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Battery Process Engineer Jobs in Texas (NOW HIRING)

Our innovative solutions include solar inverters, battery storage, backup systems, EV charging, and ... We are seeking a talented PCBA Process Engineer to join our manufacturing team in Austin, TX. In ...

Our innovative solutions include solar inverters, battery storage, backup systems, EV charging, and ... We are seeking a talented PCBA Process Engineer to join our manufacturing team in Austin, TX. In ...

... battery-powered appliances, network infrastructure, healthcare and aerospace/defense. Visit www ... Qorvo is seeking a talented and driven Manufacturing/Process Engineer to join our Spatium Solid ...

... battery-powered appliances, network infrastructure, healthcare and aerospace/defense. Visit www ... Qorvo is seeking a talented and driven Manufacturing/Process Engineer to join our Spatium ยฎ Solid ...

TEST ENGINEER, BATTERY DEVELOPMENT The Development Test team is responsible for testing that ... Develop innovative processes to increase testing capability and rates, while maintaining high rigor ...

TEST ENGINEER, BATTERY DEVELOPMENT The Development Test team is responsible for testing that ... Develop innovative processes to increase testing capability and rates, while maintaining high rigor ...

... battery-powered appliances, network infrastructure, healthcare and aerospace/defense. Visit www ... The Qorvo Process Development R&D team is looking for a process engineer specializing in physical ...

... battery-powered appliances, network infrastructure, healthcare and aerospace/defense. Visit www ... The Qorvo Process Development R&D team is looking for a process engineer specializing in physical ...

... battery-powered appliances, network infrastructure, healthcare and aerospace/defense. Visit www ... The Qorvo Process Development R&D team is looking for a process engineer specializing in physical ...

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Battery Process Engineer information

What does a Battery Process Engineer do?

A Battery Process Engineer is responsible for designing, optimizing, and overseeing the manufacturing processes involved in producing batteries, such as lithium-ion cells. They work to improve efficiency, quality, and safety in battery production by developing and refining procedures, selecting appropriate materials, and troubleshooting issues. Additionally, they collaborate with teams across research, development, and manufacturing to scale up new battery technologies from prototype to mass production. Their role is critical for ensuring that batteries meet performance and reliability standards required for various applications, including electric vehicles and consumer electronics.

What is the difference between Battery Process Engineer vs Battery Manufacturing Technician?

AspectBattery Process EngineerBattery Manufacturing Technician
CredentialsBachelor's degree in engineering or related field; often requires experience in process designHigh school diploma or technical certification; on-the-job training
Work EnvironmentDesigning, optimizing, and overseeing manufacturing processes in labs or production facilitiesOperating machinery and performing manual tasks on the production line
Industry UsageInvolved in process development, quality control, and process improvementFocuses on assembly, equipment operation, and quality checks

The Battery Process Engineer focuses on designing and improving manufacturing processes, requiring technical expertise and engineering credentials. In contrast, the Battery Manufacturing Technician handles day-to-day production tasks, operating equipment and ensuring product quality. Both roles are essential in battery manufacturing but differ in responsibilities, skills, and work scope.

What are some common challenges faced by Battery Process Engineers during scale-up from laboratory to production?

Battery Process Engineers often encounter challenges when translating lab-scale processes to full-scale manufacturing, such as maintaining quality and consistency in large batches, optimizing equipment for high throughput, and ensuring safety protocols with reactive materials. These professionals must troubleshoot unexpected variations, coordinate closely with multidisciplinary teams (like R&D, quality assurance, and maintenance), and refine processes to meet both performance and cost goals. Effective communication and problem-solving skills are essential for overcoming these hurdles and ensuring smooth production ramp-up.

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

To thrive as a Battery Process Engineer, you need a solid background in chemical or materials engineering, experience with battery manufacturing processes, and often a relevant engineering degree. Familiarity with process simulation software (such as AutoCAD or MATLAB), Six Sigma methodologies, and data analysis tools is typically required. Strong problem-solving abilities, attention to detail, and effective communication skills help distinguish top performers in this field. These competencies are essential to ensure efficient battery production, maintain high quality standards, and drive innovation in the rapidly evolving energy storage industry.
What job categories do people searching Battery Process Engineer jobs in Texas look for? The top searched job categories for Battery Process Engineer jobs in Texas are:
What cities in Texas are hiring for Battery Process Engineer jobs? Cities in Texas with the most Battery Process Engineer job openings:
Process Engineer

