摘要
主要论述了基于FPGA的末制导雷达伺服系统设计。结合末制导雷达讨论其电机控制、二阶伺服系统性能和PID校正算法,利用VHDL语言设计,实现基于FPGA的方位步进电机开环定位控制和俯仰直流电机闭环速度控制的伺服系统。结合实际应用中遇到的问题,提出了基于"反馈控制"理论的有效的补偿算法,该算法提高了伺服系统的稳定性、快速性和精度。
Mainly discusses the design of terminal guidance radar servo system based on Field Programmable Gates Array (FPGA). It includes the system's electric machine control, second-order servo system performance and PID correction algorithm based on Virtual Hardware Description Language (VHDL) on azimuth stepping motor open loop positioning control and pitch direct current electric machine closed loop speed control of the FPGA servo system. In allusion to some factual problems during its application, presents corresponding effective solutions based on traditional control theory "Feedback Control". The fact proves that these methods can greatly improve the stability, speediness and precision of the original servo system. Additionally, a basic algorithm which can be realized in a terminal guidance radar servo system is given.
出处
《制导与引信》
2008年第1期10-16,共7页
Guidance & Fuze
关键词
末制导
伺服控制
时域
频域
脉宽调制
terminal guidance
servo control
time domain
frequency domain
pulseduration modulation
