| 1. | High voltage power supply management at big comprehensive mining face 大容量综采工作面高压供电管理 |
| 2. | Applications of power electronic technology in high voltage power supplying system 电力电子在高压输电系统中的应用 |
| 3. | Crowbar circuit protection of high voltage power supply of plasma filled hpm source 充等离子体微波源高压电源的撬棒保护 |
| 4. | On this condition , the controllable regulated high voltage power supplies was designed 并在此基础上,设计制作了可控制高压电源模块。 |
| 5. | Technical school of mechanical or electrical . experience of high voltage power supply system is preferred 机械或电气背景,有高压供电系统管理经验尤佳。 |
| 6. | General specification for the grid control travelling wave tube combined high voltage power supply of airborne radar 机载雷达用栅控行波管组合高压电源通用规范 |
| 7. | The artice first introduced magnitude meaning of ecrh to tokamak and the compose of ecrh system . then experiment on high voltage power supply was emphasized 本文首先介绍了ecrh对于tokamak物理实验的重大意义,以及ecrh系统的组成,重点是ecrh运行所必须的回旋管阴极负高压电源。 |
| 8. | At last , a high voltage power supply used for charging capacitors with constant current has been designed and completed . the operational characteristics of this power supply were proved by experiments to be fully agreed with the designing targets 最后,完成了一台高压大功率恒流充电电源的设计与制造,实验结果表明该电源的性能完全达到预期指标。 |
| 9. | Based on the research achievement of the key technologies , aiming at the electromechanical equipment systems in practical project , such as elevator system , high voltage power supply system , refrigerating system , wind - cooling refrigerating system , 论文最后基于上述关键技术的研究成果,针对实际工程中的机电设备系统,如电梯系统、高压配电系统、冷水机组系统、风冷热泵系统等,开发完成了一套楼宇机电设备集成监控系统。 |
| 10. | In chapter 3 , according to the requirements of high voltage power supply used for charging capacitors with constant current , the series resonant converter ( src ) was chosen as the main circuit frame . the dynamic process of src was discussed by using mathematical analyses and numeric simulation to study the operational characteristics , the effects of parameters of resonant circuit on them and the relationship between switching frequency and out put power , which provided the bases of designing the power supply 第三章中根据高压电容恒流充电电源的运行特点,选择了串联负载谐振变换器作为主电路结构形式,并对其动态过程进行了数学分析及数值仿真,讨论了该电路的运行特点、谐振回路参数对运行特性的影响以及开关工作频率与功率输出的关系,为电源的设计提供了依据。 |