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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
Company description: AVL is one of the world’s leading mobility technology companies for development, simulation and testing in the automotive industry, and beyond. The company provides concepts, solutions and methodologies in fields like vehicle development and integration, e-mobility, automated and connected mobility (ADAS/AD), and software for a greener, safer, better world of mobility. Job description:Som Battery System Design Engineer hos AVL blir du en del av utvecklingen av framtidens elektrifierade drivlinor. Rollen kombinerar praktiskt arbete med batteridesign och packutveckling med bred förståelse för electromobility och integration av batterisystem i moderna fordon. Här får du arbeta hands-on med utveckling, verifiering och integration av HV-batterisystem i en tekniskt avancerad miljö där batteriet är en central del av den elektriska drivlinan. Du kommer att arbeta nära områden som electric propulsion, HV-system, verifiering och systemintegration, där samspelet mellan batteri, inverter, elmaskin och övriga fordonsfunktioner är en viktig del av utvecklingen. Du blir en del av ett internationellt kompetensnätverk och samtidigt en viktig spelare i vår lokala satsning inom electromobility och batterisystem i Sverige. Rollen erbjuder stor möjlighet att påverka tekniska lösningar, arbetssätt och kundprojekt i nära samarbete med både lokala och globala team. I rollen som Battery System Design Engineer kommer du att arbeta med utveckling och integration av batterisystem för elektrifierade fordon, från tidiga koncept och konstruktionslösningar till verifiering, testning och färdig produkt. Rollen kombinerar praktiskt ingenjörsarbete inom batteridesign och packutveckling med ett bredare systemperspektiv inom electromobility och elektriska drivlinor. Du kommer att vara delaktig i utvecklingen av batterimoduler och pack på systemnivå, där mekanisk integration, funktion, verifiering och kvalitet är centrala delar av arbetet. En viktig del av rollen är att analysera resultat från simuleringar och tester samt omsätta dessa till tekniska förbättringar och robusta konstruktionslösningar. Arbetet innefattar även byggnation, driftsättning och verifiering av batterisystem inför test och leverans, samt testning och validering av modul- och packsystem i fordonsnära applikationer. Du kommer att arbeta nära andra discipliner inom electromobility, såsom HV-system, electric propulsion och systemintegration, där förståelse för samspelet mellan batteri, inverter, elmaskin och övriga fordonsfunktioner är en viktig del av utvecklingen. I rollen ingår också teknisk support i kundprojekt, granskning och frisläppning av teknisk dokumentation samt samarbete med AVL globala nätverk inom battery systems och electromobility. Du kommer även att bidra till affärsutveckling genom teknisk expertis i offertarbete och projektförslag. Profile description:Din profil Vi söker dig som har erfarenhet av batterisystemutveckling och som samtidigt har ett brett intresse och förståelse för electromobility och elektrifierade drivlinor. Vi tror att du har: Civilingenjörsutbildning inom maskinteknik, elektroteknik, mekatronik eller motsvarande 3–5 års erfarenhet av utveckling av batterisystem inom automotive eller närliggande industri Praktisk erfarenhet av batteridesign på modul- och packnivå inkluderat kyl- och säkerhetskoncept (Thermal Propagation) Erfarenhet av mekanisk integration och konstruktion i CAD-miljö God förståelse för HV-system och relevanta säkerhetsstandarder Erfarenhet av CAD-verktyg såsom CATIA, Creo eller liknande Mycket god kommunikationsförmåga på svenska och engelska B-körkort Meriterade: Erfarenhet av verifiering och test av batterimoduler och pack Erfarenhet av systemintegration inom elektrifierade fordon Erfarenhet från SOP projekt Som person Som person är du tekniskt nyfiken, analytisk och lösningsorienterad. Du trivs i en roll där praktiskt ingenjörsarbete kombineras med systemförståelse och tvärfunktionellt samarbete. Du är självgående och ansvarstagande, samtidigt som du uppskattar att arbeta nära andra discipliner inom electromobility och produktutveckling. Du har förmågan att växla mellan detaljfokus och helhetsperspektiv och känner dig bekväm i tekniska dialoger både internt och ute hos kund. We offer:På AVL blir du en del av ett globalt teknikföretag i framkant inom utveckling, simulering och testning för framtidens mobilitet. Vi arbetar med avancerad teknik inom elektrifiering, mjukvara, autonom körning och energieffektiva drivlinor och hjälper våra kunder att utveckla nästa generations mobilitetslösningar. Hos oss får du möjlighet att arbeta i tekniskt avancerade projekt tillsammans med ledande aktörer inom automotive och electromobility – i en miljö där innovation, samarbete och teknisk utveckling står i centrum. Intresserad? Med tanke på den kommande semesterperioden kan återkopplingen på din ansökan dröja något och du kan förvänta dig svar i mitten av augusti. Om du tycker att tjänsten låter intressant är du varmt välkommen att skicka in din ansökan redan idag! Vi ser fram emot din ansökan!
