Sweta Agarwal, Samriddhi Raut, H. S. Jatana, Abhishek Dixit, S. Chatterjee
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引用次数: 0
摘要
本文介绍了用SCL $0.18\ \ \mu\mathrm{m}$体硅技术制造的高频应用1.66 nH螺旋电感和1.01 pF MIM电容器(MIMCAP)的建模。本文涵盖了使用双端口S参数测量的各种射频性能指标的严格研究。对于螺旋电感的建模,采用$1- \pi$模型方法,建立了基于T型拓扑的MIMCAP模型,该模型具有较好的精度。系统地介绍了从去嵌入的两端口S参数到等效$1-\pi$和T电路拓扑的参数转换和值提取的详细流程。模型结果与片上器件的实测数据进行了验证,在2.5范围内具有较好的一致性% of measurements over a frequency range of 2–6 GHz is obtained, thus enabling the applications in RF circuit designs.
SPICE Based Compact Modeling of Spiral Inductor and MIM Capacitor for RF Circuit Simulations
The paper presents the modeling of a 1.66 nH spiral inductor and 1.01 pF MIM Capacitor (MIMCAP) fabricated in SCL $0.18\ \ \mu\mathrm{m}$ bulk - Si technology for high - frequency applications. The paper covers a rigorous study of various RF performance metrics that are investigated using two - port S - parameter measurements. For spiral inductor modeling, the $1- \pi$ model approach is followed and the MIMCAP model is developed based on the T - topology, which promises good accuracy. A detailed flow for parameter inter - conversion and value extraction from de - embedded two - port S - parameters to equivalent $1-\pi$ and T circuit - topology is systematically presented. The model results are validated with the measured data from on - chip fabricated devices, and a good agreement within 2.5% of measurements over a frequency range of 2–6 GHz is obtained, thus enabling the applications in RF circuit designs.
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