My primary and secondary education at "Santo Domingo de Guzman" School focused on a solid education in science. During these years, I acquired fundamental knowledge and academic skills
that prepared me to embrace my passion for science and continue my educational and professional development in this field.
2018-2023
Simon Bolivar University
Higher Technician in Electronics
At Simon Bolivar University, my training as a senior electronics technician allowed me to acquire solid technical skills in both hardware and software, and foster my passion for
technology. These years were fundamental for my professional development and commitment to excellence in the field.
Apr-Dec 2023
Electronic Service AS1
LCD TV repair technician
At Electronic Service AS1, I had the privilege of working as an LCD TV repair technician. During my time there, I acquired an in-depth knowledge in identifying and troubleshooting
problems in LCD TVs, working with a wide variety of models and technologies. My experience included diagnostics, teamwork, troubleshooting, and customer service. This experience
strengthened my technical skill and my ability to provide effective solutions. For more information:
The project involved theoretical and practical training for the repair of electronic equipment, with an emphasis on LCD technology. Having technical personnel is essential for any company today, reducing maintenance costs, minimizing downtime, and extending the life of equipment. In applicable cases, it generates income by offering repair services.
Design and Simulation of Electronic Circuits in Multisim and Proteus
One of the cornerstones of electronic design is simulation. During my time at Simón Bolívar University, I had the opportunity to participate in various projects involving the design of electronic circuits. In the following link, you will have access to a Google Drive folder containing many of these design projects.
The project involves the development of a 3W audio amplifier prototype with wireless control. This project is an excellent example of how the Internet of Things (IoT) can enhance everyday products by adding remote control and monitoring capabilities.
This project involved the development of a digital frequency meter based on the PIC16F873A microcontroller. The system can measure input signals between 0 and 40 KHz, displaying the result on a bank of 8 LEDs indicating the measured frequency range.
The project involves an assembly program for the 8085 microprocessor that allows encrypting text. Encryption is extremely important today to protect the confidentiality and privacy of information. Almost all digital communication today uses some form of encryption.
Historical Data Analysis of Bitcoin (BTC-USD) with Moving Average Signals
This project is an excellent example of applying data science techniques in the field of finance and cryptocurrencies. The identified signals can be used to develop trading bots for automated buying/selling of Bitcoin.
This project is about the detailed design of a successive approximations ADC. ADCs play a crucial role today, being present in a wide variety of technological applications. From consumer devices like smartphones to industrial control systems and communication technologies.
This project involves the creation of an Electronic Dice prototype. Beyond its apparent simplicity, it offers didactic benefits by providing a practical platform to understand key concepts of digital circuits, such as the use of buttons, LED control, and random result generation. Additionally, it reflects the applicability of electronics.
The project involved theoretical and practical training for the repair of electronic equipment, with an emphasis on LCD technology. Having technical personnel is essential for any company today, reducing maintenance costs, minimizing downtime, and extending the life of equipment. In applicable cases, it generates income by offering repair services.
Design and Simulation of Electronic Circuits in Multisim and Proteus
One of the cornerstones of electronic design is simulation. During my time at Simón Bolívar University, I had the opportunity to participate in various projects involving the design of electronic circuits. In the following link, you will have access to a Google Drive folder containing many of these design projects.
The project involves the development of a 3W audio amplifier prototype with wireless control. This project is an excellent example of how the Internet of Things (IoT) can enhance everyday products by adding remote control and monitoring capabilities.
This project involved the development of a digital frequency meter based on the PIC16F873A microcontroller. The system can measure input signals between 0 and 40 KHz, displaying the result on a bank of 8 LEDs indicating the measured frequency range.