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 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 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 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. 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. A Vision Automation Engineer in a cell manufacturing company plays a key role in developing, optimizing, reverse-engineering, and maintaining machine vision and optical inspection systems to ensure safe, reliable, and efficient operations. They are responsible for programming, troubleshooting, and improving cameras, lighting configurations, and image processing algorithms, supporting both legacy production line re-commissioning and new vision system installations. The role also includes ensuring accurate data transfer, system connectivity, and smooth communication with PLCs, SCADA, and upper-level MES platforms to enable inline defect traceability, dimensional inspection, 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 vision system integration and optical calibration during equipment commissioning and line re-starts (Project timeline dependent). Develop and reverse-engineer the vision inspection systems 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 machine vision, optics, and quality inspection gates. Code review and test of suppliers' vision software and algorithmic work within the projects to validate specified defect detection thresholds (Gauge R&R) 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, with a minimum of approximately 25% of working hours spent on-site. Depending on project needs (such as line re-commissioning), there may be periods where up to 100% of working hours are required on the shop floor. Develop and maintain machine vision and image processing programming standards. Guide and mentor colleagues to industrial best practices, focussing on growth and development. 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 industrial camera systems, optical components, and lighting techniques, including the selection, configuration, and calibration of camera hardware for manufacturing inspection and process control applications Experience in the design, configuration, and deployment of machine vision systems including cameras, lighting, and vision software platforms such as Cognex, Halcon, or equivalent, with experience integrating vision outputs into PLC, SCADA, and MES environments via OPC connectivity. Experience developing and optimising image processing pipelines and vision algorithms for applications such as defect detection, pattern recognition, and dimensional verification, with familiarity with industrial communication protocols for vision system integration. Experience in writing technical documentation including inspection requirement specifications, algorithm validation reports, vision system configuration records, functional design, UML, test cases, and test records. Experience with image processing software and programming tools relevant to industrial vision applications, such as Python, C++, OpenCV, or equivalent vision libraries, with the ability to develop, test, and optimise vision algorithms for real-time manufacturing environments Experienced continuous improvement and root cause analysis. Specific skills 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.
The Senior Cell Design Engineer will play a project leading role in the cell development of the Li-ion and LIS battery, specifically, in the Mechanical Design area. Key Responsibilities Overall areas of responsibilities and activities • Lead mechanical design and development Li-ion and LIS battery and related components for Energy Storage Systems (ESS), Electric Vehicles (EV), and other advanced applications • Take ownership of mechanical part design, evaluation, validation, and optimization using advanced CAD tools (NX, CATIA, or equivalent) • Act as the primary technical interface with customers, leading technical discussions and clarifying design requirements • Proactively collaborate with cross-functional teams (Supply Chain, Process Engineering, R&D Labs, Manufacturing, Quality, etc.) to ensure seamless project execution • Identify technical risks related to cell/battery development and production and drive mitigation strategies • Review and approve mechanical drawings, 3D models, tolerance stack-ups, and technical documentation • Support prototype development, design verification, and validation activities • Contribute to continuous improvement of design standards, processes, and engineering best practices Requirements Educational background and previous experience required for the role Qualifications and Experience • BSc, MSc, or PhD in Mechanical Engineering or a related field (or equivalent practical experience) • 8+ years of mechanical design experience, preferably in power electronics, high-performance lithium-ion batteries, or related industries • Strong experience in lithium-ion battery cell development and secondary battery technologies is highly preferred • Proven hands-on experience in mechanical component design, evaluation, and validation • Extensive experience with advanced CAD tools such as NX, CATIA, or equivalent 3D modeling software • Experience with electrode and cell design, electrode preparation processes, cell fabrication, and electrochemical performance evaluation is strongly preferred • Strong understanding of risk management in cell/battery development and production environments • Demonstrated experience leading technical discussions directly with customers • Excellent English written and verbal communication skills Specific skills • Advanced proficiency in CAD tools (NX, CATIA, or similar) for mechanical part design and evaluation • Strong technical documentation and drawing review capability • Ability to work under pressure and manage tight project deadlines • Excellent organizational skills with the ability to manage multiple projects simultaneously • Proactive cross-functional collaboration skills • Ability to work effectively both independently and in team environments • Strong analytical and problem-solving skills
