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Embedded Rtos Jobs in Kentucky (NOW HIRING)

Embedded Rtos information

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 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 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.

Infographic showing various Embedded Rtos job openings in Kentucky as of July 2026, with employment types broken down into 1% Internship, 87% Full Time, 9% Part Time, and 3% Contract. Highlights an 85% Physical, 4% Hybrid, and 11% Remote job distribution.

Senior Electrical Engineer

Sargent & Greenleaf Inc

Nicholasville, KY • On-site

$95K - $123K/yr

Other

Posted 6 hours ago


Job description

Description

 Job Summary:   Our company is searching for an experienced Senior Electrical (Embedded Systems) Engineer to join our  team. This role is pivotal in designing, developing, and supporting high-security electronic lock systems- including new products, enhancements to existing solutions, and integrations with third party devices, and integrations with mobile and cloud platforms. The position offers a dynamic, fast-paced environment where you will manage multiple projects, demonstrating high levels of responsibility and ownership.   

Responsibilities: 

  Design and develop embedded systems for electro-mechanical high-security locks, including software, firmware, hardware integration, and testing for performance/reliability.  

  Develop and maintain documentation, including schematics, PCB layouts, firmware code, software, mobile applications, specifications, user manuals, and certification records. 

  Develop and integrate electronic systems with mobile applications (iOS and Android) and cloud platforms for remote access, data syncing, and other security features in lock products.  

  Support production operations by collaborating with manufacturing, quality, and supply chain for process optimization, troubleshooting, and enhancements.   

Provide field service support and resolution of issues for deployed locks.   

Manage compliance and testing efforts, ensuring adherence to standards like UL/CE/ANSI, security threat mitigation, and competitive analysis.  

   Collaborate with other engineering team members, and cross-functional teams to integrate electro-mechanical designs, lead projects, and resolve interdisciplinary challenges.  

Conduct debugging, performance analysis, feasibility studies, risk assessments, and continuous improvements for current systems and products in development. 

  Lead small team efforts, manage timelines/budgets, mentor juniors, and coordinate with suppliers in a fast-paced manufacturing environment.   

Conduct competitive analyses and monitor industry trends concerning High Security Lock Products

Requirements

 Demonstrated expertise in ground-up development of embedded electronics and supporting components.  

Proficiency in C, C++, Java, C#, .NET, Python, and embedded programming tools for firmware development, PCB design, and schematics.  

Expertise in electro-mechanical principles, including microcontrollers, sensors, actuators, RTOS, FPGA, and hardware-software integration. 

  Knowledge of product lifecycle, quality systems (Lean, Six Sigma, FMEA), cloud/API integrations, and mobile app connectivity. 

  Development, deployment, and support of mobile applications, including iOS/Android platforms, APIs, and other integration with embedded lock systems.  

Strong problem-solving, analytical, and debugging skills for circuits, systems, and security vulnerabilities using tools like simulation software. 

  Excellent verbal/written communication and interpersonal skills for customer/regulatory interactions, documentation, and team collaboration.  

Leadership in project management, planning, prioritizing, decision-making, and mentoring within small engineering teams. 

  Creativity and innovation for optimizing algorithms, self-learning new technologies, and improving system efficiency/reliability. 

  Understanding of safety/regulatory compliance, embedded security standards, and test equipment like oscilloscopes or analyzers.  

Ability to respond effectively to inquiries or complaints from customers, regulatory agencies, or members of the business community. 

 Bachelor's degree in electrical engineering is required   

Minimum 10 years of relevant experience in a world class manufacturing environment.