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Rf Module Design Engineer Jobs in Indiana (NOW HIRING)

Support the design, development, integration, testing, and evaluation of RF and EW systems ... Provide engineering recommendations to improve test rigor, repeatability, efficiency, and mission ...

Support the design, development, integration, testing, and evaluation of RF and EW systems ... Provide engineering recommendations to improve test rigor, repeatability, efficiency, and mission ...

Senior FPGA Design Engineer

Wayne, IN · On-site

$109K - $150K/yr

The MPD department is seeking a Senior FPGA Design Engineer to join our team. In this role, you ... Radio Frequency (RF) DSP, controls, data links, embedded processing and processor interfaces.

Senior FPGA Design Engineer

Fort Wayne, IN

$121K - $167K/yr

The MPD department is seeking a Senior FPGA Design Engineer to join our team. In this role, you ... Radio Frequency (RF) DSP, controls, data links, embedded processing and processor interfaces.

Collaborate with cross-functional teams including RF, mechanical, software, and manufacturing ... Document test results, design changes, and engineering reports. * Participate in design reviews and ...

Collaborate with cross-functional teams including RF, mechanical, software, and manufacturing ... Document test results, design changes, and engineering reports. * Participate in design reviews and ...

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Rf Module Design Engineer information

What does an RF Module Design Engineer do?

An RF Module Design Engineer specializes in designing, developing, and testing radio frequency (RF) modules used in a variety of wireless communication devices. They are responsible for creating circuit layouts, selecting components, and ensuring the modules meet performance, reliability, and regulatory standards. Their work often involves simulation, prototyping, and troubleshooting to optimize signal integrity and minimize interference. RF Module Design Engineers collaborate closely with hardware, software, and testing teams to integrate their modules into larger systems. This role is essential in industries such as telecommunications, aerospace, and consumer electronics.

What is the difference between Rf Module Design Engineer vs RF System Engineer?

AspectRf Module Design EngineerRF System Engineer
CredentialsBachelor's or Master's in Electrical Engineering, RF certificationsBachelor's or Master's in Electrical or RF Engineering, RF certifications
Work EnvironmentDesign labs, R&D departments, manufacturing facilitiesSystem integration labs, testing environments, R&D teams
Industry UsageWireless device manufacturing, telecom, consumer electronicsWireless networks, telecom infrastructure, system-level design

Both roles require strong RF engineering knowledge and similar educational backgrounds. The Rf Module Design Engineer focuses on designing and developing RF modules, while the RF System Engineer works on integrating RF components into complete systems. Understanding these differences helps in choosing the right career path or job search focus.

What are the key skills and qualifications needed to thrive as an RF Module Design Engineer, and why are they important?

To thrive as an RF Module Design Engineer, you need strong expertise in RF circuit design, electromagnetic theory, and a relevant engineering degree, such as electrical or electronics engineering. Familiarity with tools like ADS, HFSS, and network analyzers, plus knowledge of industry standards and certifications such as IPC, is highly valued. Attention to detail, problem-solving abilities, and effective communication are crucial soft skills for collaborating with cross-functional teams and troubleshooting complex issues. These competencies ensure the development of high-performance, reliable RF modules that meet stringent industry requirements.

What are some common challenges faced by RF Module Design Engineers during the product development cycle?

RF Module Design Engineers often encounter challenges such as minimizing interference and signal loss, ensuring compliance with international wireless standards, and integrating modules into compact device enclosures without sacrificing performance. Balancing trade-offs between power consumption, cost, and performance is also a frequent consideration. Collaboration with cross-functional teams, such as PCB layout engineers and system architects, is essential to address these challenges and deliver robust, manufacturable designs.
What job categories do people searching Rf Module Design Engineer jobs in Indiana look for? The top searched job categories for Rf Module Design Engineer jobs in Indiana are:
What cities in Indiana are hiring for Rf Module Design Engineer jobs? Cities in Indiana with the most Rf Module Design Engineer job openings:
RF / Electrical Systems Engineer - Test Range Infrastructure

RF / Electrical Systems Engineer - Test Range Infrastructure

Precise Systems

Crane, IN

Full-time

Posted 26 days ago


Job description

Precise Systems delivers integrated, mission-ready solutions that advance warfighter readiness and strengthen our nation’s most critical defense programs. Through the power of our combined capabilities, we provide deep expertise in Advanced Engineering; Digital Transformation; Electromagnetic Warfare; Interactive Training & Simulation; Physical Sciences Research; Platform Lifecycle Support; and Foreign Military Sales. Unified by decades of trusted performance and expanded through strategic growth, our team applies innovative technologies, engineering rigor, and customer-focused execution to solve complex challenges and accelerate mission success. Guided by our commitment to partnership, precision, and performance, we deliver the scalable solutions and technical excellence our customers depend on—today and into the future.

