Experiment 01: Activation of Various Output Indicator Elements using Push buttons
Experiment 02: Activation of Indicator Light by series and Parallel switches
Experiment 03: Activation of Indicator Light by Coil activated Contact Switch
Experiment 04: Activating Indicator light using Circuit with Coil latch and Coil Unlatch
Experiment 05: Activation of Indicator light by Delay timer circuit
Experiment A: Control of double acting cylinder using Proximity sensors and Proximity Switch
Experiment B: Control of double acting cylinder using delay on and off timer and counter
Experiment C: Execute energized motor using Switches in Series or Parallel Circuit
Experiment D: Execute energized motor using Switches in Latching Circuit
Experiment E: Execute energized motor using Switches in Sequential O/P
Experiment F: Delay Control of Motors using Timer function
Experiment G: Control of Motors using Relay contact
Experiment H: Indirect Control of Forward and Reverse motion in Motor
Experiment I: Direct Control of Forward and Reverse motion in Motor
The document provides information about an industrial training project completed by Sudeep Giri at Insulators and Electricals Ltd. It includes an acknowledgement, preface, and table of contents. The content covers topics like the company background, software used, automation, PLC components, programming languages, and a motor start/stop example. It aims to describe PLC programming through ladder logic based on the training received.
Automation and Robotics Lab Manual 20ME51I.pdfTHANMAY JS
Automation and Robotics 20ME51I DTE C 20 Syllabus Programme Specialization Pathway
DTE 5th semester; DTE Karnataka C 20; 5th Semester Mechanical Engineering [General]
PLC Circuits; PLC Ladder Diagram; RSLogix 500; Identify the possibilities of automation in a production system; Select the Hardware components required for Automation and establish communication network by using industry standard protocol; Develop, simulate, interface and Execute an Automation system for a given Application; Develop, simulate, interface and Execute Robot Program for a specified process in an Automation system; Integrate HMI, SCADA and IIOT in an automation system
Automation and Robotics Week 01 Theory Notes 20ME51I.pdfTHANMAY JS
Identify the possibilities of automation in a production system Discuss Hierarchy of Industrial Automation,
Industrial Automation pyramid. Present an Overview on the Levels of Automation-
• Device level
• Machine Level
• Cell Level
• Plant Level
• Enterprise Level
The document discusses switched mode power supplies (SMPS). It defines SMPS and explains their advantages over linear power supplies, including higher efficiency and smaller size. The document outlines the typical stages in an SMPS, including rectification, inversion and regulation. It examines factors to consider when selecting an SMPS topology for an application and describes the operating principles of common isolated topologies like flyback, push-pull, half bridge and full bridge converters. Finally, it provides examples of SMPS applications and discusses SMPS usage in Indian consumer markets.
This document presents information about automation and its various applications. It defines automation as delegating human control functions to technical equipment to increase productivity, quality and safety while reducing costs. It describes different types of automation including building, office, scientific and industrial automation. It provides details about control systems, programmable logic controllers (PLCs), PLC programming languages and ladder logic. It also discusses supervisory control and data acquisition (SCADA) systems, their features and leading software. Finally, it outlines advantages and disadvantages of automation as well as examples of its applications.
1. The document discusses control systems used in industrial automation and manufacturing. It defines control systems and their key components like input, output, and feedback loops.
2. Control systems are classified based on whether they are open or closed loop, linear or non-linear, single input-single output or multiple input-multiple output. They also vary between process industries and discrete manufacturing.
3. Different levels of control systems are described from machine control to plant control, with examples of decisions made at each level.
Seminar Presentation on Programmeble Logic Controller , By an Engineering Student For doing Professional Presentation like Business Presentation, Industrial Use
The document provides information about an industrial training project completed by Sudeep Giri at Insulators and Electricals Ltd. It includes an acknowledgement, preface, and table of contents. The content covers topics like the company background, software used, automation, PLC components, programming languages, and a motor start/stop example. It aims to describe PLC programming through ladder logic based on the training received.
Automation and Robotics Lab Manual 20ME51I.pdfTHANMAY JS
Automation and Robotics 20ME51I DTE C 20 Syllabus Programme Specialization Pathway
DTE 5th semester; DTE Karnataka C 20; 5th Semester Mechanical Engineering [General]
PLC Circuits; PLC Ladder Diagram; RSLogix 500; Identify the possibilities of automation in a production system; Select the Hardware components required for Automation and establish communication network by using industry standard protocol; Develop, simulate, interface and Execute an Automation system for a given Application; Develop, simulate, interface and Execute Robot Program for a specified process in an Automation system; Integrate HMI, SCADA and IIOT in an automation system
Automation and Robotics Week 01 Theory Notes 20ME51I.pdfTHANMAY JS
Identify the possibilities of automation in a production system Discuss Hierarchy of Industrial Automation,
Industrial Automation pyramid. Present an Overview on the Levels of Automation-
• Device level
• Machine Level
• Cell Level
• Plant Level
• Enterprise Level
The document discusses switched mode power supplies (SMPS). It defines SMPS and explains their advantages over linear power supplies, including higher efficiency and smaller size. The document outlines the typical stages in an SMPS, including rectification, inversion and regulation. It examines factors to consider when selecting an SMPS topology for an application and describes the operating principles of common isolated topologies like flyback, push-pull, half bridge and full bridge converters. Finally, it provides examples of SMPS applications and discusses SMPS usage in Indian consumer markets.
