Technical Requirements:
— Programming in C / C++
— Managed build systems such as CMake
— Use of CI/CD environments (ideally using GitLab + jFrog)
— Automated integrations testing and unit testing
— “Bare-metal” embedded development (without any operating system) preferably within real-time applications
— Real-time operating systems e.g. FreeRTOS
— WIFI interface using TCP/IP (TLS), Bluetooth LE interface, Modbus interface
— UART, SPI, I2C, Single-wire-UART
-Working in a scrum team
Nice to have:
— Familiarity with STM32 chips and/or Microchip 8/16 series
— Hardware-level debugging (oscilloscopes, using test points to verify behavior, etc.)
— Designing and deploying embedded devices with Bootloaders
— Embedded performance engineering (design decision for constrained devices)
— Developing software and drivers for embedded Linux
— UML to visualize architectural software design, and how to use software design patterns
Personal Competences:
Strong communicator, able to communicate with team local and distributed location
Be customer-oriented with a focus on commercial aspects within the development
Able to act as technical lead for embedded development projects
Has experience designing architecture and developing products starting from scratch
Strong in English, writing and verbal
A challenging and stimulating job for an international client
Talented colleagues and an informal, friendly work environment
Employee training and certification programs
Team building and social events
Short Fridays, till 15:00
20 working days of paid vacation over the year
Medical insurance at the company cost
Bonus program
Relocation package for those who are coming from other cities
Client: OJ Electronics specializes in designing and developing electronic controls for HVAC and underfloor heating systems. The main focus is made on developing and producing products with high quality, functionality, reliability, design and intuitive operation.
Client website: ojelectronics.com/floorheating
Project: We are currently starting a new product cycle where we are about to develop the next generation of thermostats. The next generation will consist of low-end,