At Heart Aerospace we develop the ES-30, a regional hybrid-electric airplane with a capacity of 30 passengers, an electric zero-emission range of 200 km and an extended hybrid range of 400 km. Heart is targeting type certification of the ES-30 by the end of the decade. Your mission We are looking for a highly motivated, hands-on Integration Engineer to lead the mechanical and electrical integration of critical subsystems across our hybrid-electric aircraft platform. You will be responsible for bridging design, manufacturing, final assembly, and testing to ensure that complex systems come together seamlessly from prototype through rate production. This is a cross-disciplinary role at the heart of aircraft development, where attention to detail, fast-paced execution, and strong problem-solving instincts are key. You’ll work side-by-side with design engineers, manufacturing, and technicians on the production floor to turn ambitious designs into high-performance, certifiable products. Key responsibilities include but are not limited to: System Integration & Assembly * Own the integration of propulsion, battery, avionics, and structural systems into the aircraft platform * Define and document build sequences, mechanical interfaces, fastener strategies, cable routing, and fluid line installations * Support and optimize aircraft-level assembly processes, from first article to full-rate production Design Collaboration & DFM * Provide real-time design-for-assembly feedback to design engineering teams * Influence interface definitions, mounting strategies, and accessibility for maintainability * Drive resolution of interface issues between subsystems during development and build Build Floor & Hands-On Support * Act as the technical liaison on the build floor to troubleshoot integration issues and lead root cause investigations * Support technicians during assembly with guidance, documentation, and process improvements * Ensure that integration work meets engineering intent, quality standards, and certification requirements Process Development & Continuous Improvement * Create and maintain detailed work instructions, assembly drawings, and configuration documentation * Work with manufacturing and engineering teams to improve efficiency, reduce errors, and streamline assembly processes * Support integration testing and data collection during system bring-up and aircraft checkout Your place of work will be at our office located in Torrance, CA. Some domestic travel may be required Skills & Requirements * Bachelor’s degree in Mechanical, Aerospace, or Systems Engineering (or equivalent experience) * 2+ years of experience in aerospace, automotive, or advanced manufacturing environments * Strong understanding of mechanical systems, fasteners, electrical connectors, harnessing, and fluid systems * Proficiency in CAD (e.g., NX, CATIA, or SolidWorks) and interpreting engineering drawings with GD&T These Qualifications Would Be Nice To Have * Experience in aircraft or vehicle final assembly, particularly with electrical and fluid system integration * Exposure to configuration control, hardware traceability, and change management * Demonstrated ability to work cross-functionally in high-speed development programs * Experience with electric propulsion, high-voltage systems, or thermal integration * Comfortable working hands-on with tools and hardware in a production environment Base Pay Range: $124,000—$176,000 USD
Los Angeles, CA Role Overview: At Heart Aerospace we are developing the ES-30, a regional hybrid-electric airplane with a capacity of 30 passengers, an electric zero-emission range of 200 km and an extended hybrid range of 400 km. Heart is targeting type certification of the ES-30 by the end of the decade. Your mission As a Senior/Staff Software Engineer on the Flight Software Team, you are responsible for all aspects the development of the software on the aircraft. You will interface with other engineers to develop and understand requirements, architect and writing high quality code, build tests and test infrastructure, documentation, and provide support through the software lifecycle. You will report to the Manager of Flight Software and collaborate with other engineers as part of a multi-functional team. Every engineer on the team is responsible for laying the technological foundation for the aircraft software and supporting systems, including but not limited to implementing aircraft control functions on embedded systems, developing aircraft models and simulation tools, implementing critical fault tolerance mechanisms, and building hardware and software test systems. Key Responsibilities include but are not limited to: * Create highly reliable embedded software that control critical systems on Heart’s aircraft. * Work with interdisciplinary teams to scope, design and build next generation hybrid electric aircraft capabilities, including engine controllers, battery management systems, flight control actuators, flight control systems and aircraft data networks. * Develop tools that allow for test execution across multiple environments, ranging from high fidelity simulated software environments, to full scale test stands. * Invent new systems that enable more frequent and reliable software deployment, test execution, and data analysis as part of a continuous integration and release system. * Mentor junior engineers and set best practices for the team. You'll Bring These Qualifications as a Senior Software Engineer: * Bachelor's or above in computer science, electrical engineering, or similar engineering discipline. * 5+ years professional experience writing safety-critical code for vehicles, or similar applications. * Excellent verbal and written communication skills in English. * Passion for aircraft and Heart’s mission. You'll Bring These Qualifications as a Staff Software Engineer: * 8+ years professional experience writing safety-critical code for vehicles, or similar applications. * Excellent verbal and written communication skills in English. The ideal candidate would have: * Significant experience writing software in Rust, Python, C, C++, or a similar systems language. * Experience writing code for execution in an embedded environment (microcontrollers, bare metal, RTOS, embedded OS). * Experience modeling cyber-physical systems (6 DoF Simulators, Monte Carlos, Battery Pack Models). * Strong systems design fundamentals. Experience architecting software systems (and contributing requirements to hardware design) for vehicle systems. Experience with various approaches to fault tolerance and fault mitigation. * Significant experience with software and hardware test development. Experience with unit tests, CI/CD, integration testing, data collection and management, report generation, fuzzing and other advanced automated test methods. * Experience developing software under a functional safety compliant process (for example, compliant to IEC 61508, ISO 26262, DO-178C, or similar). Strong understanding of functional safety and how to apply it to software development. Base Pay Range: * Senior Software Engineer: $155,000 —$193,000 USD. * Staff Software Engineer: $190,000 —$238,000 USD.
