磁耦合谐振式超导无线输电频率特性

传统无线输电系统在低频条件下的传输效率较低, 限制了其在电动汽车、水下潜艇等低频大功率无线输电场景的应用. 针对此问题, 提出使用高温超导线圈替代铜线圈的解决方案. 通过理论分析和实验验证, 研究了不同工作频率下超导与铜无线输电系统的传输特性. 结果表明, 超导线圈相比于铜线圈具有更低的电阻和更高的品质因数, 在低频条件下超导线圈具有独特优势, 同时证明了在低频工作的无线输电系统中, 使用超导线圈可大幅提升系统的输出功率和传输效率.

Frequency characteristics of magnetic coupling resonance superconducting wireless power transmission

Traditional wireless power transmission systems have lowtransmission efficiency under low-frequency conditions, limitingtheir application in low-frequency and high-power wireless powertransmission scenarios, such as electric vehicles and underwatersubmarines. In this study, a solution was developed to solve thisproblem using high-temperature superconducting coils instead ofcopper coils. The transmission characteristics of the wireless powertransmission systems with superconducting and copper coils atdifferent operating frequencies were investigated throughtheoretical analysis and experimental verification. The resultsshowed that the superconducting coils had a lower resistance and ahigher quality factor than the copper coils. In addition, thesuperconducting coils had unique advantages under low-frequencyconditions. It was demonstrated that the use of superconductingcoils in wireless power transmission systems operating at lowfrequencies could significantly improve the output power andtransmission efficiency of the system.