What is PLC? - A Beginner's PLC Overview Every PLC Beginner Should Know

This blog post is for beginners who are interested in learning about PLC and SCADA, but they are confuses or not sure where to start. After read this post you will be able to identify the most basic components of a PLC system and can also know about the basic purpose and function of PLCs (and PACs). In this post I have cover all the basic about PLCs (and PACs).

What is PLC?

PLC stands for Programmable Logic Controller or programmable controller are small industrial digital computers which have modular components designed to control the manufacturing processes. PLCs are often used in factories and industrial plants to control light, motors, fans, pumps, circuit breakers and any other activity that requires high reliability control and ease of programming and process fault diagnosis. To understand the purpose of PLCs better, let’s look at a brief history of PLCs.

History of PLC-

Industrial automation started well before PLCs. In the right on time to mid 1900s, automation was typically done utilizing muddled electromechanical communicate circuits. Be that as it may, the measure of relays, wires and space expected to make even straightforward automation was risky. A large number of relays could be important to robotize a basic industrial facility process! Furthermore, if something in the intelligent circuit should have been changed?

In 1968 the first programmable logic controller came along to substitute complex transmit circuitry in industrial plants. The PLC was intended to be effortlessly programmable by plant architects and specialists that were at that point acquainted with transfer rationale and control schematics. Since the starting PLCs have been programmable utilizing stepping stool rationale which was intended to imitate control circuit schematics. The stepping stool graphs look like control circuits where control is spilling out of left to directly through shut contacts to empower a hand-off loop.

In the above diagram, you can see ladder logic looks like simple control circuit schematics where input sources (switches, push-buttons, proximity sensors, etc) are shown on the left and output sources are shown on the right.

How Do PLCs Work?

There are many PLCs components, but only these below three are most important of them:

1. Processor (CPU)
2. Inputs
3. Outputs

PLCs are most complicated and powerful digital computers but here we can describe the function of a PLC in simple terms. The PLC takes inputs & performs logic in the CPU and then turns on or off outputs based on that logic.

1. The CPU monitors the status of the inputs (ex. switch on, proximity sensor off, valve 40% open, etc.)
2. The CPU takes the information that it gets from the inputs, performs logic on the inputs
3. The CPU operates the outputs logic (ex. turn off motor, open valve, etc.)

See the flowchart below for a visual representation of the steps above.

Conclusion: Now you have better understanding of what PLCs are and how they work. Now you can start your PLC course. This was basic concept and was most important to know before start PLC training.

Best PLC Training Institute in India

The future of Industrial automation PLC SCADA technologies

Every industrial automation PLC SCADA project starts with the familiar process of counting I/O, selecting vendors, laying out PLC chassis, and distributing requests for quotes. And finally you are commissioning a system built on general standards, repeating the same mistakes as previous systems.

The conversations also repeat during bid review or negotiation meetings when someone points out inconsistent or outdated standards. Technology is changing so fast, and the past few years have brought technical advances that have breathed new life into Industrial automation groups and started great discussions around what the future holds. There is still a lot of work to be done.

Virtualization is a great example. Early adopters saw the benefits, and news spread like wildfire. As SCADA (supervisory control and data acquisition), manufacturing execution systems, and historian capabilities increased, so did the need for processing power, and virtualization was the perfect answer. Virtualization is now commonplace in Industrial automation domain. And many are asking what is next. The next big thing is waiting to happen. Industry has become more demanding asking for virtualized controllers and solution with mobility. But they are easily feasible with existing technology. The success of our industry depends on it.

HMI/PLC SCADA industrial automation applications have already secured their place as key components for any smart factory, IT-focused applications. Humans by nature are reluctant to give up control; however, fully automated facility does not mean a complete end of human interference on the factory. Considering the huge focus in industrial automation / automated equipment and intelligent HMI/PLC SCADA software, it is important that manufacturers invest in employee training, enabling talented engineers from industrial automation domain to focus on important tasks. 

NOIDA - 9873630785, Delhi - 9873630783, GURGAON - 9873588305, LUCKNOW - 9838834288, ALLAHABAD - 7704003025, JAIPUR - 8058033551, MOHALI - 9873349806, BHOPAL - 755-4002787, VADODARA - 9898666980, AHMEDABAD - 9227185900, PUNE - 7387700933

How crucial the summer training is, in the life of an engineering college student?

