CMOS digital tunable capacitance with tuning ratio up to 13 and 10dBm linearity for RF and millimeterwave design

2011 IEEE Radio Frequency Integrated Circuits Symposium Pub Date : 2011-06-05 DOI:10.1109/RFIC.2011.5940648

R. Debroucke, A. Pottrain, D. Titz, F. Gianesello, D. Gloria, C. Luxey, C. Gaquière

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引用次数: 9

Abstract

Nowadays capabilities offered by advanced silicon technologies enable both mmw design and agile circuits development, then the development of high performance tunable capacitance is now mandatory. One of the challenge to develop this component is to be able to design capacitance with a tuning range higher than 4 from RF up to millimeter wave range. Variable capacitance like MOS varactor does not meet circuit specifications due to their low tuning range and very high non linearity. Digital capacitances are a good candidate to address that need and this paper review the design, optimization and characterization of digital tunable capacitance (DTC). Specific DTC with series or traveling wave architecture are also address, allowing to synthesize high performance capacitance up to 110GHz regarding 10dBm linearity and a tuning ratio equal to 13. Those developments have been carried out using STMicroelectronics BiCMOS 0.13um millimeter wave technology. Finally, the design of a 60GHz Reflection Type Phase Shifter (RTPS) using 4 bits DTC is presented showing insertion loss less than 6dB and a phase shift of 62°.

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CMOS数字可调谐电容，调谐比高达13和10dBm线性度，用于射频和毫米波设计

如今，先进的硅技术提供的功能使毫米波设计和敏捷电路开发成为可能，因此高性能可调电容的开发现在是强制性的。开发该组件的挑战之一是能够设计从射频到毫米波范围的调谐范围高于4的电容。像MOS变容管这样的可变电容由于其调谐范围小，非线性非常高，不符合电路规范。数字电容是解决这一需求的一个很好的候选者，本文综述了数字可调谐电容(DTC)的设计、优化和表征。特定的DTC采用串联或行波架构，允许在10dBm线性度下合成高达110GHz的高性能电容，调谐比等于13。这些发展是采用意法半导体BiCMOS 0.13um毫米波技术实现的。最后，设计了一种采用4位DTC的60GHz反射型移相器(RTPS)，其插入损耗小于6dB，相移为62°。

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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2011 IEEE Radio Frequency Integrated Circuits Symposium

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