Synthesis of a narrow-band Low Noise Amplifier in a 180 nm CMOS technology using Simulated Annealing with crossover operator

2013 26th Symposium on Integrated Circuits and Systems Design (SBCCI) Pub Date : 2013-10-24 DOI:10.1109/SBCCI.2013.6644878

T. Weber, Sergio Chaparro, W. Noije

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引用次数: 1

Abstract

This paper presents the accurate synthesis of a narrow-band CMOS Low Noise Amplifier (LNA) using an optimization-based approach. Multi-objective information and the corners of the fabrication process are used in the synthesizer to simultaneously optimize impedance matching, performance parameters and circuit robustness. The synthesis approach combines the Simulated Annealing algorithm with the crossover operator and an automatic weight adjustment technique. This combination allows the optimizer to escape local minimums and therefore successfully achieve the LNA specifications. Two solutions of the synthesis are presented and the performance is verified through simulations using a 180 nm CMOS process. The first 2.45 GHz LNA solution achieved a Noise Figure of 1.95 dB, a S21 of 13.6 dB, a S11 of -17 dB, draining a 4.6 mA current. The second solution, which starts from the final first solution and adds a linearity constraint, achieved a Noise Figure of 2.04 dB, a S21 of 12.89 dB, a S11 of -25 dB, a PIIP3 of -7.8 dBm with a current of 4.1 mA. The results indicate the efficiency of the technique to synthesize LNAs, providing solutions comparable to similar presented in the literature.

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基于模拟退火和交叉算子的180nm CMOS窄带低噪声放大器的合成

本文提出了一种基于优化的窄带CMOS低噪声放大器的精确合成方法。在合成器中利用多目标信息和加工过程中的转角来同时优化阻抗匹配、性能参数和电路鲁棒性。综合方法将模拟退火算法与交叉算子和权重自动调整技术相结合。这种组合允许优化器避开局部最小值，从而成功地实现LNA规范。提出了两种合成方案，并通过180 nm CMOS工艺的仿真验证了其性能。第一个2.45 GHz LNA解决方案的噪声系数为1.95 dB, S21为13.6 dB, S11为-17 dB，消耗4.6 mA电流。第二种解决方案从最终的第一种解决方案开始，并增加了线性约束，实现了噪声系数2.04 dB, S21为12.89 dB, S11为-25 dB, PIIP3为-7.8 dBm，电流为4.1 mA。结果表明该技术合成LNAs的效率，提供了与文献中类似的解决方案。

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2013 26th Symposium on Integrated Circuits and Systems Design (SBCCI)

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