Cindy Marilyn | Fab Academy Portfolio

semana 17: Aplicaciones e Implicaciones – Proyecto Final

Maceta Inteligente Interactiva

Cindy Marilyn Crispín Fab Lab Huando – 2026

¿Qué hará?

The Interactive Smart Pot is a digitally manufactured educational system that monitors soil moisture through a sensor and alerts the user when the plant needs water.

El sistema:

Detects soil moisture (input)

Process data on a PCB designed by me

Activate an audible alert through a speaker

Displays information on an OLED screen

Integrates all components within a 3D printed structure

The objective is to promote environmental care through embedded technology.

Who has done what in advance?

Basic architectures of open source microcontrollers were used as reference.

Official datasheets were consulted for sensors and screen.

Standard OLED display libraries were used.

All mechanical design, PCB, programming, integration and assembly was developed by me.

¿Qué fuentes utilizaré?

Datasheets de:

Humidity sensor

Microcontrolador

Pantalla OLED

Digital manufacturing documentation

Basic electronics technical resources

Parametric 3D Design References

¿Qué voy a diseñar?

Yo diseñé:

Complete 3D modeling of the flower pot

Internal layout to house PCB and components

Esquemático electrónico

Own PCB design

Microcontroller code

Integración estructural y electrónica

What materials and components will be used?

Mecánicos

Filamento PLA

Tornillos y separadores

3D printed structure

Electrónicos

Microcontroller on own PCB

Humidity sensor

Pantalla OLED

Parlante (buzzer)

Resistencias

Capacitores

Conectores

voltage regulator

¿De dónde vendrán?

Componentes electrónicos comprados localmente

Fab Lab PLA

Design and manufacturing carried out in Fab Lab Huando

¿Cuánto costará? (BOM preliminar)

Costo total estimado: $25 – $30 USD

What parts and systems will be manufactured?

Pot body (3D printing – additive manufacturing)

Tapa inferior y soporte interno

PCB fresada (producción electrónica)

Sistema embebido completo

Integración final sin cables sueltos

What processes will be used?

✔ 2D Design ✔ 3D Modeling ✔ 3D printing (additive manufacturing) ✔ PCB milling ✔ Electronic welding ✔ Microcontroller programming ✔ Systems integration ✔ Final assembly

¿Qué preguntas necesitan respuesta?

What is the ideal humidity range for different plants?

How to correctly calibrate the sensor?

¿Cómo optimizar consumo energético?

How to better organize internal wiring?

How to make the system modular and improved in future versions?

How will it be evaluated?

El proyecto será considerado exitoso si:

✔ The sensor correctly detects low humidity ✔ OLED screen shows correct information ✔ The speaker emits an alert when appropriate ✔ PCB works without faults ✔ There are no exposed cables ✔ The structure is resistant ✔ The system is fully integrated

Project Development

Alcance

Create a fully integrated educational system that combines:

Diseño 3D

Electrónica propia

Programación embebida

Integración estructural

Interfaz visual y sonora

Cronograma General

Licencia

This project is published under the license:

Creative Commons Attribution – ShareAlike 4.0 International (CC BY-SA 4.0)