共查询到16条相似文献,搜索用时 250 毫秒
1.
脊加载螺旋槽行波管是一类新型毫米波大功率器件,给出了此结构中引入电子注后的“热”色散方程,并利用“牛顿”下山法求解了此复系数超越方程.通过数值计算给出了一个工作电压为20kV频率为474GHz的脊棱加载慢波结构的具体尺寸,并对此结构中小信号增益随脊尺寸的变化情况及电子注参数对其影响进行了研究,计算结果表明:此结构适宜于作为高增益窄带毫米波大功率行波管的慢波线,其3dB增益带宽为34%;为了展宽其工作带宽,可以适当减小间隙宽度,也可在一定范围内提高电子注电流.给出的理论对于研制此类行波管具有一定的指导意
关键词: 相似文献
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提出了一种可应用于毫米波功率放大器中的新型慢波结构——-开敞型角向周期 加载金属柱圆波导结构,并且在互作用通道内,引入了薄环形电子注, 推导出了此时的"热"色散方程,并且对基于该新型慢波结构的行波管的 小信号增益特性进行了深入探讨.通过数值方法 研究了金属柱尺寸和电子注参数 对器件线性特性的影响. 结果表明: 通过对金属柱尺寸的适当设计, 可以获得更高的增益值. 与封闭型结构的比较结果表明, 开敞型角向周期加载金属柱圆波导结构能够 有效地提高小信号增益, 并且对带宽的影响不大. 研究结果为研制基于此新型慢波系统的毫米波行波管奠定了理论基础. 相似文献
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提出了一种曲折双脊波导慢波结构,理论分析了慢波结构的高频特性,并在此基础上设计了工作在Ka波段的曲折双脊波导行波管.利用三维粒子模拟软件MAGIC 3D建立了曲折双脊波导行波管模型,并对行波管中的注-波互作用进行了模拟分析.在相同工作条件下,分析比较了曲折双脊波导行波管和曲折波导行波管的各种性能参量,从中发现:在行波管增益峰值相近的情况下,曲折双脊波导行波管具有更好的带宽性能,其3 dB增益带宽为22%;同时具有更高的电子效率,其峰值接近9%.
关键词:
曲折双脊波导
高频特性
注-波互作用
带宽 相似文献
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提出了一种曲折双脊波导慢波结构,理论分析了慢波结构的高频特性,并在此基础上设计了工作在Ka波段的曲折双脊波导行波管.利用三维粒子模拟软件MAGIC 3D建立了曲折双脊波导行波管模型,并对行波管中的注-波互作用进行了模拟分析.在相同工作条件下,分析比较了曲折双脊波导行波管和曲折波导行波管的各种性能参量,从中发现:在行波管增益峰值相近的情况下,曲折双脊波导行波管具有更好的带宽性能,其3 dB增益带宽为22%;同时具有更高的电子效率,其峰值接近9%. 相似文献
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提出了一种介质加载折叠波导慢波结构,给出了该结构中存在电子注时慢波互作用的热色散方程,在介电常数εr=1的特殊情况下该方程即简化为普通折叠波导的小信号工作方程.在给定慢波结构尺寸的基础上,分析比较了介质加载对放大器小信号增益特性的影响,结果表明:"弱加载"(介质厚度d/a<0.1)时,无需重新设计慢波结构的参数,只需适当调整工作电压和电流就可以满足原有设计要求,而且和未加载时相比增益特性更为平坦,降低的电子注阻抗也有利于电子效率的提高.考虑到
关键词:
折叠波导
行波管放大器
介质加载
热色散方程 相似文献
6.
介质加载矩形波导栅行波管是一类新型毫米波大功率器件.给出了此结构引入电子束后的“热”色散方程,并利用“牛顿下山”法求解了此复杂系数超越方程,研究了介质加载以及电子束参数对小信号增益的影响.计算结果表明:介质加载可以扩大矩形波导栅行波管的带宽,而增益有所减小.为了弥补增益的降低,可以适当增加槽深度,也可在一定的范围内提高电子束电流.给出的结论对于研制此类行波管具有一定的指导意义.
