T. Kadoyama, N. Suzuki, N. Sasho, H. Iizuka, I. Nagase, H. Usukubo, M. Katakura
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引用次数: 63
摘要
为了满足移动GPS应用的小尺寸、低功耗、低成本和高灵敏度等几个重要要求,我们开发了一个完整的单片GPS接收机,采用0.18-/spl μ m CMOS。这是无线电与基带处理器(如SoC)成功结合的第一个案例。,在GPS接收器中。GPS芯片的总尺寸为6.4/spl倍/6.4 mm,包含一个2.3/spl倍/2.0 mm的射频部分,包括射频前端、锁相环、中频功能和500k基带逻辑门,包括掩模ROM、SRAM和双端口SRAM。它采用0.18-/spl mu/m CMOS技术制造,带有MIM选项,工作电源为1.6至2.0 v。实验结果表明,包括基带在内的全功能芯片的功耗非常低,通常为57mw,灵敏度高达- 150dbm。通过对来自数字部分的衬底耦合噪声的对抗,成功地实现了高灵敏度,而不需要任何外部LNA。
A complete single-chip GPS receiver with 1.6-V 24-mW radio in 0.18-/spl mu/m CMOS
We have developed a complete single-chip GPS receiver using 0.18-/spl mu/m CMOS to meet several important requirements, such as small size, low power, low cost and high sensitivity for mobile GPS applications. This is the first case in which a radio has been successfully combined with a baseband processor, such as SoC., in a GPS receiver. The GPS chip, with a total size of 6.4/spl times/6.4 mm, contains a 2.3/spl times/2.0 mm radio part, including RF front end, PLLs, IF functions, and 500 K gates of baseband logic, including mask ROM, SRAM and Dual Port SRAM. It's fabricated using 0.18-/spl mu/m CMOS Technology with a MIM option and operates from a 1.6 to 2.0-V power supply. Experimental results show a very low power consumption of, typically, 57-mW for a fully functional chip including baseband, and a high sensitivity of -150 dBm. Through countermeasures for substrate coupling noise from the digital part, the high sensitivity was successfully achieved without any external LNA.
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