Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets ...
Electrical Engineering Manager
Norfolk, VA · On-site
$118.50K - $152.40K/yr
SEACORP is seeking an Electrical Engineering Manager to lead technical teams in the design ... microprocessor systems. * Manage cable plant and compliance, overseeing the development of ...
Electrical Engineering Manager
Norfolk, VA · On-site
$118.50K - $152.40K/yr
SEACORP is seeking an Electrical Engineering Manager to lead technical teams in the design ... microprocessor systems. * Manage cable plant and compliance, overseeing the development of ...
Electrical Design Engineer
Hampton, VA · On-site
$35 - $70/hr
Electrical Design Engineer Location: Hampton, VA 5x per week - 1 NASA Dr. Hampton, VA * We do not ... Develop and integrate digital circuitry, FPGA, and microprocessor-based systems Support fabrication ...
New
Quick apply
Electrical Design Engineer
Hampton, VA · On-site
$35 - $70/hr
Electrical Design Engineer Location: Hampton, VA 5x per week - 1 NASA Dr. Hampton, VA * We do not ... Develop and integrate digital circuitry, FPGA, and microprocessor-based systems Support fabrication ...
New
Electrical Engineer 4), serve as a vital member of an aerospace and defense engineering team-an ... Experience with embedded microprocessor or single?board computer (SBC) based control systems ...
Electrical Engineer 4), serve as a vital member of an aerospace and defense engineering team-an ... Experience with embedded microprocessor or single?board computer (SBC) based control systems ...
Microprocessor Engineer information
See Virginia salary details
$74.4K - $86.1K
1% of jobs
$86.1K - $97.8K
2% of jobs
$97.8K - $109.5K
3% of jobs
$109.5K - $121.2K
3% of jobs
$121.2K - $132.9K
6% of jobs
$137K is the 25th percentile. Wages below this are outliers.
$132.9K - $144.7K
26% of jobs
$144.7K - $156.4K
3% of jobs
$156.4K - $168.1K
3% of jobs
The median wage is $168.9K / yr.
$168.1K - $179.8K
23% of jobs
$179.8K - $191.5K
1% of jobs
$192.5K is the 75th percentile. Wages above this are outliers.
$191.5K - $203.2K
27% of jobs
$74.4K
$166K
$203.2K
How much do microprocessor engineer jobs pay per year?
As of May 28, 2026, the average yearly pay for microprocessor engineer in Virginia is $166,001.00, according to ZipRecruiter salary data. Most workers in this role earn between $141,800.00 and $203,200.00 per year, depending on experience, location, and employer.
What is a Microprocessor Engineer job?
A Microprocessor Engineer designs, develops, and optimizes microprocessors used in computers, embedded systems, and other electronic devices. They work on architecture, logic design, verification, and performance improvements. Their role involves collaborating with hardware and software teams to ensure efficient integration and functionality.
What are the key skills and qualifications needed to thrive in the Microprocessor Engineer position, and why are they important?
To thrive as a Microprocessor Engineer, you need a solid background in electrical engineering or computer engineering, along with strong skills in microprocessor architecture, digital logic design, and embedded systems. Familiarity with hardware description languages (such as VHDL or Verilog), simulation tools, PCB design software, and experience with industry standards are typically important, as are certifications like Certified LabVIEW Developer (CLD). Critical thinking, attention to detail, and effective communication are valuable soft skills, especially for collaborating across multidisciplinary teams. These capabilities are crucial for developing, optimizing, and troubleshooting microprocessor solutions in a complex, fast-evolving technology landscape.
What are the typical career growth opportunities for a Microprocessor Engineer?
Microprocessor Engineers often begin in entry- or mid-level design roles, working on various facets of processor development and verification. With experience, they can advance to lead engineer positions, project management, or specialize in areas such as systems architecture, low-power design, or performance optimization. Many engineers also transition into roles involving cross-functional leadership or technical strategy within larger hardware or semiconductor companies. Continuing education and keeping up with industry advancements can significantly enhance opportunities for upward mobility and specialization in this dynamic field.
More about Microprocessor Engineer jobs
What are popular job titles related to Microprocessor Engineer jobs in Virginia? For Microprocessor Engineer jobs in Virginia, the most frequently searched job titles are:
What job categories do people searching Microprocessor Engineer jobs in Virginia look for? The top searched job categories for Microprocessor Engineer jobs in Virginia are:
Electrical Engineer I-IV (Tactical Navigation Systems)
Systems Engineering Associates CorporationNorfolk, VA • On-site
Other
Posted 27 days ago
Job description
Job Summary: SEACORPis seeking Electrical Engineers at various levels to support the design,development, and manufacturing of tactical navigation systems for surface andsubmarine platforms. Electrical engineers in this role design, develop, andtest specialized electronic equipment, including navigation sensors andmilitary-grade interface circuits. Tasking involves performing requirementsanalysis, designing embedded microprocessor systems, and developing powerdistribution architectures. Engineers are responsible for ensuring hardwaremeets rigorous military standards through circuit board design, heat loadinganalysis, and preparation for environmental qualification testing (EQT).
Job Responsibilities Include:
- Tactical System Design: Design and develop navigation sensors and commercial-to-military interface circuits for maritime platforms.
- Requirements Analysis: Formulate and analyze performance requirements for complex electrical systems and components.Power Systems: Lead power distribution system design, including load balancing and power analysis for shipboard integration.
- Circuit & Embedded Systems: Design high-precision circuit boards and integrated embedded microprocessor systems.
- Cable Plant Design: Develop comprehensive cable plant designs for equipment racks and shipboard installation, utilizing copper, fiber, and RF interconnects.
- Environmental & EMI Compliance: Design equipment and components to meet Electromagnetic Interference (EMI) best practices and MIL-STD environmental qualification requirements.
- Thermal Management: Perform heat loading analysis to ensure system reliability in enclosed maritime environments.
- System Integration: Examine Interface Control Documents (ICD) and Government Furnished Information (GFI) to integrate new hardware into existing ship architectures.
- CAD Documentation: Develop end-to-end system engineering drawings and interconnect diagrams using CAD software.
- Material Selection: Select appropriate Mil-Spec and Commercial Off-The-Shelf (COTS) materials to meet design specifications.
- Collaborative Engineering: Interface with cross-functional teams of engineers, logisticians, and technicians to ensure product deadlines and workmanship standards are met.
- Field Support: Travel to various naval stations or test facilities may be required on a limited basis.