A Low-Cost High-Performance Alternative for Controlling a Servo-Hydraulic System for Triaxial Resilient Modulus Apparatus

M. Bejarano, A. Heath, J. Harvey
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引用次数: 7

Abstract

A triaxial test apparatus for the characterization of pavement materials was designed and built at the Pavement Research Center (PRC) at the University of California, Berkeley (UCB). The system was designed for high quality testing of unbound, stabilized, and asphaltic materials. The design process included the design of the hardware and the servo-controlling systems. An important step in the design of the system was the design of the controller for the servo-hydraulic system. Alternatives for controllers of servo-hydraulic systems for waveform generation included the use of the data acquisition system along with proportional, integral, and derivative (PID) algorithms for setting the minimum and maximum loads/displacement. Software programming for these solutions was very complex with limited satisfactory consistency. Commercial ready-to-use controllers are expensive and limited to the specifications of the manufacturer. Therefore, a commercially available programmable motion controller PIC card was implemented for controlling the servo-hydraulic system. The motion controller required only one PID controller to generate repeated waveforms or monotonic loading. An available commercial test solution software compatible with the motion controller card was used to program the motion controller and data acquisition system. This capability was preferable to provide flexibility in modifying the system based on research needs. Software programming was simple. In addition, the cost of the new system was reduced by about 80 percent with respect to the ready-to-use motion controllers. The paper describes the implementation of the motion controller, the philosophy of the software program, and the success obtained with the new system. The system meets all the quality control provision of the LTTP Protocol P-46. Currently the triaxial apparatus is being use to investigate the resilient response and permanent deformation performance of typical California aggregate base and subbases.
一种低成本、高性能的三轴弹性模量仪伺服液压系统控制方案
在加州大学伯克利分校(UCB)的路面研究中心(PRC)设计并建造了一套用于路面材料表征的三轴试验装置。该系统专为高质量测试未粘结、稳定和沥青材料而设计。设计过程包括硬件设计和伺服控制系统设计。系统设计的一个重要步骤是伺服液压系统控制器的设计。用于波形生成的伺服液压系统控制器的替代方案包括使用数据采集系统以及用于设置最小和最大负载/位移的比例、积分和导数(PID)算法。这些解决方案的软件编程非常复杂,而且令人满意的一致性有限。商用即用型控制器价格昂贵,且限于制造商的规格。因此,实现了商用可编程运动控制器PIC卡来控制伺服液压系统。运动控制器只需要一个PID控制器来产生重复波形或单调加载。采用与运动控制器卡兼容的商用测试解决方案软件对运动控制器和数据采集系统进行编程。这种能力对于根据研究需要灵活地修改系统是可取的。软件编程很简单。此外,与现成的运动控制器相比,新系统的成本降低了约80%。本文介绍了运动控制器的实现,软件程序的原理,以及新系统所取得的成功。该系统满足http协议P-46的所有质量控制规定。目前正采用三轴仪对典型的加州骨料基层和基层的弹性响应和永久变形性能进行研究。
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