Our Curriculum

Explore our meticulously crafted curriculum designed to ignite curiosity and foster a love for learning.
With a dynamic blend of interactive lessons, real-world applications, and personalized guidance, our curriculum empowers YOU to thrive academically and develop essential skills for a rapidly evolving world.
Join us on a journey of knowledge and discovery, where each module is thoughtfully curated to inspire a lifelong passion for education.

Industrial Instrumentation & Process Control (Basic)

Ever wondered what keeps modern industries running smoothly? It’s all about Instrumentation—the smart connection of devices that measure and control key process variables like level, pressure, temperature, flow, humidity, pH, force, and speed. These instruments don’t just collect data; they display, record, and even transmit information to systems that make real-time decisions based on programmed logic.

Our Instrumentation Module takes you beyond theory. You’ll get hands-on experience with real instruments, learn how they work, how to connect and interface them with equipment, and how to interpret the data they provide. We’ll also cover communication methods, troubleshooting, and maintenance, everything you need to become confident in the field as a competent Tech.

This isn’t just another lecture. It’s practical, immersive, and simplified for easy understanding. You’ll see the inner workings of instruments, understand why each component matters, and grasp the principles of operation in a way that feels intuitive, even if you’re new to the topic.

✅ Ready to take your skills to the next level? Don’t wait—Register Now and secure your spot!
👉 Click Here to Register

 

Course Content

  1. Introduction, Definitions & Basic Terminologies
  2. Oil & Gas Process overview; Drilling, Separation, Treatment & Export
  3. Process Parameter measurements; Pressure, Level, Flow & Temperature
  4. Sensors & Transmitters; Wiring, Installation & Troubleshooting
  5. Valves & Actuators; Types, Application & Comparison
  6. Control Valve Positioners (PID); Pneumatic, Electro-pneumatic, Digital
  7. Control Loop philosophy; Process regulation, Controllers, Final Control Element
  8. Pump; Types, Application & Comparison
  9. Instrumentation Diagram; Principle, Process & Detailed
  10. Introduction to equipment calibration; Transmitters, PSV & Valve positioners
  11. Introduction to PLC, HMI, SCADA, DCS & ICSS
  12. Instrumentation Accessories; Tubing, Liners, Fittings, Couplers, Teflon etc

 

  • Participants:
    • Undergraduates
    • Graduates
    • Individuals with interest in Instrumentation & Control Engineering
  • Duration:
    • 2 Weeks Intensive, 2 Months Flexible
    • 35 hours cumulative
  • Available Resources:
    • Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home.

Ready to go beyond the basics?
Our Advanced Instrumentation Training is designed for professionals who want to master complex control systems and cutting-edge industrial automation. This program dives deep into advanced concepts like smart sensors, digital communication protocols, PLC/SCADA integration, signal conditioning, and real-time data analytics.

You’ll learn how to design and optimize instrumentation systems for efficiency, reliability, and safety. Plus, we’ll tackle advanced troubleshooting techniques and predictive maintenance strategies,

This is not just theory—it’s hands-on, project-driven, and focused on real-world applications. By the end of the training, you’ll be equipped to handle sophisticated instrumentation challenges and lead automation projects with confidence.

Take your expertise to the next level—Register Now and secure your spot!
👉 Click Here to Register

 

Course Content

  1. Smart sensors & Transmitters; installation, wiring, configuration & maintenance
  2. Understanding Industrial communication protocols; HART, Fieldbus & TCP/IP
  3. Advanced calibration techniques for transmitters, control valves & PSV
  4. PLC & SCADA integration; Interfacing with instruments & actuators
  5. Advanced control strategies (PID tuning, cascade control)
  6. Safety Instrumented Systems, Redundancy and fail-safe design
  7. Advanced Troubleshooting & Diagnostics; Predictive maintenance using data trends
  8. Emerging Technologies; IIOT & Edge computing for instrumentation
  9. Understanding & Interpreting Instrumentation diagrams
  10. Intensive practical sessions on a compact flow station; Operation, troubleshooting & maintenance

 

  • Participants:
    • Undergraduates
    • Graduates
    • Individuals with interest in Instrumentation & Control Engineering
  • Duration:
    • 2 Weeks Intensive, 2 Months Flexible
    • 35 hours cumulative
  • Available Resources:
    • Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home.

