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Embedded Rtos Jobs in Dallas, TX (NOW HIRING)

System One

Embedded S/W Engineer

Grand Prairie, TX

$75 - $90/hr

Work within Linux environments and Real-Time Operating Systems (RTOS). * Develop and implement simulation systems for embedded applications. * Participate in full software development lifecycle from ...

Smart Start

Embedded Systems Architect

Grapevine, TX · On-site

This role is ideal for an experienced embedded systems professional who combines hands-on firmware ... Architect and enhance firmware for real-time systems using RTOS environments, state machines, task ...

Webster & Webster Associates

BSP Software Engineer

Dallas, TX

$121.30K - $159.60K/yr

Proficiency in C/C++ for low-level embedded software development. * Experience with RTOS (e.g., VxWorks, FreeRTOS, QNX) and bare-metal programming. * Solid understanding of bootloaders, board bring ...

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Embedded Rtos information

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$69.2K

$151.7K

$172.1K

How much do embedded rtos jobs pay per year?

As of May 31, 2026, the average yearly pay for embedded rtos in Dallas, TX is $151,732.00, according to ZipRecruiter salary data. Most workers in this role earn between $130,100.00 and $171,100.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Embedded RTOS Engineer, and why are they important?

To thrive as an Embedded RTOS Engineer, you need a strong background in embedded systems programming, real-time operating system (RTOS) concepts, and a relevant degree in computer engineering or a related field. Familiarity with tools like Keil, IAR Embedded Workbench, and experience with RTOS platforms such as FreeRTOS or VxWorks, along with certifications like Certified Embedded Systems Engineer, are highly valuable. Attention to detail, problem-solving abilities, and effective teamwork are crucial soft skills that enhance performance in this role. These competencies are essential for designing reliable, efficient, and responsive embedded solutions that meet stringent real-time requirements.

What are some typical challenges faced when developing software for embedded RTOS environments?

Developing software for embedded RTOS (Real-Time Operating System) environments often involves unique challenges such as managing limited memory and processing resources, ensuring deterministic real-time performance, and debugging in resource-constrained systems. Team members frequently collaborate closely with hardware engineers to optimize code for specific microcontrollers or processors. Additionally, balancing task prioritization and inter-task communication to avoid deadlocks or priority inversion is a common focus. These complexities make strong problem-solving skills and attention to detail particularly valuable in this role.

What is an Embedded RTOS?

An Embedded RTOS (Real-Time Operating System) is a specialized operating system designed to manage hardware resources and run applications with precise timing requirements in embedded systems. Unlike general-purpose operating systems, an RTOS ensures that tasks are executed predictably and meet strict deadlines, which is crucial in applications like automotive systems, medical devices, and industrial automation. Embedded RTOSs provide features like multitasking, task scheduling, and inter-task communication, all optimized for resource-constrained environments. They help developers create reliable, efficient, and responsive embedded applications.

What is the difference between Embedded Rtos vs Firmware Engineer?

AspectEmbedded RtosFirmware Engineer
CredentialsKnowledge of RTOS, embedded systems, C/C++Embedded systems, C/C++, hardware understanding
Work EnvironmentEmbedded systems development, real-time applicationsHardware interfacing, low-level programming
Industry UsageConsumer electronics, automotive, IoT devicesConsumer electronics, aerospace, medical devices

Embedded Rtos specialists focus on designing and implementing real-time operating systems for embedded devices, ensuring system responsiveness and multitasking. Firmware Engineers develop low-level software that directly interacts with hardware components, often working within embedded environments. While both roles require embedded systems knowledge, Embedded Rtos professionals specialize in real-time OS development, whereas Firmware Engineers focus on hardware-software integration and low-level programming.

What are popular job titles related to Embedded Rtos jobs in Dallas, TX? For Embedded Rtos jobs in Dallas, TX, the most frequently searched job titles are:
What job categories do people searching Embedded Rtos jobs in Dallas, TX look for? The top searched job categories for Embedded Rtos jobs in Dallas, TX are:
What cities near Dallas, TX are hiring for Embedded Rtos jobs? Cities near Dallas, TX with the most Embedded Rtos job openings:
Embedded Rtos jobs near you
Infographic showing various Embedded Rtos job openings in Dallas, TX as of May 2026, with employment types broken down into 4% Internship, 84% Full Time, 5% Part Time, 5% Contract, and 2% Nights. Highlights an 70% Physical, 3% Hybrid, and 27% Remote job distribution, with an average salary of $151,732 per year, or $72.9 per hour.
Staff Embedded & Control Systems Engineer

Staff Embedded & Control Systems Engineer

Stryker

Flower Mound, TX

$112.90K - $188.10K/yr

Full-time

Posted 29 days ago

Job description

Work Flexibility: Hybrid or OnsiteIt's Time to Join Stryker!

