wave structure 中文意思是什麼
wave structure
解釋
波結構-
At the same time the influence of the cavity in front of slow - wave structure and the length of a smooth drift tube which connect two sections of slow - wave structure are also studied in this dissertation
然後利用magic粒子模擬軟體模擬了反射器對器件工作性能的影響,同時還分析了慢波系統前面的腔體以及兩段式慢波結構中過渡段的長度對器件工作性能的影響。 -
In the non - coaxial bwo of l - band, the radius of the slow - wave structure is very large, and the volume and weight of the guiding - magnetic system are also very large. thus, the non - coaxial bwo of l - band is bulky and lumbersome and is inconvenient for real application
若採用非同軸相對論返波振蕩器實現l波段的微波輸出,則要求慢波結構的平均半徑很大,導引磁場系統的體積和重量會變得較大,這給器件的小型化帶來了很大的困難。 -
Characteristics of serpentine circular groove guide slow - wave structure
曲折圓形槽波導慢波系統的高頻特性 -
The result of thermal analysis for coupled - cavity slow - wave structure had been achieved in the form of temperature contour figure and heat flow density vector figure
對耦合腔慢波結構熱特性的模擬得到了以溫度分佈雲圖和熱流密度矢量圖方式表示的結果。 -
The advance of new slow - wave structure for high - power twt
大功率行波管新型慢波線技術的進展 -
Design considerations of the high power s - band rka are described, by using electron beams of voltage - 600kv, current - 5000a, and the numerical simulations for three kinds of the rka output structures are given. the three kinds of the output strctures are single - gap standing - wave ( sw ) cavity, traveling - wave ( tw ) output structure, and two output structures ( single - gap + traveling - wave structure ). under conditions of using two output structures, the results show that the instantaneous peak power obtained from sw output cavity and tw output structure is respectively 2. 4gw and 2. 1gw, the both power average of 0. 96gw and 0. 93gw, i. e. the s - band rka of two output structures generates peak output power of 1. 89gw at a frequency of 2. 85ghz
從數值模擬中得到雙輸出結構的微波功率輸出結果為:駐波輸出的瞬時功率為2 . 4gw (周期平均為0 . 96gw ) ;行波輸出結構輸出瞬時功率為2 . 1gw (周期平均0 . 93gw ) ,就獲得了頻率為2 . 85ghz的微波輸出。本文簡要的描述了電磁軟體( magic )對速調管輸出腔體進行了模擬,並對相應的模擬方法進行了評述。 -
Based on it, a new kind of helix slow - wave structure named elliptical helix slow - wave structure used in helix traveling wave tubes has been detailedly investigated. by studying the rf characteristics of this slow - wave structure, it ’ s found that higher operation frequency and interaction impedance will be obtained by increasing the eccentricity of helix or decreasing it of the shield. meanwhile, great potential of improving system bandwidth has also been found if the eccentricity of helix or shield or the two are properly choosed
本文對近幾十年大功率行波管的研究進展進行了簡單討論,並在此基礎上研究了一種可應用於螺旋線行波管的新型的螺旋線慢波結構,即橢圓螺旋線慢波結構,通過對該螺旋線高頻特性進行詳細分析,我們初步認為,選擇適當的螺旋線和屏蔽筒離心率,可以提高系統工作頻率,增加系統耦合阻抗,並且具有改善系統帶寬的潛力。 -
The relative theory basis of thermal calculation was shown. then the details of simulating the thermal characteristic of twt slow - wave structure with ansys were given
文中給出了熱特性計算的相關理論基礎,並介紹了應用ansys模擬耦合腔慢波結構熱特性的具體方法和步驟。 -
Study of helix slow wave structure taking the radial thickness into account
考慮螺旋帶徑向厚度的螺旋線慢波系統的研究 -
Design of start part of slow wave structure in relativistic backward wave oscillator
相對論返波管慢波結構的起始端設計 -
Optimization and simulation of a relativistic backward wave oscillator with a slow wave structure
相對論返波管慢波結構的優化設計和數值模擬 -
Due to its advantages of high power capacity, weak dispersion, easier fabrication and low ohmic losses, the folded rectangular groove guide would be an excellent slow - wave structure in millimeter and submillimeter wave twts
曲折矩形槽波導結合了曲折波導散熱能力強、色散特性好、容易加工和矩形槽波導單模工作、低損耗、大尺寸等優點,因此這種新型的慢波系統有可能在毫米波及亞毫米波段的行波管中具有較好的發展前景。 -
In this paper, a novel folded groove waveguide slow - wave structure is proposed with the foundation of folded waveguide and grooved guide. high frequency characteristics of such sws are also analyzed in this paper. the main works are listed as follows : 1
本論文以曲折波導慢波系統和槽波導傳輸線為基礎,綜合二者的優點和目前曲折波導在thz輻射振蕩器中遇到的問題,提出一種新型的曲折槽波導慢波系統的概念,並對這種新型慢波結構的高頻特性進行了詳細的研究。 -
In the dissertation, the rf characteristics of the periodically iris - loaded elliptical waveguide used in slow - wave structure is discussed. the structure has potential applications to high - power microwave devices and filtering networks at millimeter wave frequencies
在本論文里,我們討論了周期膜片加載橢圓波導作為慢波結構的射頻特性,這種結構有可能應用於高功率器件和毫米波段的濾波網路。 -
As the key component of the beam - wave interaction of a traveling wave tube ( twt ) for exciting microwave energy, the slow - wave structure ( sws ) basically determines the performance of the twt
慢波系統作為行波管注波互相作用以激勵微波能量的核心部件,它的優劣直接決定了行波管的性能。 -
Travelling wave tubes ( twt ) are the heart parts of radar systems , communication systems , electronic countermeasures , remote - control & test device , accurate guidance equipment, etc. as the main component of the beam - wave interaction of a travelling wave tube for producing microwave energy, the solw - wave structure ( sws ) is the key of the twt. it basically determines the performance of the twt
行波管是雷達、通信、對抗和精密制導等設備的「心臟」 ,而慢波系統作為行波管進行注波互作用激勵微波能量的主要部件,是行波管的核心,其性能優劣直接決定高功率微波源的性能。 -
Dielectric loaded ring - plane slow - wave structure
介質加載環板慢波結構高頻特性研究 -
The slow - wave structure ( sws ), as a key part of twt where the beam - wave interaction carries out for exciting microwave energy, determines its performance directly. with the development of techniques, novel slow - wave structures are needed to improve the performance of twt with higher power and wider bandwidth
隨著科技的發展,人們對行波管的性能提出了更高的要求,更高的功率和帶寬成為人們追求的目標,隨著微波管向更高的頻段發展,也要求有新型的慢波結構來提高行波管的性能。 -
The results show that the radius of the slow - wave structure can be much smaller in the coaxial bwo case than in the non - coaxial bwo case
結果表明:採用同軸慢波結構實現l波段返波振蕩器的微波輸出,可以大大減小微波器件的徑向尺寸。 -
Finally, the influence the radius of the electron beam, current of the electron beam, the acceleration voltage and the geometrical dimension of the slow - wave structure on small signal gain are discussed
研究表明:對應最大的增益,有一飽和電壓存在;小信號增益隨電子注電流的增大而增大;也隨電子注半徑的增加而增大。
分享友人