A 23mW fully integrated GPS receiver with robust interferer rejection in 65nm CMOS

Hyunwon Moon, Sangyoub Lee, Seungchan Heo, Hwayeal Yu, J. Yu, Ji-Soo Chang, S. Choi, Byeong-ha Park
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引用次数: 33

Abstract

Many mobile devices with personal navigation and location based services (LBS) are rapidly increasing in importance in our life. In particular, smart-phones with embedded GPS receivers are still growing their share and soon they will be the main products in the handset market. Co-existence of a GPS receiver together with cellular phones creates new challenges because leakage signals from the transmitters in 2G/3G systems are harmful interferers, making it difficult for the receiver to detect a weak GPS signal from satellites. In general, an external interstage SAW filter is used for rejecting blocking signals after the LNA. Recently, there have been attempts to remove the inter-stage SAW filter to minimize the number of external components required[1–3]. So, a single pre-select filter is only required to prevent the out-of-band signals from blocking the receiver between the antenna and the IC. Although previous publications utilize tuned LC loads to tolerate a strong interferer signal, the frequency selectivity of the LC resonators will show a limited performance because the center frequency of an LC-tuned structure is very dependent on PVT variations. In this paper, a fully integrated GPS receiver with robust characteristics against the large interferer signals is presented.
23mW全集成GPS接收机,抗干扰能力强,采用65nm CMOS
许多具有个人导航和基于位置的服务(LBS)的移动设备在我们生活中的重要性正在迅速增加。特别是,内置GPS接收器的智能手机的市场份额仍在增长,很快它们将成为手机市场的主要产品。GPS接收器与手机共存带来了新的挑战,因为2G/3G系统中发射机的泄漏信号是有害的干扰,使接收器难以检测到来自卫星的微弱GPS信号。一般来说,在LNA之后使用外部级间声波滤波器来抑制阻塞信号。最近,有人试图移除级间SAW滤波器,以尽量减少所需外部组件的数量[1-3]。因此,只需要一个预选择滤波器来防止带外信号阻塞天线和IC之间的接收器。尽管以前的出版物利用调谐的LC负载来容忍强干扰信号,但LC谐振器的频率选择性将显示出有限的性能,因为LC调谐结构的中心频率非常依赖于PVT变化。本文提出了一种具有抗大干扰信号鲁棒性的全集成GPS接收机。
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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