Product Designer Engineer

📍 Job Overview

Job Title: Product Designer Engineer

Company: Laerdal Medical AS

Location: Monterrey, Nuevo León, Mexico

Job Type: Full-Time

Category: Manufacturing & Product Development Operations

Date Posted: May 21, 2026

Experience Level: 2-5 Years

Remote Status: On-site

🚀 Role Summary

• Drive the validation of new parts, tools, and assemblies to ensure production readiness and adherence to quality standards.

• Support the seamless implementation of new tools and processes throughout pilot runs and full-scale production launches.

• Leverage advanced CAD, PLM, and tolerance analysis tools to meticulously support design reviews and assess manufacturability.

• Act as a critical communication conduit, fostering strong collaboration between Product Design (PD) engineers, manufacturing supervisors, and external suppliers.

• Champion continuous improvement initiatives to identify and implement strategies for streamlining processes and reducing delays in new product development lifecycles.

• Contribute to the evaluation and early implementation of Tulip and other automation solutions to enhance process efficiency and operational effectiveness.

📝 Enhancement Note: While the title is "Product Designer Engineer," the core responsibilities and qualifications strongly indicate a focus on the manufacturing and process engineering aspects of product development, rather than pure product design. The role emphasizes manufacturability, process implementation, and supplier collaboration, aligning it with operations support for product lifecycle management.

📈 Primary Responsibilities

• Item Verification & Release: Conduct thorough validation of all new parts, tools, and assemblies, ensuring they meet design specifications and quality benchmarks before their official release into the production environment.

• Implementation Tracking & Support: Proactively track the progress of new tools and processes, providing on-the-ground support during pilot phases and critical production launch periods to ensure smooth integration and immediate issue resolution.

• CAD/PLM & Tolerance Analysis Application: Apply expertise in CAD software (e.g., NX), PLM systems (e.g., Teamcenter), and tolerance analysis tools to conduct robust design reviews, identify potential manufacturability issues, and optimize designs for efficient production.

• Manufacturing Process Collaboration: Work closely with production teams to guarantee that products are manufactured efficiently, cost-effectively, and in full compliance with Laerdal Medical's stringent quality and safety standards.

• Automation & Tulip Integration Support: Provide initial guidance and hands-on support in evaluating Tulip and other automation solutions. Assist the direct responsible personnel in their early implementation stages, ensuring alignment with process efficiency goals and operational objectives.

• Cross-Functional Communication Hub: Serve as the primary communication link between PD engineers, manufacturing supervisors, quality assurance, and external suppliers, facilitating clear information flow and problem-solving.

• Continuous Improvement & Streamlining: Actively identify opportunities within the product development and implementation lifecycle to streamline workflows, reduce bottlenecks, and minimize delays, thereby accelerating time-to-market for new products.

• Documentation & Reporting: Maintain accurate records of verification processes, implementation progress, and continuous improvement initiatives, providing regular reports to management and relevant stakeholders.

📝 Enhancement Note: The responsibility for "Tulip and automation" suggests a forward-thinking approach to manufacturing operations, requiring the candidate to be comfortable with exploring and supporting new technologies that enhance efficiency and data collection on the production floor.

🎓 Skills & Qualifications

Education:

Experience:

• A minimum of 4+ years of progressive experience in manufacturing support, product development, process engineering, or a closely related field.

Required Skills:

• CAD Proficiency: Expertise in Computer-Aided Design (CAD) software, specifically NX, for design, modeling, and review.

• PLM System Knowledge: Strong understanding and practical experience with Product Lifecycle Management (PLM) systems, such as Teamcenter, for managing product data and workflows.

• Tolerance Analysis: Demonstrated ability to perform tolerance analysis to ensure product functionality and manufacturability within specified limits.

• Manufacturing Process Knowledge: Deep understanding of key manufacturing processes, including injection molding, assembly operations, and automation principles.

• Cross-functional Collaboration: Proven ability to effectively collaborate with diverse teams, including engineering, production, quality assurance, and suppliers.

• Continuous Improvement Methodologies: Familiarity with continuous improvement frameworks (e.g., Lean, Six Sigma) to identify and implement process enhancements.

• Item Verification Procedures: Experience in validating and verifying new parts and assemblies against specifications.

• Problem-Solving: Strong analytical and problem-solving skills to address manufacturing and implementation challenges.

Preferred Skills:

• Experience with Tulip or similar industrial automation/workflow platforms.

