公开(公告)号：US08316690B1

公开(公告)日：2012-11-27

申请号：US12705975

申请日：2010-02-15

申请人： Karl F. Kiefer ,  Doug Heerman ,  Brian Philpot ,  Christopher DePalm ,  Gulnara Roberson ,  Eric Krug

发明人： Karl F. Kiefer ,  Doug Heerman ,  Brian Philpot ,  Christopher DePalm ,  Gulnara Roberson ,  Eric Krug

IPC分类号： G01M7/00

CPC分类号： G01M7/00 ,  G01M5/0033 ,  G01M5/0091 ,  G01S5/06

摘要： A method and system for detecting hypervelocity impacts on a detection surface utilizes multiple sensors that directly measure electrical pulse radio frequency (RF) emissions generated by hypervelocity impacts on a detection surface and time of arrival (TOA) position measurements for determining the precise impact location on the detection surface. The detection surface material is compressed differentially in such a way that the inherent equalization of the compressed electron density in one area of the impact is directed to the uncompressed area of the material causing an electrical current that flows until the redistribution of the electrical charge has been completed and the rapid redistribution of charge and inherent current that results emits the radio frequency pulse that is induced into the detection surface.

摘要翻译： 用于检测对检测表面的超高速冲击的方法和系统利用多个传感器，其直接测量由检测表面上的超高速冲击产生的电脉冲射频（RF）发射和到达时间（TOA）位置测量，以确定精确影响位置 检测面。 检测表面材料被差分地压缩，使得冲击的一个区域中的压缩电子密度的固有均衡指向材料的未压缩区域，导致流动的电流直到电荷的再分配已经被 完成并且快速重新分配电荷和固有电流，从而产生被引入检测表面的射频脉冲。