This document presents information about automation and its various applications. It defines automation as delegating human control functions to technical equipment to increase productivity, quality and safety while reducing costs. It describes different types of automation including building, office, scientific and industrial automation. It provides details about control systems, programmable logic controllers (PLCs), PLC programming languages and ladder logic. It also discusses supervisory control and data acquisition (SCADA) systems, their features and leading software. Finally, it outlines advantages and disadvantages of automation as well as examples of its applications.
1. The document discusses control systems used in industrial automation and manufacturing. It defines control systems and their key components like input, output, and feedback loops.
2. Control systems are classified based on whether they are open or closed loop, linear or non-linear, single input-single output or multiple input-multiple output. They also vary between process industries and discrete manufacturing.
3. Different levels of control systems are described from machine control to plant control, with examples of decisions made at each level.
Seminar Presentation on Programmeble Logic Controller , By an Engineering Student For doing Professional Presentation like Business Presentation, Industrial Use
The document provides an overview of the 33/11kV Phidim substation located in Phidim, Panchthar district, Nepal. It was established in 2058 BS by Nepal Electricity Authority. The substation steps down electricity from the national 33kV grid to 11kV to supply power to local areas. It is responsible for controlling energy exchange, load shedding, fault analysis and improving the transmission system. The substation layout, single line diagram, and organizational structure are presented. Key equipment used includes transformers, circuit breakers, isolators, lightning arrestors, and insulators.
This document discusses basic concepts in electrical circuits including charge, current, voltage, power, energy, circuit elements, resistors, capacitors, inductors, and circuit theorems. It defines:
- Charge as an electrical property measured in coulombs.
- Current as the motion of charge through a conductor measured in amperes.
- Voltage as the energy required to move charge from one point to another measured in volts.
- Power as the rate of expending or absorbing energy measured in watts.
- Basic circuit elements like resistors, capacitors, and inductors.
- Kirchhoff's laws and theorems for circuit analysis like Ohm's law, superposition, Theven
Automation and Robotics Week 02 Theory Notes 20ME51I.pdfTHANMAY JS
WEEK 02
Day 01 Session:
Recap and Practice PLC Ladder Diagram for Logic Gates, Timers, Counters
Day 02 Session:
Explain and Practice PLC Ladder Diagram for Compare, Jump and Subroutines
Explain and Practice PLC Ladder Diagram for Math Instructions and Shift Registers
Day 03 Session:
Explain and Practice PLC Program using Functional Block Diagram
Day 04 Session:
Explain and Practice PLC Program using Structural Text language
An electrical control panel contains electrical components that control and protect motors and equipment. It includes (i) an enclosure, (ii) an incomer switch, (iii) protection devices like circuit breakers, (iv) indicators, (v) push buttons, and (vi) metering devices. The selection of components depends on the power rating, supply, explosion rating, and application of the equipment. The enclosure holds the components and protects against environmental factors and electrical shock.
The document discusses automation and programmable logic controllers (PLCs). It describes how automation delegates human control functions to equipment to achieve higher productivity, superior product quality, efficient energy usage, and improved safety. It then defines PLCs, explaining that they are industrial computers that monitor inputs, make decisions based on programs, and control outputs to automate processes. PLCs have input and output modules, a central processing unit, memory, and power supply. They use ladder logic programming and have advantages like increased reliability but also disadvantages like high initial costs. The document also briefly introduces supervisory control and data acquisition (SCADA) systems.
Timers and counters in a PLC are made up of three 16-bit words for the preset value, accumulated value, and status bits. Timers include on-delay, off-delay, and retentive timers, while counters include up and down counters. The various timer and counter instructions are used to control the timers and counters.
PLC ARCHITECTURE AND HARDWARE COMPONENTSAkshay Dhole
Explains about the basics of PLC ARCHITECTURE AND HARDWARE COMPONENTS.
A Programmable Logic Controller (PLC) is a specialized computing system used for control of industrial machines and processes.
A PLC is a computer designed to work in an industrial environment
The inverter is a static device. It can convert one form of electrical power into other forms of electrical power. But it cannot generate electrical power. Hence the inverter is a converter, not a generator.
The document discusses a summer training report submitted by Akash Vishwakarma at the Diesel Locomotive Works in partial fulfillment of a Bachelor of Technology degree. It includes sections on the Maintenance Service Shop, Central Transport Shop, SCADA system, and the colony area. The Maintenance Service Shop section describes various sub-sections including the winding shop, electronics shop, meter shop, and battery shop which repair and maintain locomotive parts and systems.
The document discusses electric panel manufacturing. It provides an overview of Pyrotech Electronics Pvt. Ltd., which manufactures control panels, wired panels, and mosaic panels. The presentation then covers the various types of panels produced, including instrumentation control panels, PLC panels, relay panels, mimic panels, and mosaic panels. It describes the stages of manufacturing from engineering to assembly and packing. Key machines used are CNC machines and various finishing processes like painting/powder coating are outlined. Major customers and a conclusion on the importance of electronic panels are also mentioned.
Power electronics involves controlling the flow of electrical energy through electronic circuits. Rectifiers and inverters are common examples. Power electronics emphasizes large semiconductor devices, magnetic energy storage, and control methods for nonlinear systems. It plays a central role in energy systems and alternative resources. Power electronic systems efficiently convert electrical energy from one form to another. Power electronics courses cover high voltage switching devices, rectifiers, DC-DC converters, and inverters. Thyristors like SCRs are semiconductor devices that act as open or closed switches for control applications. SCRs are used for power control, backup lighting, and over-voltage protection.
This document discusses Programmable Logic Controllers (PLCs). It provides a brief history of PLCs, describing how they were introduced in the 1960s as replacements for relay logic and have since evolved with the integration of microprocessors. The key components of a PLC like the power supply, processor, I/O modules, and programming device are defined. Common PLC programming languages including ladder logic are explained and examples are provided. Advantages like reliability and flexibility and disadvantages such as proprietary aspects are reviewed. Finally, common industrial applications and leading PLC brands are listed.
