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Entry Level Embedded Software Jobs in Rochester Hills, MI

AJM Packaging

Office Assistant

Bloomfield Hills, MI

$16 - $21/hr

This is an entry-level position responsible for assisting in a variety of administrative tasks ... Working knowledge of a personal computer and various software applications is beneficial. * Should ...

AJM Packaging Corporation

Office Assistant

Bloomfield, MI · On-site

$16 - $21/hr

This is an entry-level position responsible for assisting in a variety of administrative tasks ... Working knowledge of a personal computer and various software applications is beneficial. * Should ...

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Entry Level Embedded Software information

See Rochester Hills, MI salary details

$64.4K

$141.2K

$160.2K

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

As of May 28, 2026, the average yearly pay for entry level embedded software in Rochester Hills, MI is $141,182.00, according to ZipRecruiter salary data. Most workers in this role earn between $121,000.00 and $159,200.00 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, and why are they important?

To thrive as an Entry Level Embedded Software Engineer, you need a solid background in C/C++ programming, basic knowledge of embedded systems, and a relevant degree such as electrical engineering, computer science, or a related field. Familiarity with microcontrollers, real-time operating systems (RTOS), debugging tools, and version control systems like Git is typically required. Strong problem-solving skills, attention to detail, and effective teamwork and communication abilities help you excel in this role. These skills are essential to developing reliable software, collaborating with hardware teams, and meeting project requirements in embedded system environments.

What are some typical challenges faced by entry-level embedded software engineers, and how can they overcome them?

Entry-level embedded software engineers often encounter challenges such as debugging hardware-software interactions, understanding real-time constraints, and adapting to unfamiliar development environments. New engineers can overcome these hurdles by actively seeking mentorship from senior team members, practicing with debugging tools, and studying relevant hardware documentation. Regular collaboration with hardware engineers and participation in code reviews can also help build confidence and technical competence, while ensuring smoother integration and project delivery.

What are entry level embedded software engineers?

Entry level embedded software engineers are professionals who design, develop, and test software that runs on specialized hardware devices, such as microcontrollers or embedded systems, often at the start of their careers. They typically work with programming languages like C or C++ and collaborate closely with hardware engineers to ensure software and hardware integration. These roles often involve tasks such as writing code for device drivers, debugging software, and performing basic testing, all under the guidance of more experienced engineers. Entry level positions are ideal for recent graduates or those new to embedded systems, providing foundational experience in this field.

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

AspectEntry Level Embedded SoftwareEntry Level Firmware Engineer
Required CredentialsBachelor's in Computer Engineering, Electrical Engineering, or related fieldBachelor's in Electrical Engineering, Computer Engineering, or related field
Work EnvironmentEmbedded systems development, hardware integration, real-time OSFirmware development, microcontroller programming, hardware interfacing
Industry UsageConsumer electronics, automotive, medical devicesConsumer electronics, IoT devices, industrial equipment
Common Search/ComparisonYesYes

Entry Level Embedded Software and Entry Level Firmware Engineer roles often overlap in skills and industry usage. Both require knowledge of microcontrollers, programming languages like C, and understanding of hardware-software integration. The main difference lies in terminology: embedded software focuses broadly on software running on embedded systems, while firmware engineering emphasizes low-level programming directly on hardware. Both roles are essential in developing embedded products across various industries.

What are the most commonly searched types of Embedded Software jobs in Rochester Hills, MI? The most popular types of Embedded Software jobs in Rochester Hills, MI are:
What are popular job titles related to Entry Level Embedded Software jobs in Rochester Hills, MI? For Entry Level Embedded Software jobs in Rochester Hills, MI, the most frequently searched job titles are:
What job categories do people searching Entry Level Embedded Software jobs in Rochester Hills, MI look for? The top searched job categories for Entry Level Embedded Software jobs in Rochester Hills, MI are:
What cities near Rochester Hills, MI are hiring for Entry Level Embedded Software jobs? Cities near Rochester Hills, MI with the most Entry Level Embedded Software job openings:
Entry Level Embedded Software jobs near you
Electronics Resident Engineer

Electronics Resident Engineer

ALTEN Technology USA

Troy, MI • On-site

Other

This job post has expired today. Applications are no longer accepted.