At Heart Aerospace we develop the ES-30, a regional hybrid-electric airplane with a capacity of 30 passengers, an electric zero-emission range of 200 km and an extended hybrid range of 400 km. Heart is targeting type certification of the ES-30 by the end of the decade. Your mission Heart Aerospace is seeking a highly motivated and experienced Battery Design Engineer to join our growing and dynamic team. In this role, you will be a key contributor to the design, development, testing, and optimization of advanced battery systems specifically designed for the demanding requirements of electric aerospace applications. You will leverage your deep understanding of design methodologies and approaches to drive innovation and ensure the highest levels of performance, safety and reliability. You will translate system-level requirements into robust, certifiable mechanical designs, playing a critical role in electrifying the future of flight. Key responsibilities include but are not limited to: * Lead the mechanical design, and development of various battery mechanical systems, including battery cells, module design, module housings, high voltage distribution and full pack assemblies using advanced CAD tools (e.g. NX). * Develop innovative and weight-optimized structural solutions to meet aircraft-level vibration, shock, and crash safety requirements. * Create and manage detailed engineering drawings and specifications, applying a high standard of Geometric Dimensioning and Tolerancing (GD&T). * Generate high quality DFMEA’s and DVP&R’s * Define and execute comprehensive validation and verification test plans (mechanical, environmental, and abuse testing) to qualify designs for aerospace applications. * Collaborate cross-functionally with Electrical, Thermal, and System Integration teams to ensure seamless integration of the battery system into the aircraft structure. * Ensure all designs meet relevant aerospace safety and certification standards (e.g., FAA, EASA, DO-160, DO-311, etc.). * Support the transition of designs from prototype to high-volume manufacturing, focusing on Design for Manufacturing (DFM) and Design for Assembly (DFA). * Drive program schedule, timelines. Ensure releases are on time to meet vehicle program milestones. * Mentor junior engineers and serve as a technical resource within the mechanical engineering team. Skills & Requirements: You'll Bring These Qualifications for Battery Mechanical Design Engineer: * Minimum of 2+ years of experience in mechanical engineering design, with a significant focus on high-voltage battery systems (cell, module, or pack level). * Bachelor's degree in Mechanical Engineering, Aerospace Engineering, or a closely related technical field * Proficiency in a mechanical CAD tool (e.g., Siemens NX, CATIA). * Proficiency with FEA software and hand calculations in structural and thermal analysis using industry-standard FEA/CFD software (e.g., ANSYS, Abaqus, Star-CCM+). * Deep understanding of structural mechanics, fatigue analysis, and thermal management principles as applied to electrochemical systems. * Excellent written and verbal communication skills, including the ability to present complex technical information clearly. * Strong problem-solving skills and the ability to perform root cause analysis. * Ability to work independently and collaboratively in a fast-paced, dynamic environment. These Qualifications Would Be Nice to Have: * Prior experience designing components for certified aerospace or high-reliability automotive/EV applications. * Familiarity with aerospace certification processes and design standards (e.g., DO-160, DO-311A, MIL-STD, UN 38.3, IEC standards). * Master's or Ph.D. degree in Mechanical Engineering or a specialization relevant to energy storage. * Hands-on experience with design for sealing and ingress protection (IP ratings). * Experience with BMS enclosure and interconnect design. * Knowledge of manufacturing processes unique to battery pack construction (e.g., laser welding, potting, sealing). Base Pay Range: $113,000—$216,000 USD
Los Angeles, CA At Heart Aerospace we are developing the ES-30, a regional hybrid-electric airplane with a capacity of 30 passengers, an electric zero-emission range of 200 km and an extended hybrid range of 400 km. Heart is targeting type certification of the ES-30 by the end of the decade. Your mission As an early – mid level Software Engineer on the Flight Software Team, you are responsible for all aspects the development of the software on the aircraft. You will interface with other engineers to develop and understand requirements, architect and writing high quality code, build tests and test infrastructure, documentation, and provide support through the software lifecycle. Part of your responsibility will be to lay the technological foundation for the aircraft software and supporting systems, including but not limited to implementing aircraft control functions on embedded systems, developing aircraft models and simulation tools, implementing critical fault tolerance mechanisms, and building hardware and software test systems. You will report to the Manager of Flight Software and collaborate with other engineers as part of a multi-functional team. Key Responsibilities include but are not limited to: * Design, develop, test, and maintain embedded software for safety-critical vehicle and industrial systems. * Write reliable, maintainable code for embedded environments including microcontrollers, bare-metal systems, RTOS, and embedded operating systems. * Collaborate cross-functionally with systems, hardware, flight sciences, and quality teams. * Contribute to verification and validation activities including unit testing, integration testing, and system-level testing. * Support simulation, modeling, and test activities. * Document designs, requirements, and test results clearly and effectively. You'll Bring These Qualifications as a Software Engineer I: * 0–2 years of professional experience (internships, co-ops, academic project work) in structural design, aerospace engineering, or a related field. * Writing