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引用次数: 0
摘要
这项工作提出了严格的全波建模工作,以满足设计挑战和严格的损耗预算,允许用于USB 3.1 Gen 2.0的协议分析仪以10 Gbps的速度运行。设计周期从使用ANSYS HFSS为高速应用构建高质量信号完整性的强大堆栈的基本基础开始。模型确实包含了实际制造设计参数和制造厂的约束条件。这对于保证第一个原型的正常工作和消除几个原型迭代的麻烦是非常必要的。阻抗、损耗、过路转换、不连续、串扰和布局路由都经过优化,以满足USB协议分析仪前端损耗预算的挑战性要求。实验结果验证了仿真结果。
Signal integrity for USB 3.1 Gen 2 front end challenging loss budget
This works presents rigorous full-wave modeling efforts to meet the design challenges and tight loss budget allowed for protocol analyzer intended for USB 3.1 Gen 2.0 operating at 10 Gbps. The design cycle starts from the basic foundation of building a robust stackup for high quality signal integrity for high speed applications using ANSYS HFSS. The models do include the actual manufacturing design parameters and constrains of fab house. This is very imperative to guarantee a properly working first prototype and to eliminate the hassle of several prototype iterations. Impedance, losses, via transition, discontinuities, cross talk, and layout routing are all optimized to meet the challenging requirements of front end loss budget for USB protocol analyzer. Experimental measurements are presented to validate the simulation results.
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