• Familiarity with root cause analysis techniques for manufacturing defects.

• Ability to interpret technical drawings and specifications.

• Excellent communication and interpersonal skills, with the ability to present complex information clearly.

📝 Enhancement Note: The combination of NX, Teamcenter, and tolerance analysis, coupled with manufacturing process knowledge, points towards a role focused on Design for Manufacturing (DFM) and Design for Assembly (DFA) principles within a robust product development and operations framework.

📊 Process & Systems Portfolio Requirements

Portfolio Essentials:

• CAD Model Examples: Showcase examples of complex 3D models created in NX, demonstrating proficiency in surfacing, solid modeling, and assembly design relevant to manufactured components.

• PLM Workflow Integration: Provide evidence of how you've leveraged PLM systems (like Teamcenter) to manage design iterations, document changes, and facilitate product release processes.

• Tolerance Analysis Case Studies: Include case studies detailing your application of tolerance analysis to resolve potential assembly issues or ensure functional requirements, highlighting the tools used and the outcomes achieved.

• Process Implementation Documentation: Present documentation or examples of processes you have supported during pilot runs or production launches, illustrating your role in tracking progress and resolving implementation challenges.

• Manufacturability Improvement Examples: Showcase instances where you identified and implemented design changes or process adjustments to improve manufacturability, reduce costs, or enhance production efficiency.

Process Documentation:

• Workflow Design & Optimization: Demonstrate your ability to map, analyze, and optimize manufacturing workflows, identifying bottlenecks and areas for improvement through systematic process reviews.

• Implementation & Automation Methods: Document your experience in implementing new manufacturing tools, processes, or automation solutions, outlining the steps taken, challenges overcome, and success metrics.

• Measurement & Performance Analysis: Illustrate how you use data and metrics to measure the performance of implemented processes, track continuous improvement initiatives, and report on operational efficiency gains.

📝 Enhancement Note: For a role like this, the portfolio should emphasize practical application of design and manufacturing engineering principles. Candidates should be prepared to discuss specific projects where they applied CAD, PLM, and tolerance analysis to solve real-world manufacturing challenges and improve product realization processes.

💵 Compensation & Benefits

Salary Range:

Benefits:

• Meaningful Work: Engage in interesting and purposeful work that directly contributes to Laerdal Medical's mission of saving lives through improved healthcare quality and education.

• Personal & Professional Growth: Access opportunities for continuous learning, skill development, and career advancement within the organization.

• Inclusive Work Environment: Be part of a great, diverse, inclusive, and international team that values collaboration and mutual respect.

• Innovative Technology: Work with and contribute to cutting-edge, forward-thinking healthcare technology solutions.

• Competitive Compensation & Benefits: Receive a competitive salary package, including comprehensive benefits that support employee well-being and financial security.

Working Hours:

• Standard full-time working hours are expected, likely around 40 hours per week, with potential for occasional overtime during critical project phases or production launches. Flexibility may be offered based on operational needs and team agreements.

📝 Enhancement Note: Salary estimates are based on market research for similar engineering roles in Monterrey, Mexico, considering the specified experience level and industry. Benefits are derived from the provided "What we offer" section, elaborated for clarity.

🎯 Team & Company Context

🏢 Company Culture

Industry: Healthcare Technology & Medical Simulation. Laerdal Medical AS is a global leader in providing solutions for healthcare education and training, focusing on improving patient outcomes through advanced simulation technology and digital learning tools. Their work directly impacts medical professionals' skills and patient safety worldwide.

Company Size: Over 2,200 colleagues globally. This indicates a well-established, mid-to-large-sized organization with a significant international presence, offering a stable yet dynamic work environment.

Founded: Laerdal Medical was founded in 1940. With decades of experience, the company has a rich history of innovation and a strong foundation in its mission.

Team Structure:

• Product Development & Manufacturing Support: The role likely sits within a team focused on the product realization process, bridging the gap between engineering design and manufacturing execution.

• Cross-Functional Integration: Expect to work closely with teams in Product Development, Manufacturing, Quality Assurance, Supply Chain, and potentially R&D.

• Reporting: The role likely reports to a Manufacturing Engineering Manager, Product Development Lead, or Operations Manager, with direct collaboration with project managers and senior engineers.

Methodology:

• Data-Driven Decision Making: Laerdal Medical emphasizes using data for decision-making, evident in their focus on verification, analysis, and continuous improvement.

