摘要:针对当前工业数控系统高功率密度的发展需求,提出了一种基于DSP+FPGA体系结构的新型多轴交流伺服驱动控制系统设计方案。首先详细介绍了系统硬件驱动与控制电路的设计,包括控制电路、信号检测及保护电路、功率驱动电路、通信电路等,其次分析了软件实现及信号采样时刻点选择方法。该系统采用空间电压矢量控制策略,运用集中控制及分层处理的设计思想,实现具有位置、速度、电流控制的数字化高性能伺服控制系统。实验结果表明,该系统具有实时性好、精度高、动态响应快等优点。 关键词:永磁同步电机;矢量控制;高功率密度;数字信号处理器
Abstract: Targeting at the development demand of current numerical control system for high power density drive and control system, a multiaxis AC permanent magnet synchronous motor (PMSM) servo system was presented based on digital signal processor (DSP) and programmable logic devices (FPGA). Firstly, the hardware was introduced in detail, which included power circuit, detection circuit, protection circuit, control circuit, communication circuit, etc. Secondly, the methods of software implement and the signal sampling time point selection were presented. With the space vector control method,the servo system makes full use of centralized control and hierarchical process design, and has the position, speed control and current control function.Experimental results show that the system has a advantages of realtime, high control precision and excellent dynamic response. Key words: PMSM;vector control;high power density;DSP
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