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Rodolfo Muñoz Herrada

I am Rodolfo Muñoz Herrada, a passionate engineer and creator, expert in merging technology with creativity to develop innovative solutions. My background is marked by challenging experiences and exciting projects that demonstrate my dedication and unique skills.

From assisting in the creation of bioreactors for human cell culture to designing and printing functional and aesthetic 3D parts, my focus goes beyond conventional engineering. I am an architect of ideas, I have developed home automation projects, brake design for AGVs, programmable LED strips and much more.

My goal is more than just to create, it’s to transform ideas into tangible realities. Join me on this journey where engineering and creativity converge to overcome limits and leave a meaningful footprint.

Find out more about my world of innovation and discover how we can create something extraordinary together!

I designed and created a resin curing station from scratch, leveraging 3D modeling and printing for its construction. From the code architecture to the custom PCB, every aspect was carefully developed by me. I used Arduino and an ESP8266 along with an OLED display for this application, demonstrating my ability to integrate technologies and create innovative solutions.

Throughout my career, I have spent my time repairing a wide variety of devices, from electronics to home appliances. My primary motivation has always been to provide a second life to things, thereby contributing to decreasing my carbon footprint and promoting more sustainable practices. This commitment has involved the application of basic electronics knowledge, as well as the application of advanced design concepts including 3D printing to optimize and prolong the functionality of repaired objects.

As an electrical technician, I have participated in comprehensive projects ranging from the detailed design of electrical drawings to the execution and installation of the same. My experience extends to the implementation of home automation systems, where I have integrated IoT products to create smart residential environments.

Expert in design and 3D printing, using programs such as SolidWorks, Sharp 3D among others. I have experience with different types of 3D printers, from FDM to resin printing. My focus is on creating functional and aesthetic parts, from prototypes to final products merging creativity with engineering to offer innovative solutions. I am committed to excellence and precision in every project.

I collaborated in the design and manufacture of drum brakes for an AGV (automated guided vehicle). This process ranged from initial measurements to modeling, 3D printing and finally manufacturing the brakes in steel. The main objective was to ensure an efficient braking system for the automated vehicle.

I assisted in the programming of a bioreactor for a medical student. The main task was to ensure a constant temperature of 37 degrees Celsius to support the cultivation of human cells.

I have developed several IoT projects using ESP8266 D1 Mini boards, programmed with Arduino, to create home automation solutions. My focus was on the design and implementation of smart switches, as well as programmable RGB LED RGB lighting systems.

PCB Board

With microphone for audiorhythmic chip

Audiorhythmic tests

Adaptation

Gamer chair

Adaptation

Bedroom

I developed a project that involved WS2812B LED strips, known for their programmability, along with ESP8266 D1 Mini development boards. This allowed the creation of lighting sequences and patterns that exceeded the capabilities of a conventional LED strip. In addition, I designed the architecture of a PCB to integrate the necessary components, allowing the project to work autonomously and connect to Alexa. Importantly, rhythmic audio chips were also incorporated to add a visual response to auditory stimuli.

Oled 0.96 in.

Connections

Component testing

Project that involved drawing a line, capturing a photograph, and sending it to a Python program. Which processes the image and generates all the samples needed to replicate the sequence of lines. These samples were then exported to an Arduino code which, in turn, was interpreted by an oscilloscope to visualize the generated sequence.

Python and Arduino