JSSC 2010第9期Data Converters0.18μm

A 64 Channel Programmable Closed-Loop Neurostimulator With 8 Channel Neural Ampl

一款用于闭环神经刺激的64通道可编程芯片，支持8通道神经信号放大与处理。

0.18μm CMOS, 1.8V, 89μW/271μW功耗

神经刺激器闭环系统深脑刺激CMOSADC

▸创新点1：64个可编程电流刺激通道，系统创新。通过集成64个独立的电流刺激通道，显著提高了神经刺激的灵活性和精度，支持多区域同步刺激，适用于复杂神经调控场景。

▸创新点2：8通道神经信号前置放大与滤波，电路创新。采用高增益、低噪声前置放大器和高阶滤波器，有效提取微弱神经信号，确保信号处理的准确性和可靠性。

▸创新点3：集成200kS/s 8位对数ADC，电路创新。通过集成高速对数ADC，实现了宽动态范围的神经信号数字化，支持高精度信号采集和处理，满足实时闭环控制需求。

▸创新点4：低功耗设计，系统创新。采用0.18μm CMOS工艺，优化电路设计，在正常工作模式下功耗仅为89μW，显著延长了设备的使用寿命，适合植入式医疗应用。

Abstract

This paper describes a neurostimulation IC for use in advanced closed-loop neurostimulation applications, such as deep brain stimulation (DBS) for treatment and research of neurological disorders including Parkinson’s disease. This system senses and ﬁlters neural activity with eight pre-ampliﬁers, a 200 kS/s 8-bit log ADC and digital ﬁlters and incorporates 64 programmable current-stimulation channels. The entire device, implemented in 0.18 m CMOS, occupies 2.7 mm/50and consumes 89 W in normal