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Virtual Electrical Engineering Jobs in Nevada (NOW HIRING)

Contract: 2 virtual - 30 min each Direct: Screen (30 min virtual) 2nd round: 30 min presentation ... Does their solution demonstrate a grasp of engineering * Client WILL COVER THE FLIGHT, HOTEL, AND ...

Senior Project Engineer

NV ยท Remote

$92K - $120K/yr

Bachelor's degree in electrical engineering, Automation, or related field (or equivalent work ... health navigation and virtual health, and infertility/adoption * Employee discount program ...

... Virtual servers, and VCenter. * Experience with ACAD, MSSQL and other Microsoft Application ... Bachelor's Degree in Automation Engineering or alternatively Electrical, Process Control ...

... Virtual servers, and VCenter. * Experience with ACAD, MSSQL and other Microsoft Application ... Bachelor's Degree in Automation Engineering or alternatively Electrical, Process Control ...

Manage the successful delivery of Digital Engineering, Virtual Design & Construction, and Plan + Control on multiple large and complex projects simultaneously. Drive the coordination process hard ...

This position is responsible for managing Digital Engineering, Virtual Design & Construction, and Plan + Control on multiple large and complex projects, with a heavy focus on MEP coordination and ...

Field Engineer I

North Las Vegas, NV ยท On-site

$78K - $85K/yr

JT4, LLC provides engineering and technical support to multiple western test ranges for the U.S ... Assemble, modify and troubleshoot all hardware associated with the JSE virtual and simulation ...

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Virtual Electrical Engineering information

See Nevada salary details

$42.3K

$144.2K

$207.7K

How much do virtual electrical engineering jobs pay per year?

As of Jul 5, 2026, the average yearly pay for virtual electrical engineering in Nevada is $144,170.00, according to ZipRecruiter salary data. Most workers in this role earn between $124,700.00 and $160,400.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive in the Virtual Electrical Engineering position, and why are they important?

To thrive as a Virtual Electrical Engineer, you need a solid background in electrical engineering principles, along with a relevant engineering degree and professional certification (such as PE or EIT, where applicable). Familiarity with tools like AutoCAD, MATLAB, and electrical simulation software is vital, as is experience working on cloud-based collaboration platforms. Strong communication, self-motivation, and time management skills will distinguish you in remote team environments. These competencies are critical for delivering precise engineering solutions and ensuring smooth coordination with distributed teams and clients.

How can I make $100,000 a year working from home?

A virtual electrical engineer can reach a $100,000 annual income by gaining specialized skills in circuit design, embedded systems, or power systems, and obtaining relevant certifications. Building a strong portfolio, freelancing, or working for companies that offer remote roles with competitive salaries can also help achieve this income level.

Can I make 200k as an electrical engineer?

Achieving a salary of $200,000 as an electrical engineer is possible, especially with advanced experience, specialized skills, management roles, or working in high-paying industries like aerospace or energy. Salaries vary based on location, education, certifications, and years of experience, with senior engineers and those in leadership positions more likely to reach or exceed this level.

What are some typical day-to-day responsibilities for a Virtual Electrical Engineer?

As a Virtual Electrical Engineer, your daily tasks may include designing and reviewing electrical schematics, running simulations or analyses, preparing technical documentation, and collaborating with project teams via video meetings and online platforms. You'll often coordinate with mechanical engineers, project managers, and clients to ensure designs meet all requirements and standards. Many roles also involve troubleshooting design issues, providing remote technical support, and updating progress reports. The virtual work environment means strong digital communication and organizational skills are essential to keep projects running smoothly.

Can you work online as an electrical engineer?

Electrical engineering jobs can often be performed remotely, especially tasks involving design, analysis, and software development using tools like CAD and simulation software. However, roles requiring on-site work for testing, manufacturing, or hardware installation may not be fully remote. Many electrical engineers use collaboration platforms and maintain certifications to support remote work arrangements.

What is a Virtual Electrical Engineering job?

A Virtual Electrical Engineering job involves designing, analyzing, and troubleshooting electrical systems remotely using computer-aided design (CAD) tools, simulation software, and cloud-based collaboration platforms. Engineers in this role work on circuit design, power systems, control systems, and embedded electronics without being physically present in a lab or office. They collaborate with teams, conduct virtual testing, and provide technical support using digital communication tools. This role is ideal for remote work and spans industries like energy, telecommunications, and automation.

What engineers make $500,000?

Senior electrical engineers with extensive experience, specialized skills, and leadership roles can earn salaries approaching or exceeding $500,000 annually, especially in high-demand industries like aerospace, defense, or large technology firms. Achieving this level often requires advanced degrees, certifications, and a track record of significant project contributions or management responsibilities.
What are the most commonly searched types of Electrical Engineering jobs in Nevada? The most popular types of Electrical Engineering jobs in Nevada are:
What are popular job titles related to Virtual Electrical Engineering jobs in Nevada? For Virtual Electrical Engineering jobs in Nevada, the most frequently searched job titles are:
What cities in Nevada are hiring for Virtual Electrical Engineering jobs? Cities in Nevada with the most Virtual Electrical Engineering job openings:

Electrical Engineer

GenAquarius LLC

Mccarran, NV โ€ข On-site

Other

Posted 5 days ago


Job description

Job Title: 1x Staff BESS Electrical Engineer, EPC
Location: 100% Onsite in Sparks, NV OR San Francisco, CA

  • If located in SF, need to be able to visit Sparks atleast once every two months.
  • Hours: 40 hours min, potential OT.
  • 7-9am start time.