Want to take control of industrial automation?
Programmable Logic Controllers (PLCs) are the backbone of modern manufacturing and process control systems. This training is designed to give you hands-on expertise in every aspect of PLCs—from wiring and hardware setup to programming, operation, and advanced troubleshooting.

You’ll learn:
✅ How to wire and configure PLC hardware
✅ Programming techniques using ladder logic and other languages
✅ Interfacing PLCs with sensors, actuators, and control devices
✅ Diagnosing and fixing common PLC faults
✅ Best practices for maintenance and system optimization

This is not just theory—it’s practical, project-based learning that prepares you to confidently handle real-world automation challenges. Whether you’re starting out or upgrading your skills, this course will make you industry-ready.

Ready to master PLCs? Register Now and secure your spot!
👉 Click Here to Register

 

Course Content

Section 1: Basic Fundamentals; Basic Industrial Control: Understanding Switches, Relays and Contactors, Introduction to PLC and PLC wiring, How PLC programming works, Concept of NO and NC in PLC

 

Section 2: Delta PLC: DVP 14SS; Introduction to Delta PLC trainer, Fundamental Commands; LD, LDI, OUT, SET, RESET, Timers and Counters, Data Registers, Arithmetic Commands; ADD, SUB, MUL, DIV, Block Move and fill Move; move a set of Data, Call Jump: How to skip part of Ladder Logic, Interrupts: Leaving external Interrupt, Master Control Relay Command: Setting up a control zone, Pulse width modulation and application, Sequencer and Step Commands, Creating and Calling Subroutines, Understanding Analog to Digital, Digital to Analog Cards

 

Section 3: Allen Bradley: MicroLogix 1000; Introduction to AB PLC trainer, Introduction to AB Wiring diagram, Fundamental Commands: NO, NC, OUT, Latch, Unlatch, Timers and Counters, Data Registers and Comparison Commands, Arithmetic Commands, Jump and Label Commands, To and Fro jump Command, Use of Subroutines, Temporary End and MCR Command, Logical Command, Sequencer Output, Load and Compare, FIFO and LIFO: Load and Unload, Encoding and Decoding, High Speed Counters, Understanding and using Analog Input and Output cards

 

Section 4: Siemens PLC: S7-200 CN; Introduction to trainer, Introduction to Siemens PLC and programming Software, Series and Parallel circuits, Latching and interlocking, Timers and Counters, Use of Data register, Interrupts and Jump command, Set and Reset Introduction, Subroutines, Understanding Analog Input and Output

 

Section 5: Omron PLC: CP1E; Introduction to trainer, Introduction to PLC and programming Software, Series and Parallel circuits, Latching and interlocking, Timers and Counters, Set and Reset Introduction, Subroutines

 

Section 6: Developing PLC project / Conclusion

  • Participants:
    • Undergraduates
    • Graduates
    • Individuals with interest in Industrial Automation.
  • Duration:
    • 2 Weeks
    • 30hours cumulative
  • Available Resources:
    • Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home.

Want to visualize and control your entire process from one screen?
That’s the power of SCADA (Supervisory Control and Data Acquisition) and HMI (Human-Machine Interface)—the backbone of modern industrial automation. This training will show you how to design, configure, and deploy SCADA systems and HMI screens that give operators real-time control and insight into complex processes.

You’ll learn:
✅ How SCADA systems collect, process, and display data
✅ Building intuitive HMI screens for operators
✅ Communication protocols for SCADA integration
✅ Alarm management, trending, and reporting
✅ Troubleshooting and optimizing SCADA/HMI performance

This is a hands-on, project-based course that takes you from concept to implementation. By the end, you’ll be able to create interactive dashboards and control systems that improve efficiency, safety, and decision-making.