production-quality code in systems languages such as Rust, C, C++, or Python. * Develop embedded software under close mentorship and guidance. * Learn safety-critical development processes and certification standards. * Implement embedded software features with moderate guidance. * Contribute to fault tolerance, fault mitigation strategies, unit tests, CI/CD pipelines, integration testing, well-defined features, test development, and documentation. * Participate in system modeling and simulation efforts. * Strong verbal and written communication skills in English. You'll Bring These Qualifications as a Software Engineer II: * 2+ years of professional industry experience. * Writing production-quality code in systems languages such as Rust, C, C++, or Python. * Own medium-complexity features and subsystems end-to-end. * Apply strong systems design fundamentals to embedded software architecture. * Contribute to fault tolerance, fault mitigation strategies, unit tests, CI/CD pipelines, integration testing, well-defined features, test development, and documentation. * Actively participate in design reviews and cross-discipline technical discussions. * Establish well-defined features, test development, and documentation. * Strong verbal and written communication skills in English. Education: * Obtaining and/or obtained a minimum Bachelor’s degree in Aerospace Engineering, Computer Science, Electrical Engineering, or a related engineering discipline These Qualifications Would Be Nice to Have: * Passion for aircraft, vehicles, and the company mission. * Experience with embedded execution environments (microcontrollers, bare metal, RTOS, embedded OS). * Experience modeling cyber-physical systems (e.g., 6-DoF simulators, Monte Carlo simulations, battery pack models). * Experience with software and hardware test development: Unit tests, CI/CD pipelines, integration testing, automated testing, fuzzing, data collection, and report generation. * Support development under functional safety–compliant processes (e.g., DO-178C, ISO 26262, IEC 61508). Base Pay Range: * Software Engineer I: $119,000—$149,000 USD. * Software Engineer II: $137,000—$171,000 USD.
We're at a pivotal moment for both Tibber and the planet. When joining Tibber, you won’t just help scale a forward-thinking tech company – you’ll contribute to a real shift in how people consume electricity. With millions of smart devices connected to the Tibber platform (like electric vehicles and smart thermostats), we have one of the most unique portfolios trading energy on the market. We’re looking for a Sales Representative to join us in making the energy transition happen – maybe that’s you? ---------------------------------------------------------------------------------------------------------------------------------- JOB MISSION 🚀 Are you ready to make a difference and help shape the future of sustainable energy in the Netherlands? At Tibber, we don’t just offer an energy contract – we empower households to take control of their energy with smart, innovative solutions. As a Sales Representative on our team, you’ll play an essential role in introducing innovative clean energy solutions, such as our Home Battery to B2C customers. Whether you’re an experienced sales professional or looking to grow in this field, this opportunity is for you! ---------------------------------------------------------------------------------------------------------------------------------- What you'll do ✅ Tailored Solutions: You analyze the needs of warm B2C leads who have personally filled out a contact form. Over the phone, you advise them on the best solution for their specific situation regarding the purchase of a home battery and/or a smart charging station. Connect and Inspire: Build meaningful relationships with customers in the Dutch market, showcase Tibber’s energy solutions, and guide them through a simple and engaging sales experience. Deliver Outstanding Support: Act as a trusted energy expert by answering customer questions, providing support (even after the sale), and fostering long-term connections. Collaborate and Grow: Work with a passionate B2C sales team to improve processes and contribute to the team's overall success. ---------------------------------------------------------------------------------------------------------------------------------- What we're looking for ⚡ * You bring sales experience, ideally from a B2C environment, and enjoy helping customers find the right solution. * You are comfortable turning technical products into clear and simple solutions that customers actually understand. * You communicate confidently in Dutch and feel comfortable working in English. * You are curious, eager to learn, and excited to grow with the role. Experience from the energy industry is a plus, but not required. ---------------------------------------------------------------------------------------------------------------------------------- 💆🏻♀️💆🏽♂️THE TIBBER MINDSET Tibber is not your typical energy supplier. Our tech helps hundreds of thousands of households lower and shift their energy consumption to more sustainable and affordable hours. We’re here to accelerate the energy transition – not in theory, but in everyday life. Being on a mission to change an industry, fundamentally also means being prepared for the unexpected. We do what others say can’t be done, try and fail together but never lose sight of our users. We work passionately with sustainability and a circular approach, both with our own products and in the entire ecosystem that is affected by everything we do. Starting out with two passionate founders in 2016, we're now 300+ people working for Tibber in our offices in Stockholm, Førde, Berlin, Amsterdam, and Oslo. We will continue to grow within our markets, and we are thrilled to be backed by investors like Balderton Capital, Eight Roads Ventures, Founders Fund, Summa, and Schibsted. Diversity of thought fuels better products, so we welcome applicants of every background, identity and lived experience. Ready to be part of powering the energy transition? Apply below!
