Jianhao Gong, Wangdong He, Anyong Hu, Julia H. Miao, Xi Chen
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引用次数: 0
摘要
基于0.15 $\mu$m GaAs pHEMT工艺,实现了单片微波集成电路(MMIC)模拟移相器的分析、设计和测量。我们提出了一种灵活的移相器设计方法,利用多级级联移相段。建立了GaAs pHEMT二极管的等效电路模型,分析了相移段的特性。通过调整移相部分的特性和选择适当的级数,可以获得理想的移相器整体性能,包括超过100°的移相范围,移相时的插入损耗低且几乎恒定,以及输入信号功率变化时的良好相位稳定性。芯片需要一个单一的控制电压,直流消耗几乎为零。该移相器具有紧凑的芯片尺寸为1.65 mm × 1.1 mm,适用于无源毫米波成像中的高集成相控阵。
Analysis and Design of a X-Band Analog Phase Shifter for Passive Millimeter-Wave Imaging Application
The analysis, design and measurement of a Monolithic Microwave Integrated Circuit (MMIC) analog phase shifter is implemented based on 0.15 $\mu$m GaAs pHEMT process. We propose a flexible methodology for phase shifter design which utilizes multistage cascaded phase shifting sections. The equivalent circuit model of the GaAs pHEMT diode is established and the characteristic of the phase shifting section is analyzed. By adjusting the characteristic of the phase shifting section and selecting appropriate number of stages, desired overall performance of the phase shifter is obtained, including over 100° phase shift range, low and nearly constant insertion loss during phase shifting and excellent phase stability when input signal power varies. A single control voltage is required for the chip and the DC consumption is almost zero. This phase shifter has a compact chip size of $1.65 mm \times 1.1$ mm which is suitable for high-integrated phased arrays in passive millimeter-wave imaging.
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