Sweta Agarwal, Samriddhi Raut, H. S. Jatana, Abhishek Dixit, S. Chatterjee
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引用次数: 0
Abstract
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.
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.
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