Design and Optimization of an Ultra-Low-Power Cross-Coupled LC VCO with a DFF Frequency Divider for 2.4 GHz RF Receivers Using 65 nm CMOS Technology

IF 1.6 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Low Power Electronics and Applications Pub Date : 2023-10-07 DOI:10.3390/jlpea13040054

Muhammad Faisal Siddiqui, Mukesh Kumar Maheshwari, Muhammad Raza, Aurangzeb Rashid Masud

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Abstract

This article presents the design and optimization of a tunable quadrature differential LC CMOS voltage-controlled oscillator (VCO) with a D flip-flop (DFF) frequency divider. The VCO is designed for the low-power and low-phase-noise applications of 2.4 GHz IoT/BLE receivers and wireless sensor devices. The proposed design comprises the proper stacking of an LC VCO and a DFF frequency divider and is simulated using a TSMC 65 nm CMOS technology, and it has a tuning range of 4.4 to 5.7 GHz. The voltage headroom is preserved using a high-impedance on-chip passive inductor at the tail for filtering and enabling true differential operation. The VCO and frequency divider consume as low as 2.02 mW altogether, with the VCO section consuming only 0.47 mW. The active area of the chip including the pads is only 0.47 mm2. The designed VCO achieved a much better phase noise of −118.36 dBc/Hz at a 1 MHz offset frequency with 1.2 V supply voltages. The design produced a much better FoM of −196.44 dBc/Hz compared to other related research.

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基于65nm CMOS技术的2.4 GHz射频接收器超低功耗交叉耦合DFF分频LC压控振荡器设计与优化

本文介绍了一种带D触发器(DFF)分频器的可调谐正交差分LC CMOS压控振荡器(VCO)的设计与优化。该VCO专为2.4 GHz IoT/BLE接收器和无线传感器设备的低功耗和低相位噪声应用而设计。该设计包括LC压控振荡器和DFF分频器的适当堆叠，并使用台积电65nm CMOS技术进行了仿真，其调谐范围为4.4至5.7 GHz。电压净空是通过在尾部使用高阻抗片上无源电感来滤波和实现真正的差分操作来保持的。压控振荡器和分频器的功耗低至2.02 mW，其中压控振荡器部分的功耗仅为0.47 mW。包括衬垫在内，芯片的有效面积仅为0.47 mm2。所设计的VCO在1.2 V电源电压下，在1 MHz偏置频率下实现了- 118.36 dBc/Hz的相位噪声。与其他相关研究相比，该设计产生了−196.44 dBc/Hz的更好的FoM。

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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