Duration: 3 months + extension/CTH or Direct Hire.
Interview Process:
Contract: 2 virtual - 30 min each
Direct: Screen (30 min virtual)
2nd round: 30 min presentation + 4-5 1:1s (2.5-3 hours total) virtual or onsite.

  • Onsite interview will consist of a panel interview with a 3-4 hour presentation and half hour interviews with about 6 individuals.
    • 30 min presentation/introduction - present on favorite project or a challenge they worked on and how they overcame the challenge. Want to see the candidates thought process. How they approach and solve. Does their solution demonstrate a grasp of engineering
    • Client WILL COVER THE FLIGHT, HOTEL, AND COSTS FOR GETTING ONSITE IF NOT LOCAL

Duties:

  • Type of projects they will work on and tasks vary each day.
  • In general, role is to design electrical infrastructure for battery storage systems for AC/DC portions.
  • Single line diagrams, calculations.
  • Working with BESS product team on DC Product Specifications.
  • Work with cost estimation teams for quantities and generate estimated cost of project
  • Up to 69k V (Med voltage)

Must Have:

  • If jumping job to job - pass. Get thorough reason for jumping roles even if 1 year each.
  • PE preferred for NV or ability to get within 2 months for NV.
  • If they don't know every single article in NEC, its ok. They can learn it.
  • Revit or AutoCAD
  • Most important is exp in solar, energy storage, microgrid, renewable field energy work, BESS design and deployment.

Staff BESS Electrical Engineer, EPC

Client is seeking a Battery Energy Storage Systems (BESS) Electrical Engineer to join our EPC team. This role is central to the design of scalable, high-performance energy storage infrastructure for utility scale and distributed applications. Our mission is to build a sustainable circular economy for lithium-ion batteries by transforming recycled materials into high-quality inputs for new batteries.

Technical Responsibilities:

  • Lead electrical engineering efforts for utility scale lithium-ion BESS projects from concept (system sizing, layout) through construction.
  • Interface with utilities and ISO/RTOs to support interconnection studies/submittals, permitting, and compliance for new renewable and BESS projects.
  • Serve as the internal subject matter expert (SME) for technical challenges related to BESS.
  • Design AC and DC electrical systems for BESS using medium voltage transformers, inverters, DC combiners, energy managers, and battery modules. Specify and procure long-lead AC equipment.
  • Develop schematic diagrams, single-line diagrams, wiring schematics, raceway plans, grounding plans, and protection strategies for AC and DC systems.
  • Specify and evaluate components such as circuit breakers, contactors, fuses, disconnects, emergency power off (EPO), and metering devices.
  • Coordinate with civil, structural, fire & life safety, SCADA/telecom, geotechnical, and DC system design teams to produce complete IFC packages and technical specifications.
  • Ensure designs comply with applicable codes and standards such as NEC 705, NEC 706, IEEE 1547, UL 9540, NFPA 855, and local amendments. Lead code reviews and provide summary to internal teams.
  • Integration of BESS with grid infrastructure and other renewable and traditional energy sources.
  • Perform power system studies for short circuit, load flow, arc flash, and protective device coordination for AC and DC systems.
  • Serve as the Electrical Engineer of Record for assigned projects.
  • Maintain up-to-date knowledge of BESS technologies, codes, and industry trends.
  • Lead R&D efforts to perform feasibility analysis of using medium voltage DC distribution system for integrating BESS with other sources.

Project Management Responsibilities:

  • Provide CA support for RFIs, submittal reviews, change orders, and site inspections.
  • Coordinate with internal stakeholders and external consultants to track scope, schedule, and budget.
  • Prepare engineering cost estimates and project schedules in collaboration with project controls at various design milestones.
  • Perform QA/QC reviews of electrical designs and mentor junior engineers.
  • Contribute to internal design standards, templates, and best practices.
  • Manage project workload and ensure timely delivery of engineering documents.
  • Support strategic initiatives related to grid integration, renewable energy, and energy storage.

Desired Qualifications:

  • Bachelor s or Master s degree in Electrical Engineering from ABET accredited program.
  • Licensed Professional Engineer in Nevada or eligible for reciprocity. Must get their PE in Nevada and South Carolina within 2 months of start date.
  • Minimum 5 years of experience in solar, energy storage, or microgrid sectors, with at least 3 years focused on BESS design and deployment.
  • Proven expertise in interconnection and regulatory compliance for BESS systems.
  • SME in knowledge of NEC 705, NEC 706, IEEE 1547, UL 9540, and NFPA 855.
  • Advanced proficiency in:
    • Microgrid and hybrid power systems modeling tools using HOMER or similar
    • Power system modeling using ETAP, SKM, or similar
    • AutoCAD/Revit, Navisworks, Bluebeam, Microsoft Office
  • Preferred proficiency in:
    • Transmission-level load flow and stability using PSSE and PSLF
    • Electromagnetic Transient Simulations using PSCAD, EMTC or similar
    • SEL Relay Settings using SEL AcSELerator or equivalent
    • Design of HVDC systems and converter station
  • Strong understanding of energy storage use-cases including peak shaving, load shifting, demand response, and frequency response.
  • Highly motivated, proactive, and detail oriented.
  • Ability to communicate effectively through verbal, written, and visual formats.