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Location: Huskvarna, Sweden (Jonsered (Gothenburg) may also be considered) Join one of the world’s oldest start-ups — and help power what comes next At Husqvarna Group, innovation has been part of the story since 1689. Today, we are reinventing how people care for forests, parks, gardens and construction environments — with robotics, battery systems, smart technologies and sustainable product platforms at the center of that journey. Our Battery Competence Center is where electrification becomes real product technology and we are now strengthening the hardware team with a Senior Hardware Designer who knows BMS development in depth. About the role This is a senior, hands-on engineering role. You will take battery subsystem requirements and turn them into robust BMS hardware solutions together with system engineers, cell specialists, software engineers and manufacturing experts Your responsibilities Derive hardware requirements from battery subsystem requirements and translate them into practical design choices. Define BMS hardware architecture and functional blocks based on system architecture, requirements, standards and certification needs. Create schematics and PCB designs in OrCAD, including symbols, footprints and production-ready documentation. Define the BMS interfaces to the battery system and contribute to the optimal EE layout of the battery design. Select electronic and electrical components with the right balance of performance, safety, availability and manufacturability. Prepare manufacturing deliverables for PCBA production and support test, troubleshooting, verification and validation. Define AFE parameters, operating modes and BMS functions in close collaboration with cell experts, system engineers and software engineers. Specify the hardware–software interface together with the software team and ensure clear, structured technical documentation. The technical landscape You will work close to the product and close to the details. The role suits someone who enjoys circuit-level problem solving, knows the trade-offs in BMS hardware, and can move naturally between architecture, schematic design, PCBA realization, verification and cross-functional decision-making. What we believe you bring BSc or MSc in Electronics, Embedded Systems, Electrical Engineering or a related field. Minimum 6 years of relevant professional experience in electronics/hardware development. Documented experience in hardware design for Battery Management Systems — this is essential. Strong experience in circuit and PCBA design and the confidence to work independently in complex designs. Hands-on experience with AFEs, MCUs and BMS-related hardware architectures. At least 3 years of OrCAD experience for schematic and PCB design. Fluent English, both spoken and written. Why join Husqvarna Group? If you are a senior BMS hardware engineer who wants ownership, technical depth and the chance to influence products at scale, we would be happy to hear from you. You will join a global innovation leader with a strong engineering culture, exciting electrification challenges, international collaboration and real opportunities to influence products used by millions of customers worldwide. Application Please submit your application as soon as possible, as we apply ongoing selection. We do not accept applications via e-mail due to GDPR regulations. Due to the holiday period, response might take longer than normal. If you aren’t chosen to proceed in the process, you will be informed of this at the latest when the position has been filled. Winning Through Culture We believe that business is ultimately about people, as a team, we win and grow together. Our culture is built on bold ideas, strong commitment, and a shared purpose, creating an environment where innovation thrives, people grow, and every contribution matters. Our culture is built on three core themes: Bold: We push boundaries, embrace challenges, and explore new possibilities. Dedicated: We put in the hard work, bring passion and resilience to every challenge we take on. Care: We support each other, consider the impact of our actions, and strive to make a lasting difference. Whether you’re starting your career or looking for the next big step, we offer a place where passion and purpose come together. Join us in shaping the future! Learn more about our culture here: https://www.husqvarnagroup.com/en/our-culture
Lunds universitet grundades 1666 och rankas återkommande som ett av världens främsta lärosäten. Här finns omkring 46 000 studenter och 8 500 medarbetare i Lund, Helsingborg och Malmö. Vi förenas i vår strävan att förstå, förklara och förbättra vår värld och människors villkor. Dina team Projektet är ett samarbete mellan MAX IV och strålröret DanMAX, BatMAX-hubben och Chalmers tekniska högskola. Tjänsten är en spännande möjlighet för en kandidat som vill arbeta i en miljö präglad av nära samarbete mellan många tätt sammankopplade team. DanMAX, som ingår i Hard X-ray Group vid MAX IV, är ett strålrör inom materialvetenskap som specialiserar sig på X-ray diffraction och full-field imaging tekniker. Strålröret har bred användargrupp, som spänner från fysik och kemi till medicinsk vetenskap. En betydande del av användarbasen bedriver forskning om batterier och batterimaterial. Denna NanoCT-tjänst är knuten till Division of Materials Physics (prof. A. Matic) vid Institutionen för fysik och astronomi vid Chalmers tekniska högskola, som har ett starkt forskningsfokus på nästa generations kemiska sammansättningar och operando-karaktärisering av batterier med hjälp av X-ray imaging och spektroskopi. Batteries@Chalmers samlar >99 forskare vid sex institutioner för att utveckla utbildning, forskning och infrastruktur inom batteriteknik. Det bedrivs omfattande forskning om material, cellkoncept, tillverkning, batteristyrning, övervakning och åldrande, livscykelanalys samt återvinning. Projektet Projektet kommer att bedrivas inom BatMAX-hubben vid MAX IV, som är ett konsortium bestående av fyra universitet (Chalmers, Lund, Uppsala och Århus), vilka kommer att samarbeta nära för att ta itu med utmaningar kopplade till natriumjonbatterier i fast tillstånd genom sex veckors stråltid per år fördelat på sex olika strålrör. BatMAX-hubben är kopplad till Battery Matrix, en intern grupp vid MAX IV som möjliggör samarbete över hela laboratoriet inom batteriforskning. Denna postdoktorstjänst kommer att spela en aktiv roll i aktiviteter som spänner över flera strålrör, både genom BatMAX-hubben och Battery Matrix. Tjänsten är en av tre postdoktorstjänster knutna till BatMAX-konsortiet, var och en med olika inriktning, som kopplar samman universitetsgrupperna med MAX IV. Tjänsterna finansieras genom det nationella strategiska initiativet COMPEL, som syftar till att stärka batteriforskning och utbildning i Sverige. NanoCT har demonstrerats vid DanMAX, men befinner sig fortfarande i ett utvecklingsstadium som inte är klart för användare utan expertkunskaper. Målet med projektet är att utveckla både det tidigare demonstrerade X-ray mikroskopläget och holotomografiläget. Detta innefattar utveckling av programvara för experimentell styrning, fasåtervinning och rekonstruktion. Det kommer även att omfatta utveckling av bästa praxis för nanoCT på batterier, med särskilt fokus på att minimera strålningsskador och möjliggöra in operando-nanoCT. MAX IV och BatMAX-konsortiet söker en postdoktor som ska: leda utvecklingen av nanodatoriserad tomografi (nanoCT) vid strålröret DanMAX i nära samarbete med Matic-gruppen vid Chalmers. delta vetenskapligt och tekniskt i BatMAX-projektet i samarbete med konsortiet. delta i Battery Matrix, särskilt i projekt som spänner över flera strålrör. Dina huvudsakliga arbetsuppgifter kommer att vara att: arbeta vid DanMAX-strålröret. Mer specifikt att leda utvecklingen av nanoCT som en praktiskt användbar teknik vid DanMAX. delta i driften av strålröret, dvs. användarsupport samt underhåll av hårdvara och mjukvara. utveckla experimentell forskning som utnyttjar nanoCT för batteriforskning. delta i BatMAX-konsortiet, inklusive planering av stråltider, genomförande av experiment, analys av resultat och författande av vetenskapliga artiklar. För att bli framgångsrik i denna roll krävs att du har följande kvalifikationer: Doktorsexamen i kemi, fysik eller ett närliggande ämne. Dokumenterad erfarenhet av röntgenavbildningstekniker, t.ex. µCT, nanoCT, TXM eller liknande. Erfarenhet av datorprogrammering för dataanalys, t.ex. Python. Bevisad förmåga att arbeta både självständigt och i team. Utmärkta kunskaper i engelska samt god kommunikations- och samarbetsförmåga. Följande ses som meriter: Erfarenhet av X-ray optics för imaging. Erfarenhet av experiment vid synkrotron- och/eller neutronkällor. Erfarenhet av och god förståelse för elektrokemiska processer, inklusive batterier. Kunskap om solid-state och/eller natriumjonbatterikemi. Erfarenhet av användarsupport vid användarfaciliteter. För annonsen i sin helhet och ansökan, besök: https://lu.varbi.com/se/what:job/jobID:943542/
