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Entry Level Embedded Software Engineer Robotics Jobs in Raleigh, NC

Garmin

Embedded Software Engineer 1

Cary, NC · On-site

$134K - $176.30K/yr

Embedded Software Engineer 1 We are seeking a full-time Embedded Software Engineer 1 in our Cary, NC location. In this role, you will be responsible for building upon existing software solutions to ...

Garmin International Inc

Embedded Software Engineer 1

Cary, NC · On-site

$134K - $176.30K/yr

Overview We are seeking a full-time Embedded Software Engineer 1 in our Cary, NC location. In this role, you will be responsible for building upon existing software solutions to develop basic ...

RFA Engineering

Embedded Systems Engineer

Cary, NC · On-site

December 12, 2025 Full-Time Cary, NC 27513, USA Job Details Description RFA Engineering develops embedded software and electronics for our world-class clients in the areas of precision agriculture ...

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Entry Level Embedded Software Engineer Robotics information

See Raleigh, NC salary details

$68K

$149.1K

$169.1K

How much do entry level embedded software engineer robotics jobs pay per year?

As of May 28, 2026, the average yearly pay for entry level embedded software engineer robotics in Raleigh, NC is $149,101.00, according to ZipRecruiter salary data. Most workers in this role earn between $127,800.00 and $168,200.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Entry Level Embedded Software Engineer in Robotics, and why are they important?

To thrive as an Entry Level Embedded Software Engineer in Robotics, you need a solid understanding of C/C++ programming, microcontroller architectures, and a relevant engineering degree (such as Electrical, Computer, or Robotics Engineering). Familiarity with real-time operating systems (RTOS), debugging tools, and version control systems like Git is typically expected. Strong problem-solving skills, attention to detail, and effective collaboration are valuable soft skills in this role. These competencies ensure reliable software development, efficient teamwork, and the successful integration of software with robotic hardware.

What are some typical challenges faced by entry-level embedded software engineers in robotics, and how can they best prepare for them?

Entry-level embedded software engineers in robotics often encounter challenges such as debugging hardware-software interactions, working with limited system resources, and adapting to rapidly evolving project requirements. To navigate these, it's helpful to develop a strong understanding of embedded C/C++ programming, become familiar with hardware debugging tools, and practice effective communication within multidisciplinary teams. Proactively seeking mentorship and participating in code reviews can also accelerate learning and help you adapt quickly to the fast-paced robotics environment.

What does an Entry Level Embedded Software Engineer in Robotics do?

An Entry Level Embedded Software Engineer in Robotics is responsible for designing, developing, and testing software that runs on embedded systems within robotic devices. They work closely with hardware engineers to ensure seamless integration between software and hardware components. Typical tasks include writing code in languages like C or C++, debugging, performing hardware-software integration, and supporting the development of real-time control systems. Their work is crucial for enabling robots to perform tasks autonomously and efficiently.

What is the difference between Entry Level Embedded Software Engineer Robotics vs Entry Level Firmware Engineer?

AspectEntry Level Embedded Software Engineer RoboticsEntry Level Firmware Engineer
Required CredentialsBachelor's in Electrical, Computer Engineering, or related field; knowledge of robotics systemsBachelor's in Electrical, Computer Engineering, or related field; experience with embedded systems
Work EnvironmentRobotics labs, manufacturing, research facilitiesConsumer electronics, automotive, industrial devices
Employer & Industry UsageRobotics companies, automation firms, research institutionsElectronics manufacturers, automotive, IoT companies
Common Search & ComparisonYesYes

Entry Level Embedded Software Engineer Robotics focuses on developing software for robotic systems, integrating sensors and actuators. Entry Level Firmware Engineer develops low-level software for embedded devices across various industries. While both roles require similar technical skills and educational backgrounds, their application environments and specific focus areas differ.

What are the most commonly searched types of Embedded Software Engineer Robotics jobs in Raleigh, NC? The most popular types of Embedded Software Engineer Robotics jobs in Raleigh, NC are:
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Entry Level Embedded Software Engineer Robotics jobs near you
Embedded Software Engineer | Airborne Software

Embedded Software Engineer | Airborne Software

BETA Technologies

Raleigh, NC

$127.80K - $168.20K/yr

Other

Posted 3 days ago

Job description

The Embedded Software Engineer for Airborne Software will apply their knowledge of RTCA DO-178C, best practices for real-time safety-critical embedded software development, and embedded C skill set to specify, architect, design, implement and integrate the embedded software for BETA's airborne systems. The ideal candidate will have a broad knowledge of embedded software development, from bare-metal board bring-up and understanding of microcontroller timing and execution characteristics to high-level software specification and design methods and techniques. The embedded software engineer is responsible for developing robust and reliable software to achieve the highest level of safety-criticality in the industry.
 
How you will contribute to revolutionizing electric aviation:
  • Analyze system requirements allocated to software for correctness, feasibility, and appropriateness from an embedded software perspective
  • Develop software high-level requirements to specify the functionality and characteristics of airborne software
  • Architect and design the embedded software, considering hardware constraints, design constraints, and available resources to satisfy the software high-level requirements, and specify software low-level requirements
  • Develop embedded software in the C and Assembly programming languages for ARM microcontroller targets
  • Integrate the software with other software and the target hardware
  • Assess, measure, troubleshoot, and resolve issues with software execution and characteristics such as timing and performance
  • Perform peer reviews of other team member's contributions to the software development project
  • Inform the software verification team for the appropriate testing and analysis of the embedded software
 
Minimum Qualifications:
  • BS in Computer Engineering, Electrical Engineering, Computer Science, or a related degree from an accredited university
  • Minimum 3 years experience in real-time embedded software development
  • Requirements for engineering and software architecture/design experience
  • Proficiency with the C programming language
  • Knowledge of Texas Instruments Hercules and/or STM ARM microcontrollers, or equivalent
  • Comfortable reading electrical schematics, technical documentation, reference manuals, and datasheets
  • Experience with electronics lab equipment such as programmable power supplies, signal generators, oscilloscopes, and bus analyzers
  • Knowledge and awareness of the activities and outputs required for DO-178C compliance
  • Good team communication and collaboration skills
  • Ability to work independently and as a member of an integrated team
  • Candidates are encouraged to apply even if they don't meet all minimum qualifications
 
Above and Beyond Qualifications that will distinguish you:
  • Experience with the Texas Instruments TMS570 ARM microcontroller
  • Experience with the Lauterbach TRACE32 debug/instruction trace system
  • Experience with GNU GCC ARM embedded toolchain and Texas Instruments Code Composer Studio
  • Experience with the Polarion ALM life cycle data management system
  • Experience with embedded software for electric motor control, battery management systems, and/or flight control systems
  • Knowledge of and experience with communications interfaces and devices such as SPI, I2C, CAN, ARINC 429, Analog-to-Digital Converters, Direct Memory Access controllers, and temperature, voltage, and current sensors
  • Familiarity with RTCA DO-330 tool qualification objectives, activities, and outputs
  • Familiarity with RTCA DO-331 model-based development objectives, activities, and outputs

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