As an important part of phased array system,the research on phased array antenna is very necessary.The phased array antenna achieves the scanning beam adaptively by regulating the phase difference between each array e...As an important part of phased array system,the research on phased array antenna is very necessary.The phased array antenna achieves the scanning beam adaptively by regulating the phase difference between each array element.In this paper,a dual K-band circularly polarized antenna with high broadband,broadband beam,wide axial ratio bandwidth and high radiation efficiency is designed.We combine with the advantages of slot antenna and aperture antenna,use multimode waveguide cavity structure to design an aperture antenna,which is fed to waveguide circular polarizer by slot coupling in order to realize circular polarization radiation.Meanwhile,it has the characteristics of broadband,broadband beam,wide axial ratio bandwidth and high radiation efficiency.A slit antenna is designed by using a multimode waveguide cavity structure and a slit coupling feed to a waveguide circular polarizer is used to achieve circularly polarized radiation.The designed antenna consists of two K-band circularly polarized antenna units,and the spacing between the two units is 9.5 mm,which is fed by aK-band T/R module(Transmitter/Receiver module).In order to study the performance of the pattern in the case of the research group,the 2-unit structure is established.The simulation results of frequency–axial ratio bandwidth are given,and the simulation result of the antenna array is shown.The practical results of antenna design and test are also given.展开更多
A 4 W K-band AIGaAs/InGaAs/GaAs pseudomorphic high electron mobility transistor (PHEMT) monolithic microwave integrated circuit (MMIC) high power amplifier (PA) is reported. This amplifier is designed to fully m...A 4 W K-band AIGaAs/InGaAs/GaAs pseudomorphic high electron mobility transistor (PHEMT) monolithic microwave integrated circuit (MMIC) high power amplifier (PA) is reported. This amplifier is designed to fully match for a 50 f2 input and output impedance based on the 0.15μm power PHEMT process. Under the condition of 5.6 V and 2.6 A DC bias, the amplifier has achieved a 22 dB small-signal gain, better than a 13 dB input return loss, and 36 dBm saturation power with 25% PAE from 19 to 22 GHz.展开更多
卫卫跟踪(SST)技术是目前地球重力场测量最有价值和应用前景的方法之一。高精度K波段星间微波测距系统(KBR K Band Ranging System)是低低卫卫跟踪(SST-ll)重力卫星的关键有效载荷,它是一微米量级的测距系统,通过处理高精度的星间距离...卫卫跟踪(SST)技术是目前地球重力场测量最有价值和应用前景的方法之一。高精度K波段星间微波测距系统(KBR K Band Ranging System)是低低卫卫跟踪(SST-ll)重力卫星的关键有效载荷,它是一微米量级的测距系统,通过处理高精度的星间距离和距离变化率数据,可以恢复出地球重力场。在研究星间双路微波测距原理的基础上,提出了一种KBR系统的基本结构,详细描述了数据处理过程和KBR系统研究需要突破的关键技术,分析了国内目前的研究水平,给出了我国未来开展KBR系统研究的一些建议。展开更多
研制了一款K波段(23~25 GHz)收发一体化多功能芯片。该芯片集成了单刀双掷开关(SPDT)、接收支路低噪声放大器和发射支路高效率功率放大器。为兼顾低噪声和高效率功率特性,对电路的拓扑结构进行了优化选择和设计。在器件特征工作频点,采...研制了一款K波段(23~25 GHz)收发一体化多功能芯片。该芯片集成了单刀双掷开关(SPDT)、接收支路低噪声放大器和发射支路高效率功率放大器。为兼顾低噪声和高效率功率特性,对电路的拓扑结构进行了优化选择和设计。在器件特征工作频点,采用开关模型、噪声模型和非线性大信号模型进行联合仿真设计。测试结果表明,该收发一体多功能芯片在23~25 GHz范围内,接收支路增益23 d B、噪声系数2.5 d B,工作电流仅为12 m A;发射支路增益为30 d B,1 d B压缩点输出功率为18.7 d Bm,功率附加效率达到30%,动态电流仅为70 m A。芯片尺寸小,仅为3.5 mm×2.5 mm。展开更多
