DC servo speed control of an inkjet print head transport system using a phase-locked loop

Proceedings of 4th IEEE International Workshop on Advanced Motion Control - AMC '96 - MIE Pub Date : 1996-03-18 DOI:10.1109/AMC.1996.509292

H. Lin, M. Lu, J. Horng, T.B. Yang, S. Hsieh, C. Hsiao, H. Tai, J.S. Chen

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引用次数: 9

Abstract

A low-cost servo control system has been developed to regulate the speed of a belt driven moving carriage. It is used by a print head transport system which is designed for an inkjet printer developed by OES/ITRI in Taiwan. The servo controller is realized by a phase-locked loop with a DC servo motor. The phase-locked loop includes a lead-lag compensator which is designed based on the experimental system identification of the print head transport system. The experimental transfer function of the system is obtained under a set of sweeping sinusoidal excitation. On the basis of that model, a lead-lag compensator is then designed by using the root locus method. The compensator is proven to be effective in regulating the speed variation of the carriage within 10% while the carriage moves at 33 inches/sec. Experiments are performed to verify the effectiveness of the lead-lag compensator. This approach has made it possible for inkjet printers to be realized to demonstrate extreme improvement in printing throughput using low-cost ICs.

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用锁相环控制喷墨打印头传输系统的直流伺服速度

开发了一种低成本的伺服控制系统来调节带传动移动小车的速度。它被用于打印头传输系统，该系统是为台湾OES/ITRI开发的喷墨打印机设计的。伺服控制器采用锁相环和直流伺服电机实现。锁相环包括一个超前滞后补偿器，该补偿器是基于打印头传输系统的实验系统辨识而设计的。在一组扫频正弦激励下，得到了系统的实验传递函数。在此基础上，利用根轨迹法设计了超前滞后补偿器。实验证明，当小车以33英寸/秒的速度移动时，补偿器可以有效地将小车的速度变化调节在10%以内。实验验证了超前滞后补偿器的有效性。这种方法使得喷墨打印机在使用低成本集成电路的情况下实现打印吞吐量的极大提高成为可能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 4th IEEE International Workshop on Advanced Motion Control - AMC '96 - MIE

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