| 1. | Energy feedback system was researched in this paper
本文主要研究了能量回馈系统。 |
| 2. | Design and realization of energy feedback type electronic power load
用脉冲整流器实现的电子模拟功率负载 |
| 3. | Study of energy feedback snubber circuit in high power ipm three - level converter
大功率三电平变流器中的能量回馈型吸收电路 |
| 4. | High power energy feedback ac electronic load and its application in power system dynamic physical simulation
大功率能量回馈型交流电子负载及其在电力系统动模实验中的应用 |
| 5. | Energy feedback system can play an important role in cutting down waste of energy and utilizing green - energy
能量回馈系统可以在减缓矛盾方面发挥重要作用,无论在减少能源的浪费方面或是在新能源的利用开发上。 |
| 6. | In this thesis , many research work has been done on er adaptive vibration control system around the new idea that using vibration energy feedback to realize adaptive vibration control
本研究围绕用振动能量回馈实现振动的自适应控制的这个新的观点,对电流变流体自适应减振系统进行了多方面的研究。 |
| 7. | Several control methods were discussed and amplitude and phase separate modulation was presented . digital control has large development space . this paper also used digital control to realize energy feedback
数字化是控制领域发展的趋势,在具体实现能量回馈系统的过程中,本文也充分运用数字式控制方式。 |
| 8. | Power electronic inverter technology is the key in energy feedback . this paper presented and analyzed current - source inverter and voltage - source inverter ' s work theory , and compared these two inverters . voltage - source inverter was the emphasis
电力电子的逆变技术是能量回馈系统的核心部分,本文讲述了电压型逆变电路和电流型逆变电路在能量回馈系统中的工作实现原理。 |
| 9. | The inverter acting as a rectifier , dumping capacitor and above dc / dc converter together constitutes the energy feedback main circuit . the control system adopts current pwm control mode , and high quality energy feedback with constant power could be accomplished . in addition , the paper involves some researches on malfunctions detection and protection , data communication , state supervision , and so on
在能量回馈技术的研究中,本文阐述了能量回馈的基本原理,提出了切实可行的解决方案,并专门设计了一种新颖的具有升降压功能的dc dc变换器;处于整流状态的逆变电路、储能电容和上述dc dc变换器共同构成能量回馈主电路;控制系统采用的是电流型pwm控制方式,能够实现高品质的恒功率能量回馈。 |
| 10. | Experimental results indicate that under two different work modules , i . e . real - time control and energy feedback , experimental prototype could achieve excellent static performance , dynamic characteristic and high power transformation efficiency , which consequently prove the correctness and feasibility of our solution
实验结果表明,实验样机在实时控制和能量回馈两种不同的工作模式下,均有良好稳态性能和动态特性,具有较高的能量转换效率,从而表明了本文解决方飞轮储能控制系统及能量回馈技术的研究案的正确性与可行性。 |
