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Sic Power Engineer Jobs in Virginia (NOW HIRING)

Senior Electrical Engineer

Crozet, VA ยท On-site

$99K - $129K/yr

Role Summary The Senior Electrical Engineer owns the design and validation of high-voltage power ... Background in SiC or GaN-based power stage design. * Familiarity with functional safety standards ...

Sic Power Engineer information

What is the difference between Sic Power Engineer vs Electric Power Engineer?

AspectSic Power EngineerElectric Power Engineer
CredentialsTypically requires a degree in electrical engineering and relevant certificationsRequires electrical engineering degree and similar certifications
Work EnvironmentIndustrial plants, power generation facilities, and manufacturing sitesPower plants, electrical substations, and utility companies
Industry UsageCommonly employed in manufacturing and industrial sectorsPrimarily in energy, utilities, and power distribution sectors

The Sic Power Engineer and Electric Power Engineer roles share similar credentials and work environments, often overlapping in industrial and power generation settings. The main difference lies in their specific industry focus, with Sic Power Engineers more involved in manufacturing processes and Electric Power Engineers focusing on power distribution and utility operations.

What are some common challenges faced by SiC Power Engineers when integrating silicon carbide technology into existing power systems?

SiC Power Engineers often encounter challenges when integrating silicon carbide (SiC) devices into established power systems, primarily due to differences in electrical characteristics compared to traditional silicon components. These challenges include managing higher switching speeds, optimizing thermal management, and ensuring compatibility with existing circuitry and control methods. Additionally, engineers must stay updated on evolving industry standards and reliability testing to maximize the benefits of SiC technology. Collaborating closely with design, testing, and manufacturing teams is crucial to address these integration hurdles efficiently.

What are SiC Power Engineers?

SiC Power Engineers are specialists who design, develop, and optimize electronic systems that use silicon carbide (SiC) semiconductors for power conversion and management. These professionals work on creating highly efficient power electronic devices, such as inverters, converters, and power modules, utilizing the superior properties of SiC materials, like high thermal conductivity and voltage resistance. Their expertise is crucial in industries such as electric vehicles, renewable energy, and industrial automation, where efficient power handling is essential. SiC Power Engineers often collaborate with cross-functional teams to ensure the integration and reliability of SiC-based solutions.

What are the key skills and qualifications needed to thrive as a SiC Power Engineer, and why are they important?

To thrive as a SiC Power Engineer, you need a strong background in electrical engineering, with expertise in power electronics, semiconductor device physics, and silicon carbide (SiC) technology, typically supported by a relevant engineering degree. Familiarity with simulation tools (like SPICE), PCB design software, and knowledge of industry standards and SiC device characterization techniques is essential. Strong problem-solving abilities, attention to detail, and effective communication skills set outstanding engineers apart in this field. These skills enable the design and optimization of high-performance, reliable SiC-based power systems that meet industry demands for efficiency and innovation.
What cities in Virginia are hiring for Sic Power Engineer jobs? Cities in Virginia with the most Sic Power Engineer job openings:

Senior Electrical Engineer

Allocor Tech

Crozet, VA โ€ข On-site

$99K - $129K/yr

Full-time

Posted 27 days ago


Job description

Salary:

Why This Role Exists

Lead designers are spending 20+ hours per week on spillover tasksschematic reviews, simulation reruns, PCB layout supportinstead of critical-path architecture work. This displacement delays the 800V inverter program and creates a single-point-of-failure risk in the engineering org. This role takes ownership of next-generation high-voltage hardware design, freeing lead engineers to focus on system-level architecture and program execution.


Role Summary

The Senior Electrical Engineer owns the design and validation of high-voltage power electronics for Allocortechs 800V inverter program. You will architect circuit topologies, perform WCCA and SPICE simulations for safety-critical circuits, design mixed-signal systems with optimized power and thermal budgets, and drive hardware-software integration for motor controller platforms.


Core Responsibilities

  • Architect and design high-voltage power electronics circuits for the 800V inverter program, including topology selection, component derating, and protection schemes.
  • Perform Worst Case Circuit Analysis (WCCA) and SPICE simulations for safety-critical circuits, documenting analysis results for design review.
  • Design complex mixed-signal systems with attention to power/thermal budgets, noise isolation, and signal integrity.
  • Manage impedance-controlled PCB layouts and high-speed signal integrity (SI) analysis for multi-layer power electronics boards.
  • Drive hardware-software integration for motor controller systems, collaborating with firmware engineers on register configuration and timing requirements.
  • Conduct design reviews (schematic, layout, WCCA) and present trade studies to engineering leadership.
  • Support prototype bring-up, bench testing, and qualification testing for new hardware designs.
  • Maintain design files, simulation models, and test reports in the engineering document control system.


Required Qualifications

  • 5+ years of experience in power electronics design, with emphasis on high-voltage (400V+) inverter or converter systems.
  • Expert-level proficiency in schematic capture and simulation tools (Altium, LTspice, MATLAB/Simulink, or equivalent).
  • Demonstrated experience with WCCA methodology for safety-critical or high-reliability circuits.
  • Strong knowledge of PCB design for high-voltage and mixed-signal systems, including impedance control, creepage/clearance rules, and thermal management.
  • Experience with EMI/EMC design techniques and pre-compliance testing.
  • BSEE or equivalent; MSEE preferred.


Preferred Qualifications

  • Experience designing to aerospace or automotive standards (DO-160, AEC-Q, MIL-STD-810).
  • Background in SiC or GaN-based power stage design.
  • Familiarity with functional safety standards (IEC 61508, ISO 26262) as applied to power electronics.
  • Prior experience with 800V-class automotive or aerospace traction inverter programs.