EXCEL

Certified Industrial Automation Engineer (CIAE)

Certified Industrial Automation Engineer
Training Duration: 40 Days

Training Method:

All of our engineer’s are Industrial experienced engineers and we will give training based on our existing projects.

Overview:
  • Basic of Electronics, Electrical, Instrumentation, Programming, Process.
  • Understanding for Automation & Control
  • History of PLC / SCADA
  • Basic Components of Automation
  • Hardware / Software classification of Automation
  • Application of Industrial Automation
  • Job opportunity for PLC / SCADA
Course Content: PLC
  • Introduction to PLC’s
  • Architecture of PLC
  • Application and Advantage of PLC
  • Automation Concept and basic design
  • PLC programming
  • Introduction of Ladder Logic
  • Introduction of SFC
  • Introduction of Instruction list
  • Programmable Logic Controllers basic’s
  • Software / Hardware Introduction
  • Programming of PLC using 1131-3 Languages (LD, FBD, IL, etc.)
  • Developing the PLC programming from Control Narratives
  • Creating & Editing Ladder Logic Program
  • Developing industry oriented application programs using plc Programming Software
  • interfacing PLC with various field input/output devices
  • PLC Fault Finding, Trouble Shooting
  • Forcing I/O’s
  • Detailed sequence of wiring
  • PLC Control Panel Wiring
  • Interfacing with Relay logic
  • Hands on Experience from Real time application
  • Detailed Functions blocks and Wiring concept of Digital & Analog I/O modules
  • Fundamental of Basic Process Control
  • Implementation of Control Narratives
  • Transmitters / Transducers / mA Sources / HART Communicators connect with PLC
  • Overview of Flow, Pressure, Level, Temperature Transmitters
  • Overview of Control valve and ON/OFF valves
PLC Lab Capacity:
  • Siemens PLC
  • Allen Bradley
  • Schneider PLC
  • ABB PLC
  • Mitsubishi PLC
  • GE Fanuc PLC
  • Fuji PLC
  • Omron PLC
  • Delta PLC
  • Keyence PLC
Industrial / Project Documents:
  • P&ID Diagram (P&ID)
  • I/O List
  • Cause & Effect diagram (C&E)
  • Control Narratives
  • Single Line diagram
  • Function Design specifications (FDS)
HMI:
  • Introduction to HMI
  • Architecture of HMI / MMI
  • Creating Slides/Screens
  • Images, Objects Configuration
  • Alarm Configuration
  • Live interfacing with PLC
SCADA:
  • Introduction to SCADA
  • Establishing master-slave control
  • Creating & Editing Objects
  • Creating Database / New SCADA Project
  • SCADA page design from P&ID Diagram
  • Alarm Configuration
  • Trends- Real Time & Historical
  • Database & DDE connectivity
  • Driver configuration
  • Live interfacing with PLC
  • Graphics Properties – Sizing, Filling, Blinking, Analog Entry, Visibility, etc.
  • SCADA & PLC Interface used Different drivers
  • Understanding of P&ID diagram
  • SCADA Mimic page create from P&ID Diagram
  • Alarm / Events Configuration
  • Report generation
  • Modbus / Profibus / OPC
  • Data transfer from PLC/RTU , Report Generation
  • Process Graphics Development
  • Dynamic Object / Display Creation
  • Cause & Effect Matrix creation
  • Dynamo creation for display
SCADA Lab Software's:
  • Wonderware
  • IFIX 32
  • KingView
Human Machine Interface (HMI) Lab's:
  • Siemens
  • Mitsubishi
  • Delta
  • Omron
VFD:
  • Introduction to Drives & Motors
  • Architecture of VFD
  • VFD Programming
  • Interfacing PLC to VFD
  • Motor Speed Control using VFD
  • Checking the rated voltage, rated current, rated RPM
Variable Frequency Drives(VFD) Lab's:
  • Mitsubishi
  • Delta
  • Omron
Field Instruments Training:

 An instrument is a device that measures a physical quantity such as Flow, Temperature, Level, Pressure, Distance and Angle. Instruments may be as simple as direct reading thermometer or may be complex multi-variable process analyzers. Instruments are often part of a control system in refineries, factories, and vehicles. The control of processes is one of the main branches of applied instrumentation. Instrumentation can also refer to handheld devices that measure some desired variable. Diverse handheld instrumentation is common in laboratories, but can be found in the household as well. For example, a smoke detector is a common instrument found in most western homes.