Produktionsoperatör – Var med och bygg framtidens batteriteknik Vill du vara med och tillverka nästa generations batterier och bidra till den gröna omställningen? Vanadis Energy utvecklar framtidens energilagring genom banbrytande batteriteknik. Vår egenutvecklade vanadium solid-state battery (VSSB) representerar en ny generation säkra och högpresterande energilagringssystem med en tillverkningsmodell som möjliggör snabb global uppskalning. Parallellt utvecklar vi även innovativa zinkjonbatterier för en rad olika användningsområden. Nu söker vi flera Produktionsoperatörer till vår anläggning i Rosersberg. Hos oss får du möjlighet att vara med från början och bygga upp en modern batterifabrik tillsammans med engagerade kollegor från hela världen. Om rollen Som Produktionsoperatör blir du en viktig del av vårt produktionsteam. Du arbetar praktiskt med tillverkning, montering och testning av battericeller samt bidrar till att säkerställa hög kvalitet, säkerhet och effektivitet. Vi erbjuder en varierad roll där du arbetar nära både produktion och ingenjörer i en innovativ miljö där ständiga förbättringar är en naturlig del av vardagen. Arbetsuppgifter I rollen kommer du bland annat att: Operera och övervaka produktionsutrustning. Montera, tillverka och testa battericeller och batterikomponenter. Hantera material, komponenter, verktyg och färdiga produkter enligt fastställda rutiner. Utföra kvalitetskontroller och dokumentera produktionsresultat. Förbereda, ställa om och rengöra produktionsutrustning samt utföra enklare felsökning. Bidra till en säker, välorganiserad och effektiv arbetsplats enligt 5S-principerna. Rapportera avvikelser, förbättringsförslag och säkerhetsobservationer. Samarbeta med kollegor och stötta olika delar av produktionen vid behov. Vi söker dig som Har ett stort intresse för teknik och tillverkning. Är noggrann, ansvarstagande och kvalitetsmedveten. Trivs med praktiskt arbete och tycker om att arbeta i team. Har ett högt säkerhetstänk och följer instruktioner och rutiner. Är flexibel och har lätt för att anpassa dig i en växande verksamhet. Har goda kunskaper i engelska. Svenska är meriterande. Erfarenhet från tillverkningsindustri, processindustri eller annan producerande verksamhet är meriterande men inget krav. Vi erbjuder Hos Vanadis Energy blir du en del av ett företag som utvecklar framtidens energilösningar. Du får arbeta med modern teknik i en internationell miljö där innovation, samarbete och utveckling står i centrum. Vi erbjuder en arbetsplats där du får möjlighet att utvecklas tillsammans med företaget och vara med på en spännande tillväxtresa inom batteriindustrin.
TRATON is a group of strong brands with a shared mission: transforming transportation together to create the future of sustainable transport solutions. Within TRATON, we include MAN, Scania, Volkswagen Truck & Bus, and International. As part of a global team of industry experts, you get to think bigger, experience more, and reach further. Together, we have the power to transform transportation - Let´s make a difference together. Find out more: www.traton.com Our values – customer first, respect, team spirit, responsibility, and elimination of waste – are at the heart of everything we do. Role Summary The Electrification Battery Test Team is seeking motivated engineers ready to embrace new challenges. Are you interested in joining this team and contributing to the shift towards sustainable transportation solutions? Electrification is more exciting than ever! The demand for competitive and environmentally conscious transport solutions is rapidly growing. Scania has made substantial investments in battery testing capabilities, focusing on performance and lifespan testing. This investment enables us to meet the needs of our customers and society as a whole. We are currently looking for a motivated, agile, and analytical engineer to join our team and contribute to data analytics for test data. Job Responsibilities In this role, you will strengthen our team's capabilities in module testing data analytics. Your responsibilities will include: Processing and managing large-scale raw time-series data from battery testing. Extracting and developing performance KPIs to assess battery degradation, efficiency, and longevity. Automating data pipelines and improving analytical methods for deeper insights. Assessing correlations among different sample iterations and tests conducted at various levels, including cell and pack testing. Maintaining continuous communication with test stakeholders is crucial, as effective knowledge transfer relies on strong written and verbal communication skills Actively collaborating on enhancing our methods, fostering a culture that welcomes fresh ideas and approaches. Who You Are We believe that diversity is key to our success! You likely possess a master's degree in an analytical field such as Engineering, Data Science, Physics, or a similar discipline. You have engineering experience in data analytics, ideally within the automotive industry or a laboratory setting. A robust analytical mindset and the ability to manage and prioritize tasks effectively are essential. You should have strong programming skills, preferably in Python, SQL, and data processing libraries like Pandas, NumPy, and Spark. A passion for data visualization and hands-on experience with time series data analysis, performance monitoring, and KPI extraction are highly valued. In your daily interactions, you show respect for your colleagues' contributions while also presenting your own carefully analyzed findings We welcome applicants from all backgrounds – your unique experience and perspectives is valuable to us. This Is Us Our team consists of individuals with diverse skill sets and backgrounds, working together to create a winning combination. We value open dialogue and our mission is to extract knowledge from the tests we conduct through analysis, curiosity, and discussion. Our responsibilities in the Battery cell and module testing team encompass testing batteries from single cells to sub-pack levels. We take full ownership of the testing process, conducting most of it in our state-of-the-art laboratories. Within TRATON Group R&D, you are an important part of something bigger. Joining us means gaining access to the ins and outs of the entire transportation industry. TRATON Offers We offer a dynamic and engaging workplace where collaboration, innovation, and continuous improvement are part of everyday life. You will be part of a strong team environment that encourages knowledge sharing and close cooperation across functions. With a structured development plan and a wide range of training opportunities, TRATON Group R&D supports your professional growth both locally and internationally. Benefits include access to our health center in Gröndal or a wellness allowance, bonus, flexible working hours, and company car leasing. We also arrange events for employees and their families, and for those living in Stockholm, convenient commuting is supported through direct Scania Job express buses to Södertälje. Application We look forward to receiving your application, consisting of your CV and kindly ask you not to share a cover letter to ensure an efficient and unbiased recruitment process for all parties. Apply as soon as possible, no later than 2026-07-17. Screening will take place on an ongoing basis during the application period. Logical and personality tests may be used as part of the selection process, and a background check may be required for this role.