We are seeking a Staff Embedded & Control Systems Engineer to design and develop embedded software and control systems for medical devices. In this role, you will contribute to real-time embedded software and control algorithms for complex electromechanical systems, including sensors, actuators, motors, thermal systems, power systems, and multi-board electronics.

You will work across hardware, firmware, and system integration layers to help deliver safe, reliable, high-performance solutions in a regulated medical device environment.

What You Will Do
  • Design and develop embedded control systems for electromechanical medical devices.
  • Develop and implement real-time control algorithms, including PID control, feedback loops, and state machines.
  • Develop firmware for microcontrollers and embedded platforms using bare-metal or RTOS-based approaches.
  • Implement communication interfaces such as SPI, I2C, UART, RS232, and board-to-board/module-level communication.
  • Support hardware/software integration across multi-PCB architectures.
  • Perform debugging and root cause analysis across hardware, firmware, and system-level interactions.
  • Contribute to system-level design considerations, including signal flow, timing, control loops, power systems, fault handling, and safety protections.
  • Support verification and validation activities, including unit, integration, and system-level testing.
  • Create and maintain design documentation, including requirements, architecture, risk analysis, test protocols, and design history file deliverables.
  • Collaborate with cross-functional partners in R&D, Quality, Clinical, Marketing, Manufacturing, and Regulatory.
  • Translate user, clinical, and product needs into system and control requirements.
  • Support regulated software development activities in alignment with design controls, risk management, and applicable medical device standards.
  • Design, develop, modify, evaluate, and verify software components for medical devices.
  • Participate in code reviews using design principles, coding standards, and software best practices.

What You Need

  • Bachelor's degree in Electrical Engineering, Software Engineering, Computer Science, or related discipline required.
  • 4+ years of experience developing embedded software for electromechanical systems required.
  • Experience developing software in a regulated medical device environment, including hands-on experience with IEC 62304 required.

What We Would Love That You Have (Preferred Qualifications)

  • Strong experience with control systems, including PID control, system modeling, and tuning in real-world applications.
  • Demonstrated experience performing multi-domain debugging across hardware, firmware, and system-level interactions.
  • Experience working with power systems and safety considerations, including AC/DC systems, fault handling, and system-level protections.
  • Experience with C/C++ for embedded systems.
  • Experience with Python for testing, scripting, or automation.
  • Experience with bare-metal firmware development and/or RTOS-based development.
  • Experience with motor control, thermal regulation, sensor integration, actuator control, or power management.
  • Ability to read and interpret schematics and PCB designs.
  • Experience with ADCs, DACs, amplifiers, sensor interfaces, load cells, pressure sensors, or capacitive sensing.
  • Understanding of EMI/EMC considerations.
  • Experience using debugging tools such as oscilloscopes, logic analyzers, and JTAG/SWD debuggers.
  • Experience with Git, CI/CD pipelines, static/dynamic analysis tools, and requirements/traceability tools such as Jama.
  • Experience with unit testing, integration testing, code reviews, software architecture, and safety-critical design principles.
  • Experience with risk management practices, including ISO 14971.
  • Familiarity with electrical safety standards such as IEC 60601.
  • Ability to evaluate and balance engineering tradeoffs across performance, cost, and reliability.
  • Experience contributing to design control documentation, verification testing, regulatory submissions, or audit support.
  • Experience working on complex electromechanical medical devices.

$112,900 - $188,100 USD Annual

Travel Percentage: 10%Stryker Corporation is an equal opportunity employer. Qualified applicants will receive consideration for employment without regard to race, ethnicity, color, religion, sex, gender identity, sexual orientation, national origin, disability, or protected veteran status. Stryker is an EO employer - M/F/Veteran/Disability.Stryker Corporation will not discharge or in any other manner discriminate against employees or applicants because they have inquired about, discussed, or disclosed their own pay or the pay of another employee or applicant. However, employees who have access to the compensation information of other employees or applicants as a part of their essential job functions cannot disclose the pay of other employees or applicants to individuals who do not otherwise have access to compensation information, unless the disclosure is (a) in response to a formal complaint or charge, (b) in furtherance of an investigation, proceeding, hearing, or action, including an investigation conducted by the employer, or (c) consistent with the contractor's legal duty to furnish information.

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