✅ Ready to master SCADA & HMI? Register Now and secure your spot!
👉 Click Here to Register

 

Course Content

Section 1

  • Introduction; Understanding wiring and Installation of HMI
  • Momentary and maintained, Set and Reset button
  • Display elements; Meter, Bar & Pipes
  • Button function; SET Constant, Increment & Decrement
  • Multi state indicator and button, Numeric display
  • Display Date, Time & other stored message
  • Numeric entry; User Input, Sliders & Alarms
  • Creating and linking multiple screens
  • HMI connection to PLC

Section 2

  • Introduction to SCADA
  • Understanding design platform
  • How to link SCADA with PLC; AB MicroLogix 1400
  • Understanding, Creating and linking Tags
  • Buttons; Momentary, Toggle, One shot & Multistate button
  • Simple and Numeric Label, Moving analog Indicator
  • Multistate Indicator, LED display
  • Cylindrical Tank, Level Indicator & Linear Scale
  • Meter & Thermometer, Numeric Input
  • Publish and Save SCADA project
  • PLC-SCADA project design and analysis
  • Participants:
    • Undergraduates
    • Graduates
    • Individuals with interest in Industrial Automation.
  • Duration:
    • 2 weeks
    • 30hours cumulative
  • Available Resources:

 Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home.

Ready to take motor control to the next level?
Variable Frequency Drives (VFDs) are essential for energy-efficient motor speed control in modern industrial systems. This training focuses on PVFD configuration, giving you the skills to set up, program, and optimize VFDs for maximum performance and reliability.

You’ll learn:
✅ Fundamentals of VFD operation and motor speed control
✅ Parameter configuration for different applications
✅ Integration with PLCs and automation systems
✅ Troubleshooting common VFD issues
✅ Best practices for energy efficiency and system protection

This is a hands-on, practical course designed for technicians and engineers who want to master advanced motor control techniques. By the end, you’ll be confident in configuring and maintaining PVFDs for any industrial application.

Ready to master PVFD configuration? Register Now and secure your spot!
👉 [Click Here to Register

 

Course Content

  • Introduction to Variable frequency Drivers (VFD)
  • VFD Internal Circuitry and Principle of Operation
  • Electric Motors; Basics and Operation
  • Voltage and frequency relationship in motor operation
  • Interfacing Delta PLC with AD and DA cards
  • Programming the PLC to read and write Information to the cards
  • Wiring the PLC, AD/DA cards, VFD and electric motor
  • Setting up parameters of the VFD; Minimum & maximum frequency/voltage
  • Real time operation and control of motor speed based on external Variable measured & stored in the PLC
  • VFD Project; Automated Conveyor system.

 

  • Participants:
    • Undergraduates
    • Graduates
    • Individuals with interest in Industrial Automation.
  • Duration:
    • 1 week,
    • 15hours cumulative
  • Available Resources:
    • Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home.

This practical course brings together multiple disciplines; PLC programming and wiring, SCADA, HMI, instrumentation, mechatronics, basic electrical wiring, electronic circuitry, and simple mechanics to achieve one common goal: Automated Control and Monitoring.

Industrial Automation is the driving force behind smarter, faster, and more efficient factories. This training equips you with end-to-end expertise, covering everything from sensors and actuators to PLCs, SCADA, HMIs, and advanced control strategies.

You’ll learn:
✅ The fundamentals of automation and control systems
✅ How to integrate PLCs, SCADA, and HMI for seamless operations
✅ Communication protocols and networking in industrial environments
✅ Safety systems and standards for automated processes
✅ Troubleshooting and optimizing automation systems for peak performance

This is a hands-on, project-driven course that prepares you to design, implement, and maintain automation solutions across industries. Whether you’re starting your automation journey or upgrading your skills, this training will make you industry-ready and future-proof.