   Instruments attached to a control system may provide signals used to operate solenoids, valves, regulators, circuit breakers or relays. These devices control a desired output variable, and provide either remote or automated control capabilities. These are often referred to as final control elements when controlled remotely or by a control systems.

   A Transmitter is a device that produces an output signal, often in the form of a 4 – 20 mA electrical current signal, although many other options using voltage, frequency, pressure are possible. This signal can be used for informational purposes, or it can be sent to a PLC, DCS, SCADA,ESD/SIS,FGS system, or other type of computerized controller, where it can be interpreted into readable values and used to control other devices and processes in the system.

   A valve is a device for Controlling the passage of fluid/Pressure/Level through a Pipe or duct/Tank,especially an automatic device allowing movement in one direction.Two type of valve’s are used in industries,

  • Control Valve
  • On/Off Valve.

Control instrumentation plays a significant role in both gathering information from the field and changing the field parameters, and as such are a key part of control loops.

Syllabus:
  • Field Instruments Introduction
  • Filed Instruments Overview
  • Field Instruments Types
  • Pressure Transmitters Configuration
  • Flow Transmitters Configuration
  • Temperature Transmitters Configuration
  • Level Transmitters Configuration
  • Control Valve Configuration
  • On/Off Valve Configuration
  • Conventional type Transmitter
  • Wireless Transmitters Overview
  • Field Instruments Selection
  • Wireless Transmitters Configuration
  • Filed Instruments Calibrations
  • Filed Instruments range changing
  • 375 Filed Communicator Overview
  • 375 Filed Communicator Configuration
  • I/O List generation from Field Instruments
  • Filed instruments integrated with DCS/PLC systems
  • Field Instruments identify from P&ID diagrams
  • HART Type Transmitters and Control Valves
  • Field bus type Transmitters and Control Valves
  • Filed Instruments calibration from DCS and Marshaling panel
  • 2-Wire / 3-Wire Transmitter overview and Configuration
  • ESD/SIS valve Overview

In industrial plants that deal with water, wastewater, oil & gas, the technology used to monitor is complicated and important. Without the right technology in place, these industries would fail to provide the essential services that people rely on for normal living. Among the two most important technologies in the modern industrial landscape are SCADA and PLC. While some people seem to think these two things are in competition, the fact is that these distinct technologies work hand in hand to provide key service.

EAS is a group of highly experienced professionals working in oil and gas industry whose goal is to be the best provider of Control and Automation based services from conception to Engineering, Design and detailing, installing, commissioning and hand over to customer. We achieve this goal by specializing exclusively in the project management of EAS plans.
Specialization means providing quality services to industries, professionals who are working in Industrial automation, students. In our pursuit of absolute quality, we will maintain a quantitative means of measuring our progress towards this objective.

Industrial automation is the use of Control Systems, such as computers or robots, and information technologies for handling different processes and machineries in an industry to replace a human being. It is the second step beyond mechanization in the scope of industrialization

 

What is a PLC?

When you are trying to figure out what is a PLC, you should know that it is a piece of hardware. PLC stands for programmable logic controller. A programmable logic controller is installed to monitor sensors. In this manner, a PLC stands for data collection, receiving critical information about the flow and input within the system. To this end, the PLC will also perform basic interventions, triggering outputs when the parameters programmed into the system are met. A PLC is a versatile piece of equipment, which holds up under harsh conditions with advanced options for programming and real-time usage.

