A WiFi and Bluetooth Low-Energy Backscatter Combo Chip With Beam Steering Capabilities

Shih-Kai Kuo;Manideep Dunna;Dinesh Bharadia;Patrick P. Mercier
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Abstract

This article introduces a dual-mode backscatter integrated circuit that supports both WiFi and Bluetooth low-energy (BLE) transmissions. It enables a multiantenna WiFi mode with reconfigurable beam steering of single-sideband (SSB) quadrature phase shift-keying (QPSK) signals, while also facilitating omnidirectional SSB BLE-to-BLE backscatter communication. To achieve beam steering, two techniques are proposed: 1) a transmission-line-less fully reflective SP4T backscatter switch is employed to minimize power loss and maximize the communication range and 2) a multiantenna array is constructed using the aforementioned SP4T switches together with a baseband phase-shifting technique to reradiate the incident WiFi signal with a controllable angle of direction. The chip implementation is based on a 65-nm CMOS process and operates at a power consumption of $5.5 \mu \text{W}$ in standby mode. In backscattering mode, it consumes $39 \mu \text{W}$ for the single-antenna approach and $88 \mu \text{W}$ for the multiantenna approach. The proposed design achieves a worst-case access point (AP)-to-AP range of 35 and 56 m for the single-antenna and multiantenna approaches, respectively.
具有光束转向功能的 WiFi 和蓝牙低功耗反向散射组合芯片
本文介绍了一种同时支持 WiFi 和低能耗蓝牙 (BLE) 传输的双模反向散射集成电路。它实现了多天线 WiFi 模式,可对单边带(SSB)正交相移键控(QPSK)信号进行可重新配置的波束转向,同时还促进了全向 SSB BLE 到 BLE 的反向散射通信。为实现波束转向,提出了两种技术:1)采用无传输线的全反射 SP4T 后向散射开关,以最大限度地减少功率损耗并最大限度地扩大通信范围;2)使用上述 SP4T 开关和基带移相技术构建多天线阵列,以可控的方向角重新散射入射 WiFi 信号。芯片基于 65 纳米 CMOS 工艺实现,待机模式下的功耗为 5.5 \mu \text{W}$。在反向散射模式下,单天线方法的功耗为 39 \mu \text{W}$,多天线方法的功耗为 88 \mu \text{W}$。在最坏情况下,单天线和多天线方法的接入点(AP)到接入点(AP)的距离分别为 35 米和 56 米。
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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