Comprehensive Training in Electronics, Electrical & Computer Technology
A full mentorship program designed to take you from basic electronics principles to advanced embedded systems, IoT, robotics, and prototyping — preparing you for innovation, entrepreneurship, and industry relevance.
Know MoreComprehensive Training Outline
Stage 1: Foundation in Electrical & Electronics (Weeks 1–3)
Goal: Build solid understanding of electrical principles and circuit design.
Topics:
- Electrical quantities: Voltage, current, resistance, power
- Ohm’s and Kirchhoff’s laws; circuit analysis
- Testing components (resistors, diodes, capacitors, transistors)
- Breadboarding and soldering
- Reading and drawing schematics
- Safety and workshop practices
Practical: Assemble LED and power circuits; build a regulated power supply.
Cost: ₦40,000
Stage 2: Basic Electronic Circuit Programming (Weeks 4–10)
Goal: Learn the fundamentals of microcontrollers and embedded C programming.
Topics:
- Introduction to Electronic Circuit Programming
- Microcontroller architecture (CPU, memory, peripherals)
- Programming in C/C++
- GPIO and LED blinking
- Analog/Digital signals (ADC, DAC)
- Sensor and actuator interfacing
- Communication protocols: UART, SPI, I²C
Practical Projects: LED control, thermometer, motion alarm, robot, etc.
Outcome: Understand microcontroller basics and design small functional systems.
Cost: ₦150,000
Stage 3: Intermediate Hardware & Embedded Systems (Weeks 11–16)
Goal: Apply embedded knowledge to real hardware systems.
Topics:
- Inverter & UPS design
- Battery management & charging circuits
- Solar system setup & integration
- PCB design using Proteus/EasyEDA
- Automation with microcontrollers
Practical: Build a mini inverter, solar charge controller, and PCB projects.
Cost: ₦150,000
Stage 4: Advanced Embedded Programming & IoT Systems (Weeks 17–27)
Goal: Master embedded systems, IoT, and automation technologies.
Topics:
- Embedded systems overview and applications
- Advanced circuit design and signal conditioning
- Arduino, STM32, and PIC microcontrollers
- Timers, interrupts, and event-driven programming
- Wireless communication (Wi-Fi, Bluetooth, LoRa)
- Low-power system optimization
- Simulation with Proteus or Multisim
Practical: IoT weather station, smart home, line-following robot, etc.
Outcome: Design and program complex IoT and embedded systems.
Cost: ₦400,000
Stage 5: Prototyping, Robotics & Emerging Technologies (Weeks 28–34)
Goal: Apply creativity through fabrication and robotics.
Topics:
- 3D design and printing
- Sensor, actuator, and IoT module integration
- Drone technology basics
- Robotics and motion control
- Laptop repair and hardware maintenance
Practical: Build drones or robots and 3D-print IoT enclosures.
Cost: ₦400,000
Stage 6: Capstone Project & Entrepreneurship (Weeks 35–40)
Goal: Develop independence, innovation, and business readiness.
Activities:
- Capstone project: inverter, IoT device, robot, or drone
- Project documentation & presentation
- Skill branding and packaging
- Business setup and freelancing
- Final exhibition & certification
Cost: ₦200,000
| Stage | Focus Area | Duration | Outcome |
|---|---|---|---|
| 1 | Electrical & Electronics Foundation | 3 weeks | Basic electronics skills |
| 2 | Basic Circuit Programming | 7 weeks | Build embedded mini-projects |
| 3 | Intermediate Systems | 6 weeks | Apply embedded design in power systems |
| 4 | Advanced Embedded & IoT | 11 weeks | Master microcontrollers and IoT |
| 5 | Robotics & Fabrication | 7 weeks | Build robots, drones, and prototypes |
| 6 | Capstone & Entrepreneurship | 6 weeks | Launch independent projects |