At AQ Engineering we are looking for an experienced System Engineer that has the capability to work with several types of products and solutions. Our internal projects vary from Battery systems, Defense projects, Electrification and other products requiring system and electrical solutions. Would you like to be part of a dedicated R&D team driving this forward? All this while leveraging the strength of AQ Group, with deep expertise in industrialization and production capabilities worldwide. You will join a dynamic team with a great mix of ages, backgrounds, expertise, and skill areas. The role is based at one of our offices in Västerås, Gothenburg or Trollhättan. Why You Are Right for This Role You have good knowledge of building systems with microcontrollers, I/O:s, Power electronics (DC/DC), Battery backups and integrating other sensors and accessories. It’s beneficial if you have experience of developing Battery systems and similar Electrical systems related to Design, Product development, Electrical, Software, Embedded, System design or Testing. It’s beneficial if you have knowledge of the components of a battery system, such as BMS, cells, electrical components, software, safety, design, and their various functions and usage. You are experienced and self-going and can navigate technical discussions with requirements and specifications. You are a positive and engaged individual and motivated to work with a team of skilled individuals. You like to have fun at work and enjoy social activities with team colleagues. You have a strong interest in technology and are eager to learn. You are responsible, solution-oriented, systematic, and capable of taking the initiative. You are fluent in both Swedish and English. You hold an engineering degree (Master, Civilingenjör or Högskoleingenjör) in a relevant field. Why AQ Engineering? Challenging Projects: AQ is in a growth phase and works on assignments in industries such as defense, automotive, energy storage, and e-mobility. Being part of AQ allows you to develop future-oriented products. Simplicity and Entrepreneurship: AQ believes in solving complex problems in straightforward ways, enabling smart solutions and quick decisions. Here, initiative, creativity, and courage are encouraged, and you can drive your own work and shape your future. Global Network and Collaboration: As part of AQ Engineering, you gain access to AQ Group’s 50 factories and over 9,000 colleagues worldwide. Tailored Competence Development Plan: AQ invests in employees’ development through tailored competence development plans, allowing you to grow in your field, expand your skillset, and prepare for future challenges. Team Activities: AQ promotes a strong team spirit by organizing joint workouts, activities, and after-work events. Generous Wellness Grant: AQ Engineering values employees' health by offering a generous wellness grant. We look forward to welcome you to the AQ Engineering family! We process applications continuously and encourage you to submit your application as soon as possible. Contact Information: Malin Almström Malin.almstrom@aqgroup.com
The Senior Engineer of Material Development will lead the evaluation, analysis, and optimization of Li battery cells and related materials. This role involves providing technical leadership, guiding junior engineers, and ensuring the successful execution of evaluation activities that support both R&D and commercial cell development. The position requires a deep understanding of material behaviour, electrochemical performance, and cell integration to drive continuous improvement in product performance and reliability. Key Responsibilities Overall areas of responsibilities and activities Key responsibilities include (but are not limited to) Lead and oversee material and cell-level evaluation activities, including electrochemical performance testing, material characterization, and failure analysis. Develop and refine evaluation methodologies, standard test protocols, and data analysis frameworks to ensure consistency and technical rigor. Interpret complex analytical and electrochemical data to identify key performance drivers and recommend technical improvements. Provide technical guidance and mentorship to junior engineers and assist in the prioritization and execution of project tasks. Collaborate closely with cross-functional teams—cell design, process engineering, and quality assurance—to align evaluation results with design and manufacturing objectives. Manage multiple evaluation tasks or projects, ensuring timely delivery of high-quality results and documentation. Contribute to long-term strategy and roadmap development by identifying material or process-related risks and opportunities for improvement. Communicate findings effectively to management and R&D stakeholders through reports, reviews, and technical presentations. Stay updated on advancements in Li battery technology, materials science, and analytical techniques, and apply relevant insights to ongoing projects. Requirements Educational background and previous experience required for the role Qualifications and Experience BSc or higher degrees in Chemical/Material/Electrical Engineering, and Chemistry. Extensive experience in Li battery evaluation, materials analysis, or related R&D areas. Preferably 5+ years industrial experience. Proven expertise in electrochemical analysis, material characterization, and data-driven problem solving. Strong leadership, mentoring, and communication skills with the ability to coordinate multi-functional teams. Capable of translating analytical findings into actionable engineering insights and project recommendations. High level of self-direction, accountability, and technical judgment in complex problem-solving scenarios. Specific skills Advanced analytical capability in using EIS, GITT, GCPL, and high-precision cycling methods. Experience with material analysis tools (SEM/EDS, XPS, ICP, TGA/DSC). Ability to design experiments and establish evaluation protocols. Strong statistical and data interpretation skills for performance trend analysis. Skilled in using data visualization and statistical analysis software. Personal success factors Strong ownership of tasks and ability to work independently. Proactive approach to identifying and solving technical issues. Clear and persuasive communication across functions. Commitment to mentoring and sharing technical knowledge. Balanced focus on both immediate problem-solving and process improvement.
The Senior Cell Design Engineer will lead the design and development of current and next-generation lithium-ion battery cells, supporting both product innovation and customer programs. The role is responsible for defining cell design strategies, executing development projects, and driving technical solutions from concept to commercialization Key Responsibilities Overall areas of responsibilities and activities Lead the design and development of lithium-ion battery cells for ESS, EV, and other applications. Develop and optimize cell architecture, electrode design, and material selection to achieve performance, energy density, lifetime, and cost targets. Define development strategies and DOE to support cell development and validation activities. Evaluate cell performance, reliability, and manufacturability through testing, analysis, and data-driven development. Support scale-up activities and ensure design compatibility with manufacturing processes. Lead technical development projects and coordinate cross-functional activities across R&D, manufacturing, quality, and program teams. Serve as the primary technical interface for customers and support customer development programs from concept to qualification. Drive battery development roadmaps and deliver project milestones aligned with customer and business requirements Requirements Educational background and previous experience required for the role Qualifications and Experience • PhD or MSc in chemical engineering/Electrochemistry/chemistry/material science and engineering • Minimum 3 years of experience in the automotive industry. • Minimum 8 years of experience in lithium-ion battery cell design and development • Extensive experience on cell design and development of Li-ion cells • Extensive experience in battery prototyping, validation, and scale-up activities • Working knowledge of lithium-ion battery manufacturing and mass production processes • Working experience with OEM project for Li-ion battery cell/module business • Experience leading technical activities for customer-facing development programs • Strong background from technical culture and proven engineering excellence Specific skills Strong knowledge of lithium-ion battery materials, electrode design, and cell architecture. Experience with DOE, statistical analysis, and data-driven development methodologies. Excellent project management and technical problem-solving skills. Strong communication skills in English, both written and verbal. Ability to work effectively under tight timelines and changing priorities. Personal success factors Strong leadership and decision-making skills. Ability to drive technical development activities and deliver project milestones. Excellent collaboration and stakeholder management capabilities. Results-oriented mindset with a focus on quality and execution. Strong analytical and problem-solving skills. Ability to thrive in a fast-paced, international environment
Lyten Sweden is seeking a professional Senior Battery Simulation Engineer o join our R&D organisation in Västerås. The Senior Battery Simulation & Modelling Engineer will develop and validate advanced simulation models for battery cells, including performance, degradation, thermal, swelling, and mechanical behaviour. The role supports current NMC products, future battery chemistries, and customer-facing simulation solutions. Key Responsibilities Key responsibilities include (but are not limited to) Battery Model Development Develop and maintain simulation models for battery cells, supporting current chemistry products and next-generation chemistries. Performance Modeling Develop and validate performance models, including ECM-based approaches, to predict battery behavior and support BMS applications. Lifetime & Degradation Modeling Develop and calibrate lifetime prediction models to accurately estimate battery aging, performance degradation, and end-of-life behavior. Thermal Modeling Develop 3D thermal simulation models to predict temperature distribution and support thermal management optimization. Swelling & Mechanical Modeling Develop swelling and mechanical models to predict cell expansion, deformation, and structural behavior throughout battery life. Safety & Venting Simulation Develop simulation models for vent deformation and pressure-related mechanical behavior to support battery safety assessments. Validation & Model Correlation Parameterize, validate, and continuously improve simulation models using experimental and product validation data. Customer Model Delivery Deliver validated simulation models to customers and provide technical support for performance, lifetime, thermal, and mechanical analyses. Cross-Functional Collaboration Work closely with cell design, materials, testing, and customer teams to support battery development and commercialization programs. Requirements Educational background and previous experience required for the role. Qualifications and Experience Bachelor or higher in Electrochemistry/chemistry/material/mechanical or a related discipline 8+ years of experience in lithium-ion battery development and modeling. Strong industrial experience supporting automotive, ESS, or other advanced battery programs. Proven experience developing simulation models for rechargeable battery systems. Experience working directly with OEM customers and customer-facing engineering projects. Experience with prismatic cell development is highly preferred. Specific skills Strong expertise in electrochemical, thermal, degradation, swelling, and mechanical battery modelling. Proficiency in MATLAB/Simulink, Python, COMSOL Multiphysics, LS-DYNA, and ANSYS simulation tools. Experience in model parameterization, validation, optimization, and correlation with experimental data. Knowledge of multi-physics simulation and battery safety analysis is highly desirable. Personal success factors Strong technical leadership, problem-solving, and analytical skills. Ability to work independently and drive complex projects in a dynamic environment. Excellent communication and collaboration skills across teams and customers. Results-driven mindset with a focus on engineering quality and delivery Preferred Experience Experience with prismatic lithium-ion batteries and advanced chemistries (NMC, NMX, Li-S). Knowledge of battery safety, thermal, mechanical, and venting behavior. Experience in multi-physics simulation, digital twin, or cell-to-pack modeling. Experience delivering simulation models for customer applications or BMS development.
