| 1. | Water level control and load control
可增设水位调节和功率调节功能 |
| 2. | Pcu power conditioning unit
功率调节装置 |
| 3. | This thesis pays more attention to the drive circuit of high frequency power mosfet , power regulation circuit and frequency - tracing circuit
本文主要研究高频功率mosfet的驱动电路、频率跟踪电路以及功率调节电路。 |
| 4. | The strategies of the closed loop control of high frequency induction heating power supply and the fuzzy control is introduced to the power control
最后分析了高频感应加热电源的闭环控制的控制策略,并将智能控制引入感应加热电源的功率调节中。 |
| 5. | Any wind turbines need power control . we aim at capturing wind energy in below - rated wind speed as much as possible and limiting the aerodynamic power in above - rated wind speed
任何风力发电机都需要功率调节,其目的是在额定风速以下尽可能多的吸收风能,在额定风速以上限制其功率的输出。 |
| 6. | Secondly , the power regulation circuit is discussed in detail , and the high frequency phase - shift power regulation circuit is studied detailedly . lastly , the frequency - tracing circuit is designed with phase - locked - loop
其次,对高频串联逆变电源的功率调节问题进行了详细地讨论,并仔细地研究了高频情况下移相调功的问题。 |
| 7. | This method is applied to the design of the power control system of an experimental nuclear reactor , the numerical simulation results prove that the design process is practical , and the control performance is satisfactory
将此解析化方法应用于一实验反应堆功率调节系统的设计,通过数值仿真证明:设计的控制器控制效果良好,该解析化设计方法可行。 |
| 8. | It makes hydraulic turbine running with peak efficiency all the time . the governor is designed with model structure . closed - loop start - up strategy is applied during running and it realizes three adjust mode - frequency , wicket gate and power
调速器采用模块结构进行设计,在调节过程中实现了闭环开机控制策略,并可在频率调节、开度调节、功率调节三种调节模式之间自动或手动无扰动切换。 |
| 9. | In order to make the design process for power control system of experimental nuclear reactor optimal , objective and analytical , an analytical design process which contains the model linearization , model reduction , theoretical design of pid controllers is discussed
摘要通过对实验反应堆系统模型进行线性化和模型降阶、再对降阶模型进行pid控制器的理论设计的方法,可使反应堆功率调节系统的设计最优化、客观化和解析化。 |
| 10. | In this scheme , power control is primary to the rate control . when the fading channel changes slowly , the transmit data rate will be kept on an appropriate level , and only the power control works to keep up with the channel fading and balance the sir . but when the channel quality is poor , the data rate will be switched down without sacrificing the ber ; otherwise , high data rate was selected
我们提出的方案根据反馈的sir动态改变数据的速率和功率,其中功率控制优先于速率控制,当信道变化缓慢时,数据率保持在一个相对稳定的值上,调节发射功率来维持sir平衡;当功率调节无法弥补信道的衰落时,则通过调节速率来维持sir的平衡。 |
