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Integrated reciprocal conversion with selective direct operation for energy harvesting systems

Integrated reciprocal conversion with selective direct operation for energy harvesting systems
Integrated reciprocal conversion with selective direct operation for energy harvesting systems
Energy harvesting IoT systems aim for energy neutrality, i.e. harvesting at least as much energy as is needed. This however, is complicated by variations in environmental energy and application demands. Conventional systems use separate power converters to interface between the harvester and storage, and then to the CPU system. Reciprocal power conversion has recently been proposed to perform both roles, eliminating redundancy and minimizing losses. This paper proposes to enhance this topology with ‘selective direct operation’, which completely bypasses the converter when appropriate. The integrated system, with 82% bidirectional conversion efficiency, was validated in 65nm CMOS with only the harvester, battery and decoupling capacitors being off-chip. Optimized for operation with cm² photo-voltaic cell and a 32-bit sub-threshold processor, the scheme enables up to 16% otherwise wasted energy to be utilized to provide >30% additional compute cycles under realistic indoor lighting conditions. Measured results show 84% peak conversion efficiency and energy neutral execution of benchmark sensor software (ULPBench) with cold-start capability.
1549-8328
2370-2379
Savanth, Parameshwarappa Anand, Kumar
57b60ac8-bbb6-4517-9d5e-668d82500190
Weddell, Alexander
3d8c4d63-19b1-4072-a779-84d487fd6f03
Myers, James
b541d1fd-a24a-4771-91b3-84e1ac8c7fe5
Flynn, David
9cb44648-488b-4f22-b72b-7e5117cd919c
Al-Hashimi, Bashir
0b29c671-a6d2-459c-af68-c4614dce3b5d
Savanth, Parameshwarappa Anand, Kumar
57b60ac8-bbb6-4517-9d5e-668d82500190
Weddell, Alexander
3d8c4d63-19b1-4072-a779-84d487fd6f03
Myers, James
b541d1fd-a24a-4771-91b3-84e1ac8c7fe5
Flynn, David
9cb44648-488b-4f22-b72b-7e5117cd919c
Al-Hashimi, Bashir
0b29c671-a6d2-459c-af68-c4614dce3b5d

Savanth, Parameshwarappa Anand, Kumar, Weddell, Alexander, Myers, James, Flynn, David and Al-Hashimi, Bashir (2017) Integrated reciprocal conversion with selective direct operation for energy harvesting systems. IEEE Transactions on Circuits and Systems I: Regular Papers, 64 (9), 2370-2379. (doi:10.1109/TCSI.2017.2707304).

Record type: Article

Abstract

Energy harvesting IoT systems aim for energy neutrality, i.e. harvesting at least as much energy as is needed. This however, is complicated by variations in environmental energy and application demands. Conventional systems use separate power converters to interface between the harvester and storage, and then to the CPU system. Reciprocal power conversion has recently been proposed to perform both roles, eliminating redundancy and minimizing losses. This paper proposes to enhance this topology with ‘selective direct operation’, which completely bypasses the converter when appropriate. The integrated system, with 82% bidirectional conversion efficiency, was validated in 65nm CMOS with only the harvester, battery and decoupling capacitors being off-chip. Optimized for operation with cm² photo-voltaic cell and a 32-bit sub-threshold processor, the scheme enables up to 16% otherwise wasted energy to be utilized to provide >30% additional compute cycles under realistic indoor lighting conditions. Measured results show 84% peak conversion efficiency and energy neutral execution of benchmark sensor software (ULPBench) with cold-start capability.

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Accepted/In Press date: 12 May 2017
e-pub ahead of print date: 14 June 2017
Published date: September 2017
Related URLs:
Organisations: Electronics & Computer Science, Faculty of Physical Sciences and Engineering, EEE, Southampton Marine & Maritime Institute
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 411741
URI: http://eprints.soton.ac.uk/id/eprint/411741
DOI: doi:10.1109/TCSI.2017.2707304
ISSN: 1549-8328
PURE UUID: 67e0eee1-fd0e-4df7-a71b-27bd8fc6fe9a
ORCID for Alexander Weddell: ORCID iD orcid.org/0000-0002-6763-5460

Catalogue record

Date deposited: 23 Jun 2017 16:31
Last modified: 16 Mar 2024 03:49

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Contributors

Author: Parameshwarappa Anand, Kumar Savanth
Author: Alexander Weddell ORCID iD
Author: James Myers
Author: David Flynn
Author: Bashir Al-Hashimi

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