Lyten Sweden is seeking experienced supplier quality engineer. In this role you will be responsible for leading supplier quality activities across Lyten’s global supply base—covering cathode active materials (CAM), graphite, copper foil, separator, electrolyte, and mechanical parts—to qualify, develop, and sustain a world-class supplier panel. Working within Lyten’s Supplier Onboarding Management (SOM) and Nonconformity Management (NCM) framework, the role spans the full lifecycle from Potential Supplier Assessment through Safe Launch exit and into ongoing performance management. Based at Lyten’s office in Västerås with frequent travel to the mass-production plant in Skellefteå and to global supplier sites. Reporting to the Senior Manager, Supplier Quality. Key Responsibilities Lead supplier onboarding from nomination through Safe Launch exit: Potential Supplier Assessment (PSA), APQP gate reviews (G0–G5), PPAP/SPAR evaluation, and Run@Rate capacity verification Conduct VDA 6.3 process audits and IATF 16949 / ISO 9001 quality system audits at global supplier sites; manage all findings through to documented, verified closure Own the nonconformity lifecycle: classify incoming nonconformities (CC, SC, Standard), coordinate 24-hour IQC containment, drive 8D problem-solving, evaluate supplier 8D quality, and apply Controlled Shipping Levels (CSL1/CSL2/CSL3) where warranted Monitor and report supplier KPIs (PPM, Cpk/Ppk, OTD, audit score) through structured scorecards and periodic business reviews; escalate negative trends and initiate Supplier Improvement Plans (SIP) where required Review and approve supplier PPAP packages (PSW, PFMEA, Control Plans, MSA, capability studies) to Lyten’s acceptance criteria; issue Part Submission Warrants and maintain PPAP status through the SOM tracker Track Cost of Poor Quality (COPQ) in the NCR system and coordinate chargeback recovery with Purchasing Translate customer-specific requirements (CSRs) and Critical/Significant Characteristics (CC/SC) into supplier quality agreements and IQC acceptance criteria Assess and process supplier change requests and deviation requests (CR/DR; evaluate quality risk before any approval is granted Serve as the primary technical liaison between Lyten Production Quality, Procurement, and R&D for all supplier-facing quality topics Author and continuously improve SQE processes, work instructions, and templates Represent Lyten Quality in supplier technical reviews, cross-functional launch meetings, and external audit contexts as required Perform other tasks as assigned by the Senior Manager Supplier Quality Requirements Educational background and previous experience required for the role BSc or MSc degree in Chemistry, Materials Science, Chemical Engineering, Physics, or a related engineering discipline Qualifications and Experience ISO 9001 Lead Auditor certification with a minimum of 5 years’ post-certification supplier auditing experience (mandatory) Minimum 5 years’ hands-on Supplier Quality Engineering experience in battery cell, automotive, aerospace, or related precision manufacturing industries Proficiency in AIAG core quality tools: APQP, PPAP, FMEA (AIAG-VDA), MSA, SPC, and 8D structured problem-solving VDA 6.3 Process Auditor (P2/P3) certification or equivalent process audit experience at battery or automotive suppliers; VDA 6.3 certification is a strong advantage Working knowledge of IATF 16949 requirements; IATF 16949 Lead Auditor certification is a plus Solid command of statistical quality methods: process capability (Cpk/Ppk), SPC control charts, and measurement system analysis (MSA/GR&R) Proven track record managing multiple concurrent supplier qualification programmes from nomination through Safe Launch exit and into volume production Specific skills & Knowledge Excellent English written and oral communication skills Strong analytical mindset: able to distil supplier quality data into concise management reporting and actionable corrective-action direction Confident, methodical auditor: experienced at structured interviewing, objective finding documentation, and driving findings to verified closure Commercially aware: understands Cost of Poor Quality (COPQ) implications and drives systematic value recovery through the NCM process Highly organized; able to priorities effectively across a global, multi-commodity supplier base under competing deadlines without losing rigor Proactive and self-directed; comfortable working in a scale-up environment where processes are still being defined and refined Effective cross-cultural communicator; builds trust and drives action across diverse supplier organizations, internal functions, and seniority levels Prepared for frequent international travel, including to supplier sites in Europe and Asia and regular visits to Lyten’s production plant in Skellefteå
Job Scope High level purpose of function. The Senior Cell Design Engineer will play a key role in the cell development of the Li-S battery. You will be in charge of setting up and executing the long-term Cell development project reporting to director of Li S cell development. Key Responsibilities Overall areas of responsibilities and activities Developing lithium-ion batteries for Energy Storage, Electric Vehicles, and other applications Developing and Improvement basic cell system design for lithium-Sulfur battery Evaluating the basic physical property and the fundamental performance of Electrode Cell system design included support and managing the R&D Labs scale. Process concept and investigate included support and managing the R&D Labs scale. Leading cell development project in Li/S cell design team Setting up the development strategy and DOEs Technical lead for internal development with internal stakeholder. Technical counter-part of customer and execution customer project. Accountability/Authorization Budget responsibility: No Direct reports: No Work environment responsibility: No Requirements Educational background and previous experience required for the role Qualifications and Experience PhD or MSc in chemical engineering/Electrochemistry/chemistry/material science and engineering More than 3 years experiences on the automotive business More than 8 years of practical experience from Li-ion and Li-S battery cell development Extensive experience on cell design and development of Li-ion and Li-S cells Extensive experience on large-scale battery fabrication and validation Experience on Li-ion and Li-S battery manufacturing and mass production Working experience with OEM project for Li-ion and Li-S battery cell/module business Extensive experience on managing the technical team for customer project Strong background from technical culture and proven engineering excellence Specific skills Excellent English written and oral skills. Ability to work under high pressure and tight deadlines, excellent time management. Ability to work well with others in a team environment, as well as independently. Passionate & purpose driven. Personal success factors Ability to work well with others in a team environment, as well as independently Leadership to lead development organization and ability to manage timeline and target Strong managing skill to lead the team members for a technical and relationship matter Achieve both customer sample milestone and requirement specification Ability to work in a high profile and often high-pressure international environment Problem solving skills with appropriate tools
Lyten is leading an industrial revolution through Lyten 3D Graphene™, a breakthrough supermaterial unlocking a new generation of products — from lithium–sulfur batteries and energy storage systems to concrete admixtures, lightweight composites, and next-generation sensors that are revolutionizing industries. Together, these innovations are making a massive global improvement and driving real-world impact across energy, mobility, construction, and defense. Lyten is now seeking Material Development Engineer. You will be responsible for technical activities related to the evaluation and analysis of Li battery cells and associated materials. The position focuses on supporting the development, optimization, and validation of materials and components to ensure reliable performance in both commercial and R&D cell projects. Key Responsibilities Conduct material characterization, electrochemical testing, and performance evaluation of Li battery cells and related components. Analyze test data to assess material behaviours, degradation mechanisms, and cell performance trends. Support design and process optimization efforts to improve cell performance, safety, and manufacturability. Perform failure analysis to identify root causes of performance deviations and propose corrective actions. Collaborate with cross-functional teams—including cell design, process, and quality groups—to ensure consistent material evaluation standards and test methodologies. Prepare technical documentation, data summaries, and reports to support engineering decisions and project reviews. Stay informed on advancements in Li battery materials, analysis techniques, and relevant industry standards. Execute assigned evaluation and analysis tasks in consultation with senior engineers and contribute to achieving project milestones. Qualifications and Experience BSc or MSc in Chemical/Material/Electrical Engineering, and Chemistry. Experience and good understanding in evaluation, testing, or analysis of Li battery cells or related materials. Proficiency in analytical and electrochemical testing methods (e.g., EIS, charge/discharge cycling, material characterization). Strong analytical and problem-solving skills, with attention to data integrity and reproducibility. Effective communication and collaboration skills within a multidisciplinary R&D environment. Specific skills Hands-on experience with electrochemical testing (charge/discharge, EIS, CV). Proficiency in data analysis tools (Excel, Origin, Python preferred). Familiarity with material characterization techniques (XRD, SEM, ICP). Understanding of laboratory QA/QC principles. Ability to follow established test protocols with precision and consistency. At Lyten, we believe the most meaningful careers begin with purpose — and with people who want to make a difference. We’re not just developing advanced supermaterials — we’re about to change the world as we know it, reshaping how energy is stored, how products are built, and how progress is made. We’re entering an exciting growth phase, scaling production across the U.S. and Europe and expanding our team of engineers, scientists, and innovators. Apply now to join our team and be part of something bigger than yourself — where collaboration, creativity, and purpose come together to build the technologies that will define the next century.
