LTCC螺旋电感的合成与优化及测量验证

IEEE Transactions on Advanced Packaging Pub Date : 2010-02-01 DOI:10.1109/TADVP.2009.2028636

Hsin-Chia Lu, T. Chan, C. Chen, Chia-Ming Liu, Heng-Jui Hsing, Po-Sheng Huang

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引用次数: 20

摘要

在射频/微波电路设计中，电感器设计是最困难和最耗时的工作之一，因为为了达到电感、质量因子和占用空间等目标规格，需要经过繁琐的试错优化过程。本文提出了一种螺旋电感的快速合成方法，可根据电气规格自动生成电感的物理布局。通过将基板感知部分元件等效电路(PEEC)模型与非线性优化引擎融合，我们的建模和综合策略已经通过工业现场求解器和测量结果进行了验证。计算结果与全波电磁仿真软件计算结果相比，电感误差小于7%，品质因数误差小于9%。这可以为设计人员提供一个快速、良好的初始电感设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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LTCC Spiral Inductor Synthesis and Optimization With Measurement Verification

In RF/microwave circuit design, inductor design is one of the most difficult and time-consuming tasks due to the tedious trial-and-error optimization process to achieve the target specifications such as inductance, quality factor and occupied space. This paper brings forward a fast spiral inductor synthesis method, which automatically generates physical layout of inductors according to electrical specifications. By fusion of substrate-aware partial element equivalent circuit (PEEC) model with nonlinear optimization engine, our modeling and synthesis strategies have been verified with industrial field solver and measurement results. Our calculation results got less than 7% error for inductance and less than 9% for quality factor as compared to the results from full-wave electromagnetic simulation software. This can provide a fast and good initial inductor design for designer.

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IEEE Transactions on Advanced Packaging 工程技术-材料科学：综合

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审稿时长

6 months