PowerPoint Presentation on Industrial Automation In which we discuss About PLCs, SCADA,HMI,VFD and various tools of Automation which is used in Industries.
Like Comment & Share
This document provides an overview of a seminar on programmable logic controllers (PLCs). The objectives are to describe PLC components, interpret specifications, apply troubleshooting techniques, convert relay logic to PLC languages, and operate and program PLCs. The contents include the history of PLCs, relay logic, PLC architecture such as CPU and I/O systems, programming concepts, applications, and troubleshooting. PLCs were developed to replace relay-based control systems and are now widely used in industrial automation.
Sudhir is an Indian company that manufactures and installs high voltage and low voltage switchboards, diesel generators, transformers, and packaged substations. They have established themselves as a leader in power solutions through investments in computer-aided design systems and state-of-the-art manufacturing facilities. Sudhir offers switchboards and other equipment that meet various national and international standards, and their products are tested by the Central Power Research Institute. They aim to provide complete turnkey electrical solutions and high quality customer service.
The document describes experiments on electric drive systems in the Electrical Department lab at JIS College of Engineering. The 10 listed experiments include:
1. Studying thyristor controlled DC drives and chopper fed DC drives.
2. Studying AC single phase motor speed control using a TRIAC.
3. Studying PWM inverter fed 3-phase induction motor control using software.
The document provides theory, circuit diagrams, and procedures for each experiment. It describes using equipment like thyristors, choppers, inverters, motors, and software to control motor speed and study electric drive systems.
Programmable logic controllers (PLCs) are microprocessor-based devices used to monitor, control, and automate electromechanical processes. PLCs replaced hardwired relay panels and are programmed using ladder logic. A PLC consists of a central processing unit, input and output modules to interface with sensors and actuators, and a programming device. PLCs scan inputs, execute a user-written program, and update outputs to control machines and processes in a flexible, easy-to-program manner.
The document discusses stepper motors, including their principle of operation, classification, systems, advantages, and applications. A stepper motor divides a full rotation into steps using magnetic attraction between a rotor and stator. There are three main types - permanent magnet, variable reluctance, and hybrid motors. A stepper motor system consists of an indexer to generate pulses, a driver to power the motor, and the stepper motor itself. Stepper motors offer advantages like high torque, precision positioning, simplicity, and reliability. They are widely used in applications like drives, robotics, industrial machines, security, and medical devices.
This document provides an introduction to Programmable Logic Controllers (PLCs). It discusses the history and evolution of control systems from humans to relays to PLCs. The key components of a PLC including the input/output modules, central processing unit, memory, and programming terminal are described. Programming methods for PLCs such as ladder logic, Boolean expressions, and mnemonics are also introduced. Examples of using timers, counters, and internal relays in PLC programs are provided.
Fundamentals of Automation Technology 20EE43P Portfolio.pdfTHANMAY JS
Course Outcome:
CO01 Select a suitable sensor and actuator for a given automation application and demonstrate its use.
CO02 Install, test & control the pneumatic actuators using various pneumatic valves.
CO03 Develop ladder diagrams for a given application and explain its implementation using PLC.
CO04 Describe the concept of SCADA and DCS systems and list their various applications
Fundamentals of Automation Technology 20EE43P C-20 Lab Manual.pdfTHANMAY JS
For a given automation application select suitable pneumatic components and sensors.
Experiment 01: Electro pneumatics circuits for Direct Control of single acting cylinder
Experiment 02: Electro pneumatics circuits for In-Direct Control of single acting cylinder
Experiment 03: Electro pneumatics circuits for Direct Control of Double acting cylinder
Experiment 04: Electro pneumatics circuits for In-Direct Control of Double acting cylinder
Experiment 05: Electro pneumatics circuits for Control of Actuator using OR logic (Parallel circuit)
Experiment 06: Electro pneumatics circuits for Control of Actuator using AND logic (Series circuit)
Experiment 07: Electro pneumatics circuits for Automatic return of a Single acting cylinder
Experiment 08: Oscillation of double acting cylinder using proximity switches and Double Solenoid Sensors
Experiment 09: Control of double acting cylinder using pressure switch
Experiment 10: Control of double acting cylinder using delay timer
Section B
Demonstrate & control the Pneumatic actuators using pneumatic valves.
Experiment A: Conveyor belt with Oscillation motion
Experiment B: Latching circuit with a limit switch and Mechanical Position sensor
Experiment C: Simultaneous Transfer station Simulation Circuit
Experiment D: Multiple actuator circuit with direct control circuit
Experiment E: Stamping Circuit using Delay timer switch
The document provides an overview of the 33/11kV Phidim substation located in Phidim, Panchthar district, Nepal. It was established in 2058 BS by Nepal Electricity Authority. The substation steps down electricity from the national 33kV grid to 11kV to supply power to local areas. It is responsible for controlling energy exchange, load shedding, fault analysis and improving the transmission system. The substation layout, single line diagram, and organizational structure are presented. Key equipment used includes transformers, circuit breakers, isolators, lightning arrestors, and insulators.
This document discusses basic concepts in electrical circuits including charge, current, voltage, power, energy, circuit elements, resistors, capacitors, inductors, and circuit theorems. It defines:
- Charge as an electrical property measured in coulombs.
- Current as the motion of charge through a conductor measured in amperes.
- Voltage as the energy required to move charge from one point to another measured in volts.
- Power as the rate of expending or absorbing energy measured in watts.