Dear Engineering students,

We, Sofcon India Pvt. Ltd. has always played a role of mentor for the students who want to make a career in the core engineering specifically in the domain of Automation, whether applicable to Industry, Factory, Building or Home.

It is vital that any student should think twice before selecting the technology and organization where they like to spend their summer to learn new skills or else it will be a waste of money and more importantly time.

Sofcon will provide a certificate to the engineering students mentioning NSDC on it as we are the affiliated training partner of NSDC since 2014 and executing many government projects of NSDC.

Sofcon India tries to bridge the gap in the area of skilled training. The available technologies are:

1.      Industrial Automation

2.      Building Automation

3.      Embedded System

4.      VLSI

5.      Pneumatic and Hydraulic System

6.      Heating Ventilation and Air Conditioning: Designing and Drafting

7.      Heating Ventilation and Air Conditioning: Control

8.      Solar Technology

9.      Internet of Things

10.  Access Control System

11.  CCTV/Surveillance System

12.  Fire Detection and Alarm System

13.  Design Courses of Mechanical and Civil Engineers like Auto CAD 2D, 3D, STADD PRO, Revit etc

Sofcon India avers to help the student in making their final year B.Tech project on the basis of what they have learned here in their summer training.

For More details, visit at http://www.sofcontraining.com

Or

Call now, at +91-9873630785, 9811587391

What is Industrial automation & how it evolved

What is industrial Automation

Industrial Automation is a technique by which we make hand over human control to machines. In industrial automation machines are programmed to accomplish the tasks which human beings used to achieve. Why it is done? Because of its advantages:

• Through Industrial automation we are able to do mass production with less manpower

• Quality of the product is increased
• Safety of man & equipment is increased
• More accurate process control
• Since human intervention is less so reliability of the system is higher
• Systems operate is low power supply, more electronic control so equipment life is higher
• Changes in process logic becomes easier since logics are changed mostly through software

L & T                                        Schneider  Siemens                                 Allen Bradley Messung                                  Modicon Mitsubishi                                 Asia Automation

Principal Industrial Automation MNCs

	ALSTOM                                 FESTO Fuji Electric                            Toshiba TATA Honeywell                       Omron Fanuc Delta

 

How industrial automation control system Evolved?

Initially automation was achieved through manual control, operators used to control the process at every step. Human intervention was there at every step. Drawbacks were low quality output, errors involved in human involvement affected compromised safety, wastage of raw material, and accuracy of human action.

Then came Pneumatic Control: Industrial automation in this era was achieved through invention of pneumatic controllers in early 1920s. Automation was achieved by controlling air to pneumatic valves, which in turn were actually switched on/off by relays and switches. They were very bulky and changing of the logic was very complex procedure since a lot of rework was required to accomplish change in logic. So time taken to complete task changes was very high  

Hard wired logic control: contactors, relays (for switching), timers and counters (for timing and counting) were used for achieving desired industrial automation. But these systems also resulted into bulky panels. A lot of wiring was involved so time taken to complete task was higher. Defect investigation & troubleshooting was complex.

Electronic Control using Logic Gates: In early 60s electronics dominated the process, electronic logic gates were used for achieving logical operations. they replaced switching devices like relays and contactors in the control circuits. Electronic times & counters replaced mechanical timers & counters. Due to use of electronics space and energy requirements reduced, maintenance requirement reduced & systems were more reliable.

Psychometric study and HVAC design and drafting

Psychometric study is a vast science and an integral part of HVAC design and drafting, MEP (mechanical, electrical and Plumbing). Psychometric means study of air properties. In literal sense of Air conditioning, air is the aspect to deal with. This air can be Supply air (SA), Return air (RA), Fresh air (FA) and Extract air(EA). SA and RA contribute to maintaining the temperature of the room as per the human comfort. FA and EA signify to the ventilation part. The outside air i.e. the ambient air varies from city to city and from variant time zone. The inside temperature or the desired temperature is universally considered to be between 21 deg C to 26 deg C; ideally 23 deg C. This indoor temp is universally accepted temperature range which is considered satisfactory for human comfort. Other factors which influence human comfort in HVAC system include the metabolic rate of the individuals, their physical activity, health conditions, clothing, food and drink etc. Generally speaking it is associated with individual metabolism rate which produces heat.

