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Wireless System Engineer Jobs in Michigan (NOW HIRING)

Work with end-to-end vehicle infotainment system architectures, mobile and wireless systems, systems engineering, software engineering, and software design. * Contribute to the design and release of ...

System Engineering Intern

Rochester Hills, MI · On-site

$15.50 - $20/hr

System Engineering Intern We are currently in search of a System Engineering Intern to join our ... Basic understanding of wireless technologies such as BLE and UWB * Familiarity with automotive ...

System Engineering Intern

Rochester Hills, MI · On-site

$15.50 - $20/hr

Basic understanding of wireless technologies such as BLE and UWB * Familiarity with automotive ... Automotive systems engineering processes * Vehicle and bench-level integration and testing * Root ...

Monitor system and network performance, troubleshoot technical issues, and help maintain reliable ... wireless networks, and cabling.Ability to configure, maintain, and support physical and virtual ...

... IT security systems. We're now hiring a Level 3 IT Engineer to help us keep growing ... Networking (Advance understanding of switches, firewalls, VPN clients, wireless networking)

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Wireless System Engineer information

See Michigan salary details

$46.6K

$110.9K

$145.6K

How much do wireless system engineer jobs pay per year?

As of Jul 9, 2026, the average yearly pay for wireless system engineer in Michigan is $110,880.00, according to ZipRecruiter salary data. Most workers in this role earn between $85,400.00 and $136,800.00 per year, depending on experience, location, and employer.

What is the difference between Wireless System Engineer vs Wireless Network Engineer?

AspectWireless System EngineerWireless Network Engineer
CertificationsCCNA Wireless, CWNA, CWNPCCNA Wireless, CWNA, CWNP
Work EnvironmentDesigning, implementing, and optimizing wireless systems and infrastructureConfiguring, troubleshooting, and maintaining wireless networks
Industry UsageTelecommunications, enterprise networks, service providersCorporate IT, service providers, network solutions

Wireless System Engineers focus on designing and deploying wireless systems, while Wireless Network Engineers primarily handle the configuration and maintenance of wireless networks. Both roles require similar certifications and often work in overlapping environments, but their core responsibilities differ in scope and focus.

What are the key skills and qualifications needed to thrive as a Wireless System Engineer, and why are they important?

To thrive as a Wireless System Engineer, you need a strong background in electrical engineering, RF fundamentals, wireless communication protocols, and typically a relevant bachelor's or master's degree. Familiarity with simulation tools like MATLAB, spectrum analyzers, network analyzers, and certifications such as CWNA or CCNA Wireless are common requirements. Exceptional problem-solving, teamwork, and effective communication skills distinguish top performers in this field. These skills and qualifications are vital to design, optimize, and maintain reliable wireless networks that meet organizational and industry standards.

What are some typical projects or tasks a Wireless System Engineer might work on during a week?

A Wireless System Engineer typically spends their week designing, testing, and optimizing wireless communication systems such as Wi-Fi, LTE, or 5G. Common tasks include performing simulations, analyzing system performance, troubleshooting connectivity issues, and collaborating with hardware and software teams to integrate new features. The role often involves using specialized tools to conduct RF measurements and ensure compliance with industry standards. Working closely with cross-functional teams is key to successfully deploying and maintaining wireless networks.

What does a Wireless System Engineer do?

A Wireless System Engineer designs, develops, and maintains wireless communication systems such as cellular networks, Wi-Fi, and satellite communications. They work on optimizing network performance, ensuring efficient data transmission, and resolving connectivity issues. Their responsibilities often include network planning, troubleshooting, and integrating new wireless technologies to meet organizational needs. Wireless System Engineers collaborate with other engineers and technical staff to deliver reliable and high-performance wireless solutions.
What are popular job titles related to Wireless System Engineer jobs in Michigan? For Wireless System Engineer jobs in Michigan, the most frequently searched job titles are:
What job categories do people searching Wireless System Engineer jobs in Michigan look for? The top searched job categories for Wireless System Engineer jobs in Michigan are:
Radio Frequency System Engineer