Ready to lead the automation revolution? Register Now and secure your spot!
👉 Click Here to Register

 

Course Content

Section 1: Programmable Logic Controllers (PLC)

Programming, wiring & troubleshooting of Allen Bradley, Delta & Siemens PLCs

 

Section 2: Human Machine Interface (HMI)

Introduction / General concepts of HMI, Programming, Interfacing, wiring & connection of Panel type HMI

 

Section 3: Supervisory Control and Data Acquisition (SCADA)

User Interface design, Creating and Linking Tags to field instruments, Simulation of Data and monitoring of a process on the SCADA platform; Ignition, Factory Talk View, Win CC

 

Section 4: Variable Frequency Drive (VFD)

Principle of operation, set up and wiring, Interfacing with PLC.

 

Section 5: Basic Instrumentation & Control

Introduction and Operation of various field Instruments; Sensors & Transmitters, Valves & Actuators, Pumps Types and various application, Equipment Calibration Techniques, Instrumentation diagrams; Principle, Process & Detailed

 

Section 6: Control Panels

Identification of various components, Design and wiring, Continuity checks, Switches/Relays/Contactors, Troubleshooting

 

Section 7: DCS & ICSS

Introduction, Application, Comparison and Benefits.

 

Section 8: Designing and Implementing an Automated System

Establishing connections and Interface for efficient Control and Monitoring of a process e.g. Oil and Gas, Paint manufacturing, Warehousing etc

 

Section 9: Home Automation Ideas

Exposure to viable home automation techniques; Remote control gates, Tank water level monitoring, Automated power changeover, GSM control of home appliance etc

 

Section 10: Conclusion, Discussion and design of a mini-Project

  • Participants:
    • Individuals with interest in Industrial Automation.
  • Duration:
    • 4 Weeks, 72 hours cumulative
  • Available Resources:
    • Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home

Mechanical, Electronics, Electromechanical, Computer Technology

Want to understand, operate or build machines that think and move?
Then consider our training on Mechatronics and Robotics. This training combines the understanding of mechanical systems, electronics, control engineering, and programming to create intelligent machines that power modern automation. We equip you with hands-on experience in designing, assembling, and programming robotic systems for industrial and real-world applications.

You’ll learn:
✅ Fundamentals of mechatronic systems and robotic architecture
✅ Sensor integration and actuator control
✅ Motion control and kinematics
✅ PLC and microcontroller-based robotic programming
✅ Troubleshooting and optimizing robotic systems

 

Still wondering how Mechatronics and Robotics relate?
Mechatronics is essentially the use of electrical signals to control mechanical devices through an electromechanical interface. Common examples include remote-operated gates, washing machines, elevators, conveyors, vehicle anti-lock braking systems, aircraft controls, and various industrial equipment. Today, Mechatronics has evolved into a multidisciplinary field that combines mechanical, electrical, telecommunications, control, and computer engineering.

Robotics is considered a subset of Mechatronics because it also integrates mechanical, electronic, and computer engineering principles. The key difference lies in autonomy: Mechatronic systems rely on external inputs, while robotic systems acquire inputs on their own.

Clear Contrast:
A traffic light that controls vehicles based on a pre-programmed sequence is a Mechatronic system (automatic). However, if the same system uses cameras to sense traffic and adjust signals dynamically, it becomes a Robotic system (autonomous).

 

Note: This is a practical, project-driven course where you’ll not only understand the theory but also build and program real robotic systems. By the end, you’ll be ready to take on advanced automation challenges and lead innovation in robotics.

