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Energy Hardware Jobs (NOW HIRING)

ON.energy

Principal Systems Engineer, R&D

Houston, TX ยท On-site

Experience: 10+ years of systems engineering experience in power electronics, energy storage, or adjacent power/energy hardware product development, with demonstrated progression from individual ...

Enphase Energy

Staff Electronics Hardware Engineer

Austin, TX ยท Hybrid

$100K - $151K/yr

Enphase Energy is a global energy technology company and a leading provider of solar, battery, and ... Enphase Energy is seeking a Staff Electronics Hardware Engineer to develop, integrate, and validate ...

Thea Energy

Director - Site Development

Kearny, NJ ยท On-site

$125K - $230K/yr

... tech, energy, hardware, or aerospace. * Proven track record of successfully negotiating and securing complex state and local incentive packages or non-dilutive government funding. * Comfort ...

Thea Energy

Director - Site Development

Kearny, NJ ยท On-site

$125K - $230K/yr

... tech, energy, hardware, or aerospace. * Proven track record of successfully negotiating and securing complex state and local incentive packages or non-dilutive government funding. * Comfort ...

Base Power Company

Hardware Integration Engineer

Austin, TX ยท On-site

$122K - $161K/yr

This role requires strong electrical engineering fundamentals and hands-on experience with complex energy storage hardware. You'll play a critical role in building safe, reliable, and scalable ...

Base Power Company

Hardware Integration Engineer

Austin, TX ยท On-site

$122K - $161K/yr

This role requires strong electrical engineering fundamentals and hands-on experience with complex energy storage hardware. You'll play a critical role in building safe, reliable, and scalable ...

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How much do energy hardware jobs pay per hour?

As of Jun 5, 2026, the average hourly pay for energy hardware in the United States is $24.59, according to ZipRecruiter salary data. Most workers in this role earn between $17.55 and $27.88 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Energy Hardware Engineer, and why are they important?

To excel as an Energy Hardware Engineer, you need a strong background in electrical or mechanical engineering, experience with power systems, and often a relevant engineering degree. Familiarity with industry-standard tools such as AutoCAD, MATLAB, and circuit simulation software, along with certifications like Professional Engineer (PE), is highly valued. Strong problem-solving abilities, teamwork, and effective communication help you stand out in multidisciplinary project environments. These skills are crucial for designing reliable energy systems, ensuring safety, and driving innovation in the rapidly evolving energy sector.

What are some common challenges faced by professionals working in Energy Hardware roles, and how can they be addressed?

Professionals in Energy Hardware roles often encounter challenges such as integrating new technologies with existing systems, meeting strict safety and regulatory requirements, and ensuring reliability in diverse environmental conditions. Collaboration with cross-functional teams, including software engineers, project managers, and field technicians, is essential to overcome these hurdles. Staying updated on industry standards and participating in ongoing training can also help address technical and regulatory challenges, supporting successful project delivery and innovation.

What is an Energy Hardware Engineer?

An Energy Hardware Engineer is a professional who designs, develops, tests, and maintains physical systems and equipment used in the generation, storage, and distribution of energy. This can include work on solar panels, wind turbines, batteries, power electronics, and grid infrastructure. Energy Hardware Engineers play a key role in advancing renewable energy technologies and improving the efficiency and reliability of energy systems. They often collaborate with multidisciplinary teams to create innovative solutions that address global energy challenges.

What is the difference between Energy Hardware vs Energy Systems Technician?

AspectEnergy HardwareEnergy Systems Technician
CertificationsElectrical certifications, hardware installation licensesElectrical, HVAC, or renewable energy certifications
Work EnvironmentManufacturing facilities, hardware installation sitesField service, maintenance sites, renewable energy plants
Industry UsageDesign, assembly, and installation of energy hardware componentsMaintaining and troubleshooting energy systems and equipment

Energy Hardware focuses on the design, assembly, and installation of physical energy components, while Energy Systems Technicians primarily maintain and troubleshoot energy systems. Both roles require electrical knowledge and certifications but differ in daily tasks and work environments.

Infographic showing various Energy Hardware job openings in the United States as of May 2026, with employment types broken down into 79% Full Time, 20% Part Time, and 1% Contract. Highlights an 94% Physical, 2% Hybrid, and 4% Remote job distribution, with an average salary of $51,154 per year, or $24.6 per hour.
Principal Systems Engineer, R&D

Principal Systems Engineer, R&D

ON.energy

Houston, TX โ€ข On-site

Other

Posted 24 days ago

Job description

Role Objective

The Principal Systems Engineer will serve as a technical originator and design authority for new ON.energy products. This role is responsible for identifying and shaping new product concepts, leading engineering teams through preliminary design, and supporting the transition from prototype to full productization. The Principal Systems Engineer will own requirements development, drive early-stage prototyping, coordinate with supply vendors on component engineering, and apply structured qualitative decision-making to navigate the trade-offs inherent in grid-scale energy storage system design. Residing within the R&D team, this position ensures that ON.energy's product pipeline is grounded in sound, agile systems engineering practice.