关键词:
介质加载
矩形波导栅
小信号增益
“热”色散方程 相似文献
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应用分析回旋行波管绝对不稳定性的Briggs-Bers相碰判据与小信号色散方程,并结合介质加载波导的冷场分析,通过数值计算比较了不同介质加载条件下回旋行波管工作模式的起振电流与寄生模式的起振长度,通过改变加载介质的特性参数从而增加行波损耗可以显著提高工作模式起振电流,并抑制掉寄生模式的返波振荡.结合介质加载波导冷场分析与回旋行波管小信号色散方程,分析了介质加载条件下回旋行波管小信号增益,给出了不同介质加载条件下的回旋行波管的小信号增益带宽曲线.在对介质回旋行波管自激振荡与小信号增益的综合分析基础上,对Kα
关键词:
Kα波段介质加载回旋行波管
绝对不稳定性
自激振荡
小信号增益 相似文献
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A novel slow-wave structure (SWS), the folded double-ridged waveguide structure, is presented and its linear gain properties are investigated. The perturbed dispersion equation is derived and the small signal growth rate is calculated for dimensions of the ridge-loaded region and the parameters of the electron beam. The novel structure has potential applications in the production of high power and broad band radiation. For a cold beam, the linear theory predicts a gain of 1.1-1.27dB/period and a 3-dB small-signal gain bandwidth of 30% in W-band. A comparison between the folded double-ridged waveguide SWS and folded waveguide SWS (FWSWS) shows that with the same physical parameters, the novel SWS has an advantage over the FWSWS on the bandwidth and electron efficiency. 相似文献
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The folded double-ridged waveguide structure is presented and its properties used for wide-band traveling-wave tube are investigated.Expressions of dispersion characteristics,normalized phase velocity and interaction impedance of this structure are derived and numerically calculated.The calculated results using our theory agree well with those obtained by using the 3D electromagnetic simulation software HFSS.Influences of the ridge-loaded area and broad-wall dimensions on the high frequency characteristics of the novel slow-wave structure are discussed.It is shown that the folded double-ridged waveguide structure has a much wider relative passband than the folded waveguide slow-wave structure and a relative passband of 67% could be obtained,indicating that this structure can operate in broad-band frequency ranges of beam-wave interaction.The small signal gain property is investigated for ensuring the improvement of bandwidth.Meanwhile,with comparable dispersion characteristics,the transverse section dimension of this novel structure is much smaller than that of conventional one,which indicates an available way to reduce the weight of traveling-wave tube. 相似文献
13.
Theoretical Study for Folded Waveguide Traveling Wave Tube 总被引:5,自引:0,他引:5
Hyun-Jun Ha Soon-Shin Jung Gun-Sik Park 《International Journal of Infrared and Millimeter Waves》1998,19(9):1229-1245
A wideband folded waveguide traveling-wave tube (TWT) amplifier has advantages of simpler coupling structures and robust structure over the conventional helix TWT. The phase velocity of waves in folded waveguide is slowed down to the velocity of electron beam. Slow-wave interaction with the electron beam in folded waveguide is studied in a linear fashion. For a cold beam, the linear theory predicts a gain of 2 dB/cm and a bandwidth of 37% at the center frequency of 14 GHz. A closed algebraic dispersion relation for the frequency and the axial phase shift per period is obtained using an equivalent circuit model. Numerical solution calculated from the dispersion relation and three-dimensional electromagnetic code, HFSS simulations predict a mode coalescing in the folded waveguide. And a theoretical phase velocity prediction of the electromagnetic wave in this circuit is verified by HFSS simulations. 相似文献
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分析和计算了互作用区折叠波导截面长宽比(b/a)、直边高度和电子束通道大小等结构参数对太赫兹波段折叠波导行波管工作性能的影响。结果表明:互作用区衰减常数随b/a的增大而减小, 耦合阻抗和小信号增益则随b/a的增大先增加而后减小, 存在最优值。电子束通道越大, 衰减常数越大, 耦合阻抗和小信号增益降低得越多。相对于电子束通道, 增益和损耗对直边高度的敏感程度显著降低。因此为了提高器件功率容量, 可适当增加折叠波导的高度;在保证电子束能够顺利传输的前提下, 电子束通道越小越好。在折叠波导行波管的实际研制中, 可依据具体的实验条件和要求, 在适当的范围内合理选取互作用区各结构参数的值。 相似文献
15.
Hyun-Jun Ha Sun-Shin Jung Zan-Zhi Huang Dong-Ho Jang Gun-Sik Park Jin-Gyu Song Gong-Man Park Hyee-Jea Kang 《International Journal of Infrared and Millimeter Waves》1999,20(12):2099-2106
Ku-band (14-14.5 GHz) folded waveguide TWT operated at the beam voltage and current of 6 kV and 0.1 A, respectively, has been studied experimentally. The RF circuit is designed by using a linear theory [1] and its predicted gain for a single stage is 20 dB. The cold test of the assembled RF circuit shows a good agreement with the theoretical prediction [2]. 相似文献