I turn circuits into intelligent systems — crafting hardware that interacts with the real world.
I am an Electronics Engineering student at the Politeknik Elektronika Negeri Surabaya (PENS) with a strong interest in embedded systems, robotics, and the Internet of Things (IoT). I enjoy designing electronic circuits, developing microcontroller-based systems, and transforming ideas into functional prototypes through hands-on engineering projects.
Through academic projects and organizational experiences, I have developed skills in electronic circuit design, PCB and schematic design, IoT development, and basic C programming using platforms such as ESP32 and Arduino. I am passionate about continuous learning, solving real-world problems with technology, and collaborating with others to create innovative engineering solutions.
This robot soccer project is built using an ESP-01s as the main controller and is operated wirelessly over Wi-Fi. Designed as a remote-controlled mobile robot, it enables users to control movement in real time through a wireless interface. The project focuses on reliable wireless communication, responsive control, and practical implementation of embedded systems for robotics applications.
This smart door lock system utilizes an ESP32 and RFID authentication to provide secure access control, complemented by Telegram Bot integration for remote monitoring and control over Wi-Fi. The project was developed to offer a practical and reliable keyless access solution, allowing authorized users to unlock the door using registered RFID cards while enabling homeowners to monitor door status and perform remote operations directly through Telegram.
Analog audio spectrum analyzer that separates low, mid, and high frequencies using RLC filters and the LM3915 driver IC. This project explores pure analog circuit design and is implemented on a custom PCB, driving LED matrices that visualize music in real time.
A 2-digit digital counter capable of counting from 00 to 99 in both up and down modes. Featuring Preset, Reset, Manual Clock, and 1 Hz Auto Clock, the system provides flexible counting control, making it an effective platform for learning digital logic, sequential circuits, and counter design.
Smart trash bin capable of automatically sorting wet and dry waste using a water sensor and distance sensor. A servo motor directs each item into the appropriate compartment, improving waste segregation efficiency and supporting proper recycling practices.
UI/UX Design Workshop
Google Developer Groups on Campus PENS
Embedded Development Workshop
Google Developer Groups on Campus PENS
