Simultaneous wireless power and data transfer system with full-duplex mode based on half-cycle OFDM
Simultaneous wireless power and data transfer system with full-duplex mode based on half-cycle OFDM
A simultaneous wireless power and data transfer system (SWPDT) with full-duplex mode based on half-cycle orthogonal frequency division multiplexing (OFDM) technology is proposed to suppress interference from the power and ipsilateral carriers. The power carrier is regarded as the subcarrier carrying all the “1” data, which is used as the reference frequency, and the data subcarrier frequencies are determined according to the orthogonal properties of the power and data carriers to achieve full-duplex transmission. Demodulation integration cycle is reduced to half of the fundamental wave period, which doubles the data transmission rate. Depending on the proposed OFDM-based modulation and demodulation scheme, there is no need to use additional topologies to suppress interference from the power carrier and crosstalk from ipsilateral data source. In this article, simplified models of power and data transmission channels are developed, analyzed, and optimized to improve the data transmission gain. Finally, a 220 W experimental prototype was built, and tests show that the full-duplex communication rate could reach 170 kbps, which validates the correctness and effectiveness of the proposed SWPDT system.
Jing, Yongzhi
8896690c-5d23-40d7-9267-4a44777c2683
Fu, Kang
24fa806b-f42e-4529-bd87-40e7fa7ced6b
Yu, Jialong
b8a8ed29-3925-4f87-ad37-7e1322ff70a2
Dan, Xinjie
b23a7cbb-71f5-441c-ad47-716dfe75d8b2
Ni, Sheng
0647be10-860b-4e7b-b691-0be213389c91
Sharkh, Suleiman M.
c8445516-dafe-41c2-b7e8-c21e295e56b9
Jing, Yongzhi
8896690c-5d23-40d7-9267-4a44777c2683
Fu, Kang
24fa806b-f42e-4529-bd87-40e7fa7ced6b
Yu, Jialong
b8a8ed29-3925-4f87-ad37-7e1322ff70a2
Dan, Xinjie
b23a7cbb-71f5-441c-ad47-716dfe75d8b2
Ni, Sheng
0647be10-860b-4e7b-b691-0be213389c91
Sharkh, Suleiman M.
c8445516-dafe-41c2-b7e8-c21e295e56b9
Jing, Yongzhi, Fu, Kang, Yu, Jialong, Dan, Xinjie, Ni, Sheng and Sharkh, Suleiman M.
(2024)
Simultaneous wireless power and data transfer system with full-duplex mode based on half-cycle OFDM.
IEEE Transactions on Industrial Electronics.
(doi:10.1109/TIE.2024.3423328).
Abstract
A simultaneous wireless power and data transfer system (SWPDT) with full-duplex mode based on half-cycle orthogonal frequency division multiplexing (OFDM) technology is proposed to suppress interference from the power and ipsilateral carriers. The power carrier is regarded as the subcarrier carrying all the “1” data, which is used as the reference frequency, and the data subcarrier frequencies are determined according to the orthogonal properties of the power and data carriers to achieve full-duplex transmission. Demodulation integration cycle is reduced to half of the fundamental wave period, which doubles the data transmission rate. Depending on the proposed OFDM-based modulation and demodulation scheme, there is no need to use additional topologies to suppress interference from the power carrier and crosstalk from ipsilateral data source. In this article, simplified models of power and data transmission channels are developed, analyzed, and optimized to improve the data transmission gain. Finally, a 220 W experimental prototype was built, and tests show that the full-duplex communication rate could reach 170 kbps, which validates the correctness and effectiveness of the proposed SWPDT system.
Text
Simultaneous_Wireless_Power_and_Data_Transfer_System_With_Full-duplex_Mode_Based_on_Half-cycle_OFDM_2_
- Accepted Manuscript
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e-pub ahead of print date: 6 August 2024
Identifiers
Local EPrints ID: 493522
URI: http://eprints.soton.ac.uk/id/eprint/493522
ISSN: 0278-0046
PURE UUID: dfa9947a-f11c-4279-b1f9-660b454fbc9b
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Date deposited: 05 Sep 2024 16:39
Last modified: 06 Sep 2024 01:34
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Contributors
Author:
Yongzhi Jing
Author:
Kang Fu
Author:
Jialong Yu
Author:
Xinjie Dan
Author:
Sheng Ni
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