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引用次数: 10
摘要
与传统的状态平均VR建模方法相比,开关稳压器(VR)建模在精度、功能、调谐能力和EMI扩展应用方面具有许多优势。在之前的工作中,Xu and Zhong(2013)的工作讨论了基于Pspice的切换VR建模。然而,由于电路的复杂性限制了仿真时间,这种方法的精度很高,而且常常导致收敛问题。此外,由于SPICE的性质,为了模拟其交流性能,必须推导单独的平均模型。在本文中,我们介绍了一种在Simplis环境下的新颖的交换VR建模方法,以及英特尔最新的服务器平台产品。除了出色的交流/瞬态相关性外,Simplis建模还展示了模拟VR控制器特定功能的能力,例如动态电压识别(DVID),高级瞬态算法(ATA),自动减相等。综合结果显示,系统设计师现在可以共同设计VR和板级电源,以实现最佳的整体性能和成本解决方案,这是一个令人兴奋的潜力。
Switching voltage regulator modeling and its applications in power delivery design
Switching voltage regulator (VR) modeling has numerous advantages over the conventional state average VR modeling methodology, in terms of accuracy, functionality, tuning capability, and extended applications on EMI. In previous work, switching VR modeling based on Pspice was discussed in the work of Xu and Zhong (2013). However, it is fairly accurate with simulation time limited by circuit complexity and often results in convergence issues. Besides, due to the SPICE nature, a separate average model has to be derived in order to simulate its AC performance. In this paper, we introduce a novel switching VR modeling methodology in Simplis environment, together with Intel latest server platform collaterals. In addition to excellent AC/Transient correlations, the Simplis modeling demonstrates the capability of simulating VR controller specific functions, such as dynamic voltage identification (DVID), Advanced Transient Algorithm (ATA), auto phase shedding, etc. The results in combination reveal an exciting potential that system designers now can co-design VR and board level power delivery to achieve best overall performance and cost solutions.
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