In this role, you will contribute to building next-generation capabilities for assessing battery health and lifetime, enabling smarter decisions across the lifecycle of electric vehicles—from first use to second-life applications. You will work closely with experts in data science, software, and engineering, bringing critical domain knowledge to ensure that battery insights are technically sound, interpretable, and actionable. What You Will Do Develop and validate methods for State of Health (SOH) and Remaining Useful Life (RUL) estimation for Li-ion batteries Analyze real-world vehicle and battery data to understand degradation behavior over time Interpret and explain battery aging based on factors such as: Temperature State of Charge (SOC) Depth of Discharge (DoD) Charging patterns and C-rate Load profiles and usage conditions Compare and evaluate on-board BMS health estimates vs. off-board analytical models Define confidence levels, limitations, and applicability of lifetime predictions Collaborate with cross-functional teams to ensure models are physically grounded and credible Translate battery health insights into practical recommendations for: Lifecycle planning Residual value and risk assessment Warranty and service strategies Second-life and reuse scenarios What We Are Looking For Strong background in Li-ion battery technology and degradation mechanisms Experience with battery lifetime assessment, including: Calendar aging Cycle aging Real-world usage effects Deep understanding of: SOH and RUL Capacity fade and resistance increase Performance degradation in field conditions Experience working with battery data from vehicles, BMS systems, or testing environments Ability to critically evaluate models and challenge assumptions Experience collaborating with data scientists, engineers, and business stakeholders Strong communication skills—able to explain complex battery behavior clearly Meriting Experience Experience with battery systems in electric vehicles (BEVs) Exposure to second-life, residual value, or warranty risk analysis Experience comparing BMS estimates with external models Basic ability to work with Python, SQL, or similar tools Background in high-utilization or commercial vehicle applications Education Degree in electrochemistry, battery technology, electrical engineering, materials science, or similar Advanced studies within energy storage systems are a plus Why Multiply Work on real-world electrification challenges with direct impact on sustainability and lifecycle efficiency Combine deep engineering knowledge with data-driven decision-making Collaborate in cross-functional teams spanning software, data, and systems engineering Contribute to building scalable capabilities for next-life battery use and optimization
About us At Techrytera AB, recruitment starts with you. We are a staffing and recruitment company with deep expertise and a clear focus on IT and Engineering. With our industry knowledge and close dialogue with both candidates and clients, we create precise matches where the right skills meet the right needs. We believe that a truly great match is not just about a job description – it’s about your experience, your potential, and what you genuinely want to develop in. That’s why we always focus on the individual. By understanding your background, motivations, and ambitions, we can connect you with assignments and roles at our clients where you have the right conditions to grow and make an impact. Our goal is to build long-term and meaningful collaborations – for both you as a candidate and for our clients. Job Description We are seeking an experienced Mechanical Design Engineer to join an innovative team working with advanced engineering and concept vehicles. The team operates in early development phases, focusing on future technologies such as electrification, hydrogen, and e-Mining. The role is set in a fast-paced and collaborative environment, working closely with R&D, Production, and other stakeholders. You will contribute to concept development and ensure feasible, high-quality technical design solutions. Key Responsibilities Contribute to early-phase concept development and vehicle design Create 3D models and concept designs in Catia V5 Develop technical solutions within areas such as cooling, braking, steering, and battery systems Collaborate cross-functionally with R&D and Production teams Support vehicle layout and system integration Perform or support FEM analysis for concept validation Deliver concept-level designs within tight timelines Requirements 7+ years of experience in mechanical design Strong experience in concept development and early-phase engineering Proficiency in Catia V5 and PLM systems (e.g., Enovia) Experience with BEV (Battery Electric Vehicle) solutions Knowledge of vehicle integration and layout Experience in FEM analysis is highly meritorious Ability to work in dynamic and changing environments Strong communication and teamwork skills Language: Fluent English required; Swedish is meritorious Application When you apply through Techrytera AB, you’re not just applying for a job – you’re starting a dialogue about your career path. We want to get to know you, your experience, and your ambitions so that we can match you with the right opportunities at our clients. Does this sound interesting? Submit your application or get in touch with us to learn more. We look forward to discovering the next step in your career together with you.