Psychometric analysis does not only signify to the temperature aspect but also to at Relative humidity ie RH and that means % of moisture content in air. For HVAC design and drafting, basically there are five major aspects:

• Dry Bulb Temp
• Wet Bulb Temp
• Dew Point Temp
• Relative Humidity
• Humidity Ratio

The preparation of psychometric table in HVAC design and drafting leads to the Heat Load Calculation which makes sure how much heat in unit of BTU/Hr needs to be dissipated and against that how much cooling in terms of TR needs to be entertained in the desired location. 

A Psychrometric Chart is very important tool for HVAC engineers which helps them to carry out heat load or cooling load calculations. This also helps HVAC design and drafting engineers find solutions to various air condition related problems. The psychrometric chart in overall shape looks like a shoe.

For more, visit at http://www.sofcontraining.com/hvac-design-and-drafting.htm

JOBS OPPORTUNITIES AVAILABLE IN VLSI

Being as Electronics/ECE student, we study Digital-Electronics, Micro-Electronics, VLSI as a subject in our Engineering. Digital Electronics tells us how we can make flip-flops, registers, different types of counters etc. and VLSI explains the structure of BJT, MOSFET, how can we reduce the power consumption, what factors should one keep in mind while designing different kinds of gates through BJT or MOSFET etc. Whereas Microelectronics describes the chip formation, how a silicon ingot is converted into useful chips and what are the fabrication steps that take place before tape-out. Tape-out is a process where a final chip is ready to release in market.

We all are aware about I.T. industry. We know on which language they are currently working, what opportunities we have, but can we exactly say about VLSI? Can you tell me what VLSI industry is, on which technologies we are working, what kind of opportunities we have in this field, what the basic tools we must learn. So, here is a brief description about that. If you are interested to make career in this field, you must know 

•      VERILOG/VHDL language ie., hardware description language.

•      Along this, you must have great knowledge of Digital Electronics, FSM Designing etc.

You can do the following with your VLSI knowledge i.e.,

•      Digital Design.

•      ASIC:-Application specific integrated circuits (ASICs).

•      Systems- on-a-chip (SoCs).

•      Reconfigurable computing.

Here is a list of job opportunities that are available in VLSI field.

ASIC frontend designer FPGA frontend designer ASIC physical design engineer AMS (Analog Mixed Signal) designer Library developer IP design engineer Verification Engineers Front-end verification engineer FPGA Back-end verification engineer Application Engineer Technical Support Tech Support Engineer Product Application Engineer (PAE) Reliability Engineer  Fab/Foundry Engineer

Physical design verification engineer AMS verification engineer EDA tool validation engineer IP verification engineer Board validation engineer EDA/CAD Engineers Software Development Engineer Software Test Engineer Regression and Automation Engineer  Build and Release Engineer Application Engineers Field Application Engineer (FAE) Corporate Application Engineer (CAE)

PROJECT IDEAS ON EMBEDDED SYSTEMS

Embedded systems have a vast variety of application realm that varies from low cost to high, consumer electronics to industrial equipments, entertainment devices to academic equipments, medical instrumentation to defence, avionics, and aerospace control systems. Embedded systems also include global positioning system (GPS), ATMs, equipments related to networking, digital vision systems, mobile communication, aerospace applications, telecom applications, etc and in different embedded systems projects. Embedded C language is used in projects, 8051/AVR/PIC microcontroller.

1. EmbeddedSystem for Detecting Reckless Driving on Highways: The main aim of this project is to design a speed checking device that identifies hasty driving on highways and informs the traffic authorities if anyone finds vehicle violating the set speed limits on highways.

2. Embedded System for Street Light Control: The main objective of this project is to detect the movement of vehicles on highways. It switches on the street lights before the vehicle enters a predefined area and switches the lights off when vehicles passes by in order conserve energy.

3. Embedded System for Vehicle Tracking: The main purpose of this project is to find the exact location of a vehicle by using a GPS modem in order to reduce vehicle robbery. The GSM modem sends an SMS to a mobile and an LCD display is used to display the location information in terms of latitude and longitude values.

4. Embedded System for Home Automation System: The aim of this project is controlling home appliances like fan, light or AC using GSM message service.

5. Embedded System for Industrial Temperature Control: The purpose of this temperature controller project is to control the temperature of any device using temperature sensors like LM35/LM34 etc. An LCD display is used to display the temperature.

Some More Embedded System Project Ideas

We at Sofcon India Private Limited, Noida offer various courses: Embedded Training, Embedded system design course, AVR Microcontroller training, ARM Microcontroller training, RTOS Training, and Embedded Robotics training, where students can upgrade their embedded system knowledge and enhance skills for growth opportunities.