diode voltage meaning in Chinese
二极管顺向电压
Examples
- By varying the diode voltage and current , the relations among the microwave power , frequency and the diode voltage , current are obtained
通过改变二极管工作电压和电流,得到了微波功率、频率等参数随二极管电压和电流的变化。 - Because , in our experiment , the beam current and the diode voltage are not their optimized values by the results of the particle simulation , the measured output microwave power is only 230mw
由于实验中束流电压和电流都偏小,输入的电子束功率水平低,特别束流大小比在粒子模拟中得到的优化电流低得较多,所以实验测试到的微波功率只有230mw 。 - The results show that the output power decreases with the increase of the diode voltage in the range of 330 ~ 425kv . the input current exist a start value and also an optimum one . they are in the range of 20 ~ 25ka and 28 - 31ka , respectively
结果表明,在33okv ~ 425kv范围内,微波功率随二极管电压增大而减小; rtto存在起振电流和最佳电流,其值分别在20 ~ 25ka和28 ~ 3ika范围。 - At the same time , in order to increase the gain of the radiation aperture , a new way to enlarge the waveguide radius is presented . and a gigawatt level of averaged output power with quasi - single tmoi mode is obtained at 3 . 9ghz under the diode voltage of 550kv and the beam current of 23ka
同时,为增大辐射口增益,提出了一种增大波导管半径的方法,并且在二极管电压为550kv 、束流为23ka的条件下,模拟获得了平均功率达gw量级,频率为3 . 9ghz的准tm _ ( 01 )模式的微波输出。 - Using the particle - in - cell ( pic ) model , a 8 millimeter relativistic backward wave oscillator underlying superradiance mechanism was gotten , the influence on both operation frequency and radiation efficiency of the guiding magnetic field , the diode voltage , the beam current and the beam radius as well as the corrugation structure were also presented
采用pic方法,通过数值模拟优化设计了超辐射状态下的8毫米相对论返波振荡器,分析了引导磁场、二极管电压、电子束流、电子束半径、周期慢波结构等对器件的辐射功率及辐射效率的影响。