Fundamentals of Industrial Communications in Automation / Jorge Gomez Rojas, Francisco Ernesto Moreno Garcia, and Byron Medina Delgado.

Format:

Book

Author/Creator:

Gomez Rojas, Jorge, author.

Moreno Garcia, Francisco Ernesto, author.

Medina Delgado, Byron, author.

Language:

Spanish

Subjects (All):

Communication in management.

Physical Description:

1 online resource (257 pages)

Edition:

First edition.

Place of Publication:

Santa Marta, Colombia : Editorial Unimagdalena, [2022]

Summary:

This book presents an integration between communication systems and its application to industrial systems. Thus, it contributes to academic training in an up-to-date and widely used environment in the industry.

Contents:

Intro

Foreword

Valoratives

Transversal (Cognitive, Interdisciplinary and Investigative)

Chapter 1: Introduction to automation

Introduction

Redo and Reset!

The analysis of unit operations in order to automate

Basic principles of industrial automation

Individual automation

Centralized automation

Distributed automation

Continuous processes

Batch processes

Individual process

Elements of automation

Action / Sensing (sensor) Level

Supervision level (Plant Level)

Management level (Factory level)

Chapter 2: Basics Concepts of Industrial Communications

Data Transfer in Industrial Environments

Types of signals

Physical medium

Number of channels

The OSI model

Data Communication

Time and Transmission

Protocols or Field Buses

Typical terminology and material found on a fieldbus

Hierarchical structure of industrial communications

Chapter 3: Main Field Protocol Technical Characteristics

I2C communication protocol

Examples of components and/or equipment that use the I2C Bus

SPI communication protocol

Examples of components and/or equipment that use SPI Bus

Hart communication protocol

The Hart protocol in the OSI model

The Hart signal

Transmission Mode and Format via Hart protocol

The evolution of the Hart protocol

Examples of components and/or equipment that use the Bus Hart

ASI Communication protocol - SERIPLEX

Example of component and/or equipment used by the AS-i Bus

Example of component and/or equipment used by the Seriplex Bus

CAN-Bus communication protocol

Example of component and/or equipment used by the CAN Bus

Modbus communication protocol

Access to the Medium

Protocol

The Request

The Response

Modbus Addressing

Function codes.

Example 3.1 Implementation of a modbus communications network.

Profibus communication protocol

Rockwell communication protocols

Devicenet

Controlnet

Ethernet

Chapter 4: Scada system and principles to enter supervision

The Scada System

Facility Remote Control

Information processing

Presentation of Dynamic Graphics

Generating Reports

Presentation of Alarms

Storage of Historical Information

Presentation of Trend Graphs

Event Programming

Introduction to OPC Server

Bibliographic references

Appendices

Practical exercise No. 1

RS232 Supported Serial Communication Development Instructions

Objectives

References

Transmission speed (baud rate)

Data bits

Stop bits

Parity

RS-232

Microcontroller programming to transmit to the PC

Practical exercise No. 2

Serial Digital Data Transmission Through FSK Modulation Instructions

General Description

Transmitter prototype development- FSK receiver

The digital sequence to be transmitted

Implementation

Bit clock generator

Scroll log and frame generation

XR-2206 modulator

Channel adaptation

Communication channel

XR-2211 Demodulator

Practical Exercise No. 3

Development of an I2C Communication with Labview for Analog Channel Reading

Instructions

Development of the Communication Protocol

USB Connector

Interface Between LabVIEW® and the I2C Communication Protocol

Practical Exercise No. 4

Serial Communication between a Mega Arduino - Pc For Type K Thermocoupler Reading Via SPI

SPI Serial Communication

USB Serial Communication

MAX6675 Module

Arduino Mega

Process

Final Considerations

Practical exercise No. 5.

Development and Implementation of an Spi-Can Communication Instructions

Objective

Necessary Elements

Theoretical Foundation

CAN communication

Practical Development

Arduino One Programming (set of 2)

Communication Conversion (SPI/CAN and CAN/SPI)

3.3 Schematic diagram to assemble

Recommendations

Practical Exercise No. 6

Communication between a CLICK Koyo PLC and a ModBus Board RTU Via RS485 Relay

Specific objectives

Theoretical Framework

Modbus

PLC

RELAY MODBUS BOARD RTU

Procedure for a Modbus Network Implementation

Relay Module Preparation

Slave Configuration and Programming (CLICK Koyo PLC)

Practical Exercise No. 7

Communication between an HMI 5056N Screen and a CLICK Koyo Via Modbus PLC

HMI screen

Procedure for the Implementation of a Modbus Network

Slave programming (plc click koyo)

Code Description

Master configuration and programming (hmi 5056n).

Gauge and Display indicator

Meter Display Configuration

Numeric Display Settings

Indicator and virtual potentiometer

Practical Exercise No. 8

Communication between ATV71 Variator and TWIDO PLC Via Modbus, Using Macro Drive.

Modbus Protocol

Exercise. Implementation of a modbus network

Master configuration (twido)

Open Twido Suite software

Configure components ports

Configure macro drive

Select the Modbus-Port 1 network channel and the address in the network

Program: go to edit program

Animation of tables

Configure atv71 speed drive parameters

Authors.

Notes:

Includes bibliographical references.

Description based on publisher supplied metadata and other sources.

Description based on print version record.

ISBN:

958-746-549-0

OCLC:

1346359510