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TECHNOLOGY : Simulation and Modeling
     
 
Shocking Technologies uses a variety of computational modeling tools to characterize not only the bulk properties of the XStatic™ material, but also its performance enhancing attributes when incorporated into actual PCB geometries. These range from Density Functional Theory (DFT) based atomic level to Finite Element Method (FEM) based PCB geometry-level, as well as statistical (Monte Carlo) based simulators. Simulation results are routinely compared to actual measurement data to verify their accuracy.  
     
Simulation of current density during XStatic™ "clamp" mode
  Using these tools, Shocking Technologies is able to precisely model the impact of real world ESD-type transient waveforms, XStatic™ formulations, and implementation PCB geometries on overall ESD protection performance.  Modeling and verification include assessment of trigger and clamp voltages, pre- and post-transient leakage currents, and thermal performance such as localized hot spots and macro-level thermal power dissipation capabilities.
 
     
 
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