Process Engineer

SolarEdge

Austin, TX โ€ข On-site

Full-time

Re-posted 13 days ago


Job description

Description
Are you ready to power the future?
At SolarEdge (NASDAQ: SEDG), we're a global leader in smart energy technology, with over 4,000 employees, offices in 34 countries, and millions of installations worldwide.
Our innovative solutions include solar inverters, battery storage, backup systems, EV charging, and AI-based energy management. We're committed to making clean, green energy the primary power source for homes, businesses, and beyond.
With the growing demand for electricity, the need for smart, clean energy sources is constantly rising. SolarEdge offers amazing opportunities to develop your skills in a multidisciplinary environment, covering everything from research and development to production and customer supply. Work with talented colleagues, tackle exciting challenges, and help create a sustainable future in an industry that's always evolving and innovating. Join us and be part of a company that values creativity, agility, and impactful work.
We are seeking a talented PCBA Process Engineer to join our manufacturing team in Austin, TX. In this role, you will design, optimize, and sustain printed circuit board assembly manufacturing processes to improve yield, quality, throughput, and cost efficiency. You will troubleshoot production issues, define and maintain SMT and related assembly process parameters, and support the introduction of new materials, tooling, equipment, and technologies. The ideal candidate brings strong process engineering expertise, hands-on problem-solving skills, and a continuous improvement mindset to help drive robust, scalable, and high-quality manufacturing performance.
Location: Austin, TX
Duties and Responsibilities:
  • Process Optimization: Develop, document, and continuously refine PCB fabrication and printed circuit board assembly processes, including SMT, solder paste printing, component placement, reflow, wave/selective soldering, cleaning, inspection, and test-related process controls.
  • Quality and Yield Improvement: Monitor production performance, statistical process control (SPC) data, first-pass yield, defect trends, scrap, and rework rates to identify improvement opportunities and drive measurable reductions in manufacturing defects.
  • Root Cause Analysis and Troubleshooting: Lead hands-on investigation of process-related issues such as solder defects, placement errors, insufficient wetting, opens, shorts, tombstoning, bridging, contamination, delamination, and other PCBA manufacturing defects using structured problem-solving methods.
  • Process Parameters and Controls: Define, validate, and maintain critical process parameters, control plans, work instructions, and production standards to ensure repeatable, stable, and scalable manufacturing performance.
  • Documentation: Collaborate with Headquarters and cross-functional teams to create and maintain standard operating procedures (SOPs), process flow maps, manufacturing work instructions, process specifications, risk assessments, and failure mode and effects analysis (FMEA) documentation.
  • New Product Introduction (NPI): Partner with design engineering, manufacturing, quality, test, and operations teams during Design for Manufacturing (DFM) reviews to ensure new PCBAs are manufacturable, reliable, cost-effective, and scalable for production.
  • Equipment Management: Evaluate, qualify, and support implementation of new production equipment, tooling, fixtures, materials, and technologies; perform process risk assessments and establish preventive maintenance, calibration, and verification requirements.
  • Tooling and Stencil Development: Develop, review, and qualify production tooling, fixtures, pallets, carriers, and SMT stencil requirements to support manufacturability, process stability, solder paste deposition quality, and repeatable PCBA production; coordinate with suppliers and internal teams to validate tooling and stencil designs before production release.
  • Continuous Improvement: Apply Lean manufacturing, Six Sigma, and data-driven improvement methodologies to increase throughput, reduce cycle time, improve line balance, eliminate waste, and improve overall equipment effectiveness.
  • Compliance and Safety: Ensure manufacturing processes comply with internal standards, customer requirements, IPC workmanship criteria, ESD controls, environmental requirements, and applicable safety regulations.
  • Cross-Functional Collaboration: Work closely with production, quality, maintenance, supply chain, test engineering, and external suppliers to resolve manufacturing issues, support production ramp-up, and sustain high-volume PCBA operations.

Requirements
  • Education: Bachelor's degree in electrical engineering, Mechanical Engineering, Manufacturing Engineering, Industrial Engineering, Materials Engineering, or a related technical field.
  • PCBA Manufacturing Experience: Proven experience in PCB fabrication, PCBA manufacturing, SMT assembly, or electronics manufacturing process engineering in a high-volume production environment.
  • SMT Process Knowledge: Strong understanding of solder paste printing, component placement, reflow profiling, wave or selective soldering, cleaning, inspection, rework, and test-related manufacturing processes.
  • Quality and Reliability Standards: Working knowledge of IPC workmanship standards, ESD controls, quality systems, process control methods, and electronics manufacturing best practices.
  • Analytical and Problem-Solving Skills: Ability to analyze production data, SPC trends, yield performance, defect Pareto charts, and scrap or rework drivers to identify root causes and implement corrective actions.
  • Root Cause and Continuous Improvement Methods: Experience using structured problem-solving tools such as 5 Why, fishbone diagrams, 8D, DMAIC, FMEA, control plans, and Lean/Six Sigma methodologies.
  • NPI and DFM Experience: Ability to support new product introduction, manufacturing readiness, process validation, design for manufacturing reviews, and production ramp-up activities.
  • Equipment, Tooling, and Stencil Knowledge: Experience supporting production equipment, SMT stencils, fixtures, tooling, process qualification, preventive maintenance requirements, calibration needs, and equipment risk assessments.
  • Technical Documentation: Ability to create and maintain SOPs, work instructions, process specifications, process flow maps, troubleshooting guides, and manufacturing control documentation.
  • Software and Data Skills: Proficiency with Microsoft Office tools and experience using manufacturing systems, statistical analysis tools, MES/ERP systems, or data visualization tools to support process monitoring and decision-making.
  • Communication and Collaboration: Excellent communication, interpersonal, and cross-functional collaboration skills with the ability to work effectively with production, quality, test, maintenance, supply chain, design engineering, and external suppliers.
  • Adaptability: Ability to work in a fast-paced manufacturing environment, manage multiple priorities, support urgent production issues, and drive actions to closure with minimal supervision.

FAIR PAY & A JUST WORKPLACE
SolarEdge proudly seeks to build a richly diverse workforce by hiring people with a diversity of thoughts, identities, perspectives, and experiences that help advance the difference we make for consumers, and by ensuring our people experience equity and inclusion in their work lives. We encourage members of traditionally underrepresented communities to apply, including women, LGBTQIA people, people of color, and people with disabilities.