真空系统抽气设计因子的建模特性仿真

Hyungtaek Kim, Han-Ho Cho
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摘要

近年来,随着先进薄膜器件的发展,对沉积压力的要求越来越高,需要持续的高质量真空。正是出于这个原因,我们的研究试图了解如何在这种真空系统中采用可变设计因素。本研究模拟了设计因子应用对真空特性的影响,获得了超高真空系统变量模型的最佳设计模型。我们的调查使用了商用真空系统模拟器VacSim (multi)。通过对市售超高真空系统模型的仿真,验证了所采用仿真器的可靠性。所提出的模型所模拟的真空特性与实际系统所观察到的实验行为一致。仿真结果表明,在这些系统中,最优的设计模型能够达到最优的压力、泵速和压缩比。成功的流程管理。为了在超高真空条件下获得可靠的工作性能,必须充分利用真空系统的可变设计因素。随着电子器件的进步,可变设计因子在真空系统中的应用不断增加。在本研究中,我们研究了许多设计因素对涡轮分子泵(TMP)系统真空特性的影响。通过对模型TMP系统的仿真,得出了最佳泵送系数
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation of Modeling Characteristics of Pumping Design Factor on Vacuum System
Recently, with the development of advanced thin film devices comes the need for constant high quality vacuum as the deposition pressure is more demanding. It is for this reason our research seeks to understand how the variable design factors are employed in such vacuum systems. In this study, the effects of design factor applications on the vacuum characteristics were simulated to obtain the optimum design modeling of variable models on an ultra high vacuum system. The commercial vacuum system simulator, VacSim (multi) , was used in our investigation. The reliability of the employed simulator was verified by the simulation of the commercially available models of ultra high vacuum system. Simulated vacuum characteristics of the proposed modeling aligned with the observed experimental behavior of real systems. Simulated behaviors showed the optimum design models for the ideal conditions to achieve optimal pressure, pumping speed, and compression ratio in these systems. successful process managements. To achieve the reliable behavior in ultra high vacuum, it is essential to utilize the variable design factors on vacuum system. Applications of variable design factors on vacuum system has continued to grow with the advance of electronic devices. In this study, we investigated the effects of many design factors on vacuum characteristics of Turbo Molecular Pump(TMP) system. The acquired simulation results of the modeled TMP system suggested the optimum pumping factors for
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