Ready to create the future? Register Now and secure your spot!
👉 Click Here to Register

 

 

 

Course Content

  • INTRODUCTION TO MECHATRONICS; Disciplinary foundations of mechatronics, Mechatronic systems; components and various application, Measurement systems; Transducer, Signal processor and Recorder, Design example; DC Motor speed controller

 

  • FUNDAMENTALS, SIMPLE MACHINES AND MECHANISMS; Force, torque and Motion, Conservation of momentum, Work, power and energy, Simple machines and mechanisms; Links and joints (kinematics), Bearings and Lubricants

 

  • MECHANICAL ENERGY; Electric motors; various types and principle of operation, Fundamentals of Fluid Mechanics; Hydraulic and Pneumatic, Thermodynamics and Heat transfer, Transmitting motion; Gears, Pulley, chains and sprocket

 

  • MECHANICAL SYSTEMS DESIGN; Introduction to Engineering design and manufacturing, Structures and Material selection, Machine element design and construction, Practical session on metal cutting, drilling, grinding and welding

 

  • FUNDAMENTAL ELECTRONICS; COMPONENTS AND CIRCUITS; Basic electrical circuit elements; Resistors, Capacitor, Inductor, Alternating current circuit analysis, Power in electrical circuits, Transformer; Design and working principle, Introduction to junction diodes, check valve analogy, DC power supply; AC-DC converters and Batteries, Voltage regulator; Zener diodes and high current regulators, Electromechanical switch – relay and contactors

 

  • SEMICONDUCTOR ELECTRONICS; Semiconductor physics, Detailed operation of diodes and various applications, Transistors; Bipolar junction and Field-effect transistors, Use of Transistors as Switch and Amplifier, Integrated circuits (IC); examples, overview and various applications, Multi vibrator circuits; Monostable, Bistable and Astable, DC-AC Inverters; circuit design and principle of operation

 

  • INSTRUMENTATION – SENSORS AND TRANSMITTERS; Resistive sensors; Light, Sound and Temperature Dependent Resistors, Position and speed measurement; Proximity sensors and switches, Digital Optical Encoder, Linear Variable Differential Transformer, Stress and strain measurement, Temperature measurement, Vibration and acceleration measurement, Fluid level, Pressure and flow measurement, Semiconductor sensors and microelectromechanical devices, Interfacing sensors with electronic circuits

 

  • INSTRUMENTATION – ACTUATORS; Electromagnetic principles, Solenoids and relays, Electric motors; AC and DC – Various types and application, Electric motor Speed control; Variable Frequency Drives, Variable Voltage control and Pulse Width Modulation, Hydraulic and Pneumatic actuators

 

  • ANALOG SIGNAL PROCESSING USING OP AMP / DATA ACQUISITION; Basic need for amplification, Operational amplifiers; Inverting, Non-inverting, summer, Instrumentation amplifier, Comparators and their applications, Quantizing theory, Analog-to-digital conversion, Digital-to-Analog Conversion

 

  • DIGITAL CIRCUITS; Digital representations, Boolean algebra, Design of logic networks, Combinational logic and Sequential logic, Flip-flops and various application, Switch Debouncing, Data register, TTL and CMOS integrated circuits and interfacing

 

  • REMOTE CONTROL; Concept of Tele-operation, Infrared and RF remote control, Interfacing remote receiver with electronic circuit

 

  • MICROCONTROLLER PROGRAMMING AND INTERFACING; Microprocessors, microcomputers and Microcontrollers, AVR microcontrollers overview, Device architecture, Program execution, Atmel AVR instruction set, Atmel AVR (Atmega 16) pin configuration, Programming AVR microcontrollers, Basic compiler features, Guides to programming AVR microcontroller, Standard basic language elements, Method to design a microcontroller-based system, Introduction to Arduino programming

 

  • PROGRAMMABLE LOGIC CONTROLLERS; Introduction, Common PLC types; Allen Bradley, Delta, Siemens, Schneider, Omron, What to consider when choosing a PLC, PLC architecture, PLC Wiring and interfacing with IO devices, Programming PLC using ladder logic, Tips to troubleshooting a PLC

 

 

 

  • Participants:
    • Undergraduates
    • Graduates
    • Individuals with interest in Mechatronics Engineering
  • Duration:
    • 2 Months
    • 90 hours cumulative
  • Available Resources:
    • Detailed Course Materials, Comprehensive Videos on all topics, Free Programming software and unlimited access to training kits. All you need is a personal computer to practice at home.

