The intelligence inside your machine. We design custom controller hardware and write the firmware that drives motors, reads sensors, talks to your PLC and connects to the cloud β robust, real-time code built for industrial conditions and long product life.
Behind every smart machine is embedded software doing the hard real-time work β controlling motion, sampling sensors, enforcing safety timing and handling communication. We build that layer: custom controller boards and the firmware on them, drivers and board bring-up, control loops, RTOS applications, and the protocol stacks that let your equipment talk to the rest of the plant.
Whether you need the electronics for a new product, the brains for a special-purpose machine, or to make existing equipment Industry 4.0-ready, we deliver reliable, maintainable firmware β not a prototype that breaks in the field.
Schematic, PCB design and board bring-up around STM32, ESP32, PIC, AVR and ARM Cortex-M.
BLDC/stepper/servo control, PID loops, encoders and real-time motion firmware.
Analog/digital sensors, I2C/SPI/UART devices, signal conditioning and acquisition.
Wi-Fi/BLE/LoRa/4G connectivity, edge logic and secure cloud telemetry.
Modbus RTU/TCP, CAN/CANopen, RS-485, MQTT and OPC-UA stacks.
FreeRTOS and bare-metal apps, drivers, bootloaders and OTA updates.
Off-the-shelf controllers rarely fit a unique machine or product. Custom embedded development gives you exactly the behaviour, cost and connectivity you need β and removes dependence on a third party's roadmap. Done right, it means fewer field failures, lower BOM cost at volume, and equipment that's ready to connect and monitor.
Requirements, MCU/board selection and firmware architecture.
Hardware/firmware build, drivers, control logic and bench testing.
Field validation, production programming, OTA and support.
Custom controller and PCB design, firmware for microcontrollers (STM32, ESP32, PIC, AVR), motor and motion control, sensor and actuator integration, RTOS applications, IoT/edge firmware, and industrial protocol stacks (Modbus, CAN/CANopen, MQTT, OPC-UA).
Yes. We develop the embedded controller and firmware that run special-purpose machines and automation cells β from board bring-up and drivers to control logic, the HMI link and connectivity.
Yes. We build edge firmware and gateways that read sensors and machine signals and push data to dashboards or the cloud β turning legacy machines into connected, monitorable assets.
From a custom controller board to full device firmware β tell us what it has to do and we'll architect it.