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Microelectronics Engineer Jobs in Virginia (NOW HIRING)

... microelectronic assemblies, and technologically advanced printed circuit boards ("PCB"s). TTM stands for time-to-market, representing how TTM's time-critical, one-stop design, engineering and ...

Electrical Engineer

Dahlgren, VA · On-site

$85K - $105K/yr

... integrate microelectronics with novel fabrication techniques. * Completes the design and ... Coordinate with mechanical engineers regarding the integration of designs into customized ...

... microelectronic assemblies, and technologically advanced printed circuit boards ("PCB"s). TTM stands for time-to-market, representing how TTM's time-critical, one-stop design, engineering and ...

Process Engineer

Sterling, VA · On-site

$62K - $103K/yr

... microelectronic assemblies, and technologically advanced printed circuit boards ("PCB"s). TTM stands for time-to-market, representing how TTM's time-critical, one-stop design, engineering and ...

... integrate microelectronics with novel fabrication techniques. * Completes the design and ... Coordinate with mechanical engineers regarding the integration of designs into customized ...

... integrate microelectronics with novel fabrication techniques. * Completes the design and ... Coordinate with mechanical engineers regarding the integration of designs into customized ...

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Showing results 1-20

Microelectronics Engineer information

See Virginia salary details

$29.2K

$100.1K

$157.6K

How much do microelectronics engineer jobs pay per year?

As of Jul 15, 2026, the average yearly pay for microelectronics engineer in Virginia is $100,132.00, according to ZipRecruiter salary data. Most workers in this role earn between $82,665.00 and $134,695.00 per year, depending on experience, location, and employer.

What does a microelectronic engineer do?

A microelectronic engineer designs, develops, and tests small electronic components and circuits, such as integrated circuits and semiconductors. They often work with CAD tools, analyze electrical performance, and ensure products meet specifications in a cleanroom environment. Strong knowledge of physics, materials science, and circuit design is essential for this role.

What are some common challenges faced by Microelectronics Engineers in their daily work?

Microelectronics Engineers often encounter challenges such as staying updated with rapidly evolving technologies, managing tight project deadlines, and troubleshooting complex circuitry issues. Additionally, balancing the trade-offs between performance, cost, and manufacturability requires keen analytical thinking and continuous learning. Engineers may also work closely with multidisciplinary teams—including product designers, test engineers, and manufacturing specialists—to ensure design integrity from concept through production. Being adaptable and receptive to feedback is vital, as solutions often require iterative improvements and cross-functional collaboration.

Can you make $500,000 as an electrical engineer?

Microelectronics engineers, a specialized field within electrical engineering, can potentially earn high salaries, especially with extensive experience, advanced skills, and working in high-cost regions or at leading companies. However, reaching a $500,000 annual salary is uncommon and typically requires senior roles, managerial positions, or significant bonuses and stock options.

What engineers make $500,000?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and certain executive-level engineering roles can earn $500,000 or more annually. These positions often require extensive experience, advanced skills, and sometimes leadership responsibilities or stock options.

What is a Microelectronics Engineer job?

A Microelectronics Engineer designs, develops, and tests small electronic components and systems, such as microchips, semiconductors, and circuit boards. They work in industries like consumer electronics, telecommunications, medical devices, and aerospace. Their responsibilities include circuit design, fabrication, troubleshooting, and optimizing electronic performance. They may also collaborate with teams to improve manufacturing processes and innovate new technologies.

What engineers make $300,000 a year?

Senior microelectronics engineers with extensive experience, advanced skills in circuit design, and often holding specialized certifications can earn $300,000 or more annually. High-level roles in semiconductor companies, research and development, or executive positions in engineering management are typically associated with such compensation levels.

What are the key skills and qualifications needed to thrive in the Microelectronics Engineer position, and why are they important?

To thrive as a Microelectronics Engineer, you need a solid background in electrical engineering, semiconductor device physics, and circuit design, often backed by a relevant bachelor's or master's degree. Familiarity with CAD tools like Cadence or Synopsys, PCB layout software, and industry certifications such as IPC standards is highly beneficial. Strong problem-solving abilities, attention to detail, and effective teamwork skills help distinguish top candidates in this field. These capabilities are crucial for successfully designing, testing, and optimizing complex microelectronic systems within collaborative, innovative environments.

What are the most commonly searched types of Microelectronics Engineer jobs in Virginia? The most popular types of Microelectronics Engineer jobs in Virginia are:
What are popular job titles related to Microelectronics Engineer jobs in Virginia? For Microelectronics Engineer jobs in Virginia, the most frequently searched job titles are:
What job categories do people searching Microelectronics Engineer jobs in Virginia look for? The top searched job categories for Microelectronics Engineer jobs in Virginia are:
Infographic showing various Microelectronics Engineer job openings in Virginia as of July 2026, with employment types broken down into 5% Internship, 75% Full Time, 10% Part Time, 5% Contract, and 5% Nights. Highlights an 81% In-person, and 19% Remote job distribution, with an average salary of $100,132 per year, or $48.1 per hour.
Subject Matter Expert Hardware Reverse Engineer

