IEEE Transactions on Circuits and Systems I: Regular Papers
IEEE Transactions on Circuits and Systems I: Regular Papers
3 years ago

Active Charge Balancer With Adaptive 3.3 V to 38 V Supply Compliance for Neural Stimulators

Natalie Butz, Utpal Kalita, Yiannos Manoli
Charge balancing has become a common key safety requirement of electrical stimulation systems. It reduces the risk of electrode dissolution and tissue damage, which might arise after unbalanced stimulation pulses. A CMOS integrated consequence-based active charge balancer is presented that instantaneously removes excess charges between two consecutive stimulation pulses. This balancer provides a highly adaptive power supply compliance from 3.3 V to 38 V, verified by measurements. In order to maintain the compensation behavior and efficacy over the entire supply range and to protect the active components at such high voltages, a quad-rail design is elaborated that overcomes the technological high voltage limitations of the employed 0.35 CMOS process. The presented charge balancing circuit consists of a fully differential operational transconductance amplifier for monitoring and voltage level translation, as well as an advanced class-B stage as current driver, designed in accordance with the quad-rail concept. Further system flexibility is provided by incorporating three different compensation current limitations of , and . Additionally, two safety limits of ±50 mV and ±100 mV have been adopted. The charge balancer is very power efficient, it only dissipates 6.3 and 25 , at 3.3 V and 38 V respectively.

Publisher URL: http://ieeexplore.ieee.org/document/9513307

DOI: 10.1109/tcsi.2021.3101550

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