Radio Frequency System Engineer

Rydberg Technologies

Ann Arbor, MI • On-site

Other

Posted 17 days ago


Job description

Rydberg Technologies is seeking a dynamic Senior Radio Frequency (RF) Systems Engineer to lead the design, development, and deployment of next-generation RF systems at the intersection of advanced electromagnetics, software-defined architectures, and quantum sensing. This is a hands-on, high-ownership technical leadership role responsible for building novel antenna and front-end architectures, advanced signal processing pipelines, and direction-finding capabilities that push the limits of state-of-the-art RF engineering.
You will work closely with a cross-functional team of quantum physicists, hardware engineers, and software developers to architect and deliver integrated RF–quantum sensor systems, translating cutting-edge research into engineered products. The ideal candidate is innovative, execution-driven, comfortable with both system-level planning and meticulous technical detail, and thrives in a fast-paced environment where first-of-a-kind technology is built.
We are looking for individuals who are solution-oriented, deeply organized, self-motivated, and capable of working both independently and collaboratively while contributing to a bold roadmap in quantum-enabled RF sensing.
Key Responsibilities:Design, develop, and implement novel antenna front-ends hardware and RF electronics.Software-defined radio (SDR) solutions for advanced RF applications, leveraging GPU acceleration and RF machine learning techniques.Collaborate with physicists and hardware engineers to design and optimize antenna and electronic systems for various RF applications.Define and validate specifications of RF systems, antenna receivers, to ensure optimal performance.Design and implement RF electronics for RF systems, such as frequency synthesizers, power amplifiers, and RF switches, to meet system requirements.Conduct RF test and measurement activities, including RF characterization, performance testing, and validation, using RF test equipment.Research, analyze, and evaluate RF waveforms to develop algorithms and models for signal identification, classification, and direction finding.Integrate RF systems with quantum sensors to explore new sensing capabilities and applications.Provide technical expertise and guidance to junior engineers and support staff.Stay current with industry trends, emerging technologies, and best practices in RF engineering, signal processing, hardware design, electronic warfare.
Other Skills:Engineering Design: Experience in sophisticated engineering design (SolidWorks) and electromagnetic simulation (ANSYS Electronics).Antenna Design and Simulation: Expert in advanced antenna and front-end design from RF to MMW, passive and active RF receivers, radar, communication systems.Digital Signal Processing (DSP): Proficiency in DSP algorithms and techniques for filtering, modulation, demodulation, and signal enhancement in RF systems.FPGA Programming: Knowledge of FPGA programming languages such as Verilog or VHDL for implementing digital signal processing algorithms and RF signal processing tasks.RF Circuit Design: Ability to design and optimize RF circuits, including RF filters, amplifiers, mixers, and frequency synthesizers, using RF simulation tools (e.g., ADS, Microwave Office).Wireless Communication Protocols: Understanding of wireless communication protocols such as Wi-Fi, Bluetooth, LTE, and emerging technologies.System Integration: Experience in integrating RF systems with other subsystems, such as digital communication systems, GPS receivers, inertial sensors, and navigation systems.Cybersecurity: Understanding of cybersecurity principles and best practices for securing RF communication systems against cyber threats and vulnerabilities.Systems Engineering: Knowledge of systems engineering principles and methodologies for requirements analysis, system architecture design, and system-level integration and testing.Project Management: Experience in project management methodologies and tools for planning, scheduling, and executing RF system development projects.Regulatory Compliance: Understanding of RF regulatory standards and compliance requirements, such as FCC regulations, IEEE, EMC/EMI. Documentation and Reporting: Ability to create technical documentation, including design specifications, test plans, and reports, to communicate project progress and findings effectively.Cross-Disciplinary Collaboration: Strong collaboration and communication skills to work effectively with cross-functional teams, including hardware engineers, software developers, test engineers, and project managers.
Qualifications:Bachelor's degree in Engineering, Applied Physics, Electrical Engineering, Computer Engineering, or related field; Master's and PhD degrees preferred.Minimum of 7 years of experience in advanced RF systems engineering or related field.Strong background in hardware and software development and implementation.Experience in hardware engineering, including design and optimization of antenna systems, front-end electronics, and RF electronics.Proficiency in programming languages such as C/C++, Python.Experience with GPU programming and acceleration techniques (e.g., CUDA).Familiarity with RF signal processing, waveform analysis, spectrum monitoring, and direction finding methods.Experience with RF test and measurement equipment and techniques.Familiarity with quantum sensing technologies and integration with RF systems.Superior analytical, problem-solving, and communication skills.Ability to work effectively in a fast-paced, collaborative team environment.US citizens or green card holders may be given priority due to export controls.