电工技术学报2024,Vol.39Issue(14):4270-4281,12.DOI:10.19595/j.cnki.1000-6753.tces.230790
基于积分解调的无线能量与信号同步传输方法
Simultaneous Transmission Method of Wireless Power and Signals Based on Integral Demodulation
摘要
Abstract
Compared with traditional wired transmission,wireless power transfer(WPT)technology does not require physical contact to complete the transmission of electrical energy with power supply flexibility,safety,and reliability,which has been widely used in consumer electronics,smart homes,and other fields.In practical applications,real-time signal transmission is also required to complete the control instructions and upload feedback signals to enhance the overall performance of the system. Simultaneous wireless power and data transfer(SWPDT)technology can be realized using RF technology,multi-coupled channel technology and single-coupled channel technology,and single-coupled channel technology.It does not need complex pairing,and has high flexibility,small size,and wide applications.Single-coupled channel technology can be divided into two categories according to the signal transmission mode:energy modulation and high-frequency carrier modulation.The frequency of the energy carrier limits the signal transmission rate of energy modulation,affecting the stability of the energy during transmission.In contrast,high-frequency carrier modulation can achieve a higher signal transmission rate with simple control and low power loss. The channel bandwidth of the SWPDT system with a single coupling channel is limited,posing challenges for efficient power transmission due to interference between energy and signal channels.The analog circuit demodulation mode is difficult to extract envelope information,resulting in underutilization of bandwidth and increased susceptibility to interference.Therefore,this paper proposes a wireless energy and signal synchronous transmission method based on integral demodulation,which has a higher frequency band utilization rate and signal transmission rate.The energy interference carrier can be suppressed.Compared with the traditional analog circuit demodulation method,it does not need complex envelope detection and filter circuits,demonstrating robust anti-interference ability. The system proposed in this paper adopts a bilateral LCC compensation topology in the energy transmission channel,which can stabilize the output current when the load changes within a certain range.By modeling the equivalent circuit of the signal transmission channel and analyzing the transfer function,the parameters of the signal channel are optimized to make full use of the signal channel bandwidth.The amplitude-shift keying principle is used at the signal transmission end to modulate the signal and inject it into the energy transmission channel using the series connection of the transformer.In the signal receiving end,the carrier and coherent carrier mixing are received by the integral demodulation method,sent to the integrator for integration,and the original data is restored.The integration period and the code element cycle maintain consistency. The experimental results show that the proposed SWPDT system maintains the constant-current output characteristics.The low-frequency energy interference carrier is suppressed after mixing and integrating the sampled data.The integration results of the piggyback"0"and"1"signals have obvious differences.The original data can be effectively recovered,and a signal transmission rate of 1.2 Mbit/s is achieved under a 3.2 MHz signal carrier frequency,which has a relatively high bandwidth utilization rate.关键词
无线电能传输/单耦合通道/双边LCC补偿/积分解调Key words
Wireless power transfer/single coupled channel/bilateral LCC compensation/integral demodulation分类
信息技术与安全科学引用本文复制引用
靖永志,付康,谯柯,杨亮涛,刘沁宇..基于积分解调的无线能量与信号同步传输方法[J].电工技术学报,2024,39(14):4270-4281,12.基金项目
国家自然科学基金资助项目(52077183). (52077183)