- Basic circuit elements like resistors, capacitors, and inductors.
- Kirchhoff's laws and theorems for circuit analysis like Ohm's law, superposition, Theven
Automation and Robotics Week 02 Theory Notes 20ME51I.pdfTHANMAY JS
WEEK 02
Day 01 Session:
Recap and Practice PLC Ladder Diagram for Logic Gates, Timers, Counters
Day 02 Session:
Explain and Practice PLC Ladder Diagram for Compare, Jump and Subroutines
Explain and Practice PLC Ladder Diagram for Math Instructions and Shift Registers
Day 03 Session:
Explain and Practice PLC Program using Functional Block Diagram
Day 04 Session:
Explain and Practice PLC Program using Structural Text language
An electrical control panel contains electrical components that control and protect motors and equipment. It includes (i) an enclosure, (ii) an incomer switch, (iii) protection devices like circuit breakers, (iv) indicators, (v) push buttons, and (vi) metering devices. The selection of components depends on the power rating, supply, explosion rating, and application of the equipment. The enclosure holds the components and protects against environmental factors and electrical shock.
The document discusses automation and programmable logic controllers (PLCs). It describes how automation delegates human control functions to equipment to achieve higher productivity, superior product quality, efficient energy usage, and improved safety. It then defines PLCs, explaining that they are industrial computers that monitor inputs, make decisions based on programs, and control outputs to automate processes. PLCs have input and output modules, a central processing unit, memory, and power supply. They use ladder logic programming and have advantages like increased reliability but also disadvantages like high initial costs. The document also briefly introduces supervisory control and data acquisition (SCADA) systems.
Timers and counters in a PLC are made up of three 16-bit words for the preset value, accumulated value, and status bits. Timers include on-delay, off-delay, and retentive timers, while counters include up and down counters. The various timer and counter instructions are used to control the timers and counters.
PLC ARCHITECTURE AND HARDWARE COMPONENTSAkshay Dhole
Explains about the basics of PLC ARCHITECTURE AND HARDWARE COMPONENTS.
A Programmable Logic Controller (PLC) is a specialized computing system used for control of industrial machines and processes.
A PLC is a computer designed to work in an industrial environment
The inverter is a static device. It can convert one form of electrical power into other forms of electrical power. But it cannot generate electrical power. Hence the inverter is a converter, not a generator.
The document discusses a summer training report submitted by Akash Vishwakarma at the Diesel Locomotive Works in partial fulfillment of a Bachelor of Technology degree. It includes sections on the Maintenance Service Shop, Central Transport Shop, SCADA system, and the colony area. The Maintenance Service Shop section describes various sub-sections including the winding shop, electronics shop, meter shop, and battery shop which repair and maintain locomotive parts and systems.
The document discusses electric panel manufacturing. It provides an overview of Pyrotech Electronics Pvt. Ltd., which manufactures control panels, wired panels, and mosaic panels. The presentation then covers the various types of panels produced, including instrumentation control panels, PLC panels, relay panels, mimic panels, and mosaic panels. It describes the stages of manufacturing from engineering to assembly and packing. Key machines used are CNC machines and various finishing processes like painting/powder coating are outlined. Major customers and a conclusion on the importance of electronic panels are also mentioned.
Power electronics involves controlling the flow of electrical energy through electronic circuits. Rectifiers and inverters are common examples. Power electronics emphasizes large semiconductor devices, magnetic energy storage, and control methods for nonlinear systems. It plays a central role in energy systems and alternative resources. Power electronic systems efficiently convert electrical energy from one form to another. Power electronics courses cover high voltage switching devices, rectifiers, DC-DC converters, and inverters. Thyristors like SCRs are semiconductor devices that act as open or closed switches for control applications. SCRs are used for power control, backup lighting, and over-voltage protection.
This document discusses Programmable Logic Controllers (PLCs). It provides a brief history of PLCs, describing how they were introduced in the 1960s as replacements for relay logic and have since evolved with the integration of microprocessors. The key components of a PLC like the power supply, processor, I/O modules, and programming device are defined. Common PLC programming languages including ladder logic are explained and examples are provided. Advantages like reliability and flexibility and disadvantages such as proprietary aspects are reviewed. Finally, common industrial applications and leading PLC brands are listed.
PowerPoint Presentation on Industrial Automation In which we discuss About PLCs, SCADA,HMI,VFD and various tools of Automation which is used in Industries.
Like Comment & Share
This document provides an overview of a seminar on programmable logic controllers (PLCs). The objectives are to describe PLC components, interpret specifications, apply troubleshooting techniques, convert relay logic to PLC languages, and operate and program PLCs. The contents include the history of PLCs, relay logic, PLC architecture such as CPU and I/O systems, programming concepts, applications, and troubleshooting. PLCs were developed to replace relay-based control systems and are now widely used in industrial automation.
Sudhir is an Indian company that manufactures and installs high voltage and low voltage switchboards, diesel generators, transformers, and packaged substations. They have established themselves as a leader in power solutions through investments in computer-aided design systems and state-of-the-art manufacturing facilities. Sudhir offers switchboards and other equipment that meet various national and international standards, and their products are tested by the Central Power Research Institute. They aim to provide complete turnkey electrical solutions and high quality customer service.
The document describes experiments on electric drive systems in the Electrical Department lab at JIS College of Engineering. The 10 listed experiments include:
1. Studying thyristor controlled DC drives and chopper fed DC drives.
2. Studying AC single phase motor speed control using a TRIAC.
3. Studying PWM inverter fed 3-phase induction motor control using software.
The document provides theory, circuit diagrams, and procedures for each experiment. It describes using equipment like thyristors, choppers, inverters, motors, and software to control motor speed and study electric drive systems.
