<p>We propose an innovative electrically reconfigurable metasurface stirrer (ERMS) designed to significantly enhance the performance of reverberation chambers (RCs). Our proposed ERMS overcomes the limitations of traditional mechanical stirrers or paddles, such as reduced working volume and high lowest usable frequency (LUF). This is achieved by employing a novel metasurface integrated with varactor diodes, which manipulate the stirrer’s reflection phase without any mechanical movement. The fabricated ERMS consists of 88 metasurface unit cells, which measures 2.4 λ × 3.3 λ × 0.122 λ at 600&#xa0;MHz. Compared to a conventional mechanical stirrer, the ERMS lowered the LUF by 95&#xa0;MHz (from 420&#xa0;MHz to 325&#xa0;MHz), and the working volume increased by nearly three times (from 0.68&#xa0;m³ to 1.94&#xa0;m³), thanks to its superior field-stirring characteristics and low-profile planar design. Measurement results confirm that the ERMS significantly improves the capability of RCs, exhibiting an acceptably low standard deviation of fields. This achievement enables more accurate and efficient testing of antennas and wireless communication devices.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

A 1-bit electrically reconfigurable metasurface stirrer (ERMS) for improved reverberation chambers

  • Yewon Kim,
  • Soojeong Kim,
  • Seungkeun Park,
  • Dongho Kim

摘要

We propose an innovative electrically reconfigurable metasurface stirrer (ERMS) designed to significantly enhance the performance of reverberation chambers (RCs). Our proposed ERMS overcomes the limitations of traditional mechanical stirrers or paddles, such as reduced working volume and high lowest usable frequency (LUF). This is achieved by employing a novel metasurface integrated with varactor diodes, which manipulate the stirrer’s reflection phase without any mechanical movement. The fabricated ERMS consists of 88 metasurface unit cells, which measures 2.4 λ × 3.3 λ × 0.122 λ at 600 MHz. Compared to a conventional mechanical stirrer, the ERMS lowered the LUF by 95 MHz (from 420 MHz to 325 MHz), and the working volume increased by nearly three times (from 0.68 m³ to 1.94 m³), thanks to its superior field-stirring characteristics and low-profile planar design. Measurement results confirm that the ERMS significantly improves the capability of RCs, exhibiting an acceptably low standard deviation of fields. This achievement enables more accurate and efficient testing of antennas and wireless communication devices.