卫卫跟踪(SST)技术是当前地球重力场测量最有价值和应用前景的方法之一.高精度星间测距系统是低低卫卫跟踪(SST-Ⅱ)重力卫星的关键有效载荷.GRACE卫星携带的K波段测距系统(KBR K Band Ranging System)是一微米量级的测距系统,通过处理...卫卫跟踪(SST)技术是当前地球重力场测量最有价值和应用前景的方法之一.高精度星间测距系统是低低卫卫跟踪(SST-Ⅱ)重力卫星的关键有效载荷.GRACE卫星携带的K波段测距系统(KBR K Band Ranging System)是一微米量级的测距系统,通过处理高精度的星间距离和距离变化率数据,可以恢复出地球重力场.GRACE后续计划又提出了一种更高精度的激光干涉测距系统.在研究KBR及激光干涉测距系统测量原理的基础上,提出了一种KBR系统的基本结构,详细分析了两种测距系统的关键技术及国内目前的研究水平,提出了我国开展星间测距系统研究的一些建议.展开更多
文摘As an important part of phased array system,the research on phased array antenna is very necessary.The phased array antenna achieves the scanning beam adaptively by regulating the phase difference between each array element.In this paper,a dual K-band circularly polarized antenna with high broadband,broadband beam,wide axial ratio bandwidth and high radiation efficiency is designed.We combine with the advantages of slot antenna and aperture antenna,use multimode waveguide cavity structure to design an aperture antenna,which is fed to waveguide circular polarizer by slot coupling in order to realize circular polarization radiation.Meanwhile,it has the characteristics of broadband,broadband beam,wide axial ratio bandwidth and high radiation efficiency.A slit antenna is designed by using a multimode waveguide cavity structure and a slit coupling feed to a waveguide circular polarizer is used to achieve circularly polarized radiation.The designed antenna consists of two K-band circularly polarized antenna units,and the spacing between the two units is 9.5 mm,which is fed by aK-band T/R module(Transmitter/Receiver module).In order to study the performance of the pattern in the case of the research group,the 2-unit structure is established.The simulation results of frequency–axial ratio bandwidth are given,and the simulation result of the antenna array is shown.The practical results of antenna design and test are also given.
文摘A 4 W K-band AIGaAs/InGaAs/GaAs pseudomorphic high electron mobility transistor (PHEMT) monolithic microwave integrated circuit (MMIC) high power amplifier (PA) is reported. This amplifier is designed to fully match for a 50 f2 input and output impedance based on the 0.15μm power PHEMT process. Under the condition of 5.6 V and 2.6 A DC bias, the amplifier has achieved a 22 dB small-signal gain, better than a 13 dB input return loss, and 36 dBm saturation power with 25% PAE from 19 to 22 GHz.
文摘卫卫跟踪(SST)技术是目前地球重力场测量最有价值和应用前景的方法之一。高精度K波段星间微波测距系统(KBR K Band Ranging System)是低低卫卫跟踪(SST-ll)重力卫星的关键有效载荷,它是一微米量级的测距系统,通过处理高精度的星间距离和距离变化率数据,可以恢复出地球重力场。在研究星间双路微波测距原理的基础上,提出了一种KBR系统的基本结构,详细描述了数据处理过程和KBR系统研究需要突破的关键技术,分析了国内目前的研究水平,给出了我国未来开展KBR系统研究的一些建议。
文摘研制了一款K波段(23~25 GHz)收发一体化多功能芯片。该芯片集成了单刀双掷开关(SPDT)、接收支路低噪声放大器和发射支路高效率功率放大器。为兼顾低噪声和高效率功率特性,对电路的拓扑结构进行了优化选择和设计。在器件特征工作频点,采用开关模型、噪声模型和非线性大信号模型进行联合仿真设计。测试结果表明,该收发一体多功能芯片在23~25 GHz范围内,接收支路增益23 d B、噪声系数2.5 d B,工作电流仅为12 m A;发射支路增益为30 d B,1 d B压缩点输出功率为18.7 d Bm,功率附加效率达到30%,动态电流仅为70 m A。芯片尺寸小,仅为3.5 mm×2.5 mm。
文摘卫卫跟踪(SST)技术是当前地球重力场测量最有价值和应用前景的方法之一.高精度星间测距系统是低低卫卫跟踪(SST-Ⅱ)重力卫星的关键有效载荷.GRACE卫星携带的K波段测距系统(KBR K Band Ranging System)是一微米量级的测距系统,通过处理高精度的星间距离和距离变化率数据,可以恢复出地球重力场.GRACE后续计划又提出了一种更高精度的激光干涉测距系统.在研究KBR及激光干涉测距系统测量原理的基础上,提出了一种KBR系统的基本结构,详细分析了两种测距系统的关键技术及国内目前的研究水平,提出了我国开展星间测距系统研究的一些建议.