Specifically, PLCs control some of the most complex processes within industrial plants. They are often deployed to monitor running machines and motors. In order to provide more functionality, a PLC is easy to program. Moreover, these devices are scalable. This means they can fit a wide range of requirements depending on the operation in question. The PLC was developed as an upgrade over the relays and timers that used to be common on industrial machinery. Modern PLCs offer far more complexity to the monitoring and are increasingly dynamic with the information they provide.

What is SCADA?

SCADA stands for Supervisory Control and Data Acquisition. SCADA is a monitoring software used in these industries. As software, it helps control the hardware and makes a record of the data collected from all remote locations. SCADA software is connected to computers, graphical user interfaces, sensors and networked data communications in order to provide a broad picture of the process. Within this context, management teams in these industries rely on SCADA to monitor progress and make operating corrections throughout the plant.

Because SCADA is a central system, it is usually installed on a computer in a monitoring hub at a plant. In order to provide the necessary data, SCADA works with a variety of other systems. It serves as an interface of sorts, bringing various plant data together for assessment purposes. From this information, the operator can enter changes as necessary through the SCADA interface in order to control the flow and operation of the working parts within the plant.

What is the Difference Between PLC and SCADA?

When comparing SCADA vs. PLC, it is important to start with the basics. At the core, the difference between a programmable logic controller and SCADA comes down to the type of technology. A PLC is a piece of physical hardware. SCADA, on the other hand, is software. To this end, a PLC is physical. You can hold a PLC and examine it. As software, SCADA operates on a computer system and can be compared to an operating system like Windows.

With this comparison, SCADA has a much wider purview. This software is designed to control the entirety of the system, collecting data from all inputs and monitoring all devices. A PLC, by contrast, focuses on one element of the system.

What is the Relationship Between PLC and SCADA?

With these differences, it might be easy to assume that there is no PLC SCADA connection. However, the relationship between PLC and SCADA is very important. Both PLCs and SCADA software are used in the same industrial context within processing plants. This means that these technologies are essentially partners for safe and efficient plant operation. SCADA can be looked at as the broad software structure that supports the system. PLCs are a part of the system that SCADA oversees. The PLCs need SCADA to control their function, but SCADA relies on data from the PLCs to complete its overview.

This PLC SCADA relationship is invariably powerful in creating an automated system to accurately prescribe maintenance tasks. For example, if used to monitor a turbine, the PLC may collect data that suggests there is too much vibration in the system. The PLC will transmit that data back to the SCADA software. SCADA will analyse the readouts and determine whether or not an adjustment needs to be made to the system. If a change must be made, SCADA transmits the changes back through the PLCs to facilitate the correction.

Clearly, it is not a question of SCADA vs. PLC. Instead, it is a honed technological partnership. By understanding the function of both systems, it is easy to see how they work together for superior performance in industrial contexts. To learn more about SCADA software or PLCs connect with us at High Tide Technologies.

 

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2 comments on “PLC SCADA Trainning in Chennai

  1. Kindly Visit: http://www.excelautomationsolutions.com/ for VILT DCS Training.

    Virtual Instructor-Led Training (VILT) is rapidly becoming one of the most cost-effective training methods in the field of Industrial Automation and Process Control in the world.

    VILT ensures employees remain engaged, productive, and informed in a safe & sustainable manner.
    The world-class Industrial Automation and Process Control Training Courses are proudly brought to you by EXCEL Automation Solutions, the training division.

    EAS is an Internationally Accredited Organization, an accredited IAO training provider, and a recognized ASCB (E) training provider.

    Courses offered from EAS through Virtual Instructor-Led Training (VILT) :

    》EMERSON DeltaV DCS and SIS Training.

    》Honeywell EPKS C300DCS Training.

    》ABB 800xA DCS Training.

    》SIEMENS PCS 7 DCS Training.

    》Certified Automation (PLC HMI SCADA) Engineer Training.

    For further queries/clarification, please feel free to Call/WhatsApp -+91 88 7000 7000 (we’re available 24/7); we’ll be glad to assist you.

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