We are seeking a RF / Electrical Systems Engineer – Test Range Infrastructure to support our customer in Crane, Indiana. This position provides RF and electrical engineering support to NSWC Crane’s RF Experimentation & Demonstration Branch (MXQT), with emphasis on signal communications management, stable power distribution, and test range electrical/telecommunications infrastructure supporting Counter-Improvised Explosive Device (CIED) and Counter-Unmanned Systems (CUxS) testing. The work is primarily office- and lab-based, with periodic field support for test events.

This role requires in-person support. 

Duties:

  • Provide RF and electrical engineering support for signal communications management and power distribution in support of MXQT test and evaluation activities.
  • Design, analyze, evaluate, and optimize electrical and electronic test range infrastructure, including wired and wireless communications systems.
  • Manage and support fiber-to-cellular wireless tower architecture and associated telecommunications infrastructure.
  • Manage and evaluate test range power distribution systems and support improvements to reliability, safety, and operational performance.
  • Perform power system studies and engineering evaluations, including steady state, short circuit, dynamic stability, transient, harmonic, flicker, switching overvoltage, lightning, energization, and related analyses.
  • Apply technical knowledge of electronics principles to troubleshoot and resolve complex electrical and RF-related issues.
  • Conduct electrical and RF measurements on systems and components using specialized diagnostic and test equipment.
  • Support testing and evaluation of CIED and CUxS threat devices and associated processes.
  • Evaluate equipment design, assess system performance, and provide recommendations for technical improvement.
  • Test, evaluate, troubleshoot, repair, and support fiber optic and copper cable systems used in lab and range environments.
  • Support fielded power and communication cabling through design, evaluation, maintenance, management, and repair on test ranges.
  • Prepare support-equipment reports and related engineering documentation supporting system readiness and customer decision-making.
  • May perform quality assurance testing of assemblies and equipment fabricated by technicians.
  • Support work in both laboratory and outdoor field environments, including testing in variable weather and operational conditions.

Desired Education:

  • Bachelor of Science in Electrical Engineering or related technical discipline.

Desired Experience:

  • 3+ years of related professional experience in electrical engineering, RF systems, telecommunications, or test infrastructure support.
  • Working knowledge of power and energy distribution, wireless telecommunications, and RF signal design/processing.
  • Strong understanding of electrical theory, including high and low voltage, power, current, and resistance.
  • Proficiency with RF circuit schematics and RF design, including RF power, attenuation, filters, diplexers, antennas, and loads.
  • Understanding of RF transmission concepts, including scattering parameters and RF power-flow behavior.
  • Understanding of antenna theory and design, including physical geometry, material properties, and feed network impacts on coverage and efficiency.
  • Experience conducting RF measurements, including RF power, frequency, occupied bandwidth, and modulation assessment.
  • Familiarity with RF communication standards, modulation schemes, and communication protocols.
  • Practical knowledge of wireless digital signal behavior, system tradeoffs, and environmental effects on performance.
  • Familiarity with 3G, 4G, and 5G cellular technologies.
  • Strong written and verbal communication skills, especially in explaining technical matters clearly.

Preferred Qualifications:

  • Professional Engineer (PE) or Fundamentals of Engineering (FE) credentials.
  • Fiber optic certifications such as CFOT, CFOS/T, CFOS/D, CFOT S/O, CFOS/FC, or CFOS/W.
  • OSHA 10/30 training or related hazard management experience.
  • Experience supporting test ranges, RF labs, field instrumentation, or military telecommunications infrastructure.
  • Experience with CIED, CUxS, EW systems, or threat-device test environments.
  • Ability to support occasional field events, limited travel, and non-standard shifts as mission needs require.

Work Environment:

  • Primarily on site with a mix of office and laboratory work, plus field support during test events.
  • Expected work split is approximately 80% on site / 20% in field support.
  • May require occasional travel and support during 2nd or 3rd shift hours.

Must be able to obtain and maintain a Secret security clearance. Due to the sensitivity of customer related requirements, U.S. Citizenship is required.

Precise Systems is dedicated to a shared vision and core values of Integrity, Respect, and Responsibility, which foster innovation and drive our continued success in the global marketplace. Precise Systems and its subsidiaries are Equal Opportunity /Affirmative Action Employers. All qualified applicants will receive consideration for employment without regard to race, color, religion, age, sex, sexual orientation, gender identity, national origin, protected veteran status, status as an individual with a disability, or any legally protected status under federal, state, or local law. Visit www.GoPrecise.com for a listing of current openings and our comprehensive, employee friendly benefits summary.  Precise Systems participates in E-Verify.


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