用于多通道神经记录植入体的 78.8 pJ/b、100 Mb/s 非相干 IR-UWB 接收器。

Razieh Eskandari, Mohamad Sawan
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引用次数: 0

摘要

本文介绍了一种设计低功耗、低面积脉冲无线电超宽带(IR-UWB)非相干接收器的新方法,该接收器能够实现 100 Mbps 的数据传输速率。我们提出的接收器展示了在联邦通信委员会为 UWB 应用定义的整个低频段解调 ON-OFF 键控脉冲流的能力。拟议接收器的关键部件包括一个可重新配置的差分两级低噪声放大器、一个全差分平方器、窄带接口抑制滤波器和可变增益基带放大器。这些电路协同工作,确保高效的信号接收和处理。为了验证拟议接收器的性能,我们采用台积电 40 纳米 CMOS 工艺技术实现了设计。利用采用相同技术制造的典型上变频 UWB 发射器,对包括 1.5 厘米组织层在内的短程通信进行了测试。值得注意的是,所提出的接收器实现了 100 Mbps 的数据传输速率,能效低至 78.8 pJ/b,占地面积仅为 0.705 mm2。该接收器体积小、能效高、数据传输率高,符合神经记录植入物的严格要求。
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78.8 pJ/b, 100 Mb/s Noncoherent IR-UWB Receiver for Multichannel Neurorecording Implants.

In this article, we present a novel approach for designing a low-power, low-area impulse radio ultra-wideband (IR-UWB) noncoherent receiver capable of achieving a data rate of 100 Mbps. Our proposed receiver demonstrates the ability to demodulate ON-OFF keying pulse streams across the entire lower frequency band defined by the Federal Communication Commission for UWB applications. The key components of the proposed receiver include a reconfigurable differential two-stage low-noise amplifier, a fully differential squarer, narrow-band interface rejection filters, and variable gain baseband amplifiers. These circuits work cohesively to ensure efficient signal reception and processing. To validate the performance of the proposed receiver, we implemented the design using TSMC 40-nm CMOS process technology. A short-range communication including a 1.5 cm tissue layer is tested utilizing a typical upconversion UWB transmitter fabricated in the same technology. Remarkably, the proposed receiver achieves a data rate of 100 Mbps with an impressively low energy efficiency of 78.8 pJ/b and occupies an area of 0.705 mm2. The compact size, remarkable energy efficiency, and high data rate capabilities of the proposed receiver meet the stringent requirements of neural recording implants.

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