基于0.13μm Si Ge Bi CMOS工艺,设计了一个应用于0.34 THz高速通信系统的4路集成相控阵发射机芯片。该芯片集成了21.25 GHz的锁相环(PLL)频率源、4倍频器、4路威尔金森(Wilkinson)功分网络,每一路相控阵通道包括85 GHz功率放大器、模...基于0.13μm Si Ge Bi CMOS工艺,设计了一个应用于0.34 THz高速通信系统的4路集成相控阵发射机芯片。该芯片集成了21.25 GHz的锁相环(PLL)频率源、4倍频器、4路威尔金森(Wilkinson)功分网络,每一路相控阵通道包括85 GHz功率放大器、模拟移相器、20 Gbps二进制启闭键控(OOK)调制器、4倍频器以及2×2片载天线阵列。针对系统各个模块进行了测试和分析,并且对系统方向图进行了仿真。仿真结果表明,该相控阵系统能在E面实现±12°的角度扫描,3 d B波束宽度为11.9°,系统有效等向辐射功率(EIRP)为12 d Bm。该集成相控阵发射机芯片的面积为8 mm×4.3 mm。展开更多
In this study ETMA (Equilateral Triangular Microstrip Antennas) are designed to form dual frequency by inserting two shorting pins. Microstrip patch antennas' resonant frequencies with two shorting pins are represe...In this study ETMA (Equilateral Triangular Microstrip Antennas) are designed to form dual frequency by inserting two shorting pins. Microstrip patch antennas' resonant frequencies with two shorting pins are represented in this study by not only considering the theoretical results but also considering the both simulated and experimental results. For each geometry, positions of shorting pins are varied and effects of these variations are analyzed. The presented patch antennas in literature which have the same shape with shorting pin and without shorting pin are compared and results are presented. The methods in literature presented for estimating the resonant frequency depends on analytical methods which are originated from curve fitting. The results of this study will be the basement of the latter studies that predict the resonant frequencies of mentioned antennas before producing the antenna so that the engineers handle the problem by saving the time and estimating the frequency before production.展开更多
文摘基于0.13μm Si Ge Bi CMOS工艺,设计了一个应用于0.34 THz高速通信系统的4路集成相控阵发射机芯片。该芯片集成了21.25 GHz的锁相环(PLL)频率源、4倍频器、4路威尔金森(Wilkinson)功分网络,每一路相控阵通道包括85 GHz功率放大器、模拟移相器、20 Gbps二进制启闭键控(OOK)调制器、4倍频器以及2×2片载天线阵列。针对系统各个模块进行了测试和分析,并且对系统方向图进行了仿真。仿真结果表明,该相控阵系统能在E面实现±12°的角度扫描,3 d B波束宽度为11.9°,系统有效等向辐射功率(EIRP)为12 d Bm。该集成相控阵发射机芯片的面积为8 mm×4.3 mm。
文摘In this study ETMA (Equilateral Triangular Microstrip Antennas) are designed to form dual frequency by inserting two shorting pins. Microstrip patch antennas' resonant frequencies with two shorting pins are represented in this study by not only considering the theoretical results but also considering the both simulated and experimental results. For each geometry, positions of shorting pins are varied and effects of these variations are analyzed. The presented patch antennas in literature which have the same shape with shorting pin and without shorting pin are compared and results are presented. The methods in literature presented for estimating the resonant frequency depends on analytical methods which are originated from curve fitting. The results of this study will be the basement of the latter studies that predict the resonant frequencies of mentioned antennas before producing the antenna so that the engineers handle the problem by saving the time and estimating the frequency before production.
