The engineering and technology development center of Autcomp Group, created to provide end-to-end support throughout the lifecycle of electronic products — from concept to large-scale production.
Core capabilities
Hardware, firmware, embedded systems integration, calibration, validation, and industrialization support.
Value proposition
We transform technical needs into market-ready solutions with a focus on performance, cost efficiency, and scalability.
END-TO-ENE EXPERTISE
From concept to aftermarket
Our team is made up of highly specialized engineers capable of supporting different stages of development and evolution for electronic products.
Electronic architecture
Systems integration
Production support
Embedded firmware
Calibration and validation
Project evolution
HOW WE WORK
Complete support throughout the product lifecycle
Design House supports the creation, evolution, and sustainment of electronic solutions with technical vision and industrial feasibility in mind.
Demand Generation
Technical and commercial support to transform opportunities into clear product requirements and technical feasibility.
Development Support
Specialized engineering in hardware, firmware, and embedded systems integration to accelerate development.
Production
Support for ramp-up, validation, calibration, and industrialization to enable reliable large-scale manufacturing.
Aftermarket Support
Technical follow-up, continuous improvement, and performance analysis to sustain products in the field.
Project updates
Evolution of existing platforms with a focus on cost, robustness, performance, and market fit.
PORTFÓLIO
Case studies and projects that demonstrate Design House capability
References organized by segment, highlighting challenge, technical approach, and business impact.
MEDICAL
Analog flow sensor for CPAP
CHALLENGE
Replace a high-cost digital sensor with a more affordable analog solution without compromising airflow measurement accuracy.
SOLUTION
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Integration of an analog Honeywell sensor through an ATTiny microcontroller with A/D conversion.
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Calibration board with ATSAM MCU for reading mapping and adjustment.
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Third-order polynomial fitting to ensure high precision.
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Coefficient storage in the ATTiny EEPROM.
RESULTS / STATUS
Significant cost reduction.
High measurement precision and stability.
Full integration with CPAP firmware.
Modular and scalable design.
SECURITY
Wireless fire alarm system
CHALLENGE
Develop a distributed system with reliable wireless communication, low power consumption, and high scalability for industrial and commercial applications.
SOLUTION
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Complete embedded firmware development for the sensor network.
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Creation of a robust wireless mesh for communication between multiple nodes.
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Modular architecture for expansion without complex reconfiguration.
RESULTS / STATUS
Stable and secure wireless communication between sensors.
High scalability and low power consumption.
Reduced cabling and simplified installation.
Validated solution ready for field production.
MEDICAL
Calibration system for analog flow sensor for CPAP
CHALLENGE
Ensure precision and standardization in flow sensor calibration during CPAP production while maintaining low cost and industrial repeatability.
SOLUTION
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Custom extension board for the SAML21 Xplained platform.
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In-line use in production to calibrate flow sensors.
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Third-order polynomial fitting algorithm to map analog values.
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ATTiny converter board responsible for calculation and coefficient storage.
RESULTS / STATUS
Automated and repeatable calibration process.
High accuracy in flow measurements.
Reduced time and cost per calibrated unit.
Direct integration with CPAP hardware and firmware.
AUTOMOTIVE
Microcontrolled quad driver with CAN interface
CHALLENGE
Develop an intelligent control module for automotive exterior lighting, with CAN communication and precise power management.
SOLUTION
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Electronic design with integrated microcontroller and CAN interface.
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Independent control of four lighting channels.
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Dedicated firmware for diagnostics, control, and CAN bus communication.
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Architecture designed for easy integration into existing automotive systems.
RESULTS / STATUS
Thermal and electrical performance testing in progress.
CAN protocol validation.
Consumption optimization and overload protection.
Scalable foundation for future OEM applications.