A Fully Fail-Safe Capacitive-Based Charge Metering Method for Active Charge Balancing in Deep Brain Stimulation

机译：深脑刺激的主动充电平衡的全故障安全电容电荷计量方法

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Related to safety issues, charge balancing is a major concern in neural and functional electrical stimulation. This paper presents a capacitive-based charge metering method as a low-power and precise charge balancing method used in Deep Brain Stimulation (DBS). In contrast to the previously presented capacitive-based charge metering methods, the proposed method does not need any precise and high-speed comparator for net-zero charge detection. It is proven that this method is insensitive to the delay and the offset of its components. Consequently, using ultra-low power components in the charge balancer is feasible. Furthermore, the proposed method properly supports any stimulation mode and waveform. The proposed approach along with voltage and current mode pulse generators was validated in a 0.9% saline solution by using a DBS lead.

机译：与安全问题有关，费用平衡是神经和功能电刺激的主要问题。本文介绍了一种基于电容式电荷计量方法，作为深脑刺激（DBS）中使用的低功耗和精确的电荷平衡方法。与先前呈现的基于电容电荷计量方法相比，所提出的方法不需要任何精确和高速比较器进行Net-零电荷检测。证明该方法对其组件的延迟和偏移不敏感。因此，在充电平衡器中使用超低功率分量是可行的。此外，所提出的方法适当地支持任何刺激模式和波形。通过使用DBE铅，所提出的方法以及电压和电流模式脉冲发生器的验证方法在0.9 ％盐水溶液中验证。

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《Conference on Ph.D. Research in Microelectronics and Electronics》|2018年|283p|共4页
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Reza Ranjandish; Omid Shoaei; Alexandre Schmid;
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中图分类微电子学、集成电路（IC）;
关键词
Electrodes; Capacitors; Sensors; Satellite broadcasting; Radio frequency; Resistance; Brain stimulation;

机译：电极;电容;传感器;卫星广播;射频;抗性;脑刺激;

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2. Comments on “Compact, Energy-Efficient High-Frequency Switched Capacitor Neural Stimulator With Active Charge Balancing” [Aug 17 878-888] [J] . Urso Alessandro, Giagka Vasiliki, Serdijn Wouter A. IEEE transactions on biomedical circuits and systems . 2019,第2期

机译：关于“具有主动电荷平衡功能的紧凑型，节能高效的高频开关电容器神经刺激器”的评论[8月17 878-888]
3. Comments on “Compact, Energy-Efficient High-Frequency Switched Capacitor Neural Stimulator With Active Charge Balancing” [Aug 17 878-888] [J] . Urso Alessandro, Giagka Vasiliki, Serdijn Wouter A. IEEE transactions on biomedical circuits and systems . 2019,第2期

机译：评论“紧凑型，节能高频开关电容器神经刺激器具有主动充电平衡”[8月17日878-888]
4. A Fully Fail-Safe Capacitive-Based Charge Metering Method for Active Charge Balancing in Deep Brain Stimulation [C] . Reza Ranjandish, Omid Shoaei, Alexandre Schmid Conference on Ph.D. Research in Microelectronics and Electronics . 2018

机译：一种完全基于故障保护电容的电荷计量方法，用于深部脑刺激中的主动电荷平衡
5. Effect of low frequency bilateral deep brain stimulation of subthalamic nucleus on balance and gait in Parkinson disease [D] . Vallabhajosula, Srikant 2010

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6. An inexpensive charge-balanced rodent deep brain stimulation device: a step-by-step guide to its procurement and construction [O] . Samuel G. Ewing, Witold J. Lipski, Anthony A. Grace, -1

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7. Charge counter for performing active charge-balance in miniaturized electrical stimulators [O] . Becerra-Fajardo, Laura, Ivorra Cano, Antoni, 1974- 2015

机译：充电计数器用于在小型化电刺激器中执行主动电荷平衡

A Fully Fail-Safe Capacitive-Based Charge Metering Method for Active Charge Balancing in Deep Brain Stimulation

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