行波管

xínɡ bō ɡuǎn
  • travelling wave tube
行波管行波管
  1. 目前,行波管发射机在这些方面具有独特的优势。

    At present , travelling wave tube amplifier ( TWTA ) has particular advantages in these areas .

  2. 相对论行波管慢波结构几何参数研究

    Research on geometry parameters of relativistic travelling wave tube slow wave structure

  3. 展望了螺旋线行波管CAD技术的发展前景,对我国如何自主开发螺旋线行波管三维CAD软件提出了一些建议。

    Our insight into future of 3D helix TWTs CAD of China is given .

  4. 基于X波段行波管实验研究的需要,研制了行波管脉冲电源系统。

    The pulse power supply for X-band Traveling-Wave Tube ( TWT ) experiment was developed .

  5. X波段耦合腔行波管数值模拟

    The numerical simulation of X-band CCTWT

  6. W波段回旋行波管放大器速度零散的分析

    Analysis on velocity spread of a w - band gyrotron traveling wave amplifier

  7. 机载PD雷达双模栅控行波管发射机

    The Double-Mode Grid-Controlled TWT Transmitter for Airborne PD Radar

  8. V形杆夹持、翼片加载的螺旋线但波结构很适合于宽频带行波管应用。

    A vane-loaded helix slow wave structure supported by V-type rods is suitable for broadband traveling wave tubes .

  9. 同时,利用粒子模拟软件MAGIC对该回旋行波管进行了对比模拟验证。

    Then , we use simulation software MAGIC to compare and validate the Gyro-travelling wave tude .

  10. 介绍了CPLD在行波管发射机监控系统中的应用。

    This paper introduces the application of CPLD in monitoring and controlling system of TWT transmitter .

  11. CPLD在行波管发射机中的应用

    Application of CPLD to TWT Transmitter

  12. Ka波段耦合腔行波管放大器设计

    The Design of Ka-band Coupled-cavity Traveling Wave Tube Amplifier

  13. 毫米波耦合腔行波管非旋转轴对称PPM聚焦系统中的横向磁场

    The Transverse Magnetic Fields in an Asymmetric PPM Focusing System for Millimeter-Wave Coupled-Cavity TWTs

  14. 高效率X波段40W空间行波管的设计

    Design of a High Efficiency X-Band 40 W Space TWT

  15. Ku波段星载行波管混合型预失真线性化器的研究

    Design of Ku-band predistortion linearizer using mixed structure circuit for satellite TWTA

  16. 二次谐波回旋行波管Cusp电子枪的模拟与实验研究

    Simulation and experiment on Cusp gun for second harmonic Gyro-TWT

  17. 本文主要利用CSTMICROWAVESTUDIO软件对多注行波管慢波结构的色散特性进行设计计算,并将计算结果和实验值进行比较分析。

    By CST Microwave Studio , the calculation and analysis for dispersion of slow-wave structure of multi-beam TWT are given .

  18. 一种ZVS行波管高压电源的设计

    A Design of ZVS High-Voltage Power Supply for TWT Amplifier

  19. 损耗介质加载结构Ka波段TE(01)模回旋行波管放大器稳定性的分析

    Stability Analysis of Ka-band TE_ ( 01 ) - mode Gyrotron Traveling Wave Amplifier with Lossy Dielectric-Load Waveguide

  20. X波段40W高效率空间行波管螺旋慢波系统的模拟优化

    Simulation and Optimization of Helix Slow-Wave Structure for X-Band 40 W High Efficiency Traveling-Wave Tubes

  21. 对8mm基波回旋行波管放大器进行了研究。

    An 8 mm fundamental wave gyro traveling wave tube is studied .

  22. 脉冲MPM小型化行波管螺旋线慢波结构的设计和改进

    Design and Improvement of the Slow Wave Structure in the Mini-TWTs for MPMs

  23. 对目前主流的部分螺旋线行波管三维CAD软件(MICHELLE、COCA、CTLSS、CHRISTINE等)进行了简单介绍。

    Some representative 3D helix TWTs codes are briefly introduced , such as MICHELLE , COCA , CLTSS and CHRISTINE .

  24. 研究表明:毫米波折叠波导行波管已成为国际范围THz器件的研究重点。

    The investigations in wold have indicated : millimeter wave folded waveguid TWT have been emphasized in THz devices .

  25. 利用ANSYS软件,对某型行波管TWT慢波部分的装配热挤压装置,进行热-结构耦合分析。

    The coupling thermal-structure of the assembled thermal-squeezing device in TWT slow wave part of some type is analyzed by utilizing ANSYS software .

  26. 提出了一种新型的宽带大功率慢波结构一V型曲折矩形槽慢波结构,并利用该结构完成了对V波段行波管互作用电路的设计。

    A novel wideband high-power slow-wave structure called V-shape folded rectangular groove is proposed innovatively , and the interaction circuit for the V-band traveling-wave tube is designed by employing this structure .

  27. 因此,研制MPM必须首先解决小型行波管的设计与制作问题。

    So , the design and fabrication of mini TWT is the first step of MPM development .

  28. 分析了Ka波段二次谐波回旋行波管双磁会切电子枪的理论模型,计算了电子枪的设计参数;

    Theoretical model of a double-cusp gun for Ka-band second harmonic gyro-TWT amplifier was analyzed , and the electron beam performance parameters were calculated .

  29. 4cm大功率耦合腔行波管的研制

    Development of a 4 cm band , High Power Coupled - Cavity TWT

  30. 本文简述了SAR的特点对新型功率行波管设计提出的新要求,同时介绍了新型功率行波管研制上的新进展。

    In the paper , the requirements of designing a new type of power TWT for SAR are briefly introduced , and the advances in the development of the power TWT are also presented .