,四周用黏合剂密封,以防止水分侵入影响金属反射层的反射性能。外层有基片材料,一般用有机玻璃或其他类似材料构成。信息槽是由镍模压制在以丙烯酸酯为衬底的光敏漆层上,此漆用紫外光透过固化。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条