2

Remote Rf Design Engineer Jobs in Ashburn, VA (NOW HIRING)

... remote sensing, you have a clear grasp of mission design trades, RF spectrum considerations, and ... Bachelor's degree in relevant Engineering (e.g. Aerospace, Mechanical, Electrical, Systems ...

... remote sensing, you have a clear grasp of mission design trades, RF spectrum considerations, and ... Bachelor's degree in relevant Engineering (e.g. Aerospace, Mechanical, Electrical, Systems ...

About Parsons Parsons is a leading provider of engineering, design, and program management services ... Ability to work collaboratively in a multi-disciplinary team and coordinate with remote team ...

... Engineer with 6-8 years of experience to join our AI applications team. This is a fully remote ... Collaborative Design & Implementation : You will collaboratively design, implement, and test AI ...

next page

Showing results 1-20

Remote Rf Design Engineer information

See Ashburn, VA salary details

$37.8K

$120.3K

$187.1K

How much do remote rf design engineer jobs pay per year?

As of Jul 9, 2026, the average yearly pay for remote rf design engineer in Ashburn, VA is $120,340.00, according to ZipRecruiter salary data. Most workers in this role earn between $99,700.00 and $142,100.00 per year, depending on experience, location, and employer.

What is a Remote RF Design Engineer?

A Remote RF Design Engineer is a professional who specializes in designing and optimizing radio frequency (RF) systems and components, such as antennas, transmitters, and receivers, while working remotely from a location outside of a traditional office or lab. These engineers use specialized software and tools to model, simulate, and test RF circuits and systems for applications like wireless communications, broadcasting, and radar. Their responsibilities often include collaborating with multidisciplinary teams, troubleshooting RF issues, and ensuring compliance with industry standards—all while leveraging online communication platforms.

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

To excel as a Remote RF Design Engineer, you need a strong background in electrical engineering, RF circuit theory, and practical experience in wireless communication systems, often supported by a relevant degree. Familiarity with design tools such as HFSS, ADS, CST, and experience with simulation and measurement equipment are typically required. Strong problem-solving abilities, attention to detail, and effective communication skills are crucial for collaborating remotely and addressing complex design challenges. These skills ensure the development of reliable, high-performance RF solutions and facilitate effective teamwork in distributed engineering environments.

What is the difference between Remote Rf Design Engineer vs Remote Wireless Systems Engineer?

AspectRemote Rf Design EngineerRemote Wireless Systems Engineer
CredentialsBachelor's in Electrical Engineering, RF certificationsBachelor's in Electrical/Communications Engineering, RF certifications
Work EnvironmentDesign labs, remote collaboration, project-basedSystem integration, network testing, remote teams
Industry UsageTelecom, wireless device manufacturingWireless network providers, telecom infrastructure

The Remote Rf Design Engineer primarily focuses on designing RF components and circuits, while the Remote Wireless Systems Engineer works on integrating and optimizing entire wireless systems. Both roles require RF knowledge and often overlap in industry applications, but their core responsibilities differ in scope and focus.

What are some common challenges faced by Remote RF Design Engineers, and how can they be addressed?

Remote RF Design Engineers often encounter challenges such as limited access to on-site testing facilities, reliance on virtual collaboration tools, and managing communication across distributed teams. To address these, it's important to establish clear communication protocols, leverage simulation software for remote testing, and schedule regular check-ins with other engineering team members. Additionally, proactively sharing design updates and documentation helps ensure alignment and smooth project progression.
What are the most commonly searched types of Rf Design Engineer jobs in Ashburn, VA? The most popular types of Rf Design Engineer jobs in Ashburn, VA are:
What are popular job titles related to Remote Rf Design Engineer jobs in Ashburn, VA? For Remote Rf Design Engineer jobs in Ashburn, VA, the most frequently searched job titles are:
What cities near Ashburn, VA are hiring for Remote Rf Design Engineer jobs? Cities near Ashburn, VA with the most Remote Rf Design Engineer job openings:
Radio Frequency Software Engineer Principal - 1660

Radio Frequency Software Engineer Principal - 1660

Global InfoTek, Inc.