Job description

Job Description:

  • As a Electronics Resident Engineer, you will provide critical on-site hardware and electronics support at General Motors Tech Centers and Assembly Plants, particularly during launch phases.
  • You will act as the vital supporting link between the Client Team and the GM Team to help design, develop, and successfully launch products.
  • In this role, you will apply hands-on electronics expertise to test, diagnose, and validate automotive embedded systems while delivering high-quality service and representing the company at the customer site.

Requirements / Hardware & Electronics Engineering Contributions:

  • Schematics & Circuitry: Read, interpret, and analyze complex electrical schematics to understand electronics design basics and trace circuits for diagnostic purposes.
  • Lab Equipment Utilization: Operate standard electronics laboratory equipment, heavily utilizing Oscilloscopes, Multimeters, and Logic Analyzers to capture waveforms, verify signal integrity, and take precise electrical measurements during issue replication.
  • PCBA Testing & Programming: Utilize JTAG debuggers to interface directly with microcontrollers for testing, debugging, and programming Printed Circuit Board Assemblies (PCBAs) at the bench level.
  • Hardware Prototyping & Rework: Apply practical, hands-on experience to solder and rework Surface Mount Technology (SMT) components on automotive circuit boards.
  • Embedded System Validation: Execute system validation tasks by developing a clear understanding of system bench setups and translating vehicle test cases against hardware system requirements.
  • In-Vehicle & Bench Troubleshooting: Troubleshoot hardware and communication issues directly on the customer's test bench and in-vehicle. This includes actively reflashing Automotive Embedded Electronic Control Units (ECUs) with updated software or calibration files as needed.
  • Root Cause Analysis: Serve as an active participant in technical problem-solving utilizing methodologies like QRQC (Quick Response Quality Control) to identify hardware failures at the component or system level.

Resident Engineering & Project Support:

  • Release assigned electronics parts into the General Motor using their specific ECM process.
  • Order parts to support build events and ensure the timely closure of all hardware-related ECRs and work orders.
  • Co-facilitate subsystem/component Product Development Team (PDT) meetings, speaking clearly with facts and data regarding hardware performance.
  • Track and maintain the delivery matrix of Bench parts, Mule Build Parts, Software, and Calibration files.
  • Support the vehicle build process and sign-off activities for all prototypes and manufacturing builds (Virtual, Mule, Structural, Integration, Pre-Production, and Production).

Education & Experience:

  • Bachelor's Degree in Electronics, Electrical or Computer Science.
  • Entry-level experience, with an automotive internship, system validation experience, or customer service experience strongly preferred.
  • Previous experience working with an automotive company is a plus.

Hardware & Electronics Skillset:

  • Embedded Systems: Hands-on experience or strong academic familiarity with automotive embedded ECUs and PCBA architecture.
  • Automotive Networks: Solid understanding of vehicle network architectures, specifically CAN Bus Serial communications and Automotive Ethernet communication protocols.
  • Hardware Tools: Proven ability to use JTAG debuggers, oscilloscopes, multimeters, and logic analyzers.
  • General Tech Skills: Proficiency in the Microsoft Office suite (Word, Excel, PowerPoint). Programming knowledge in Google Scripts and VBA is considered a strong plus for data automation.

Key Competences:

  • Customer-Centric: Focus on the customer, act as a self-starter, and represent the company technically with superior customer service.
  • Continuous Learner: Eagerness to build deep system and product hardware knowledge while maintaining an agile behavior.
  • Analytical: Strong problem-solving skills with the ability to convey complex hardware technical information effectively to both engineering and management teams.

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