• Process Optimization Focus: The role actively seeks to streamline workflows, reduce delays, and implement efficient manufacturing and automation solutions.

• Collaborative Problem Solving: The company culture prioritizes collaboration, with the role acting as a key communication bridge to solve complex issues.

Company Website: https://laerdal.csod.com/ux/ats/careersite/4/home/requisition/3086?c=laerdal (Note: This links to the job requisition; the company website is likely laerdal.com)

📝 Enhancement Note: The company's mission to "save one million more lives, every year, by 2030" highlights a strong sense of purpose that permeates their culture and operations. Candidates aligned with this mission will likely thrive.

📈 Career & Growth Analysis

Operations Career Level: This role is positioned as an early-to-mid-career engineering position, suitable for individuals with 2-5 years of experience. It offers hands-on exposure to the entire product realization process, from initial part validation to production implementation and automation support.

Reporting Structure: The Product Designer Engineer will likely report to a Senior Engineer, Engineering Manager, or Operations Lead. They will work collaboratively with a team of engineers and technicians in the Monterrey facility, and liaigely with global PD and manufacturing teams.

Operations Impact: This role has a direct impact on Laerdal's ability to bring innovative healthcare products to market efficiently and reliably. By ensuring manufacturability and supporting process improvements, the engineer contributes to product quality, cost-effectiveness, and timely delivery, all critical to the company's mission.

Growth Opportunities:

• Specialization in Manufacturing Processes: Develop deep expertise in specific manufacturing techniques like injection molding or advanced assembly automation.

• Advanced Simulation & Automation: Grow skills in implementing and optimizing industrial automation solutions, including platforms like Tulip, becoming a subject matter expert.

• Project Management: Transition into roles managing specific product implementation projects or process improvement initiatives.

• Leadership Development: Progress into senior engineering roles, team lead positions, or management within manufacturing or product development operations.

• Cross-functional Exposure: Gain broader experience by working on international projects or collaborating with different departments across Laerdal Medical's global operations.

📝 Enhancement Note: The mention of "Tulip and automation" presents a unique growth opportunity for candidates interested in the evolving landscape of Industry 4.0 within a purpose-driven organization.

🌐 Work Environment

Office Type: The role is based in an industrial park setting in Monterrey, Mexico, suggesting a combination of office-based work for design reviews, documentation, and collaboration, as well as significant time spent on the manufacturing floor.

Office Location(s): Av. Las Torres 905 Col. Parque Industrial Gpe, Monterrey, Nuevo León, 67190, Mexico. This location is within a dedicated industrial zone, likely offering good infrastructure and accessibility for manufacturing operations.

Workspace Context:

• Collaborative Hub: The workspace will facilitate close interaction with manufacturing supervisors, production teams, and fellow engineers, fostering a collaborative problem-solving environment.

• Access to Tools & Technology: You will have access to industry-standard CAD/PLM software (NX, Teamcenter), tolerance analysis tools, and potentially hands-on experience with automation equipment and platforms like Tulip on the production floor.

• Factory Floor Integration: Expect to spend considerable time on the manufacturing floor to observe processes, verify items, and support implementation, requiring adaptability and a practical mindset.

Work Schedule:

• The role operates on a standard full-time schedule, likely Monday to Friday. However, the nature of manufacturing support may necessitate occasional flexibility to address urgent production needs, pilot run schedules, or critical launch timelines.

📝 Enhancement Note: Candidates should be comfortable with a hybrid work environment that blends office-based engineering tasks with essential on-the-ground presence in a manufacturing setting.

📄 Application & Portfolio Review Process

Interview Process:

• Initial Screening: A review of your resume and application to assess qualifications against the core requirements, with a particular focus on CAD, PLM, and manufacturing process experience.

• Technical Interview: An in-depth discussion with hiring managers and/or senior engineers. Expect questions covering your experience with NX, Teamcenter, tolerance analysis, and specific manufacturing processes (e.g., injection molding). You may be asked to walk through a past project or solve a hypothetical design-for-manufacturability problem.

• Portfolio Presentation: You will likely be asked to present selected pieces from your portfolio, demonstrating your ability to validate parts, support process implementation, and improve manufacturability. Focus on quantifiable results and your role in problem-solving.

• Cross-functional Collaboration & Culture Fit: Interviews may involve discussions about how you collaborate with different teams (engineering, production, suppliers) and your understanding of Laerdal's mission and values.

