An 82.9%-Efficiency Triple-Output Battery Management Unit for Implantable Neuron Stimulator in 180-nm Standard CMOS

Chi Wei Liu; Yi Lun Chen; Pei Chun Liao; Shiau Pin Lin; Ting Wei Wang; Ming Jie Chung; Po-Hung Chen; Ming-Dou Ker; Chung-Yu Wu

doi:10.1109/TCSII.2019.2909813

An 82.9%-Efficiency Triple-Output Battery Management Unit for Implantable Neuron Stimulator in 180-nm Standard CMOS

Chi Wei Liu, Yi Lun Chen, Pei Chun Liao, Shiau Pin Lin, Ting Wei Wang, Ming Jie Chung, Po-Hung Chen^*, Ming-Dou Ker, Chung-Yu Wu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

This brief presents a high-efficiency battery management unit combining a single-inductor dual-output (SIDO) buck converter with two charge pumps (CPs) to provide three voltage levels (6 V,-6 V, and 2 V) for neuron stimulators in implantable medical devices. The stacked power stage in the buck converter mitigates the voltage stress issue in the power stage to manage 3.2-4.8 V battery voltage. By cascading a buck converter and CPs, the voltage across the CP power stage is reduced to generate 6 V and-6 V high voltage outputs without using high voltage devices. As a result, the proposed battery management could provide 6 V,-6 V, and 2 V output voltages from 3.2 to 4.8 V input voltage using a 180-nm standard CMOS process. The measurement results demonstrate that the proposed battery management achieved a peak efficiency of 82.9% with an available input voltage of 3.2-4.8 V.

Original language	English
Article number	8684223
Pages (from-to)	788-792
Number of pages	5
Journal	IEEE Transactions on Circuits and Systems I: Regular Papers
Volume	66
Issue number	5
DOIs	https://doi.org/10.1109/TCSII.2019.2909813
State	Published - 1 May 2019

Keywords

BMU
High voltage generator
buck converter
charge pump
overstress
soft start-up
transistors stacking

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10.1109/TCSII.2019.2909813

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Liu, C. W., Chen, Y. L., Liao, P. C., Lin, S. P., Wang, T. W., Chung, M. J., Chen, P.-H., Ker, M.-D., & Wu, C.-Y. (2019). An 82.9%-Efficiency Triple-Output Battery Management Unit for Implantable Neuron Stimulator in 180-nm Standard CMOS. IEEE Transactions on Circuits and Systems I: Regular Papers, 66(5), 788-792. Article 8684223. https://doi.org/10.1109/TCSII.2019.2909813

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abstract = "This brief presents a high-efficiency battery management unit combining a single-inductor dual-output (SIDO) buck converter with two charge pumps (CPs) to provide three voltage levels (6 V,-6 V, and 2 V) for neuron stimulators in implantable medical devices. The stacked power stage in the buck converter mitigates the voltage stress issue in the power stage to manage 3.2-4.8 V battery voltage. By cascading a buck converter and CPs, the voltage across the CP power stage is reduced to generate 6 V and-6 V high voltage outputs without using high voltage devices. As a result, the proposed battery management could provide 6 V,-6 V, and 2 V output voltages from 3.2 to 4.8 V input voltage using a 180-nm standard CMOS process. The measurement results demonstrate that the proposed battery management achieved a peak efficiency of 82.9% with an available input voltage of 3.2-4.8 V.",

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author = "Liu, {Chi Wei} and Chen, {Yi Lun} and Liao, {Pei Chun} and Lin, {Shiau Pin} and Wang, {Ting Wei} and Chung, {Ming Jie} and Po-Hung Chen and Ming-Dou Ker and Chung-Yu Wu",

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AU - Lin, Shiau Pin

AU - Wang, Ting Wei

AU - Chung, Ming Jie

AU - Chen, Po-Hung

AU - Ker, Ming-Dou

AU - Wu, Chung-Yu

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AB - This brief presents a high-efficiency battery management unit combining a single-inductor dual-output (SIDO) buck converter with two charge pumps (CPs) to provide three voltage levels (6 V,-6 V, and 2 V) for neuron stimulators in implantable medical devices. The stacked power stage in the buck converter mitigates the voltage stress issue in the power stage to manage 3.2-4.8 V battery voltage. By cascading a buck converter and CPs, the voltage across the CP power stage is reduced to generate 6 V and-6 V high voltage outputs without using high voltage devices. As a result, the proposed battery management could provide 6 V,-6 V, and 2 V output voltages from 3.2 to 4.8 V input voltage using a 180-nm standard CMOS process. The measurement results demonstrate that the proposed battery management achieved a peak efficiency of 82.9% with an available input voltage of 3.2-4.8 V.

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An 82.9%-Efficiency Triple-Output Battery Management Unit for Implantable Neuron Stimulator in 180-nm Standard CMOS

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