Programmable logic controllers (PLCs) are microprocessor-based devices used to monitor, control, and automate electromechanical processes. PLCs replaced hardwired relay panels and are programmed using ladder logic. A PLC consists of a central processing unit, input and output modules to interface with sensors and actuators, and a programming device. PLCs scan inputs, execute a user-written program, and update outputs to control machines and processes in a flexible, easy-to-program manner.
The document discusses stepper motors, including their principle of operation, classification, systems, advantages, and applications. A stepper motor divides a full rotation into steps using magnetic attraction between a rotor and stator. There are three main types - permanent magnet, variable reluctance, and hybrid motors. A stepper motor system consists of an indexer to generate pulses, a driver to power the motor, and the stepper motor itself. Stepper motors offer advantages like high torque, precision positioning, simplicity, and reliability. They are widely used in applications like drives, robotics, industrial machines, security, and medical devices.
This document provides an introduction to Programmable Logic Controllers (PLCs). It discusses the history and evolution of control systems from humans to relays to PLCs. The key components of a PLC including the input/output modules, central processing unit, memory, and programming terminal are described. Programming methods for PLCs such as ladder logic, Boolean expressions, and mnemonics are also introduced. Examples of using timers, counters, and internal relays in PLC programs are provided.
Fundamentals of Automation Technology 20EE43P Portfolio.pdfTHANMAY JS
Course Outcome:
CO01 Select a suitable sensor and actuator for a given automation application and demonstrate its use.
CO02 Install, test & control the pneumatic actuators using various pneumatic valves.
CO03 Develop ladder diagrams for a given application and explain its implementation using PLC.
CO04 Describe the concept of SCADA and DCS systems and list their various applications
Fundamentals of Automation Technology 20EE43P C-20 Lab Manual.pdfTHANMAY JS
For a given automation application select suitable pneumatic components and sensors.
Experiment 01: Electro pneumatics circuits for Direct Control of single acting cylinder
Experiment 02: Electro pneumatics circuits for In-Direct Control of single acting cylinder
Experiment 03: Electro pneumatics circuits for Direct Control of Double acting cylinder
Experiment 04: Electro pneumatics circuits for In-Direct Control of Double acting cylinder
Experiment 05: Electro pneumatics circuits for Control of Actuator using OR logic (Parallel circuit)
Experiment 06: Electro pneumatics circuits for Control of Actuator using AND logic (Series circuit)
Experiment 07: Electro pneumatics circuits for Automatic return of a Single acting cylinder
Experiment 08: Oscillation of double acting cylinder using proximity switches and Double Solenoid Sensors
Experiment 09: Control of double acting cylinder using pressure switch
Experiment 10: Control of double acting cylinder using delay timer
Section B
Demonstrate & control the Pneumatic actuators using pneumatic valves.
Experiment A: Conveyor belt with Oscillation motion
Experiment B: Latching circuit with a limit switch and Mechanical Position sensor
Experiment C: Simultaneous Transfer station Simulation Circuit
Experiment D: Multiple actuator circuit with direct control circuit
Experiment E: Stamping Circuit using Delay timer switch
Elements of Industrial Automation Week 01 Notes.pdfTHANMAY JS
This document provides information on elements of industrial automation taught in a course at Vidya Vikas Polytechnic. It includes:
1. An overview of the need for industrial automation, benefits, and basic components.
2. Details on the automation hierarchy, from device to enterprise levels, and descriptions of common components like sensors, motors, and PLCs.
3. The course content which involves tutorials, practical sessions, and programming covering topics like PLC programming, embedded systems, distributed control systems, and SCADA.
Elements of Industrial Automation Week 09 Notes.pdfTHANMAY JS
Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
• Energize and Result – 20 Marks
Device and Simulate a ladder diagram for the given Case Study
• Writing Ladder Program –30 Marks
• Simulate and Troubleshoot –20 Marks
The document is a lab manual for an Industrial Electronics course. It includes 12 experiments covering topics like control components, star-delta starters, stepper motors, synchros, photo transistors, ultrasonic wave generators, optocouplers, UPS systems, and proximity switches. Each experiment includes the aim, theory, procedure, observations, and questions. It also lists the course outcomes which are developing control logic, selecting servo systems, using power electronics, and selecting sensors.
The document summarizes the electrical system of a fertilizer plant, specifically referring to Fauji Fertilizer Company - Mirpur Mathelo plant. It discusses the major electrical equipment including 4 generators that provide power, transformers that step down the voltage, motors used for pumping and compressing fluids, and protection relays. It also describes the single line diagram of the plant's electrical network and provides details on components like generators, transformers, motors and protection relays.
Electrical and Electronics Engineering : Power electronics, THE GATE ACADEMYklirantga
THE GATE ACADEMY's GATE Correspondence Materials consist of complete GATE syllabus in the form of booklets with theory, solved examples, model tests, formulae and questions in various levels of difficulty in all the topics of the syllabus. The material is designed in such a way that it has proven to be an ideal material in-terms of an accurate and efficient preparation for GATE.
Quick Refresher Guide : is especially developed for the students, for their quick revision of concepts preparing for GATE examination. Also get 1 All India Mock Tests with results including Rank,Percentile,detailed performance analysis and with video solutions
GATE QUESTION BANK : is a topic-wise and subject wise collection of previous year GATE questions ( 2001 – 2013). Also get 1 All India Mock Tests with results including Rank,Percentile,detailed performance analysis and with video solutions
Bangalore Head Office:
THE GATE ACADEMY
# 74, Keshava Krupa(Third floor), 30th Cross,
10th Main, Jayanagar 4th block, Bangalore- 560011
E-Mail: info@thegateacademy.com
Ph: 080-61766222
Shahin Thanissery Ananthan is seeking a position as an assistant maintenance engineer. He has over 5 years of experience in maintenance and operations of high voltage substations in India. He is proficient in maintenance, testing, and operation of equipment such as transformers, circuit breakers, protection relays. He holds a Bachelor's degree in Electrical and Electronics Engineering and is skilled in AutoCAD, Microsoft Office, and other software.
