Our sensor research is not limited to simply selecting sensors available on the market. At TechCrafters, we are committed to developing new sensors customized to the specific needs of IoT projects. We use advanced scientific knowledge and analyze academic papers to prototype and test innovative sensors, adapting them to real-world conditions and improving their performance.





Some of the sensors we have developed and tested include technologies such as the ISFET (Ion-Sensitive Field-Effect Transistor), used for monitoring pH in fluids, and MEMS (MicroElectroMechanical Systems) sensors, known for their accuracy in environmental applications. We also work on NDIR (Non-Dispersive Infrared) sensors for gas detection, PT1000 for high-precision temperature measurement, and ambient light sensors such as the VEML3328, used for light intensity detection.



We also use pressure sensors such as those developed by NXP, which are particularly effective for industrial applications such as monitoring air filtration systems. Our most recent projects also include the development of LVDT (Linear Variable Differential Transformer) sensors for measuring linear displacements and PIR (Passive Infrared Sensors) for motion detection.
We rigorously test these prototypes in specific environments to evaluate their effectiveness and modify the sensors based on the results obtained. This approach allows us to offer highly customized solutions optimized for customer needs.

In parallel with sensor R&D, we design the hardware that integrates these sensors. This phase involves selecting and arranging optimal components to ensure that the sensors and associated electronics work together harmoniously and reliably.



During the design, we analyze the compatibility between the chosen sensors and other components such as microcontrollers, wireless communication modules (such as LoRa, Wi-Fi, and Bluetooth), and power systems. Every detail is carefully considered to ensure maximum efficiency, durability, and sustainability of the final system.

The technical design of the hardware includes the precise mapping of the PCB (Printed Circuit Board), where we define the physical layout of the components and the electrical connections between them. Our team focuses on optimizing the signal paths, minimizing interference, and ensuring large-scale production without complications.