• Final Interview: Potentially a meeting with higher-level management to discuss overall fit and long-term potential.

Portfolio Review Tips:

• Highlight Key Tools: Clearly showcase projects where you utilized NX, Teamcenter, and tolerance analysis tools. Explain how you used them and the impact they had.

• Quantify Achievements: For process implementation or improvement examples, provide specific metrics (e.g., reduced cycle time by X%, decreased defect rate by Y%, accelerated launch by Z weeks).

• Focus on Problem-Solving: Detail a challenge you faced during part validation or process implementation, outline your approach, and explain the successful resolution.

• Demonstrate Collaboration: Include examples where you effectively communicated with manufacturing teams or suppliers to achieve a common goal.

• Showcase Manufacturability Focus: Present designs or modifications that clearly demonstrate an understanding of manufacturing constraints and efficiencies.

Challenge Preparation:

• Design for Manufacturability (DFM) Exercise: Be prepared for a hypothetical scenario where you need to review a product design for its manufacturability, identifying potential issues and suggesting improvements.

• Process Implementation Scenario: You might be asked to outline steps for implementing a new tool or process on the production floor, considering potential challenges and mitigation strategies.

• Tolerance Stack-up Problem: A basic tolerance stack-up problem might be presented to assess your analytical skills.

📝 Enhancement Note: The emphasis on "Tulip and automation" means being ready to discuss any experience or understanding of industrial IoT, workflow automation, or digital manufacturing execution systems (MES) could be a significant advantage.

🛠 Tools & Technology Stack

Primary Tools:

• CAD Software: Siemens NX (highly preferred, as stated in requirements).

• PLM System: Siemens Teamcenter (highly preferred, as stated in requirements).

• Tolerance Analysis Software: Tools for performing tolerance stack-up analyses (specific software not named but expected to be industry-standard).

• Automation Platforms: Tulip (specifically mentioned for evaluation and initial guidance).

Analytics & Reporting:

• Data Analysis Tools: Proficiency in analyzing manufacturing data to identify trends and areas for improvement. This may involve Excel, or more advanced BI tools if used by the company.

• Reporting Tools: Ability to create clear and concise reports on item verification, process implementation, and continuous improvement initiatives.

CRM & Automation:

• Workflow Automation: Experience or understanding of workflow automation principles, particularly related to manufacturing execution and data collection (e.g., Tulip).

• System Integration: Basic understanding of how different systems (CAD, PLM, ERP, MES) might interact to support product development and manufacturing processes.

📝 Enhancement Note: Given the specific mention of NX and Teamcenter, candidates with direct experience in these Siemens PLM suite tools will have a significant advantage. Familiarity with Tulip suggests a growing interest in digital manufacturing and shop-floor connectivity.

👥 Team Culture & Values

Operations Values:

• Mission-Driven: A strong commitment to Laerdal's overarching mission to save lives through improved healthcare education and technology. This value guides daily work and decision-making.

• Collaboration & Engagement: Prioritization of teamwork, open communication, and mutual support among colleagues across different functions and geographies.

• Innovation & Forward-Thinking: A culture that encourages exploring and implementing new technologies and methodologies, such as automation, to drive progress.

• Quality & Excellence: A dedication to high standards in product development, manufacturing processes, and patient safety outcomes.

• Continuous Improvement: An embedded mindset of seeking opportunities to enhance processes, increase efficiency, and reduce waste.

Collaboration Style:

• Bridge Building: The role is designed to be a communication bridge, requiring proactive engagement with engineers, production staff, and suppliers to ensure alignment and resolve issues.

• Data-Informed Discussions: Collaboration often involves using data from simulations, verification processes, and production runs to inform discussions and drive solutions.

• Cross-Functional Integration: Expect a style of collaboration that integrates product design considerations with manufacturing realities, fostering a holistic approach to product realization.

• Open Feedback: A culture that encourages sharing feedback on designs, processes, and implementation challenges to collectively improve outcomes.

📝 Enhancement Note: Candidates who can articulate how they align with these values and demonstrate a collaborative approach in their work examples will be well-received.

⚡ Challenges & Growth Opportunities

Challenges:

• Balancing Design Intent with Manufacturability: Effectively translating complex product designs into manufacturable, cost-effective, and high-quality products, especially when dealing with new or intricate components.