Elements of Industrial Automation Week 03 Notes.pdfTHANMAY JS
Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
• Energize and Result – 20 Marks
Device and Simulate a ladder diagram for the given Case Study
• Writing Ladder Program –30 Marks
• Simulate and Troubleshoot –20 Marks
Gives readings from solar panels with three set ups. Volts and amps / Kilowatthours and cumulative kilowatt hours. Best for installers to know how much their erected modules are generating and how much current the battery is taking.
This document is a project report on brushless excitation systems submitted to Jawaharlal Nehru Technological University. It was prepared by students Ravi, Sharmili, and Shravan under the guidance of S. Chandra Reddy of Bharat Heavy Electricals Limited. The report provides an overview of brushless excitation systems, which overcome issues with conventional brush gear systems and improve reliability. It describes the components, construction, cooling, metering and supervision of brushless excitation systems.
This document provides an introduction to power generation at Summit Power's Maona Plant. It discusses the background and importance of electrical energy production in Bangladesh. The purpose of the study is to understand the plant's small power system and how it relates to larger power systems. The objectives are to examine the mechanical, electrical, and automation aspects of the generating units and their control systems. Understanding the plant's systems is important for reliable power generation and transmission in Bangladesh.
This document discusses a webinar on electric motor and variable speed drive testing presented by Bill Gatheridge. It provides an overview of the topics to be covered, including basic electrical power measurements, 3-phase AC motor power measurements, mechanical power measurements using speed and torque sensors, variable speed drive measurements, and putting all the measurements together for a total system test. The objective is to provide a three-step process for a complete test of an AC motor and variable speed drive system.
The document is a curriculum vitae for Haider Ali, an electrical engineer. It includes his personal information, education history, experience working in various electrical engineering roles over 10 years, self-assessment of skills, and lists the various transformer tests he has performed in quality assurance and control roles. His objective is to find employment in a dynamic organization that provides challenges to apply his strong analytical, communication, and computer skills.
Power generation using speed breakers and efficient use of energy created by it.Aman Bharti
This document is a major project report submitted in partial fulfillment of the requirements for a Bachelor of Technology degree in Electrical and Electronics Engineering. It discusses a project to generate power using speed breakers. The project was carried out by 5 students under the guidance of an assistant professor. The report includes sections on the abstract, acknowledgements, table of contents, list of figures, introduction, overview of the working principle and construction, construction details of components like the dynamo and integrated circuits, future scope, and conclusion. The goal of the project is to convert the kinetic energy of moving vehicles into electrical energy through a mechanism installed under speed breakers using components like a dynamo.
1.6 Specification on Meter
The meters are tested according to the specification of the Central Electricity
Authority (CEA) of India. The specification includes tests like power factor
test, creeping error test, starting current test, dial test, display test and date &
time setting. Only meters passing all tests as per CEA standards are approved.
This profile summary provides information on Debnarayan Sen's educational and professional experience. He has 12 years of experience installing, commissioning, and servicing automatic electro-mechanical machines and providing electrical maintenance. He is an effective communicator with strong leadership, analytical, and problem-solving skills. Currently he works as a service contact in India for KRB Machinery Ltd (USA), where he engages in installation, commissioning, servicing, and troubleshooting of their rebar processing machines.
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This document outlines the details of a course on Multimedia and Animation at Vidya Vikas Polytechnic. It includes the course code, title, credits, outcomes, assessments, activities and a portfolio index. The portfolio index lists experiments on image processing and animation that students will complete. Details are provided for the first experiment on importing images, changing resolution and scale, compression, and saving file formats.
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Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
• Energize and Result – 20 Marks
Device and Simulate a ladder diagram for the given Case Study
• Writing Ladder Program –30 Marks
• Simulate and Troubleshoot –20 Marks
Elements of Industrial Automation Week 07 Notes.pdfTHANMAY JS
Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
• Energize and Result – 20 Marks
Device and Simulate a ladder diagram for the given Case Study
• Writing Ladder Program –30 Marks
• Simulate and Troubleshoot –20 Marks
Elements of Industrial Automation Week 06 Notes.pdfTHANMAY JS
Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
• Energize and Result – 20 Marks
Device and Simulate a ladder diagram for the given Case Study
• Writing Ladder Program –30 Marks
• Simulate and Troubleshoot –20 Marks
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Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
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• Writing Ladder Program –30 Marks
• Simulate and Troubleshoot –20 Marks
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Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
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Select a suitable Sensor / Switch for a given Process Variable and activate
• Selection of Sensor/Transducer – 10 Marks
• Activation and Result –20Marks
OR
Select a suitable motor for the given case and energize
• Selection of the Motor – 10 Marks
• Energize and Result – 20 Marks
Device and Simulate a ladder diagram for the given Case Study
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I. Introduction to “computer aided analysis and simulation”.
II. Basic Tools / Commands used in ANSYS
III. Basics of Shear Force and Bending Moment Calculation
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1. Determine the stress acting on a rectangular plate with a circular hole due to the applied
external load
G) Special Problems using Variations
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Elements of Industrial Automation 20ME43P C-20 Lab Manual.pdf
1. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 1 of 17
Department of Mechanical Engineering
Laboratory Manual
Subject : Elements of Industrial Automation
Subject Code : 20ME44P
Semester : 4th
Semester
Branch : Mechanical Engineering [General]
Name of the Student: …………………………………………….
