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引用次数: 2
摘要
提出了一种新的2.4 GHz LNA增益控制方法。在本设计中,实现了数字模式增益控制的概念。该芯片可以接受来自基带的适当控制位,从而达到节电的目的。采用数字模式增益控制,在不增加任何电路和功耗的情况下同时实现低噪声和高1dB压缩点。根据接收信号的强弱,有四种增益模式可自动选择。紧凑型CMOS LNA针对低功耗ISM波段应用进行了优化,采用商用0.18/spl μ m CMOS工艺制造。利用目前的重复使用技术,可以优化功耗和线性度。全集成2.4GHz增益可控LNA的最大增益为15.2dB,最小增益为4.1dB。此外,LNA在高增益模式下具有优异的噪声性能;本工程的噪声系数达到1.55dB。数字模式增益可控LNA产生- 10dbm的1db压缩输出功率。它从1.8V的电源电压中消耗2.5mA的电流。
A novel 2.4GHz LNA with digital gain control using 0.18/spl mu/m CMOS
This paper presents a novel gain control method for 2.4 GHz LNA applications. In this design, a digital mode gain control concept was implemented. This chip can accept an appropriate control bit that come from base band to achieve power saving. With digital mode gain control to achieve low noise and high 1dB compression point simultaneously without increasing any circuit and power consumption. Depend on receiving signal strength, there are four gain modes can be selecting automatically. The compact CMOS LNA is optimized for low-power-consuming ISM band applications and is fabricated using commercial 0.18/spl mu/m CMOS process. With current re-use technology, the power consumption and linearity can be optimizing. The fully integrated 2.4GHz gain controllable LNA exhibits 15.2dB maximum gain, 4.1dB minimum gain, respectively. Also, the LNA has excellent noise performance at high gain mode; 1.55dB of noise figure is achieved in this work. The digital modes gain controllable LNA produces a 1-dB compression output power of -10 dBm. It consumes 2.5mA current from a supply voltage of 1.8V.
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