Master Electronics & Software to Build Smart, Connected Products
Why Learn with Us?
💡 Learn from expert engineers with hands-on experience in embedded systems & IoT. No pre-recorded videos—only interactive, live coaching to help you build real-world projects.
✔ Live, Expert-Led Coaching – Learn directly from industry professionals in real-time sessions.
✔ Hands-On Learning – No boring theory! Work on embedded systems, IoT, PCB design, and firmware development.
✔ Personalised Mentorship – Get direct support & project feedback from experienced engineers.
✔ Career-Boosting Skills – Master the electronics design & IoT skills that companies demand.
✔ Project-Based Curriculum – Work on real-world projects and build your portfolio.
What You’ll Learn
PCB Design & Prototyping
Schematic design, PCB layout, routing, manufacturing considerations.
Embedded Systems & IoT
Microcontrollers, STM32, ESP32, sensor interfacing, real-time programming.
Wireless Communication
IoT protocols, WiFi, Zigbee, MQTT, cloud integration.
Learn from Experts – PhD-Level Instructors with Real-World Experience
At Navik Ltd., you won’t be learning from generic online courses or pre-recorded videos. Instead, you’ll be guided by highly qualified instructors who bring both academic excellence and industry expertise to the table.
✔ PhD-Level Academics & Engineers – All our instructors hold PhDs in Engineering and have extensive teaching, research, and lab experience at top universities.
✔ Industry-Ready Skills – We don’t just teach theory. Our team has hands-on experience developing embedded systems, IoT solutions, and custom hardware for real-world applications.
✔ Proven Track Record – With years of experience mentoring students, engineers, and professionals, we understand what it takes to succeed in the field.
💡 Whether you’re an engineer looking to upskill, a freelancer entering embedded systems, or an entrepreneur building IoT products, our coaching will equip you with the skills you need to succeed.
NAVIK Project Examples
NAVIK PM100 Air Quality Data logger
While traditional smoke detectors might overlook vaping, it introduces a substantial amount of particulate matter into the air, a phenomenon that light scattering technology adeptly detects. This video demonstrates the sharp rise in PM levels upon exposure to vape, offering a clear view of advanced sensor technology’s role in air quality assessment.
Project: Multi-Channel Seismic Data Logger
💡 This device monitors seismic vibration using real-time sensors and wireless connectivity. After completing the course, you’ll be able to build similar IoT-based monitoring systems.
🛠️ Key Skills Learned:
✔ Microcontroller Programming (ESP32, STM32) – Configuring sensors, ADCs, and data communication.
✔ PCB Design & Prototyping – Designing compact and low-power sensor circuits.
✔ Wireless Data Transmission (WiFi, MQTT, Zigbee, LoRa) – Sending real-time data to cloud platforms.
✔ Power Management – Designing low-power battery-operated devices for long-term deployment.
✔ Real-Time Clock (RTC) Implementation – Keeping accurate timestamps for environmental data.
✔ SD Card Data Logging – Storing sensor data efficiently for later analysis.
✔ Firmware Optimization & Low Power Modes – Extending battery life for continuous operation.