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螺旋线行波管慢波系统的综合热分析法

韩勇 刘燕文 丁耀根 刘濮鲲

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文章导航 > 电子与信息学报  > 2009 >  31(12): 3015-3018
韩勇, 刘燕文, 丁耀根, 刘濮鲲. 螺旋线行波管慢波系统的综合热分析法[J]. 电子与信息学报, 2009, 31(12): 3015-3018. doi: 10.3724/SP.J.1146.2008.01506
引用本文: 韩勇, 刘燕文, 丁耀根, 刘濮鲲. 螺旋线行波管慢波系统的综合热分析法[J]. 电子与信息学报, 2009, 31(12): 3015-3018. doi: 10.3724/SP.J.1146.2008.01506
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Han Yong, Liu Yan-wen, Ding Yao-gen, Liu Pu-kun. Synthetic Analysis Method of the Heat Dissipation Capability of Slow-Wave Structure for Helix TWT[J]. Journal of Electronics & Information Technology, 2009, 31(12): 3015-3018. doi: 10.3724/SP.J.1146.2008.01506
Citation: Han Yong, Liu Yan-wen, Ding Yao-gen, Liu Pu-kun. Synthetic Analysis Method of the Heat Dissipation Capability of Slow-Wave Structure for Helix TWT[J]. Journal of Electronics & Information Technology, 2009, 31(12): 3015-3018. doi: 10.3724/SP.J.1146.2008.01506
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螺旋线行波管慢波系统的综合热分析法

doi: 10.3724/SP.J.1146.2008.01506

Synthetic Analysis Method of the Heat Dissipation Capability of Slow-Wave Structure for Helix TWT

    摘要
  • 摘要: 该文提出了一种研究螺旋线行波管慢波系统散热性能的综合分析方法。该方法以一定的预备实验为前提条件,利用理论公式推算出接触处的界面热阻率,使用仿真软件进行精确的模拟研究。该方法可以准确的反映慢波系统的散热性能,可以降低实验成本,节约材料,节省实验时间。通过对采用氧化铍夹持杆、氮化硼夹持杆和镀铜螺旋线的慢波组件的研究,验证了该方法的一致性和可行性。
    Abstract: A novel, effective and synthetic analysis method is developed for studying the heat dissipation capability of slow-wave structure. This method, based on some theoretical and experimental research, is applicable to analyze the thermal conduction precisely and truly. This method can reduce the material costs and save the involved time. The consistency and the feasibility of this method are verified by some experimental tests on the slow-wave structures with BeO support rods, BN support rods and copper-plated helix.
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  • 韩勇, 刘燕文, 丁耀根等. 夹持杆的结构和尺寸对慢波结构散热特性影响的研究 [J].电子与信息学报.2008, 30(5):1267-1270浏览[2]Rocci P J. Thermal-structural reliability assessment of helixTWT interaction circuit using finite element analysis [C].Aerospace and Electronics Conference, London, 1993(5):731-737.[3]Ghosh T K, Challis A J, and Jacob A, et al.. Improvements inperformance of broadband helix Traveling-Wave Tubes [J].IEEE Transactions on Electronic Devices.2008, 55(8):668-673[4]Sauseng O and Manoly A E. Thermal properties and powercapability of helix structures for millimeter waves [C].International Electronic Device Meeting, New York, 1978:534-537.[5]Harper R and Puri M P. Heat transfer and power capabilityof EHF helix TWTs [C]. International Electronic DeviceMeeting, Washington, 1986: 498-500.[6]Vemula Bhanu Naidu, Subrata Kumar Datta, and RajaRamana Rao, et al.. Analysis of sever-loss in a helicalslow-wave structure [C]. IEEE International VacuumElectronics Conference, London, 2008: 304-305.[7]Goren Y, Schram A, and Gagne D, et al.. Accuratemeasurements of the dielectric properties of TWT BeOsupport rods [C]. IEEE International Vacuum ElectronicsConference, New York, 2007: 141-142.[8]Crivello R. Thermal analysis of PPM-focused rod-supportedTWT helix structures [J]. IEEE Transactions on ElectronicDevices, 1988, 35(10): 1701-1720.[9]Kunkel S H and Peck W M. Predicting thermal contactresistance in circuit card assemblies [C]. InterSocietyConference on Thermal Phenomena, Texas, 1994: 91-100.[10]Han Yong, Liu Yan-wen, and Ding Yao-gen, et al.. Anevaluation of heat dissipation capability of the slow-wavestructures [J].IEEE Transactions on Electronic Devices.2007,54(8):1562-1565
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出版历程
  • 收稿日期:  2008-11-14
  • 修回日期:  2009-09-18
  • 刊出日期:  2009-12-19

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