| 1. | Full digital super - low speed servo system
全数字超低速随动系统 |
| 2. | Speed servo control system of dual - redundancy pm brushless dc motor
双余度永磁无刷直流电机速度伺服控制系统 |
| 3. | Speed servo system of ipmsm based on fuzzy - pi controller with voltage booster
控制具有升压电路的永磁同步电机调速系统 |
| 4. | Study on the fuzzy neural network control strategy of permanent - magnet synchronous motor speed servo system
控制器使用静态多层感知器神经网络 |
| 5. | Anticipatory learning control of position system of molding process for high speed servo injection molding machine
高速伺服注塑机成型过程预测迭代学习控制 |
| 6. | A simulation model for the permanent magnet synchronous motor speed servo system using the proposed nonlinear controller was built
建立了采用该控制器的永磁同步电动机速度伺服系统仿真模型。 |
| 7. | The thesis introduces a full digital super - low speed servo system based on micro - controller 80c196kc
介绍了以80c196kc单片机为核心的全数字超低速随动系统,分析探讨了系统的控制规律和实现方法。 |
| 8. | The ac frequency control experiment system based on pc has been further improved during the study for the paper on which the speed servo control experiments of ac motor adopting general rule self - adjusting fuzzy control ( rsafc ) , pid and vsrsafc , respectively , are fulfilled . the experiment results verify the better effectiveness and practicability of vsrsafc than the other two methods
在论文工作期间根据需要以及在使用过程中所遇到的问题对交流传动实验系统做了进一步的修改完善,并将全论域规则自调整模糊控制( rsafc ) 、 pid及变斜率规则自调整模糊控制( vsrsafc )应用于交流传动控制实验系统的速度伺服控制,通过仿真与实验研究,验证了所提出的vsrsafc方法的有效性与实用性。 |
