期刊
IEEE JOURNAL OF SOLID-STATE CIRCUITS
卷 -, 期 -, 页码 -出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSSC.2023.3335158
关键词
Capacitor charger; high-voltage (HV) tolerant; neural stimulation; rapid charge balancing (CB); stacked-capacitor discharger; stimulus-synchronized CB; switched-capacitor stimulation
This article presents a stacked-switched-capacitor stimulation system that can provide up to 9V stimulation without the need for an external high-voltage supply. The system achieves high efficiency and fast charge balancing through the use of level-adaptive switch control and stimulus-synchronized charge balancing method.
This article proposes a stacked-switched-capacitor stimulation (SSCS) system that can provide up to 9-V stimulation without using an external high-voltage (HV) supply or HV conversion stages to supply the stimulator. With the level-adaptive switch control, SSCS can be HV tolerant using only low-voltage (LV) transistors. In addition, SSCS achieves high stimulation efficiency up to 71.4%, which includes charging and discharging efficiencies of 72.6% and 99.9%, respectively, to charge 1-mu F capacitor from 0 to 4 V by adopting the ac-to capacitor charger and the stacked-capacitor stimulus discharger. Charge balancing (CB) can also be achieved in rapid time using the stimulus-synchronized CB (SS-CB) method which adaptively controls the pulsewidth of the recovery phase. The SSCS prototype verifies that the residual voltage up to 900 mV can be suppressed within four stimulation cycles and maintained within +/- 30 mV by utilizing SS-CB.
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