PLC (Programmable Logic Controller):
The objective of PLC is to control and monitor industrial processes automatically. PLC is a digital computer that is programmed to control manufacturing processes such as assembly lines, robotic devices, and any other process involving control and monitoring of machines. The main objective of PLC is to provide a reliable and efficient control system to automate industrial processes, increase production efficiency, reduce costs, and improve product quality.
SCADA (Supervisory Control and Data Acquisition) :
The objective of SCADA is to monitor and control industrial processes from a centralized location. SCADA systems are designed to collect and process real-time data from remote locations, monitor and control equipment, and provide alarms and notifications when any process goes out of control. The main objective of SCADA is to provide real-time information about the status of the system and improve decision-making processes, reduce downtime, and increase overall system efficiency.
Who Can Learn :
Anyone who is interested in automation, control systems, and industrial processes can learn PLC and SCADA. Typically, engineers, technicians, and electricians who work in the field of industrial automation and control systems learn PLC and SCADA. Students who are pursuing engineering degrees in electrical, electronics, or instrumentation can also learn PLC and SCADA as part of their curriculum.
It is important to note that prior knowledge of electrical and electronics concepts, programming, and control systems can be beneficial when learning PLC and SCADA. However, with the right training and resources, anyone can learn and master these technologies.
Job Opportunities :
Control Systems Engineer
These professionals are employed in industries such as manufacturing, oil and gas, power plants, chemical plants, water treatment plants, and many more. The job roles may vary depending on the industry, but the core responsibilities involve designing, programming, installing, maintaining, and troubleshooting PLC and SCADA systems.
The job opportunities in PLC and SCADA are expected to grow in the coming years due to the increasing demand for automation and control systems in various industries. This makes it a lucrative field for individuals who are interested in pursuing a career in industrial automation and control systems.
Frequently Asked Questions :
1. What is the difference between PLC and SCADA?
PLC (Programmable Logic Controller) is a device that can be programmed to perform specific tasks and control industrial processes. SCADA (Supervisory Control and Data Acquisition) is a software system that allows operators to monitor and control processes remotely.
2. What are the advantages of using PLC and SCADA systems in industrial processes?
PLC and SCADA systems offer a number of benefits, including improved efficiency, reduced downtime, increased safety, and better control over industrial processes. They also help to reduce costs and increase productivity.
3. Do I need programming skills to learn PLC and SCADA?
While programming skills can be helpful, they are not necessarily required to learn PLC and SCADA. Many training programs provide step-by-step guidance on how to use these systems, and some systems even offer a graphical user interface (GUI) that makes it easy to set up and manage.
4. What are the different types of PLC and SCADA systems available?
There are many different types of PLC and SCADA systems available, each with its own set of features and capabilities. Some of the most popular types include Siemens SIMATIC, Allen Bradley, Mitsubishi, and Wonderware.
5. What kind of job opportunities are available for individuals with knowledge of PLC and SCADA systems?
Individuals with knowledge of PLC and SCADA systems are in high demand in a variety of industries, including manufacturing, oil and gas, power generation, and transportation. Job roles may include PLC programmer, SCADA engineer, control systems engineer, automation engineer, and many others.
Course Curriculum :
» Background to SCADA
» Architecture of PLC & SCADA
» SCADA system configuration
» Fundamentals of PLC software + Usage of Analog & Digital functions
» Functions + Using registers
» SCADA system software
» Data allocation in PLC
» Relay wiring
» Input & output wiring in PLC
» Using ladder logic for digital
» Designing the process
» Interfacing with PLC & other
» Fundamentals of PLC hardware devices
» Overall panel wiring using PLC
» Usage of instructions like Timer, Counter, Jump, Subroutine, Math, Comparator, Converter and other instructions
» Applications in SCADA
» Data acquisition concepts in SCADA
» Monitoring & controlling the field process using SCADA
» Alarm & recipe management in SCADA
» Industrial automation project using PLC & SCADA