Register Number: …………………………………………….
2. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 2 of 17
Syllabus
Section A
Experiment 01: Activation of Various Output Indicator Elements using Push buttons
Experiment 02: Activation of Indicator Light by series and Parallel switches
Experiment 03: Activation of Indicator Light by Coil activated Contact Switch
Experiment 04: Activating Indicator light using Circuit with Coil latch and Coil Unlatch
Experiment 05: Activation of Indicator light by Delay timer circuit
Section B
Experiment A: Control of double acting cylinder using Proximity sensors and Proximity Switch
Experiment B: Control of double acting cylinder using delay on and off timer and counter
Experiment C: Execute energized motor using Switches in Series or Parallel Circuit
Experiment D: Execute energized motor using Switches in Latching Circuit
Experiment E: Execute energized motor using Switches in Sequential O/P
Experiment F: Delay Control of Motors using Timer function
Experiment G: Control of Motors using Relay contact
Experiment H: Indirect Control of Forward and Reverse motion in Motor
Experiment I: Direct Control of Forward and Reverse motion in Motor
3. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 3 of 17
Dear Students
Before we start to attain knowledge of great resource let me remind you to use the proper licensed version of
the Automation studio or Educational Edition of Automation Studio.
I have used Automation studio 3.0.5 Demo version for the manual.
You can download the latest version of Automation by using the link below based on your system
configurations:
https://www.famictech.com/en/Support/Automation-Studio/Downloads
If you insist on using the same version as mine download from any of the links below but be alert for virus
and pirated versions, try not to use crack use demo mode it works for every 90 minutes whenever you open it
also be cautious in x32 bit or x64 bit Installation:
https://allpcworlds.com/download-automation-studio-3-0-5-free/
https://getintopc.globalhow.com/blog/automation-studio-3-0-5-free-download/
https://webintopc.com/automation-studio-3-0-5-free-download/
I request all those who use this manual to support “Famic Technologies Inc” for their innovative software
Automation Studio.
For contact and support use the links below:
https://www.famictech.com/en/contact
Thanking you all
With regards
THANMAY J S
4. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 4 of 17
Experiment 01: Activation of Various Output Indicator Elements using Push buttons
Components Require Location Symbol
Indicator Light
Electric Control (US)> Output
Component > Indicator light
LED
Electric Control (US)> Output
Component > LED
Diode
Electric Control (US)> Output
Component > Diode
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Push Button
Electric Control (US)> Switches>
Push Button ON
Activating Indicator Light
Activating LED Light
Activating Diode
5. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 5 of 17
Experiment 02: Activation of Indicator Light by Series and Parallel switches
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Push Button
Electric Control (US)> Switches>
Push Button ON
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch ON
Indicator Light
Electric Control (US)> Output
Component > Indicator light
Switches in Series
Switches in Parallel
6. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 6 of 17
Experiment 03: Activation of Indicator Light by Coil activated Contact Switch
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Push Button
Electric Control (US)> Switches>
Push Button ON
Indicator Light
Electric Control (US)> Output
Component > Indicator light
Coil
Electric Control (US)> Output
Component > Coil
Open Contact
Electric Control (US)> Contact >
Contact NO
7. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 7 of 17
Experiment 04: Activating Indicator light using Circuit with Coil latch and Coil Unlatch
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch ON
Coil Latch
Electric Control (US)> Output
Component > Coil Latch (Set)
Coil Un Latch
Electric Control (US)> Output
Component > Coil Unlatch (Reset)
Open Contact
Electric Control (US)> Contact >
Contact NO
Indicator Light
Electric Control (US)> Output
Component > Indicator light
8. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 8 of 17
Experiment 05: Activation of Indicator light by Delay timer circuit
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Push Button
Electric Control (US)> Switches>
Push Button ON
Coil
Electric Control (US)> Output
Component > Coil
Open Contact
Electric Control (US)> Contact >
Contact NO
OFF Delay
Electric Control (US)> Contact >
Contact with off delay NO
ON Delay
Electric Control (US)> Contact >
Contact with on delay NO
ON/OFF Delay
Electric Control (US)> Contact >
Contact with on/off delay NO
Indicator Light
Electric Control (US)> Output
Component > Indicator light
9. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 9 of 17
Experiment A: Control of double acting cylinder using Proximity sensors and Proximity Switch
Components Require Location Symbol
Double Acting Cylinder
Actuator
Pneumatic > Actuator > Double
Action (DA) Cylinder
5/2-way Directional Valve
with Single solenoid (spring
return) add solenoid to left
and spring to right side
Pneumatic > Directional Valve >
5/2-(14) Valve
Pressure Source / Exhaust
Pneumatic > Line > Pneumatic
Pressure Source.
Pneumatic > Line > Exhaust
Solenoid Switch
Electric Control (US)> Output
Component > Solenoid
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Push Button
Electric Control (US)> Switches>
Push Button ON
Solenoid Switch
Electric Control (US)> Output
Component > Solenoid
Proximity Sensors
Pneumatics>Sensors > Proximity
Sensors
Proximity Switch
Electric Control (US)> Switches >
Proximity Switch NO
10. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 10 of 17
Experiment B: Control of double acting cylinder using delay on and off timer and counter
[C delay cycle count]
Components Require Location Symbol
Double Acting Cylinder
Actuator
Pneumatic > Actuator > Double
Action (DA) Cylinder
5/2-way Directional Valve
with Single solenoid (spring
return) add solenoid to left
and spring to right side
Pneumatic > Directional Valve >
5/2-(14) Valve
Pressure Source / Exhaust
Pneumatic > Line > Pneumatic
Pressure Source.
