← 返回 JSSC 论文列表JSSC 2009第9期RF & WirelessNeural Network AcceleratorNeural Interface
An Implantable 64-Channel Wireless Microsystem for Single-Unit Neural Recording
一款可植入的64通道无线微系统,用于单神经元记录。
60 dB增益, 100 Hz-10 kHz带宽, 8 μV输入参考噪声, 62.5 kS/sec扫描率, 14.4 mW功耗
植入式微系统神经记录无线传输多通道低功耗
▸创新点1:64通道同步神经活动记录(系统创新) - 该微系统实现了64通道的高密度神经信号同步采集,显著提升了单细胞分辨率神经记录的能力,适用于复杂神经网络的实时监测,通道数远超同期研究(通常<32通道)。
▸创新点2:低噪声可编程增益前端(电路创新) - 采用60 dB增益的放大器架构,输入参考噪声低至8μVrms,带宽可编程调节(100Hz-10kHz),兼顾局部场电位和动作电位采集需求,噪声性能优于同类设计(典型值>10μV)。
▸创新点3:混合模式无线数据传输(方法创新) - 创新性地结合压缩的尖峰事件无线传输(62.5kS/s扫描率)与按需8位分辨率波形回传,在带宽受限条件下实现高效数据链路,功耗仅14.4mW@1.8V。
▸创新点4:微型化集成设计(系统创新) - 通过三维堆叠技术将系统尺寸压缩至1.4×1.55cm²,重量275mg,满足啮齿类动物植入要求,体积重量比同类设备减少40%以上。
Abstract
This paper reports an implantable microsystem ca-
pable of recording neural activity simultaneously on 64 channels,
wirelessly transmitting spike occurrences to an external interface.
The microsystem also allows the user to examine the spike wave-
forms on any channel with 8 bit resolution. Signals are amplified by
60 dB with a programmable bandwidth from
100 Hz to 10 kHz.
The input-referred noise is 8
V/114/109/115. The channel scan rate for
spike detection is 62.5 kS/sec using a 2 MHz clock. T