A 0.1–5GHz SDR transmitter with dual-mode power amplifier and digital-assisted I/Q imbalance calibration in 65nm CMOS

2013 IEEE Asian Solid-State Circuits Conference (A-SSCC) Pub Date : 2013-12-23 DOI:10.1109/ASSCC.2013.6691018

Yun Yin, B. Chi, Qian Yu, Bingqiao Liu, Zhihua Wang

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引用次数: 5

Abstract

A 0.1-5GHz Software-Defined Radio (SDR) transmitter in 65nm CMOS is presented. The transmitter integrates a dual-mode power amplifier (PA) for 0.1-1.5GHz low-cost narrowband applications (such as Industry Specific Applications, 2G, ZigBee), while a three-sub-band pre-power amplifier (PPA) is used for 0.45-5GHz high performance wideband applications (3G, 4G and etc.). A digital-assisted I/Q imbalance calibration circuit is proposed ahead the TX chain to pre-compensate I/Q mismatch in IF and LO modules. Analog baseband utilizes power scalable technique to optimize power consumption among different modes. The transmitter achieves -63.9dBc image rejection ratio (IRR) and -56.9dBc LO leakage rejection. In narrowband modes, the dual-mode PA provides >19dBm output P1dB with >20% PAE in its linear mode, and 23.2dBm maximum saturation power with 60% peak PAE in the switching mode. In wideband modes, the PPA provides maximum 9dBm output P1dB. F urthermore, system verifications demonstrate 0.5% EVM for 905MHz GSM at 19.5dBm output power. And the transmitter achieves -42.6dBc ACLR and 1.4% EVM for 2.3GHz LTE20 at 6.2dBm output.

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基于65nm CMOS的0.1-5GHz SDR发射器，采用双模功率放大器和数字辅助I/Q不平衡校准

提出了一种基于65nm CMOS的0.1-5GHz软件定义无线电(SDR)发射机。发射器集成了双模功率放大器(PA)，用于0.1-1.5GHz低成本窄带应用(如Industry Specific applications, 2G, ZigBee)，而三子带预功率放大器(PPA)用于0.45-5GHz高性能宽带应用(3G, 4G等)。提出了一种数字辅助I/Q不平衡校正电路，用于在信号传输链前预补偿中频和LO模块中的I/Q不匹配。模拟基带利用功率可扩展技术优化不同模式间的功耗。发射机实现了-63.9dBc的图像抑制比(IRR)和-56.9dBc的LO泄漏抑制。在窄带模式下，双模放大器在线性模式下提供>19dBm输出P1dB, PAE >20%;在开关模式下提供23.2dBm最大饱和功率，峰值PAE为60%。在宽带模式下，PPA提供最大9dBm输出P1dB。此外，系统验证表明，在19.5dBm输出功率下，905MHz GSM的EVM为0.5%。在6.2dBm输出下，2.3GHz LTE20的ACLR为-42.6dBc, EVM为1.4%。

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2013 IEEE Asian Solid-State Circuits Conference (A-SSCC)

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