Kiattisak Sengchuai, W. Wichakool, N. Jindapetch, P. Smithmaitrie
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引用次数: 3
摘要
本文介绍了一种双级硬盘磁头定位数字控制器的设计与验证。将双级跟踪控制的自适应PID控制器的连续时间模型转化为稳定的离散时间模型。然后,在数字控制器设计过程中对采样率、算术运算位宽和控制参数进行优化。Xilinx System Generator用于生成可在实际FPGA中实现的硬件描述语言。最后,通过硬件板进行硬件在环验证,以保证控制模型的正确性。该方法不仅可以加快新型硬盘的设计周期,而且可以实现高采样率精确的磁头位置控制。从验证结果来看,我们提出的控制器可以在低成本FPGA (Xilinx Spartan-III XC3S400)上以5.64 MHz的采样率工作,位置误差(3-sigma)仅为轨迹的4.2138%。
FPGA-based hardware-in-the-loop verification of dual-stage HDD head position control
This paper presents a design and verification of a digital controller for dual-stage hard disk drive (HDD) head positioning. A continuous time model of an adaptive PID controller of the dual-stage track following control is converted to a stable discrete time model. Then, the optimizations of sampling rate, arithmetic operation bit-width, and control parameters are performed during digital controller design. Xilinx System Generator is used to generate the hardware description language that can be implemented in a real FPGA. Finally, hardware-in-the-loop verification is performed through a hardware board to guarantee the control model. This method can not only accelerate the design cycle of new HDD models, but also achieve high sampling rate precise head position control implementations. From the verification results, our proposed controller can work at 5.64 MHz sampling rate on a low cost FPGA (Xilinx Spartan-III XC3S400) and the position error (3-sigma) is only 4.2138 % of track.
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