Jobb inom mikromobilitet – Elcyklar i Köpenhamn Söker du ett flexibelt arbete, extrainkomst eller en heltidsmöjlighet? Vi expanderar nu vårt team i Köpenhamn i samarbete med ett ledande företag inom mikromobilitet och söker motiverade personer som vill arbeta med elcyklar under säsongsstarten. Tjänsten passar dig som är student, söker deltidsarbete, eller vill arbeta heltid. Arbetet erbjuder stor flexibilitet och självständighet. 📍 Arbetsplats Start i Sverige – arbete i Köpenhamn Arbetsdagen börjar vid vårt lager, där du utgår med en av våra transportbilar. Krav: B-körkort. ⏰ Arbetstider Arbetspass: 8,5 timmar 30 minuters obetald rast Flexibelt schema som kan anpassas efter studier eller annat arbete Möjlighet till deltid, heltid eller extraarbete 💼 Arbetsuppgifter Arbetet är självständigt, aktivt och varierande. Du använder en mobilapp för att lokalisera fordon i staden. Batteribyte: Byta batterier på elcyklar Utplacering: Ställa ut reparerade cyklar i staden Insamling: Hämta skadade cyklar till lagret Omfördelning: Flytta cyklar till områden där de behövs Parkering: Säkerställa korrekt parkering Säkerhetskontroll: Kontrollera att varje cykel fungerar som den ska 👥 Vi söker dig som Har B-körkort Är pålitlig och ansvarstagande Trivs med självständigt arbete Är bekväm med att använda mobilappar Gillar att arbeta fysiskt och utomhus 🌟 Vi erbjuder Flexibelt schema Självständigt arbete Möjlighet till extra- eller heltidsinkomst Arbete i en växande bransch Trevlig arbetsmiljö och team 📩 Ansökan Vi rekryterar löpande inför säsongen. Skicka din ansökan och berätta kort om dig själv. ________________________ Micromobility Job – Electric Bikes in Copenhagen Are you looking for a flexible job, extra income, or a full-time opportunity? We are expanding our team in Copenhagen in collaboration with a leading micromobility company and are looking for motivated individuals to work with electric bikes as the season begins. This position is suitable for students, part-time job seekers, or those looking for full-time employment. The role offers flexibility and independence. 📍 Work Location Start in Sweden – work in Copenhagen Your workday begins at our warehouse, where you will drive one of our company vans. Requirement: Category B driver’s license. ⏰ Working Hours Shifts: 8.5 hours 30-minute unpaid break Flexible scheduling, adaptable to studies or other work Available as part-time, full-time, or extra work 💼 Responsibilities The job is independent, active, and varied. You will use a mobile app to locate vehicles in the city. Battery Swaps: Replace batteries in electric bikes Deployment: Return repaired bikes to the city Collection: Pick up damaged bikes and return them to the warehouse Rebalancing: Move bikes to areas where they are needed Parking: Ensure proper parking of bikes Safety Check: Perform quick checks to ensure bikes are functional 👥 Requirements Valid Category B driver’s license Reliable and responsible Comfortable working independently Able to use smartphone apps Enjoys physical outdoor work 🌟 What We Offer Flexible schedule Independent work Opportunity for extra or full-time income Work in a fast-growing industry Supportive team environment 📩 Application We are hiring for the upcoming season. Submit your application and tell us a bit about yourself.
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.