Pneumatic > Line > Exhaust
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch NC
Solenoid Switch
Electric Control (US)> Output
Component > Solenoid
Coil
Electric Control (US)> Output
Control> Coil
Delay Switch
Electric Control (US)> Switches >
Contact with ON/OFF Delay NC
11. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 11 of 17
Experiment C: Execute energized motor using Switches in Series or Parallel Circuit
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Electric Control (US)> Power
Source > Power supply 1 (L1)
Electric Control (US)> Power
Source > Neutral
Single Phase Motor
Electric Control (US)> Output
Control > Single Phase Motor
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch ON
Coil
Electric Control (US)> Output
Control> Coil
Open Contact
Electric Control (US)> Contact >
Contact NO
Series Switch in Energizing Motor
Parallel Switch in Energizing Motor
12. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 12 of 17
Experiment D: Execute energized motor using Switches in Latching Circuit
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Single Phase Motor
Electric Control (US)> Output
Control > Single Phase Motor
Push Button
Electric Control (US)> Switches>
Push Button ON
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch ON
Coil Latch
Electric Control (US)> Output
Component > Coil Latch (Set)
Coil Un Latch
Electric Control (US)> Output
Component > Coil Unlatch (Reset)
Open Contact
Electric Control (US)> Contact >
Contact NO
Indicator Light
Electric Control (US)> Output
Component > Indicator light
13. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 13 of 17
Experiment E: Execute energized motor using Switches in Sequential O/P
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Electric Control (US)> Power
Source > Power supply 1 (L1)
Electric Control (US)> Power
Source > Power supply 2 (L2)
Electric Control (US)> Power
Source > Power supply 3 (L3)
Three Phase Motor
Electric Control (US)> Output
Control > Three Phase Motor
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch ON
Coil
Electric Control (US)> Output
Control> Coil
Open Contact
Electric Control (US)> Contact >
Contact NO
Indicator Light
Electric Control (US)> Output
Component > Indicator light
14. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 14 of 17
Experiment F: Delay Control of Motors using Timer function
Components Require Location Symbol
Power source / Zero volts
Electric Control (US)> Power
Source > Power supply 24 volts
Electric Control (US)> Power
Source > Common Zero Volt
Single Phase Motor
Electric Control (US)> Output
Control > Single Phase Motor
Open Contact
Electric Control (US)> Contact >
Contact NO
Push Button
Electric Control (US)> Switches>
Push Button ON
Fuse Electric Control (US)> Line > Fuse
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch NC
Coil
Electric Control (US)> Output
Control> Coil
Delay Switch
Electric Control (US)> Switches >
Contact with ON/OFF Delay NC
15. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 15 of 17
Experiment G: Control of Motors using Relay contact
Components Require Location Symbol
Power source
Electric Control (US)> Power
Source > Power supply 1 (L1)
Electric Control (US)> Power
Source > Power supply 2 (L2)
Electric Control (US)> Power
Source > Power supply 3 (L3)
Electric Control (US)> Power
Source > Neutral
Three Phase Motor
Electric Control (US)> Output
Control > Three Phase Motor
Open Contact
Electric Control (US)> Contact >
Contact NO
Push Button
Electric Control (US)> Switches>
Push Button ON
Close Contact
Electric Control (US)> Contact >
Contact NC
Relay
Electric Control (US)> Output
Control> Overload Relay
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch NC
Coil
Electric Control (US)> Output
Control> Coil
16. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 16 of 17
Experiment H: Indirect Control of Forward and Reverse motion in Motor
Components Require Location Symbol
Power source
Electric Control (US)> Power
Source > Power supply 1 (L1)
Electric Control (US)> Power
Source > Power supply 2 (L2)
Electric Control (US)> Power
Source > Power supply 3 (L3)
Three Phase Motor
Electric Control (US)> Output
Control > Three Phase Motor
Open Contact
Electric Control (US)> Contact >
Contact NO
Push Button
Electric Control (US)> Switches>
Push Button ON
Close Contact
Electric Control (US)> Contact >
Contact NC
Relay
Electric Control (US)> Output
Control> Overload Relay
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch NC
Coil
Electric Control (US)> Output
Control> Coil
17. Vidya Vikas Educational Trust (R),
Vidya Vikas Polytechnic
27-128, Mysore - Bannur Road Alanahally,Alanahally Post, Mysuru, Karnataka 570028
Prepared by Mr. THANMAY J.S, HOD Mechanical, Vidya Vikas Polytechnic, Mysore. Page 17 of 17
Experiment I: Direct Control of Forward and Reverse motion in Motor
Components Require Location Symbol
Power source
Electric Control (US)> Power
Source > Power supply 1 (L1)
Electric Control (US)> Power
Source > Power supply 2 (L2)
Electric Control (US)> Power
Source > Power supply 3 (L3)
Three Phase Motor
Electric Control (US)> Output
Control > Three Phase Motor
Open Contact
Electric Control (US)> Contact >
Contact NO
Push Button
Electric Control (US)> Switches>
Push Button ON
Close Contact
Electric Control (US)> Contact >
Contact NC
Relay
Electric Control (US)> Output
Control> Overload Relay
Toggle Switch
Electric Control (US)> Switches>
Toggle Switch NC
Coil
Electric Control (US)> Output
Control> Coil
Step Down Transformer
Electric Control (US)> Power
Source > Transformer
Grounding
Electric Control (US)> Power
Source > Ground