Subject Matter Expert Hardware Reverse Engineer

NewGen Technologies

Arlington, VA • On-site

$142K - $187K/yr

Full-time

Posted 3 hours ago


Job description

Our Partner is supporting a U.S. Government customer to provide support for onsite incident response to civilian Government agencies and critical asset owners who experience cyber-attacks, providing immediate investigation and resolution. Contract personnel perform investigations to characterize the severity of breaches, develop mitigation plans, and assist with the restoration of services. They are seeking a Subject Matter Expert with hardware reverse engineering to support this critical customer mission.  
The Subject Matter Expert Hardware Reverse Engineer will provide specialized expertise in hardware reverse engineering focused on operational technology (OT) and industrial control systems. This position requires deep technical knowledge of proprietary hardware systems, exploitation methodologies, and defensive strategies to support forensic investigations of compromised edge devices and systems where threat actors have embedded malware deeply within hardware components. 
This position focuses on the analytical and investigative aspects of hardware forensics, with particular emphasis on operational technology and industrial control systems. The ideal candidates will have strong reverse engineering skills and deep understanding of threat actor methodologies targeting critical infrastructure. 
Responsibilities
  • Conduct comprehensive hardware reverse engineering of OT and ICS devices 
  • Analyze network-edge devices and embedded systems compromised by advanced threats 
  • Perform deep-dive analysis of proprietary hardware targeted by adversaries 
  • Conduct reverse engineering, failure analysis, vulnerability analysis, and other research techniques to understand complex hardware systems, assess the functionality of components, and identify exploitation risks
  • Identify and extract deeply embedded malware from hardware components 
  • Reverse engineer firmware and low-level software on embedded devices 
  • Collaborate with Partner research teams to leverage cutting-edge analytical capabilities 
  • Utilize and enhance KI2 system emulation capabilities for hardware analysis 
  • Document exploitation methodologies and defensive countermeasures 
  • Develop standard operating procedures for hardware forensics workflows 
  • Train CSD analysts on hardware reverse engineering techniques 
  • Provide expert consultation on edge device security and vulnerabilities 
  • Support forensic investigations in environments lacking EDR visibility 
  • Analyze proprietary communication protocols and embedded systems functions 
  • Identify hardware backdoors, implants, and malicious modifications 
  • Collaborate with electrical engineers on chip-off forensics procedures 
  • Provide reach-back support to operational analysts during active investigations 
  • Contribute to research initiatives on emerging hardware threats 
  • Document technical findings and intelligence for stakeholder dissemination 
Requirements
  • U.S. Citizenship
  • Active TS/SCI Clearance
  • Must be able to obtain DHS Suitability
  • Bachelor’s degree in Electrical Engineering, Computer Engineering or related discipline; Master’s degree or PhD preferred
  • 10+ years of experience in hardware reverse engineering or embedded systems analysis
  • Deep expertise in OT/ICS hardware platforms and vulnerabilities 
  • Ability to analyze novel or proprietary systems with limited documentation 
  • Strong communication skills for explaining complex technical findings 
  • Experience working collaboratively in research-oriented environments 
  • Strong experience with firmware reverse engineering and analysis 
  • Proficiency with reverse engineering tools (IDA Pro, Ghidra, Binary Ninja) 
  • Deep understanding of ARM, MIPS, PowerPC, and other embedded processor architectures 
  • Experience analyzing network-edge devices (routers, switches, firewalls, IoT devices) 
  • Knowledge of hardware debugging interfaces (JTAG, SWD, UART) 
  • Strong programming and scripting skills (Python, C, Assembly) 
  • Understanding of exploitation techniques targeting embedded systems 
  • Experience with malware analysis in hardware/firmware contexts 
  • Excellent analytical and problem-solving abilities 
Desired Skills
  • Experience supporting federal cybersecurity or critical infrastructure protection programs 
  • Experience performing inspection, imaging, decapsulation, deprocessing, and other activities related to hardware reverse engineering and exploitation in a state-of-the-art microelectronics exploitation laboratory
  • Background in offensive security or penetration testing of OT environments 
  • Advanced certifications in reverse engineering (GREM, GXPN, or similar) 
  • Experience with SCADA, PLC, RTU, and other industrial control components 
  • Knowledge of critical infrastructure sector technologies (energy, utilities, manufacturing) 
  • Familiarity with supply chain security and hardware implant detection 
  • Experience with system emulation platforms and virtual hardware analysis 
  • Understanding of threat actor TTPs targeting OT and edge devices 
  • Background in electronics manufacturing or hardware security research 
  • Experience with chip decapsulation and invasive hardware analysis techniques 
Desired Certifications
  • DoD 8140.01 IAT Level III
  • PMP

About Us
For more than 20 years, NewGen Technologies has solved our clients’ toughest IT challenges with integrity, security, and outstanding service by delivering both technology and talent. We have helped secure borders, have used artificial intelligence (AI) to fight terror, aided the identification of criminals, and have helped to prevent crime through the introduction of biometrics. Our team of Highly Cleared Specialists have hard-to-find skills and expertise in a wide spectrum of technologies to provide solutions that transform business processes and solve problems of national significance. #CJ