Implementation of PPC-SSR as final control element and interfacing of PLC with LabVIEW using Modbus in two tank non interacting level control system

S. A. Dixit, A. Jain
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引用次数: 3

Abstract

This paper demonstrates the capabilities of software intelligence against hardware intelligence, real-time data acquisition using third party instrument like PLC and PPC-SSR as final control element. The experimental setup is a two tank non-interacting level control system and from these tanks; level of second cylindrical tank is to be control using a feedback control loop i.e. single analog level control loop. In LabVIEW software, Modbus serial communication is used for developing an online real-time data acquisition. In the project model, software based PID is used instead of hardware based PID which has equal controlling capabilities, where primary control element is pressure transmitter for level measurement, PID module of LabVIEW as a controller, PLC as an interfacing media between LabVIEW software and system hardware and Phase angle control-SSR as final control element for controlling the flowrate of centrifugal lifting pump. In addition to that this paper will also touch upon the implementation issues. Moreover this setup portrays the industrial setup with future scope of domestic use.
采用Modbus实现了PPC-SSR作为最终控制元件,PLC与LabVIEW的接口,实现了双罐非交互液位控制系统
本文论证了软件智能与硬件智能的对抗能力,以及利用PLC和PPC-SSR等第三方仪器作为最终控制元件进行实时数据采集的能力。实验设置是一个两个水箱非相互作用的液位控制系统,并从这些水箱;第二个圆柱形储罐的液位将使用反馈控制回路进行控制,即单个模拟液位控制回路。在LabVIEW软件中,采用Modbus串行通信开发了一个在线实时数据采集系统。在本项目模型中,采用基于软件的PID代替控制能力相当的基于硬件的PID,其中主要控制元件为液位测量的压力变送器,LabVIEW的PID模块作为控制器,PLC作为LabVIEW软件与系统硬件的接口介质,相角控制- ssr作为控制离心提升泵流量的最终控制元件。除此之外,本文还将涉及实施问题。此外,这种设置描绘了未来家庭使用范围的工业设置。
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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