Key Responsibilities

Product Concept Origination

  • Opportunity Identification: Monitor market signals, customer feedback, field performance data, and technology trends to identify opportunities for new products or significant architectural evolution of existing ON.energy platforms. Translate unmet needs into preliminary product concepts with clear value propositions.
  • Feasibility Assessment:ย Conduct early-stage technical feasibility studies, evaluating product suppliers, novel topologies, and control strategies to down-select concepts before committing engineering resources. Coordinate internal and external subject matter expertise review and feedback into all evaluations.
  • Concept Documentation: Author concept proposals that articulate the technical approach, target specifications, competitive differentiation, key risks, and resource estimates. Present concepts to R&D leadership and cross-functional stakeholders for stage-gate review.

Requirements Development and Management

  • System Requirements Authoring: Develop and maintain system-level requirements documents that capture functional, performance, environmental, safety, and regulatory requirements for new products. Ensure requirements are traceable, testable, and aligned with customer and grid code obligations.
  • Requirements Flow-Down: Decompose system requirements into subsystem and component specifications. Coordinate with discipline engineers to ensure consistent interpretation and compliance.

Preliminary Design Leadership

  • Architecture Definition: Lead the definition of system architectures for new products, including power conversion topology, DC bus design, protection and isolation strategy, control hierarchy, and mechanical/thermal layout. Produce system block diagrams, interface control documents, and preliminary design packages.
  • Prototyping and Early Validation:ย Plan and oversee prototyping activities to retire key technical risks early in the design cycle. Define prototype scope, success criteria, and test plans. Coordinate rapid-build efforts across hardware, firmware, and test teams.
  • Design Reviews: Organize and lead preliminary design reviews (PDRs).

Supply Vendor Engineering Coordination

  • Vendor Technical Interface: Serve as the primary engineering point of contact with component and subsystem vendors. Communicate technical requirements, review vendor design proposals, and negotiate specification compliance.
  • Vendor Qualification and Selection: Lead technical evaluation of prospective vendors through design audits, capability assessments, and prototype sample testing. Provide engineering input to make/buy decisions and vendor selection trade studies.
  • Supply Chain De-Risking: Align early stage reviews of supplier readiness with supply chain team.

Qualitative Decision-Making and Trade Studies

  • Structured Trade Analysis: Design and facilitate trade studies that weigh product success criteria.
  • Risk-Informed Prioritization: Maintain a living technical risk register for each product development program. Prioritize risk-retirement activities based on consequence and likelihood, and ensure mitigation plans are resourced and tracked.
  • Cross-Functional Alignment: Facilitate decision-making across engineering, product management, operations, and supply chain stakeholders.

Productization Support

  • Design Transfer: Support the transition of validated designs from R&D into product engineering.
  • Production Issue Resolution: Provide systems-level engineering support during initial product deployment. Triage integration and commissioning issues, lead root-cause investigations, and implement design corrections with the help of other R&D verticals.
  • Continuous Improvement: Feed field performance data and production lessons-learned back into the design process.

Experience and Requirements

  • Education: B.S. in Electrical Engineering, Systems Engineering, Mechanical Engineering, or a closely related field. M.S. or Ph.D. preferred.
  • Experience: 10+ years of systems engineering experience in power electronics, energy storage, or adjacent power/energy hardware product development, with demonstrated progression from individual contributor to technical leadership. Track record of taking products from concept through production release.
  • Grid-Scale Energy Storage: Direct, hands-on experience with grid-scale battery energy storage systems (BESS) is preferred. Deep familiarity with BESS architectures, inverter topologies, DC system design, thermal management, and the regulatory and standards landscape (IEEE 2800, UL 9540, NFPA 855, NERC).
  • Requirements Engineering: Proven experience authoring, managing, and flowing down system requirements for complex electromechanical products.
  • Vendor Coordination: Experience managing technical relationships with component and subsystem vendors, including specification development, design review, and qualification testing.
  • Decision-Making Frameworks: Demonstrated use of structured qualitative decision-making methods to drive design choices in ambiguous or multi-objective environments.
  • Technical Communication: Exceptional ability to communicate complex systems engineering concepts to diverse audiences. Comfortable leading design reviews and presenting to senior leadership.

Work Environment

This role is based in Denver, Colorado or Houston, Texas, with regular travel between ON.energy offices, vendor facilities, national lab partners, and customer project sites to advance product development from concept through deployment.

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