Reston, VA • On-site, Remote

$100K - $240K/yr

Full-time

Posted 8 days ago


Job description

Clearance Level: Public Trust (Secret Eligible)
US Citizenship: Required
Job Classification: 1099/Consultant ($150 - $200 per hour)
Location: Remote
Years of Experience: 10+ years of relevant experience
Education Level: BS Degree - experience may be considered in place of education requirement.
Briefly Describe the Work:
GITI is seeking a Principal Software Engineer to support Cyber Operations Research and Development as the technical lead for production software development on a passive RF emitter identification and network analysis from real-time sensor data streams. The candidate will own the architecture, implementation, and delivery of the production pipeline - a stream ingestion, rollup, and post-processing system that operates on NDF (Network Description File) data produced by TDMA network sensors in dense, contested RF environments. The candidate will lead a small team of senior software engineers, coordinate closely with the program technical lead and AI/ML researchers to drive Cyber Operations software from prototype to production-quality, resource-efficient components deployable on tactical edge hardware. This is a hands-on technical leadership role: the Principal Engineer writes code, makes architecture decisions, and is accountable for pipeline performance and reliability in support of real world cyber operations.
Responsibilities:
  • Own the architecture and implementation of the production software pipeline, including stream ingestion, rollup, database write, and batch post-processing components
  • Lead a team of Senior Software Engineers in support of real world cyber operations; assign work, conduct code reviews, enforce quality standards, and provide technical mentorship
  • Establish and maintain disciplined software engineering practices: versioning, CI/CD pipelines, unit and integration testing, and documentation standards
  • Design and evaluate database and storage architecture for the tactical system and research enclave environments
  • Collaborate with the program technical lead to translate research findings and batch optimization algorithms into production pipeline components
  • Evaluate and benchmark Python pipeline performance on tactical-box-spec hardware; identify bottlenecks and lead porting of mature components to Rust or C for edge deployment
  • Manage and coordinate the tactical system VM environment and stream simulation infrastructure; ensure research VM is not disrupted by development activity
  • Define and enforce stream interface contracts between the ingestion layer, database, and downstream consumers
  • Evaluate emerging technologies (e.g., DuckDB/Parquet, Polars, message queues) against program requirements and recommend adoption decisions to the technical lead
  • Maintain the program's GitLab repository structure, branching strategy, and release management
  • Produce clear technical documentation including architecture decision records, interface specifications, and deployment guides
  • Support technical reviews and provide written inputs for sponsor deliverables as directed by the program technical lead

Expert-level career professional with broad and deep application of software engineering principles across the full development lifecycle. Exercises independent judgment in evaluating methods, techniques, and approaches; identifies and resolves complex technical problems with significant program impact. Provides technical leadership and direction to other engineers. Bachelor's (or equivalent) with 10+ years of experience.
Required Skills:
  • Demonstrated experience leading a software engineering team on a production data pipeline or streaming system; ability to set technical direction and mentor junior engineers
  • Expert-level Python development, including stream processing, multi-threaded/async architectures, and performance profiling
  • Proficiency in one or more compiled or systems languages (Rust, C, C++, or Go) for performance-critical components; experience porting Python to compiled targets
  • Hands-on experience designing and implementing relational database schemas and write-intensive data pipelines (MySQL, PostgreSQL, or equivalent)
  • Experience parsing binary serialization formats such as FlatBuffers or Protocol Buffers in a production context
  • Demonstrated ability to benchmark and optimize pipeline throughput on resource-constrained hardware or cloud environment
  • Strong proficiency with Linux system administration, remote server management via SSH, and air-gapped development environments
  • Experience architecting multi-consumer data systems where a single write path must serve concurrent display, analytics, and batch processing readers
  • Proficient in disciplined software engineering practices: GitLab/Git, CI/CD pipeline design, test-driven development, and code review
  • Excellent written and oral communication skills; ability to produce architecture decision records and technical documentation for both engineering and leadership audiences

Desired Skills:
  • Experience with TNS (Target Network System) sensor data formats and NDF ICD specifications
  • Familiarity with TDMA network protocols, time-division access architectures, and passive RF signal processing concepts
  • Experience deploying and operating software on tactical edge hardware co-located with a sensor system
  • Experience with lightweight stream or message queue architectures (ZeroMQ, RabbitMQ, or equivalent)
  • Experience with Polars or DuckDB for high-performance analytical workloads and write-once/read-many storage patterns
  • Experience with LLM-assisted software development tools (e.g., Claude Code, GitHub Copilot, JetBrains AI Assistant, or equivalent); demonstrated ability to use AI tools productively for code generation, refactoring, and test case development while maintaining engineering judgment and code quality standards
  • Familiarity with AI/ML model inference integration - ability to incorporate batch optimizer outputs into the production pipeline without requiring ML expertise
  • Experience with browser-based data visualization or reporting tools (React, D3, or equivalent) as a consumer of pipeline output
  • Experience with Jupyter Notebooks and research enclave environments; ability to bridge from research prototype to production code
  • Experience with FlatBuffers binary stream replay and simulation infrastructure for pipeline testing
  • Familiarity with Rust toolchain and ecosystem for systems-level development on Linux

Relevant Certifications:
  • Certifications in software engineering, computer science, or related fields (e.g., Certified Software Development Professional (CSDP); Certified Secure Software Lifecycle Professional (CSSLP); Red Hat Certified Engineer (RHCE); C++ Certified Professional Programmer (CPP); Professional Software Developer Certification (PSD); etc.)

Global InfoTek, Inc. is an equal opportunity employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, protected veteran status, or disability.
About Global InfoTek, Inc. Global InfoTek Inc. has an award-winning track record of designing, developing, and deploying best-of-breed technologies that address the nation's pressing cyber and advanced technology needs. GITI has rapidly merged pioneering technologies, operational effectiveness, and best business practices for over two decades.