Job Scope High level purpose of function. A Senior Automation Engineer in a cell manufacturing company plays a key role in developing, optimizing, and maintaining automated production systems to ensure safe, reliable, and efficient operations. They are responsible for programming, troubleshooting, and improving PLCs, robots, and other automated equipment, supporting both new production line installations and ongoing process improvements. The role also includes ensuring accurate data transfer, system connectivity, and smooth communication with cloud platforms to enable traceability, analysis, and digital integration. Close collaboration with production, engineering, and maintenance teams is required to identify and implement solutions that improve quality, throughput, and equipment uptime. A strong focus is placed on continuous improvement, safety, and scalability to meet the growing demand for electric vehicle battery production. Key Responsibilities Overall areas of responsibilities and activities Participate in HAZOP sessions and ensure compliance with process safety, operational safety, and environmental standards relating to equipment control and programming. Responsible for the FATs of the equipment (Project timeline dependent). Lead automation system integration during equipment commissioning (Project timeline dependent). Develop the automation systems that are to be implemented in the production and logistics equipment in the factory as well as the relevant specifications and documentation. Author and review engineering design documentation (Specifications, Functional design, Logic diagrams, Test Cases, Test Records). Train and mentor new engineers, and educate other support functions on process control. Code review and test of suppliers work within the projects to validate specified functionality and to ensure the quality and reliability of the data transferred from the equipment to the upper level systems. Participate in R&D activities for piloting of new technologies and their suitability to production environments. Define and improve the factory blueprint, general specifications and ways of working in collaboration with the extended automation and digitalization teams. (Project timeline dependent). Contribute to technical improvements, development and optimization of software processes internally in the automation team The role requires regular presence on the production floor. Develop and maintain automation programming standards Complete supplementary tasks as seen fit by management to effectively utilize time and resource for the benefit of the business. Guide and mentor colleagues to industrial best practices, focussing on growth and development. Requirements Educational background and previous experience required for the role Qualifications and Experience Masters Degree in Electronics, Mechatronics, Electrical, Automation, Robotics, Software Engineering or similar. Minimum of 7 years of relevant work experience within Industrial Automation in process-driven or discrete manufacturing industries such as: Battery Cell, Automotive, Chemical, Paper, Semiconductors, Pharma, Food, Warehouses, etc. Experience of working with sensors, instrumentation, servo drives and motion technology. Experience with PLC, SCADA, vision systems and CCD cameras and software, OPC connectivity and MES interfaces, especially using Siemens and/or Beckhoff systems. Experience with industrial communication protocols and network architecture including design of control systems architecture and PLC code delivering the desired system functionality. Experienced continuous improvement and root cause analysis. Experience in writing technical documentation (Requirement specifications, Functional design, UML, Test Cases, Test Records). Specific skills Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of cybersecurity best practices for manufacturing systems. Highly autonomous with a proactive mindset and work ethic. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Experience in coaching, upskilling, and mentoring engineers or technicians, with a demonstrable commitment to developing the technical capability of others within a production environment. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Job Scope High level purpose of function. An Automation Engineer in a cell manufacturing company plays a key role in developing, optimizing, and maintaining automated production systems to ensure safe, reliable, and efficient operations. They are responsible for programming, troubleshooting, and improving PLCs, robots, and other automated equipment, supporting both new production line installations and ongoing process improvements. The role also includes ensuring accurate data transfer, system connectivity, and smooth communication with cloud platforms to enable traceability, analysis, and digital integration. Close collaboration with production, engineering, and maintenance teams is required to identify and implement solutions that improve quality, throughput, and equipment uptime. A strong focus is placed on continuous improvement, safety, and scalability to meet the growing demand for electric vehicle battery production. Key Responsibilities Overall areas of responsibilities and activities. Key responsibilities include (but are not limited to) Participate in HAZOP sessions and ensure compliance with process safety, operational safety, and environmental standards relating to equipment control and programming. Responsible for the FATs of the equipment (Project timeline dependent). Lead automation system integration during equipment commissioning (Project timeline dependent). Develop the automation systems that are to be implemented in the production and logistics equipment in the factory as well as the relevant specifications and documentation. Author and review engineering design documentation (Specifications, Functional design, Logic diagrams, Test Cases, Test Records). Train and mentor new engineers, and educate other support functions on process control. Code review and test of suppliers work within the projects to validate specified functionality and to ensure the quality and reliability of the data transferred from the equipment to the upper level systems. Participate in R&D activities for piloting of new technologies and their suitability to production environments. Define and improve the factory blueprint, general specifications and ways of working in collaboration with the extended automation and digitalization teams. (Project timeline dependent). Contribute to technical improvements, development and optimization of software processes internally in the automation team. The role requires regular presence on the production floor. Develop and maintain automation programming standards. Complete supplementary tasks as seen fit by management to effectively utilize time and resource for the benefit of the business. Requirements Educational background and previous experience required for the role Qualifications and Experience Bachelors degree in Electronics, Mechatronics, Electrical, Automation, Robotics, Software Engineering or similar. Minimum of 3 years of relevant work experience within Industrial Automation in process-driven or discrete manufacturing industries such as: Battery Cell, Automotive, Chemical, Paper, Semiconductors, Pharma, Food, Warehouses, etc. Experience of working with sensors, instrumentation, servo drives and motion technology. Experience with PLC, SCADA, OPC connectivity and MES interfaces, especially using Siemens and/or Beckhoff systems. Experience with industrial communication protocols and network architecture including design of control systems architecture and PLC code delivering the desired system functionality. Experience in writing technical documentation (Requirement specifications, Functional design, UML, Test Cases, Test Records). Experienced in continuous improvement and root cause analysis. Specific skills & Knowledge Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of cybersecurity best practices for manufacturing systems. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Job Scope Why does the role exist? High level purpose of function. The Senior Manufacturing Engineer plays a key role in process equipment commissioning, production ramp-up, and full-scale manufacturing within a battery cell production facility. They ensure smooth start-up of production lines, optimize manufacturing processes, and lead continuous improvement initiatives to maximize process yield, equipment availability, and overall production performance. This role combines hands-on equipment commissioning experience, cross-functional collaboration, and technical expertise to deliver safe, efficient, and high-quality battery cell production. A Senior Manufacturing Engineer is responsible for all aspects of their process machine including technical functionality, how personnel interact with it, what maintenance activities are recommended and what crucial spares are required. Key Responsibilities Overall areas of responsibilities and activities Key responsibilities include (but are not limited to) Participate in HAZOP (Hazard & Operability Study) sessions and ensure compliance with process safety, operational safety, and environmental standards. Promote a culture of safety, quality, and operational excellence throughout production and commissioning activities. Lead process equipment commissioning, including cold and hot commissioning on-site during start-up or restart projects. (Project timeline dependent) Facilitate smooth transitions from commissioning to production ramp-up and full-scale manufacturing. (Project timeline dependent) Translate lessons learned into design and process improvements for future expansions. Monitor, analyze and improve production KPIs, including yield, availability, and performance. Identifying top losses, production bottlenecks, and performance gaps to drive corrective actions and continuous improvement initiatives. Lead root cause analysis (RCA) for equipment-related losses, minor stops, and process deviations. Define, release, and maintain manufacturing process standards and operator training programs. Train and mentor new engineers, operators and other support functions. Prepare, review, and approve documentation including (but not limited to WI, PFMEAs, commissioning checklists, project timelines, A3s). Provide technical feedback and guidance to suppliers to ensure equipment quality, compliance with specifications, and CE standards. Develop and issue DOEs (Design of Experiments) and schedule process and equipment trials onsite and at supplier sites (if required). Deliver a line capable of obtaining PPAP approval, following a structured quality gate model. Guide and mentor colleagues to industrial best practices, focusing on growth and development. Complete supplementary tasks as seen fit by management to effectively utilize time and resource for the benefit of the business. This role requires regular presence on the production floor. Requirements Educational background and previous experience required for the role Qualifications and Experience Master's degree in mechanical, electrical, or chemical engineering. Minimum of 7 years of relevant work experience in production, equipment, or engineering-related roles. Proven track record of leading manufacturing process improvements and production optimization in a factory environment following recognised project management techniques. Experience in building and scaling production in a fast-growing environment, ideally within the battery, food, pharma, paper & pulp, semiconductor, electrochemical, or similar industries. Hands-on experience and interest in equipment commissioning, troubleshooting, and optimisation. Proficient in detailed root cause analysis, structured problem-solving methodologies and continuous improvement. Familiarity with quality assurance troubleshooting tools. Experience working to industry standards obtaining certification including ISO, IATF &VDA. Experience with statistical process control and process capability analysis. Experience working with preventive maintenance strategies and Total Productive Maintenance (TPM) concepts within a production environment. Experience in spare part prioritisation and stock optimisation, balancing equipment availability with cost efficiency. Specific skills & Knowledge Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of OEE (Overall Equipment Effectiveness) metrics and their application in production environments. Knowledge of lean manufacturing principles and six sigma methodologies. Highly autonomous with a proactive mindset and work ethic. Strong technical curiosity, analytical mindset, and business-oriented problem-solving skills. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Proficient in the use of a Computerised Maintenance Management System (CMMS) for work order management, equipment data, and maintenance reporting. Experience with Microsoft Dynamics 365 is advantageous. Experience in coaching, upskilling, and mentoring engineers or technicians, with a demonstrable commitment to developing the technical capability of others within a production environment. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Job Scope Why does the role exist? High level purpose of function. The Senior Manufacturing Engineer plays a key role in process equipment commissioning, production ramp-up, and full-scale manufacturing within a battery cell production facility. They ensure smooth start-up of production lines, optimize manufacturing processes, and lead continuous improvement initiatives to maximize process yield, equipment availability, and overall production performance. This role combines hands-on equipment commissioning experience, cross-functional collaboration, and technical expertise to deliver safe, efficient, and high-quality battery cell production. A Senior Manufacturing Engineer is responsible for all aspects of their process machine including technical functionality, how personnel interact with it, what maintenance activities are recommended and what crucial spares are required. Key Responsibilities Overall areas of responsibilities and activities Key responsibilities include (but are not limited to) Participate in HAZOP (Hazard & Operability Study) sessions and ensure compliance with process safety, operational safety, and environmental standards. Promote a culture of safety, quality, and operational excellence throughout production and commissioning activities. Lead process equipment commissioning, including cold and hot commissioning on-site during start-up or restart projects. (Project timeline dependent) Facilitate smooth transitions from commissioning to production ramp-up and full-scale manufacturing. (Project timeline dependent) Translate lessons learned into design and process improvements for future expansions. Monitor, analyze and improve production KPIs, including yield, availability, and performance. Identifying top losses, production bottlenecks, and performance gaps to drive corrective actions and continuous improvement initiatives. Lead root cause analysis (RCA) for equipment-related losses, minor stops, and process deviations. Define, release, and maintain manufacturing process standards and operator training programs. Train and mentor new engineers, operators and other support functions. Prepare, review, and approve documentation including (but not limited to WI, PFMEAs, commissioning checklists, project timelines, A3s). Provide technical feedback and guidance to suppliers to ensure equipment quality, compliance with specifications, and CE standards. Develop and issue DOEs (Design of Experiments) and schedule process and equipment trials onsite and at supplier sites (if required). Deliver a line capable of obtaining PPAP approval, following a structured quality gate model. Guide and mentor colleagues to industrial best practices, focusing on growth and development. Complete supplementary tasks as seen fit by management to effectively utilize time and resource for the benefit of the business. This role requires regular presence on the production floor. Requirements Educational background and previous experience required for the role Qualifications and Experience Master's degree in mechanical, electrical, or chemical engineering. Minimum of 7 years of relevant work experience in production, equipment, or engineering-related roles. Proven track record of leading manufacturing process improvements and production optimization in a factory environment following recognised project management techniques. Experience in building and scaling production in a fast-growing environment, ideally within the battery, food, pharma, paper & pulp, semiconductor, electrochemical, or similar industries. Hands-on experience and interest in equipment commissioning, troubleshooting, and optimisation. Proficient in detailed root cause analysis, structured problem-solving methodologies and continuous improvement. Familiarity with quality assurance troubleshooting tools. Experience working to industry standards obtaining certification including ISO, IATF &VDA. Experience with statistical process control and process capability analysis. Experience working with preventive maintenance strategies and Total Productive Maintenance (TPM) concepts within a production environment. Experience in spare part prioritisation and stock optimisation, balancing equipment availability with cost efficiency. Specific skills & Knowledge Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of OEE (Overall Equipment Effectiveness) metrics and their application in production environments. Knowledge of lean manufacturing principles and six sigma methodologies. Highly autonomous with a proactive mindset and work ethic. Strong technical curiosity, analytical mindset, and business-oriented problem-solving skills. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Proficient in the use of a Computerised Maintenance Management System (CMMS) for work order management, equipment data, and maintenance reporting. Experience with Microsoft Dynamics 365 is advantageous. Experience in coaching, upskilling, and mentoring engineers or technicians, with a demonstrable commitment to developing the technical capability of others within a production environment. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Job Scope Why does the role exist? High level purpose of function. The Manufacturing Engineer plays a key role in process equipment commissioning, production ramp-up, and full-scale manufacturing within a battery cell production facility. They ensure smooth start-up of production lines, optimize manufacturing processes, and lead continuous improvement initiatives to maximize process yield, equipment availability, and overall production performance. This role combines hands-on equipment commissioning experience, cross-functional collaboration, and technical expertise to deliver safe, efficient, and high-quality battery cell production. The manufacturing engineer is responsible for all aspects of their process machine including technical functionality, how personnel interact with it, what maintenance activities are recommended, and what crucial spares are required. Key Responsibilities Overall areas of responsibilities and activities Key responsibilities include (but are not limited to) Participate in HAZOP sessions and ensure compliance with process safety, operational safety, and environmental standards. Promote a culture of safety, quality, and operational excellence throughout production and commissioning activities. Lead process equipment commissioning, including cold and hot commissioning on-site during start-up or restart projects. (Project timeline dependent) Facilitate smooth transitions from commissioning to production ramp-up and full-scale manufacturing. (Project timeline dependent) Translate lessons learned into design and process improvements for future expansions. Monitor, analyze and improve production KPIs, including yield, availability, and performance. Identifying top losses, production bottlenecks, and performance gaps to drive corrective actions and continuous improvement initiatives. Lead root cause analysis (RCA) for equipment-related losses, minor stops, and process deviations. Define, release, and maintain manufacturing process standards and operator training programs. Train and mentor new engineers, operators and other support functions. Prepare, review, and approve documentation including (but not limited to); WI, PFMEAs, commissioning checklists, project timelines, A3s. Provide technical feedback and guidance to suppliers to ensure equipment quality, compliance with specifications, and CE standards. Develop and issue DOEs (Design of Experiments) and schedule process and equipment trials onsite and at supplier sites (if required). Deliver a line capable of obtaining PPAP approval, following a structured quality gate model. Complete supplementary tasks as seen fit by management to effectively utilize time and resources for the benefit of the business. This role requires regular presence on the production floor. Requirements Educational background and previous experience required for the role Qualifications and Experience Bachelor’s degree in mechanical, electrical, or chemical engineering. Minimum of 3 years of relevant work experience in production, equipment, or engineering-related roles. Proven track record of leading manufacturing process improvements and production optimization in a factory environment following recognised project management techniques. Experience in building and scaling production in a fast-growing environment, ideally within the battery, food, pharma, paper and pulp, semiconductor, electrochemical, or similar industries. Hands-on experience and interest in equipment commissioning, troubleshooting, and optimisation. Proficient in detailed root cause analysis, structured problem-solving methodologies and continuous improvement. Familiarity with quality assurance troubleshooting tools. Experience working to industry standards obtaining certification including ISO, IATF &VDA . Experience with statistical process control and process capability analysis. Experience working with preventive maintenance strategies and Total Productive Maintenance (TPM) concepts within a production environment. Experience in spare part prioritisation and stock optimisation, balancing equipment availability with cost efficiency. Specific skills & Knowledge Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of lean manufacturing principles and six sigma methodologies . Knowledge of OEE (Overall Equipment Effectiveness) metrics and their application in production environments. Strong technical curiosity, analytical mindset, and business-oriented problem-solving skills. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Proficient in the use of a Computerised Maintenance Management System (CMMS) for work order management, equipment data, and maintenance reporting. Experience with Microsoft Dynamics 365 is advantageous. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Job Scope Why does the role exist? High level purpose of function. The Manufacturing Engineer plays a key role in process equipment commissioning, production ramp-up, and full-scale manufacturing within a battery cell production facility. They ensure smooth start-up of production lines, optimize manufacturing processes, and lead continuous improvement initiatives to maximize process yield, equipment availability, and overall production performance. This role combines hands-on equipment commissioning experience, cross-functional collaboration, and technical expertise to deliver safe, efficient, and high-quality battery cell production. The manufacturing engineer is responsible for all aspects of their process machine including technical functionality, how personnel interact with it, what maintenance activities are recommended, and what crucial spares are required. Key Responsibilities Overall areas of responsibilities and activities Key responsibilities include (but are not limited to) Participate in HAZOP sessions and ensure compliance with process safety, operational safety, and environmental standards. Promote a culture of safety, quality, and operational excellence throughout production and commissioning activities. Lead process equipment commissioning, including cold and hot commissioning on-site during start-up or restart projects. (Project timeline dependent) Facilitate smooth transitions from commissioning to production ramp-up and full-scale manufacturing. (Project timeline dependent) Translate lessons learned into design and process improvements for future expansions. Monitor, analyze and improve production KPIs, including yield, availability, and performance. Identifying top losses, production bottlenecks, and performance gaps to drive corrective actions and continuous improvement initiatives. Lead root cause analysis (RCA) for equipment-related losses, minor stops, and process deviations. Define, release, and maintain manufacturing process standards and operator training programs. Train and mentor new engineers, operators and other support functions. Prepare, review, and approve documentation including (but not limited to); WI, PFMEAs, commissioning checklists, project timelines, A3s. Provide technical feedback and guidance to suppliers to ensure equipment quality, compliance with specifications, and CE standards. Develop and issue DOEs (Design of Experiments) and schedule process and equipment trials onsite and at supplier sites (if required). Deliver a line capable of obtaining PPAP approval, following a structured quality gate model. Complete supplementary tasks as seen fit by management to effectively utilize time and resources for the benefit of the business. This role requires regular presence on the production floor. Requirements Educational background and previous experience required for the role Qualifications and Experience Bachelor’s degree in mechanical, electrical, or chemical engineering. Minimum of 3 years of relevant work experience in production, equipment, or engineering-related roles. Proven track record of leading manufacturing process improvements and production optimization in a factory environment following recognised project management techniques. Experience in building and scaling production in a fast-growing environment, ideally within the battery, food, pharma, paper and pulp, semiconductor, electrochemical, or similar industries. Hands-on experience and interest in equipment commissioning, troubleshooting, and optimisation. Proficient in detailed root cause analysis, structured problem-solving methodologies and continuous improvement. Familiarity with quality assurance troubleshooting tools. Experience working to industry standards obtaining certification including ISO, IATF &VDA . Experience with statistical process control and process capability analysis. Experience working with preventive maintenance strategies and Total Productive Maintenance (TPM) concepts within a production environment. Experience in spare part prioritisation and stock optimisation, balancing equipment availability with cost efficiency. Specific skills & Knowledge Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of lean manufacturing principles and six sigma methodologies . Knowledge of OEE (Overall Equipment Effectiveness) metrics and their application in production environments. Strong technical curiosity, analytical mindset, and business-oriented problem-solving skills. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Proficient in the use of a Computerised Maintenance Management System (CMMS) for work order management, equipment data, and maintenance reporting. Experience with Microsoft Dynamics 365 is advantageous. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Job Scope High level purpose of function. An Automation Engineer in a cell manufacturing company plays a key role in developing, optimizing, and maintaining automated production systems to ensure safe, reliable, and efficient operations. They are responsible for programming, troubleshooting, and improving PLCs, robots, and other automated equipment, supporting both new production line installations and ongoing process improvements. The role also includes ensuring accurate data transfer, system connectivity, and smooth communication with cloud platforms to enable traceability, analysis, and digital integration. Close collaboration with production, engineering, and maintenance teams is required to identify and implement solutions that improve quality, throughput, and equipment uptime. A strong focus is placed on continuous improvement, safety, and scalability to meet the growing demand for electric vehicle battery production. Key Responsibilities Overall areas of responsibilities and activities. Key responsibilities include (but are not limited to) Participate in HAZOP sessions and ensure compliance with process safety, operational safety, and environmental standards relating to equipment control and programming. Responsible for the FATs of the equipment (Project timeline dependent). Lead automation system integration during equipment commissioning (Project timeline dependent). Develop the automation systems that are to be implemented in the production and logistics equipment in the factory as well as the relevant specifications and documentation. Author and review engineering design documentation (Specifications, Functional design, Logic diagrams, Test Cases, Test Records). Train and mentor new engineers, and educate other support functions on process control. Code review and test of suppliers work within the projects to validate specified functionality and to ensure the quality and reliability of the data transferred from the equipment to the upper level systems. Participate in R&D activities for piloting of new technologies and their suitability to production environments. Define and improve the factory blueprint, general specifications and ways of working in collaboration with the extended automation and digitalization teams. (Project timeline dependent). Contribute to technical improvements, development and optimization of software processes internally in the automation team. The role requires regular presence on the production floor. Develop and maintain automation programming standards. Complete supplementary tasks as seen fit by management to effectively utilize time and resource for the benefit of the business. Requirements Educational background and previous experience required for the role Qualifications and Experience Bachelors degree in Electronics, Mechatronics, Electrical, Automation, Robotics, Software Engineering or similar. Minimum of 3 years of relevant work experience within Industrial Automation in process-driven or discrete manufacturing industries such as: Battery Cell, Automotive, Chemical, Paper, Semiconductors, Pharma, Food, Warehouses, etc. Experience of working with sensors, instrumentation, servo drives and motion technology. Experience with PLC, SCADA, OPC connectivity and MES interfaces, especially using Siemens and/or Beckhoff systems. Experience with industrial communication protocols and network architecture including design of control systems architecture and PLC code delivering the desired system functionality. Experience in writing technical documentation (Requirement specifications, Functional design, UML, Test Cases, Test Records). Experienced in continuous improvement and root cause analysis. Specific skills & Knowledge Strong knowledge of mechanical, electrical, hydraulic, and pneumatic systems. Knowledge of cybersecurity best practices for manufacturing systems. Troubleshooting skills with diagnostic equipment. Ability to document technical problems concisely. Excellent English skills, both written and oral, are essential. Basic Swedish and other language skills are a plus. You should have good communication skills and be able to work in close collaboration with colleagues from many different teams. Ability to work within varying environments including clean-rooms and dry-rooms, while wearing appropriate PPE. Comfortable operating in high-profile, international, and high-pressure environments. A genuine technical interest and passion about working within production is highly valued.
Veritaz is a leading IT staffing solutions provider in Sweden, committed to advancing individual careers and aiding employers in ensuring the perfect talent fit. With a proven track record of successful partnerships with top companies, we have rapidly grown our presence in the USA, Europe, and Sweden as a dependable and trusted resource within the IT industry. Assignment Description We are looking for a Battery Cell Test Engineer What You Will Work On Plan, coordinate, and follow up battery cell durability tests Collaborate with internal laboratories, external test partners, and battery suppliers Collect, structure, and manage battery cell test data Analyze battery test results using Python, MATLAB, Excel, or similar tools Prepare and communicate technical findings to engineering teams and stakeholders Develop and maintain battery durability test matrices and test procedures Support development of test codes and follow-up routines Contribute to vehicle durability projects and battery service life evaluations Support requirement verification and usage strategy discussions Collaborate with CAE, battery cell design, integration, and validation teams Prepare battery data for simulation and visualization tools Improve testing methodologies, data analysis processes, and engineering documentation Contribute to battery ageing analysis, degradation studies, and life prediction activities Support continuous improvement of battery testing tools and engineering practices What You Bring Engineering degree in Electrochemistry, Materials Science, Mechanical Engineering, Electrical Engineering, Chemical Engineering, Physics, Data Science, or a related field Experience working as a Battery Test Engineer, Validation Engineer, Laboratory Engineer, or similar role Practical experience with testing, measurements, laboratory work, or validation activities Strong interest in Li-ion battery technology and automotive electrification Understanding of battery cell behavior, electrochemistry, ageing, degradation, or cell design Experience analyzing technical data using Python, MATLAB, Excel, or similar tools Experience managing and structuring engineering test data Ability to document technical results and communicate findings effectively Strong analytical and problem-solving skills Excellent collaboration and communication abilities Experience working with battery cell testing or durability testing is highly preferred Experience with battery test rigs, data acquisition systems, or laboratory equipment is an advantage Experience handling supplier test data is beneficial Experience within automotive electrification is a plus Curious, structured, and eager to learn in a collaborative engineering environment
About Norvion Systems AB Headquartered in Gothenburg, Sweden, Norvion Systems AB is an innovative engineering company dedicated to deploying cutting-edge AI, robotics, and embedded systems solutions across the Nordic region and Europe. We bridge advanced technological innovation with successful real-world deployments, serving as Europe’s trusted engineering partner. Our leadership and core technical teams comprise industry veterans and technical experts from global tech pioneers, Tier 1 suppliers, and intelligent cockpit fields. We cultivate a practical, reliable, and quality-driven Nordic engineering culture. At Norvion, you will work at the forefront of Embodied AI and advanced edge platform engineering, collaborating with top-tier research institutions and industrial leaders to push the limits of technology. The Opportunity: To support our partner’s advancements in automotive electrification, we are currently looking for a Battery Cell Test Engineer – Durability for an exciting engineering assignment in Gothenburg. This is a premier opportunity for engineers passionate about Li-ion battery technology, testing, durability, and the future of green mobility. The role perfectly combines hands-on laboratory work with advanced data analysis and cross-functional collaboration. 🎯 Key Focus Areas Test Coordination: Planning and coordinating comprehensive battery cell durability and performance tests. Data Analysis & Modeling: Analyzing complex test data using Python, MATLAB, Excel, or similar analytical tools. Ageing & Lifecycle Analysis: Supporting battery life prediction, degradation mechanisms, and cell ageing analysis. Cross-Functional Collaboration: Collaborating closely with internal laboratories, global suppliers, and core engineering teams. Methodology Optimization: Contributing to the development of new test methods and driving continuous laboratory improvements. 👤 Profile & Qualifications We are looking for an analytical and motivated engineer with a background in battery technology or laboratory validation: Testing Experience: Proven experience in battery cell testing, laboratory validation, or hardware verification. Data Skills: Strong proficiency in using Python, MATLAB, or Excel for technical data analysis. Educational Background: A degree in Electrochemistry, Materials Science, Mechanical, Electrical, Chemical Engineering, or a related field. Soft Skills: A strong analytical mindset with excellent communication and documentation skills in English. Work Authorization: The legal right to work in Sweden by the project start date (or possessing an active permit allowing an immediate start without a new application process) is required due to the September 2026 timeline. Nice to have (Bonus Skills): Prior experience in automotive electrification or working with battery test rigs. Deep knowledge of battery durability, cell chemistry, and degradation modes. 🎁 Why Choose Norvion? A Stage to Push Boundaries: "Engineering Beyond Boundaries" — We provide direct, hands-on exposure to the future of advanced automotive systems, general-purpose robotics, and embodied intelligence. Work with Tech Experts: Collaborate closely with a highly skilled engineering team boasting deep European delivery experience. No red tape, just pure engineering excellence. Nordic Work Culture: Embrace a flexible, flat, and results-oriented environment that values work-life balance and individual growth.
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