Professional Galaxy is an IT and technology consulting company that provides highly specialized expertise in IT, software development, SAP, purchasing, electronics and mechanical design. We collaborate with experienced senior experts and deliver strategic value-creating expertise to some of Sweden's most complex and analytically demanding projects. Our focus is always on high quality, professionalism and clear, measurable results. Are you the right person for the assignment, or do you want to recommend a strong candidate? Do not hesitate to contact us. Feel free to apply today, selection and interviews take place on an ongoing basis. Professional Galaxy is looking for a Technical writer on behalf of our client. Working as a technical writer for the “Workshop manual” product at company Vehicle Service Information, a part of the aftermarket organisation. The assignment mainly regards the fields electric vehicles (batteries, charging, e-machines) as well as conventional transmission. This requires working in a team of 3 technical writers and in close collaboration with method engineers in several teams, who produce the basic repair methods to be described. It is necessary to be able to understand and work towards the right level of description and quality for the customer, as well as grasping terms and basic technical aspects. The work requires a quick learner and drive. Some production systems are Ewok/Windchill, Arbortext, Traton’s PDM “OAS”. Consuming systems include Tratons WiO, SWS etc. Language: Swedish (fluent written technical) + English Meriting: General knowledge of the technical aspects of heavy vehicles, electric vehicles, battery technology etc. Experience from Scania, MAN or other brands within Traton. Basic illustration competency. The selection of candidates is done continuously. Good opportunities for an extension of the assignment. A background check will be carried out before any assignment starts. Other Information : Start Date : 2026-06-01 End Date : 2027-05-31 Application Deadline :2026-05-07 Work Model : Hybrid with 3 days/week on-site. Please apply directly through our system with: - Your updated CV - Availability to start the assignment In the motivation, describe why you are suitable for this assignment - refer to previous consulting assignments, employment, education and personal qualities. Please note: We do not accept any applications through mail. All applications have to be sent through the portal to be valid.
Company description: Who are we?Volvo Cars is a company on a mission; to bring traditional car manufacturing into a connected, sustainable and smart future.Since 1927, we have been a brand known for our commitment to safety, creating innovative cars that make life less complicated for our consumers. In 2010, we decided to transform our business, resulting in a totally new generation of cars and technologies, as well as steady growth and record sales. Today, we’re expanding our global footprint in Europe, China and the US, and we’re on the lookout for new talent. We are constantly pushing our own skills and abilities to drive change in the automobile industry like never before. We are looking for innovative, committed people to join us in this endeavour and create safe, sustainable and connected cars. We believe in the power of people and will challenge and support you to reach your full potential. Join us and be part of Volvo Cars’ journey into the future. Job description: Let's introduce ourselves Green Propulsion and Thermal Management are increasingly important areas for Volvo Cars to become leading in Electrification. Thermal Management have a key role in energy efficient propulsion by optimizing control towards customer functions and balancing attributes. The systems are getting more advanced and complex including different temperature levels, cooling down, heating up, transfer/transport and store heat for electric motors, battery, control modules etc. All this needs to be designed with sustainability in focus. Thermal management is a part of the Energy department within the unit Propulsion & Energy. The section Thermal & Energy Management is divided into four groups, working closely together for a complete Thermal Management system delivery, both on HW and SW side. Our group, Thermal System & Function, have ownership of Thermal management from first architectural sketch, on HW and functional side, including concept design, to system development and ownership within our running programs. We are 12 persons with high ambitions, different ages, background and experience. We are characterized as an open and friendly group where everyone shares their knowledge with each other. What you'll do As an engineer working with Function Realisation and System Design you are a key person for total coordination of the electrical realization of Thermal Management functionality. You work in close cooperation with other technical areas, attributes and aspects. Within the department you will work in close cooperation with our Function owner, System architects, SW developers, CAE engineers and Component owners. You will also: Lead the system design and implementation of Thermal Management functionality across departments Break down functional behavior to requirements for SW implementation, both within our department and to other technical areas if needed Lead the system design work with allocation of both software components, actuators and sensors Lead the System Safety work within the thermal area, ensuring functional safety fulfilment of the Thermal Management System. You will also participate / support in other work packages such as HARA, PRSP and similar work products lead by function / SW architect Participate in future development and improvement of our Thermal Management functionalities, documented in our Technical and Functional Roadmaps Participate in developing our Verification plan (AVN) on system- and complete vehicle level, regarding the function, both generic and per program What you'll bring You have experience from functionality or software development best practices. To fit our diverse team, you need to be a team player that believes in inclusiveness. As a person you are structured, supportive and contribute with personal energy. You would bring an University degree BSc or MSc within mechatronics, electrical or electronics as well as 5+ years working experience within relevant field. You bring experience from SW/ Function development and/or testing within automotive development is meritorious. You bring experience within control technology, theoretically and from practical applications, are considered as an advantage within this role as well as from diagnostics concept development is considered as an advantage. You are curious, structured, good analytical skills and a great technical interest. You have attention to details are important, but also having the ability to visualize the entire picture. You are fluent in English (written and spoken) as well as carry a valid driving license (B).