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PLC SCADA Training in Noida

Aiming for high is not bad, as far as growth is concerned. And if you are looking to get jobs in Delhi NCR region, then it is a must to brush up your skills. But, after graduation, most of the students are not clear what to do and what not to. But if automation is in your mind or plc training is in your mind, then Innovic is the best place to get training. Innovic has the best trainers, that is not all, they have the latest pieces of equipment. Altogether, they make the best centre which offers automation training in Noida.

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Apart from offering automation training, they are also offering, PLC training in Noida, Scada training in Noida and Plc Scada training in Noida. Plc (programming logic control), the demand for it is increasing day by day, as it helps in increasing productivity and improving quality. Maintenance costs are also reduced, and thus increases the profit. This, in turn, increases the demand of engineers in the company. Innovic thrives for providing quality education along with superb training, combined together helps students in getting jobs faster.

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Innovic is also helping students with 100% placement Guarantee. The placement cell conducts the interview as well, so that, students are ready to face any interviews. Innovic is training thousands of students by offering excellent PLC SCADA courses at reasonable rates. One of the most profound aspects of joining Innovic is that the fees are very affordable, hence attracting a large number of students. They train the students by offering skills such as automation concept, PLC programming, PCL’S introduction and many more.

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Benefits of joining Innovic:
Affordable fees.
• Quality education is given to the students.
• Excellent job assistance is given to the students, so that they take money with them, right after the completion of the course.
• Corporate trainers teach the students as per the latest market standards so that the students are on par with other students.

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Applications of SCADA

SCADA is widely used in different areas from chemical, gas, water, communications and power systems. The list of applications of SCADA can be listed as follows.

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1. Electric power generation, transmission and distribution: Electric utilities use SCADA systems to detect current flow and line voltage, to monitor the operation of circuit breakers, and to take sections of the power grid online or offline.
2. Water, Waste Water Utilities and Sewage: State and municipal water utilities use SCADA to monitor and regulate water flow, reservoir levels, pipe pressure and other factors.
3. Buildings, facilities and environments: Facility managers use SCADA to control HVAC, refrigeration units, lighting and entry systems.
4. Oil and Gas Trans & Distributions:
5. Wind Power Generation
6. Communication Networks:
7. Industrial Plans and Process Control:
8. Manufacturing: SCADA systems manage parts inventories for just-in-time manufacturing, regulate industrial automation and robots, and monitor process and quality control.
9. Mass transit and Railway Traction: Transit authorities use SCADA to regulate electricity to subways, trams and trolley buses; to automate traffic signals for rail systems; to track and locate trains and buses; and to control railroad crossing gates.
10. Traffic signals: SCADA regulates traffic lights, controls traffic flow and detects out-of-order signals.

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SCADA in Power Systems:
SCADA is widely used in power systems. The applications for SCADA keep increasing day after day. Some of the applications are:

Comprehensive operational planning and control
Fuel resource scheduling
Optimum power flow
Network security
Economic dispatch
Generation dispatch control

Expected Benefits of SCADA for Power Systems:

Improved quality of service
Improved reliability
Reduced operating costs
Maintenance /Expansion of customer base
Ability to defer capacity addition projects
High value service providers
Improved information for engineering decision
value added services
Flexible billing option
Improved customer information access
Reduced system implementation costs
Reduced manpower requirements

Typical features of a substation SCADA system are as under Substation parameter monitoring:

Controlling electrical network components remotely
Safety tagging
High resolution time stamping
Sequence of event reporting for post event analysis
Additional features of substation control system
Demand side management
Volt/VAR control
Preventive maintenance
Fault detection isolation and restoration

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SCADA for Power Utility Network:

The aim of power network utilities(PNU) software is to provide the electrical utility with tools which will enhance the operation of the system in a very cost effective way.in the present scenario of low budgets for power utilities to produce and distribute quality power at the minimum cost.This goal can be achieved by proper operation of the electrical network and at the same time having real time data about state of the network.This real time data can then be used for supervisory controlled changes of
the network parameters with effective guidance from distribution automation tools.The PNU software utilizes the real time SCADA data.the real time network topology network component details & user defined strategies to achieve the above mentioned goals.PNU uses a combination of mathematical and logical techniques to provide the user with a host of applications for the purpose of distribution automation.

Features of Power Network Utilities:
Component Modeling
State Estimation
Bad data suppression
Contingency analysis
Fault isolation/islanding
Load shedding
Volt/Var scheduling
Dispatcher power flow
Short circuit analysis
Network topology processor

Objectives:
There are many objectives of SCADA System.
1. Improved overall System efficiency (capital & energy)
2. Increased penetration energy sources including renewable energy sources.
3. Reduced Energy Requirements in both the Transmission and Generation
4. Increased Relativity of sequence to essential loads.

Components of SCADA:

There are many parts or components of a SCADA system, which include hardware (input and output), controllers, networks, user interface, communications equipment and software. All together, the term SCADA refers to the entire central system. The central system usually monitors data from various sensors that are either in close proximity or off site (sometimes miles away).

