Industrial Automation

Automation is encompassing virtually every walk of life. Automation solutions are required right from agricultural to space technology. Plant Automation is the necessity for the manufacturing industry to survive in todays globally competitive market

What is Automation ?
Automation is basically the delegation of human control function to technical equipment for Increasing Productivity Increasing Quality Reducing Cost Increasing Safety in working conditions

History of Automation

Programmable Logic Controller

Electronic Control using Logic Gates

Hard wired logic Control Pneumatic Control

Manual Control

Manual Control
All

the actions related to process control are taken by the operators

Drawbacks Likely human errors and consequently its effect on quality of final product

The production, safety, energy consumption and usage of raw material are all subject to the correctness and accuracy of human action.

Pneumatic Control
Industrial

automation, with its machine and process control, had its origin in the 1920s with the advent of "Pneumatic Controllers". Actions were controlled by a simple manipulation of pneumatic valves, which in turn were controlled by relays and switches. Drawbacks Bulky and Complex System Involves lot of rework to implement control logic Longer project time

Hard wired logic control

The

contactor and Relays together with hardware timers and counters were used in achieving the desired level of automation

Drawbacks Bulky panels Complex wiring Longer project time Difficult maintenance and troubleshooting

Electronic Control using Logic Gates

In 1960s with the advent of electronics, the logic gates started replacing the relays and auxiliary contactors in the control circuits.
The

hardware timers & counters were replaced by electronic timers Advantages Reduced space requirements Energy saving Less maintenance & greater reliability Drawbacks Changes in control logic not possible More project time

Programmable Logic Controllers

In

1970s with the coming of microprocessors and associated peripheral chips, the whole process of control and automation underwent a radical change.
Instead

of achieving the desired control or automation through physical wiring of control devices, in PLC it is achieved through a program or say software.
The

programmable controllers have in recent years experienced an unprecedented growth as universal element in Industrial Automation.

It

can be effectively used in applications ranging from simple control like replacing small number of relays to complex automation problems

Advantages of PLCs

Reduced space Energy saving Ease of maintenance Economical Greater life & reliability Tremendous flexibility Shorter project time Easier storage, archiving and documentation

Industrial Automation Components

Field Instruments Control Hardware Control Software

Automation : Typical installation . . . .

SCADA Software
Communication Cable

Control Hardware Control Panel

Field Cabling

Junction Box
Field Cabling

Sensors Placed in the field

Automation : Advanced Technology . . . .

SCADA Software
Communication Cable

Control Hardware Control Panel

Field Bus Network

Field Bus Scanners

Field Cabling

Smart Transmitters Placed in the field

Sensors ( Field Instruments )

Sensors with transmitters are the field devices placed in the field who actually sense the parameter and send the analog signal to the control hardware. The analog signals used are Ohm (RTD), mV (Thermocouple), 4-20 mA, +/-10 V, etc

Widely used Sensors ( Field Instruments )

RTD : Output in Ohms (Temperature) Thermocouples : Output in mV (Temperature) Pressure Transmitters : 4-20mA, 0-10 V .. Flow Transmitter : 4-20mA, 0-10 V .. Level Transmitter : 4-20mA, 0-10 V .. Conductivity meter : 4-20mA, 0-10 V .. Density meter : 4-20mA, 0-10 V .. pH transmitter : 4-20mA, 0-10 V ..
And Many more

Leading Manufacturers in Sensors ( Field Instruments )

Fisher Rosemount Yokogawa Endress & Houser Honeywell ABB Emerson Radix Tosh-Bro

Control hardware

Standalone PID Controllers Programmable logic controllers (PLC) Distributed Control System

Standalone PID Controllers

These are the independent small hardware units which caters requirement of closed loop controls in the process. These hardware can be installed in field or in control room. These hardware can be connected on the network. Currently the controllers are available with 100s of segment and programming patterns

Typical Installations using PID Controllers

Controllers placed in field

RS-232 RS-485 Bus

Leading Manufacturers in PID Controllers

Yokogawa ABB Moore Eurotherm ASCON Chino Bells Fuji

Programmable Logic Controllers

Now a days PLCs are the most widely used control hardware in control applications. The applications ranges from standalone system for CNC machines to Hot swappable Redundant System for Critical Process Control

What Constitutes A PLC ?

The PLC is programmed interface between the field I/p element like limit switches, sensors, push button and the final control elements like actuator, solenoid/control valves, drives, hooters etc PLC consist of Input Module CPU with Processor and Program memory Output module Bus System Power Supply

Configuration of PLC : Modicon

Built in display for I/O (in-rack, AS-i) and Diag 8 Analog Inputs 1 Analog Output

Programming Terminal PC Connection

I/O Modules
Up/Down Fast Counter

Up Counter Unitelway Port for connection of up to 5 Slaves

TSX37-22 PCMCIA communications port

PCMCIA memory expansion port

Configuration of PLC : Siemens

CPU

I/O Modules
External Power Supply

Configuration of PLC : Allen Bradley

CPU

I/O Modules
Power Supply

Distributed I/O Modules

PLC

Distributed I/O scanner

Data Communication Bus

Distributed I/O modules

Hot Redundant System Configuration

TAPS SPLITTERS Remote I/O Network FIBER OPTIC LINK

Networking of PLCs
Supervisory HMI

Modicon : Modbus +, Uniteleway, Ethernet Allen Bradley : DH+, DH485, Ethernet, Control Net, Devicenet Siemens : Sinec L1/L2/H1, Profibus

Programming Languages in PLCs

Ladder Logic ( LAD/LD ) Structured Text ( ST) Instruction List ( IL ) Sequential Function Chart ( SFC ) Function Block Diagram ( FBD )

Supervisory Control & Data Acquisition Software

Features of typical SCADA software Dynamic process graphic Real-time and Historical trending Alarms Recipe Management Security Device connectivity Script for logic development Database connectivity

Some of the Leading SCADA Software

Wonderware : InTouch Intellution : Fix DMACS Merz : Aspic Allen Bradley : Rsview Siemens : WinCC GE Fanuc : Cimplicity KPIT : ASTRA

Role of Engineers In Industrial Automation

Designing of the Automation system Erection and Commissioning Maintenance and Troubleshooting of existing system

Job Prospect for Fresher

Today management of almost all manufacturing units are going for industrial automation to survive in globally competitive market. Most of these industrial units are looking forward for trained engineers in the field of industrial automation. Since they are thinking about more accuracy, productivity in less time & with minimum manpower , Its a golden opportunity to prepare yourself to take on this task.

Job prospects for Engineers In Industrial Automation

Manufacturing Industries like Reliance, Ceat, Godrej, Colgate .

Automation Solution Products manufacturer/developer like Rockwell, Siemens, Grouppe Schneider, Yokogawa, ABB

System Integrators for Grouppe Schneider Rockwell, Siemens, etc

Consultants for Automation

Current Situation

Automation is a high growth sector globally hence it is essential to all professionals and students to have practical knowledge about the hardware and software used in Industrial Automation.

Do you want to be Lucky.