Equip yourself with technical skill for Smart home installation, configuration & maintenance
This practical training is designed for individuals who want to master the installation, configuration, and maintenance of smart home automation systems. The course provides a step-by-step approach, starting from site assessment and device selection to system integration and troubleshooting, ensuring participants gain real-world skills to deliver professional smart home solutions.

You’ll explore all major technologies powering smart homes, including:

  • IoT-based devices
  • Wireless protocols (Wi-Fi, Zigbee, Z-Wave, Bluetooth)
  • Smart hubs and controllers
  • Voice assistants (Alexa, Google Home)
  • Cloud and local automation platforms

By the end of this training, you’ll be equipped to design and implement secure, scalable, and energy-efficient smart home systems for residential and commercial applications.

 

Course Content Highlights

Module 1: Smart Home Fundamentals

  • Overview of Smart Home Automation
  • IoT concepts and communication protocols
  • Key components: sensors, actuators, controllers

Module 2: Site Assessment & System Design

  • Load calculation and wiring considerations
  • Device compatibility and selection
  • Network planning for smart devices

Module 3: Sourcing & Installation

  • Choosing reliable brands and platforms
  • Electrical wiring for smart switches and sockets
  • Installing smart lighting, thermostats, cameras, and security systems

Module 4: Configuration & Integration

  • Setting up smart hubs and mobile apps
  • Voice assistant integration (Alexa, Google Home)
  • Creating automation routines and scenes

Module 5: Maintenance & Troubleshooting

  • Firmware updates and device resets
  • Network connectivity issues
  • Security and data privacy best practices

Module 6: Hands-On Project

  • Design and implement a complete smart home system
  • Configure lighting, security, and energy management
  • Test and demonstrate automation features

Ready to become a Smart Home Automation expert? Register Now and secure your spot!
👉 Click Here to Register

  • Participants:
    • Individuals with basic Electrical knowledge
  • Duration:
    • 2 Week, 40 hours cumulative
  • Available Resources:
    • Detailed Course Materials, Individual set of devices to completed a smart home installation project

Master the Future of Renewable Energy with Hands-On Expertise
This practical training is designed to equip participants with comprehensive, step-by-step knowledge in three critical areas of solar power systems:

LiFePO₄ Battery Assembly, Configuration, Installation & Maintenance – Understand the chemistry, safety protocols, and assembly techniques for Lithium Iron Phosphate batteries, known for their high efficiency, long life cycle, and superior safety. Learn cell balancing, BMS (Battery Management System) integration, wiring for optimal performance and maintenance.

 

 

Solar Panel Sizing and Installation – Gain deep insight into solar panel selection, sizing calculations based on load requirements, and proper installation techniques to maximize energy capture and system reliability.

Inverter Sizing and Installation – Learn how to calculate inverter capacity, configure settings, and integrate with batteries and panels for seamless energy conversion and distribution.

This course follows a step-by-step practical approach, ensuring participants not only understand the theory but also work directly with real components. By the end of the training, you’ll have in-depth knowledge of LiFePO₄ battery technology, solar system design, and inverter integration—making you fully prepared to deliver professional renewable energy solutions.

 

Ready to become a solar energy expert? Register Now and secure your spot!
👉 Click Here to Register

  • Participants:
    • Individuals with basic Electrical knowledge
  • Duration:
    • 1 Week, 20 hours cumulative
  • Available Resources:
    • Detailed Course Materials, Individual set of solar panels, inverter and Lifepo4 battery pack
Are you ready to become...

Automation Expert
In 4 Weeks?

remtronics2014@gmail.com
+2348037683702, 07032425572
Scroll to Top