An industrial SCADA consisting of the following
1) a central host or master station unit or, master terminal unit (MTU);
2) one or more field data gathering and control units or remotes (usually called remote stations, remote terminal units, or RTU’s);
3) a collection of standard and/or custom software used to monitor and control remotely located field data elements.

Contemporary SCADA systems exhibit predominantly open-loop control characteristics and utilize predominantly long distance communications, although some elements of closed-loop control and/or short distance communications may also be present.
Major components of SCADA:

1) A collection of equipments that is provide the operator at remote location with enough
information to determine the status of particular piece of equipment or entire substation or a plant or a dynamic network and cause actions to take place regarding that equipment or network without being physically present.
2) An arrangement for operator control and separation of remotely located apparatus using multiplexing techniques once a relatively small number of interconnecting channels.
3) Collecting Data from remote electrical equipment and controlling then through suitable communication medium.

Functions of SCADA:
A SCADA system performs four functions:
1. Data acquisition
2. Networked data communication
3. Data presentation
4. Control
These functions are performed by four kinds of SCADA components:
1. Sensors (either digital or analog) and control relays that directly interface with the managed system.
2. Remote telemetry units (RTUs). These are small computerized units deployed in the field at specific sites and locations. RTUs serve as local collection points for gathering reports from sensors and delivering commands to control relays.
3. SCADA master units. These are larger computer consoles that serve as the central processor for the SCADA system. Master units provide a human interface to the system and automatically regulate the managed system in response to sensor inputs.
4. The communications network that connects the SCADA master unit to the RTUs in the field.

If you require more information about SCADA, feel free to Contact us

@+91-9555405045 / 9718474287

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Why do Engineers need PLC Training?

7d548a2c-7e31-47aa-a20d-c557a55e691d-originalA question for all you engineers : what do Pepsi , Reynolds pens and Hero Honda bikes have in common? Give up? They all use automation in some way during the manufacturing process. Automation is everywhere and it has taken a pivotal role in today’s industrial age causing many companies to be dependent on PLCs and PLC-trained personnel. So if you are new to PLCs, never heard of them, or know them well, it is time to get training and we will tell you why: Career Opportunities : For those who may not know about automation or PLCs, allow me to explain. Automation is defined by Google as: the use of largely automatic equipment in a system of manufacturing or other production process.

scadasystem.img_-800x572That is of course the PLC or Programmable Logic Controller. Getting the training you need, to develop, install and support PLC systems like these can open up a wealth of career opportunities for you. Who wouldn’t want that?! Minimize the Learning Curve : Now, for those of you who work with PLCs but are just starting out, PLC training is a great way to get ahead of the curve. Earlier, it was different when someone started his/her control engineering career. A system integrator or automation product manufacturer would take engineers in and show them everything there was to know about PLCs and PLC programming. But now, companies don’t want to invest their resources or time in training. They prefer engineers who come with this knowledge. So, if you want a career, you need to undergo PLC training. And with PLCs, just theoretical training will not take you a long way. Hands-on experience is what will further your understanding and get you ready for the career ahead. Stay Ahead of the Curve : “I work with PLCs every day, I don’t need training.” Well, like any technology, PLCs are constantly advancing and keeping up with new developments can benefit you as well as your company. These days the minute you buy the newest technology it is on its way to being obsolete. PLCs are no different. Advances in hardware and software are making PLCs more efficient, user friendly and cheaper. For instance, a lot of controllers can now interface with mobile apps for remote monitoring, something that wasn’t available earlier. Keep your Options Open : “I don’t work with PLCs at all, I don’t need training.” Maybe not. But allow me to give you some things to consider.

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First, a lot of companies are turning to automation to stay profitable in this economy. An understanding of what automation is and how it works could afford you the knowledge of how to automate some of the processes you do work with, saving you time and your company money. Speaking of this economy, it is always good to have a plan B. PLC training can also give you the mobility to move to another career field in case the need arises. Further your Education : Three words : continuing education credits. You could be interested in Industrial Engineering or Robotics & Automation, which means PLC training will give you the fundamental knowledge you require. Alternatively, you probably are not sure what path your education will take. It’s ok. There is no harm in learning something which is an inevitable part of all industries now and is also getting into all facets of our everyday lives. PLCs are your Friend : Engineering is the science of solving problems. Electrical Engineering is solving those problems electrically. Automation was born to solve problems faced by production facilities but it can also be used to solve problems at home. Learning the basics of PLC technology can give you the knowledge to automate tasks performed around the house. For example, a PLC system can be used to prevent the overflow of water from the overhead tank. Why Not ? : The engineering field is very competitive and there is nothing lost by becoming a more well-rounded engineer. If you are interested in PLC training, we can help.

Feel free to contact us on:

Contact No: +91-9555405045

Email Id: raj.innovic@gmail.com

Web: www.innovicindia.com