• Navigating Production Floor Dynamics: Adapting to the fast-paced and sometimes unpredictable environment of a manufacturing floor, requiring quick problem-solving and clear communication with production teams.

• Implementing New Technologies (e.g., Tulip): Supporting the adoption and integration of new automation solutions like Tulip, which may involve overcoming initial resistance, training challenges, and technical hurdles.

• Supplier Collaboration: Managing relationships and communication with external suppliers to ensure timely delivery of quality parts and components that meet stringent specifications.

• Global vs. Local Alignment: Ensuring that local manufacturing processes in Monterrey align with global product development standards and corporate objectives.

Learning & Development Opportunities:

• Advanced CAD/PLM Training: Deepen expertise in advanced features of NX and Teamcenter, potentially exploring modules related to simulation or advanced manufacturing.

• Automation & Industry 4.0: Gain hands-on experience and knowledge in implementing and managing industrial automation solutions, becoming a key player in Laerdal's digital manufacturing initiatives.

• Process Engineering Specialization: Develop advanced skills in process mapping, analysis, and optimization techniques applicable across various manufacturing scenarios.

• Cross-Cultural Project Experience: Participate in projects involving international teams, enhancing understanding of global manufacturing standards and collaboration.

• Mentorship: Benefit from mentorship from experienced engineers and managers within Laerdal Medical, fostering career growth and skill development.

📝 Enhancement Note: The "Tulip and automation" aspect presents a significant opportunity for growth into the burgeoning field of smart manufacturing and digital factory solutions.

💡 Interview Preparation

Strategy Questions:

• "Describe a time you had to validate a new part or assembly for production. What was your process, and what challenges did you face?" Preparation: Focus on your verification steps, the tools you used (CAD, analysis), how you communicated findings, and how you resolved any issues to ensure successful release.

• "How would you support the implementation of a new automated assembly process on the production line, considering potential disruption?" Preparation: Outline your approach to tracking, providing support, collaborating with production, and mitigating risks. Mention Tulip if you have relevant experience or can discuss its potential applications.

Company & Culture Questions:

• "What interests you about Laerdal Medical's mission, and how do you see your role contributing to it?" Preparation: Research Laerdal's mission, values, and recent achievements. Connect your skills and motivations to their goal of saving lives.

• "How do you approach collaborating with production supervisors and suppliers who may have different priorities?" Preparation: Emphasize your communication skills, ability to find common ground, and focus on shared objectives (e.g., product quality, timely delivery).

Portfolio Presentation Strategy:

• Select Relevant Projects: Choose 2-3 projects that best showcase your experience with CAD, PLM, tolerance analysis, process implementation, and manufacturability improvements.

• Structure with STAR Method: For each project, clearly describe the Situation, Task, Action, and Result. Focus on your specific contributions and the impact of your work.

• Emphasize Tool Proficiency: Explicitly mention and visually demonstrate your use of NX, Teamcenter, and any analysis tools.

• Highlight Process Improvement: Show how you identified inefficiencies and implemented solutions, backing up claims with data and metrics.

• Be Ready for Technical Deep Dives: Anticipate detailed questions about your design choices, analysis methods, and problem-solving approaches.

📝 Enhancement Note: Be prepared to discuss how you would approach evaluating and supporting the initial implementation of Tulip or similar workflow automation tools, even if your direct experience is limited. Focus on the process of evaluation and implementation.

📌 Application Steps

To apply for this Product Designer Engineer position:

• Submit Your Application: Navigate to the provided link on Laerdal's careers site and complete the online application form.

• Tailor Your Resume: Ensure your resume highlights your experience with NX, Teamcenter, tolerance analysis, and specific manufacturing processes (injection molding, assembly, automation). Use keywords from the job description to optimize for Applicant Tracking Systems (ATS).

• Prepare Your Portfolio: Curate a selection of your best work that demonstrates your skills in CAD, PLM, process implementation, and manufacturability improvements. Be ready to present and discuss these projects in detail during interviews.

• Research Laerdal Medical: Familiarize yourself with the company's mission, values, products, and recent news. Understand their commitment to improving healthcare quality and education.

• Practice Interview Responses: Prepare answers to common behavioral and technical questions, focusing on the STAR method and quantifying your achievements. Practice articulating your experience with design validation, process implementation, and continuous improvement.

⚠️ Important Notice: This enhanced job description includes AI-generated insights and operations industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.