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Distributed Antenna System Jobs in Virginia (NOW HIRING)

... distribution for improved performance or developing innovative solutions for integrating sensitive payloads within tight space constraints. * Experience in designing and installing antenna systems ...

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Distributed Antenna System information

See Virginia salary details

$40.6K

$88.2K

$136.3K

How much do distributed antenna system jobs pay per year?

As of Jul 16, 2026, the average yearly pay for distributed antenna system in Virginia is $88,164.00, according to ZipRecruiter salary data. Most workers in this role earn between $69,400.00 and $103,100.00 per year, depending on experience, location, and employer.

What are the typical daily responsibilities of a Distributed Antenna System (DAS) Engineer?

A DAS Engineer's daily responsibilities often include designing and optimizing in-building wireless networks, conducting site surveys, and using specialized tools to model signal coverage. They frequently collaborate with construction teams, project managers, and clients to ensure system requirements are met and installations follow regulations. Routine tasks may also involve troubleshooting system issues, preparing project documentation, and maintaining ongoing system performance. This hands-on and collaborative work environment helps ensure seamless wireless connectivity in venues like hospitals, stadiums, and commercial buildings.

What is a Distributed Antenna System job?

A Distributed Antenna System (DAS) job involves designing, installing, and maintaining networks of antennas that enhance wireless coverage in buildings, stadiums, and other areas with poor signal reception. Professionals in this field work with RF engineering, signal testing, and infrastructure deployment to ensure reliable cellular and public safety communications. Responsibilities may include site surveys, system integration, troubleshooting, and compliance with industry standards.

What are the key skills and qualifications needed to thrive in the Distributed Antenna System position, and why are they important?

To thrive as a Distributed Antenna System (DAS) Engineer, you need a strong background in RF engineering, wireless communications, and network design, typically supported by a degree in electrical engineering or a related field. Proficiency with DAS design software (such as iBwave), RF testing equipment, and relevant certifications like iBwave Level 1/2 or manufacturer-specific training are highly valued. Excellent problem-solving skills, project management abilities, and clear communication are important soft skills in this role. These skills ensure the reliable design, installation, and maintenance of DAS networks, which are critical for robust wireless connectivity in complex environments.

What are the most commonly searched types of Distributed Antenna System jobs in Virginia? The most popular types of Distributed Antenna System jobs in Virginia are:
What are popular job titles related to Distributed Antenna System jobs in Virginia? For Distributed Antenna System jobs in Virginia, the most frequently searched job titles are:
What job categories do people searching Distributed Antenna System jobs in Virginia look for? The top searched job categories for Distributed Antenna System jobs in Virginia are:
What cities in Virginia are hiring for Distributed Antenna System jobs? Cities in Virginia with the most Distributed Antenna System job openings:
Infographic showing various Distributed Antenna System job openings in Virginia as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $88,164 per year, or $42.4 per hour.

RF Design Engineer (FPGA)

Quartermaster AI Inc

Arlington, VA โ€ข On-site

$190K - $240K/yr

Full-time

Posted 15 days ago


Job description

About Us:
At Quartermaster AI, we believe the ocean should be a safe and sustainably managed resource for all. By leveraging cutting-edge AI, distributed sensing, and resilient data systems, we unlock capabilities that were only recently impossible. Our distributed open-ocean systems enable vessels and coastal infrastructure to sense, compute, and communicate, enhancing maritime domain awareness for those who need it most.
Job Description:
We are seeking an RF specialist Electrical Engineer to design and develop a custom Software Defined Radio (SDR) based subsystem for the Smartmast platform, our edge-deployed maritime sensing system. You will lead the electrical design of our SDR hardware stack, including schematic development, RF layout, PCB fabrication, integration with compute hardware, COTS part selection, and field validation. This is a hands-on, cross-disciplinary role requiring deep understanding of RF signal chains, mixed-signal design, EMI mitigation, and high-speed digital interfaces.
Key Responsibilities:
  • Design and thoroughly document the electrical architecture for our SDR-based modules, including custom or COTS SDRs, RF front-end, clocking, ADC/DAC interfaces, and host connectivity.
  • Develop schematics and high-frequency PCB layouts optimized for signal integrity, low noise, and compact form factor in marine environments.
  • Coordinate with software engineers to validate digital interfaces and ensure clean RF signal paths from antenna to baseband.
  • Perform benchtop validation using spectrum analyzers, VNAs, and signal generators to benchmark performance and tune system characteristics
  • Support antenna integration, placement, and impedance matching in close collaboration with mechanical and system engineers
  • Assist with integration into the larger Smartmast system, including coordination with power, networking, and compute subsystems
Qualifications (Preferred):
  • Bachelor's or Master's degree in Electrical Engineering, RF Engineering, or related field
    6+ years of experience in RF hardware design, with at least one full SDR or RF subsystem taken from concept to deployment
  • Strong experience with schematic capture and RF-aware PCB layout using tools such as Orcad or Allegro
  • Familiarity with ADCs/DACs, digital interfaces (PCIe, SPI, LVDS), and high-speed layout constraints
  • Hands-on experience with RF lab instrumentation (spectrum analyzers, network analyzers, signal generators, oscilloscopes)
  • Bonus: experience with marine communication bands, direction-finding, or defense-related RF systems.
Work Environment:
  • This is a remote position with collaboration via online tools.
  • Flexible working hours with occasional deadlines requiring high availability.
  • Opportunity to work on innovative projects with a global impact.
Benefits:
  • Competitive salary
  • Flexible work hours and the option for remote work.
  • Opportunities for professional development and continued education.