Monique Moreno

Eager student studying in academic discipline and looking for related experience. Willing to listen and learn and excited to contribute in real-world environment to help find practical, actionable solutions for current needs.

• 3537W- One
• 3537S- More About Ford Motor Company
• New Ford Tech
• Ford Electrified Vehicle Strategy
• Driver Assist Technology
• 6019W- Connectivity: As Always Like Never Before
• Introduction to the Automotive Industry
• Shop Safety
• Automotive Tools and Equipment
• Introduction to the Automobile
• Vehicle Inspection and Maintenance
• Documents for General Maintenance
• Basic Electric Theory and Operations
• Electrical Diagnostic Tools and Testing P.1
• Electronic Theory and Operations
• Tire/Wheel Vibration Analysis
• Steering and Suspension Alignment
• Fuel and Air Theory and Operation
• Anti-Theft Systems
• High Voltage System Safety

Collaborated with a team of electrical engineering students to design and build a sensor-based security system aimed at enhancing home and office security. The system was designed to detect unauthorized entry and trigger alerts, providing real-time monitoring for improved safety. Worked as part of a multi-disciplinary team to develop both the hardware and software for the security system. I was responsible for designing the circuitry, integrating the sensors, and programming the Arduino to process sensor data and activate alarms when security breaches were detected.

Designed and simulated a 4-bit Digital-to-Analog Converter (DAC) as part of an electrical engineering course project. The goal was to convert digital signals into analog voltage outputs with high precision. The project involved the design and simulation of the DAC circuit, as well as the creation of a custom PCB, followed by its manufacturing. 

Developed a 4-bit binary calculator capable of performing addition and subtraction operations on a BASYS 3 FPGA board. The project was focused on digital logic design, using Vivado software and SystemVerilog to implement the calculator’s functionality.

Designed and implemented a RISC-V based microcontroller from the ground up, using a hardware description language (Verilog). The project aimed to develop a functional RISC-V processor core that could execute basic instructions, manage memory, and perform fundamental operations commonly handled by an MCU. The project focused on understanding computer architecture and microcontroller functionality.