output cavity meaning in Chinese
输出空腔谐振器
输出谐振腔
Examples
- Characteristic study of output cavity in gyroklystron amplifier
回旋速调管放大器输出腔的特性研究 - 4 . a nonlinear theoretical model for two - cavity gyroklystron is established . the analytic method on the beam - wave interaction in input cavity and output cavity is studied
四、建立了两腔回旋速调管的非线性模型与理论,探讨了调制腔及输出腔中注?波互作用的研究方法。 - The result shows that , the size of the coupling port has strong influence on the external quality factor of the output cavity , while the size of the coupling line and the capacitive metal rods mainly affect the tuning frequency of cutoff waveguide filter
另外,由于耦合接头相当于在截止段中引人了一个附加电感,这使滤波器谐振电路的品质因数变大,谐振峰变窄。 - The third , some groping researches are made on broadband coaxial line filter output circuit of klystron . a broadband output circuit - mode four coupling slots double - gap output cavity loaded with coaxial filter , which has a workable relative bandwidth bigger than 14 % and fits in with l - band multi - beam klystron , is designed . meanwhile some analysis of its stability and peak power capacity is made
第三,对速调管同轴线滤波器宽带输出回路进行研究和探索,设计出了一个适合用于l波段多注速调管、相对带宽超过14的四耦合槽模强耦合双间隙腔加载同轴线滤波器输出回路,并对其稳定性和峰值功率容限做了一些分析。 - 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
从数值模拟中得到双输出结构的微波功率输出结果为:驻波输出的瞬时功率为2 . 4gw (周期平均为0 . 96gw ) ;行波输出结构输出瞬时功率为2 . 1gw (周期平均0 . 93gw ) ,就获得了频率为2 . 85ghz的微波输出。本文简要的描述了电磁软件( magic )对速调管输出腔体进行了模拟,并对相应的模拟方法进行了评述。