相干光子混频器的紧凑矩形波导(WR-12)跃迁

2016 Global Symposium on Millimeter Waves (GSMM) & ESA Workshop on Millimetre-Wave Technology and Applications Pub Date : 2016-06-06 DOI:10.1109/GSMM.2016.7500287

B. Khani, V. Rymanov, J. Honecker, A. Steffan, A. Stohr

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引用次数: 2

摘要

设计并制作了一种紧凑的e波段(71-76 GHz)导体背共面波导(CBCPW)向空心金属波导(WR-12)过渡。全平面两层转换利用双槽天线，有效地将CBCPW的毫米波信号耦合到WR-12波导上。引入的转换与集成的高速平衡光电探测器(BPD)一起，使开发具有WR-12输出(WR12-CPX)的紧凑型相干光子混频器成为可能。毫米波的产生是通过外差相干光检测在BPD芯片中实现的。WR12-CPX允许直接光到无线转换，为移动回程提供光纤到天线连接。在127 μm厚的ROGERS RT/duroid 5880层压板(εr = 2.2)上设计和制造了过渡层。实验结果表明，所制备跃迁的最大插入损耗为3 dB，平均回波损耗为~20 dB。除此之外，打包的转换是作为新的WR12-CPX模块的一部分提供的。

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Compact rectangular-waveguide (WR-12) transition for coherent photonic mixers

A compact E-band (71-76 GHz) conductor-backed coplanar waveguide (CBCPW) to hollow metallic waveguide (WR-12) transition has been designed and fabricated. The fully-planar two-layer transition makes use of a double-slot antenna, which efficiently couples the millimeter-wave (mm-wave) signal from the CBCPW to the WR-12 waveguide. The introduced transition, together with an integrated high-speed balanced photodetector (BPD), enables the development of a compact coherent photonic mixer featuring a WR-12 output (WR12-CPX). The mm-wave generation is realized by heterodyne coherent optical detection in the BPD chip. The WR12-CPX allows direct optical-to-wireless conversion, enabling fiber-to-the-antenna connectivity for mobile backhauling. The transition is designed and fabricated on a 127 μm thick ROGERS RT/duroid 5880 laminate (εr = 2.2). The experimental results of the fabricated transition show a maximum insertion loss of 3 dB and an average return loss of ~20 dB. In addition to that, the packaged transition is presented as part of a novel WR12-CPX module.

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2016 Global Symposium on Millimeter Waves (GSMM) & ESA Workshop on Millimetre-Wave Technology and Applications

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