An integrated zigbee transmitter and DC-DC converter on 0.18μm HV RF CMOS technology

2013 IEEE 10th International Conference on ASIC Pub Date : 2013-10-01 DOI:10.1109/ASICON.2013.6811896

Chaojiang Li, Dawn Wang, Myra Boenke, T. Letavic, J. Cohn

引用次数: 1

Abstract

A System-On-Chip (SOC) demonstrator integrating a low-noise IEEE 802.15.4 Transmitter and a DC-DC converter on a 0.18um High Voltage (HV) and RF CMOS process is presented in this paper. Noise isolation performance is critical to success of this type of SOC. A complete direct conversion transmitter was designed and various Quadrature VCO topologies were analyzed and compared based on the phase noise performance, device reliability, design robustness and image rejection. The final QVCO used in the transmitter has a FOM of 187dB, leading to an overall phase noise of -123dBc/Hz at 1MHz offset. The deep Nwell from HVCMOS process can be effectively used to provide isolation between the circuit blocks with measured results showing a sufficient noise isolation between the sensitive RF circuit and the switching 10MHz DC-DC converter.

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基于0.18μm HV RF CMOS技术的集成zigbee发射器和DC-DC转换器

介绍了一种集成低噪声IEEE 802.15.4发送器和DC-DC转换器的片上系统(SOC)演示器，该系统采用0.18um高电压和射频CMOS工艺。噪声隔离性能对这种类型SOC的成功至关重要。设计了一个完整的直接转换发射机，并基于相位噪声性能、器件可靠性、设计鲁棒性和图像抑制性对各种正交VCO拓扑进行了分析和比较。发射机中使用的最终QVCO具有187dB的FOM，导致在1MHz偏移时的总相位噪声为-123dBc/Hz。来自HVCMOS工艺的深Nwell可以有效地用于在电路块之间提供隔离，测量结果显示敏感RF电路和开关10MHz DC-DC转换器之间具有足够的噪声隔离。

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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2013 IEEE 10th International Conference on ASIC

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