| 1. | Brushless excitation system
励磁方式 |
| 2. | Specification of explosion protection for increased safety brushless excitation synchronous motor
增安型无刷励磁同步电动机防爆技术要求 |
| 3. | In condusion , the research of rotating converter will promote the progress of the synchronous generator brushless excitation system and illuminate a new direction of the power electric converter
为减少旋转变压器的散磁和漏磁,改善其性能,本文使用了新型的变压器绕制方法?平面绕制法。 |
| 4. | This paper introduces a new design of rotating converter which gets an application in the brushless excitation of synchronous generator . and this research will break through the traditional concept of static converter
介绍一种新型的旋转变换器,该变换器是利用旋转式感应电能传输技术,把电能从静止部位不经过物理连接,传输到旋转部位。 |
| 5. | In brushless excitation system , rotating rectifier is likely to occur several faults . but there is not clear linearity relation between the cause of fault and corresponding symptom . and it is difficult to describe their relation with mathematics model
在无刷励磁系统中旋转整流器可能出现各种故障,但故障原因和相应的症状之间往往没有明确的线性关系,也就很难距历g洲精确的数学模型来描述。 |
| 6. | The mathematical model of phase - compounding excitation system , thyristor excitation system and brushless excitation system are given separately . the design of h controller for synchronous generator voltage regulation system is transformed into a mixed sensitivity problem . the uncertainty of synchronous generator model is analyzed in the light of this control object
分别给出了船舶电站相复励励磁系统、可控硅励磁系统、无刷励磁系统的数学模型,把同步发电机调压系统h _控制器的设计归结为混合灵敏度问题,针对同步发电机这一控制对象,分析了其模型的不确定性,建立了同步发电机广义对象的数学模型。 |
