2.2 A fully integrated reconfigurable wideband envelope-tracking SoC for high-bandwidth WLAN applications in a 28nm CMOS technology

2017 IEEE International Solid-State Circuits Conference (ISSCC) Pub Date : 2017-02-01 DOI:10.1109/ISSCC.2017.7870247

D. Chowdhury, Sraavan R. Mundlapudi, A. Afsahi

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引用次数: 14

Abstract

Envelope tracking (ET) has become popular for enhancing battery life in mobile communication devices that employ high peak-to-average power ratio (PAPR) signals. Most of the published ET systems have focused either on narrow-bandwidth standards, 20MHz WLAN, or LTE [1–3]. However, as the demand for higher bandwidths and data-rates increases, so does the need for wideband ET solutions. Furthermore, to support modulations with different PAPR and transmit powers, the PA will likely require seamless switching between a continuous ET mode and a fixed-supply mode (as with a low drop-out regulator, i.e. a LDO). Hence, fast reconfigurability is needed, which most published ET systems lack. This paper describes a fully integrated, reconfigurable WLAN ET system with digital baseband in a 28nm CMOS technology for bandwidths up to 40MHz. The ET modulator directly interfaces with a battery (Vbat) and is fully integrated within a complete WLAN transceiver with RF, digital, and frequency synthesizer circuitry.

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2.2完全集成的可重构宽带包络跟踪SoC，适用于28nm CMOS技术的高带宽WLAN应用

包络跟踪(ET)在采用高峰值平均功率比(PAPR)信号的移动通信设备中已成为提高电池寿命的流行技术。大多数已发布的ET系统都侧重于窄带带宽标准、20MHz WLAN或LTE[1-3]。然而，随着对更高带宽和数据速率的需求增加，对宽带ET解决方案的需求也在增加。此外，为了支持具有不同PAPR和发射功率的调制，PA可能需要在连续ET模式和固定供电模式之间无缝切换(如使用低差调节器，即LDO)。因此，需要快速可重构性，这是大多数已发布的ET系统所缺乏的。本文描述了一个完全集成的、可重构的WLAN ET系统，该系统采用28nm CMOS技术，具有数字基带，带宽高达40MHz。ET调制器直接与电池(Vbat)接口，并完全集成在具有RF，数字和频率合成器电路的完整WLAN收发器中。

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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2017 IEEE International Solid-State Circuits Conference (ISSCC)

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