Power Design Manager, Energy Storage at Super Micro Computer

📍 Job Overview

Job Title: Power Design Manager, Energy Storage

Company: Super Micro Computer

Location: Bade, Taoyuan, Taiwan

Job Type: Full-Time

Category: Power Electronics Design / Engineering Management

Date Posted: 2025-06-13T00:00:00

Experience Level: 5+ Years (Managerial)

Remote Status: On-site

🎨 Role Summary

Lead and build a dedicated R&D team focused on cutting-edge battery and energy storage power product design.
Establish and manage a new, state-of-the-art laboratory environment for robust R&D testing and verification.
Drive the entire product lifecycle from initial design concepts through successful mass production of power solutions.
Ensure the highest standards of product quality are met and maintained throughout the design and manufacturing phases.

📝 Enhancement Note: While this is a technical role focused on power electronics, the "design" aspect here refers to the engineering design of power systems and battery products, not traditional visual or interaction design. The enhancement focuses on clarifying the technical design and leadership responsibilities within this context.

🖼️ Primary Responsibilities

Recruit, mentor, and manage a team of approximately 10 R&D engineers specializing in power electronics and battery technologies.
Oversee the technical design and development of new battery-related power products, including UPS systems and other energy storage solutions.
Plan, equip, and operationalize a new R&D testing laboratory, defining necessary equipment and validation procedures.
Collaborate closely with manufacturing teams to ensure seamless transition from design prototypes to high-volume mass production.
Implement and enforce rigorous quality control processes and testing protocols to ensure product reliability and performance.
Manage multiple design projects concurrently, prioritizing tasks and allocating resources effectively to meet deadlines.

📝 Enhancement Note: Detailed primary responsibilities have been inferred based on the need to build a new team, establish a lab, and manage the product lifecycle from R&D to mass production, which are typical for a managerial role in a hardware development environment.

🎓 Skills & Qualifications

Education: A Bachelor's or Master's degree in Electrical Engineering (EE), Computer Engineering (CE), Computer Science (CS), or a related engineering discipline is required.

Experience: A minimum of 5 years of hands-on experience in designing power or battery-related products is essential. Previous experience leading technical teams and managing complex hardware design projects is highly preferred.

Required Skills:

Extensive experience in the design and development of power electronics, specifically for battery and energy storage systems.
Proven capability to lead and manage a team of engineers, fostering collaboration and driving project execution.
Demonstrated ability to manage multiple technical projects simultaneously, delivering results under pressure.
Strong understanding of R&D testing methodologies and laboratory setup for power product validation.
Experience in transitioning power product designs from R&D to mass production environments.
Solid knowledge of product quality control processes and reliability standards for electronic hardware.

Preferred Skills:

Experience with specific energy storage technologies (e.g., Li-ion, LiFePO4) and battery management systems (BMS).
Familiarity with power conversion topologies (e.g., AC-DC, DC-DC, DC-AC) relevant to UPS and energy storage applications.
Knowledge of safety and regulatory compliance standards for power electronics and battery products (e.g., UL, CE, IEC).
Experience with simulation tools for power electronics design (e.g., SPICE, MATLAB/Simulink).

📝 Enhancement Note: Preferred technical skills have been added based on common requirements for power electronics and energy storage design roles at a managerial level, providing a more complete picture of desired expertise.

🎨 Portfolio & Creative Requirements

Portfolio Essentials:

While not a traditional design portfolio, candidates should prepare a technical portfolio or project summaries showcasing their experience in power electronics and battery system design.
Include detailed case studies of previous power product development projects, highlighting design challenges, solutions, and outcomes.
Demonstrate experience in the full product lifecycle, from initial concept and schematic design to PCB layout considerations and thermal management.
Provide examples of technical documentation, test plans, and validation reports for power products.

Process Documentation:

Document your design process, including requirements gathering, architectural decisions, component selection, and simulation/analysis techniques.
Showcase your approach to managing the R&D phase, including prototyping, testing iterations, and troubleshooting.
Explain your process for collaborating with manufacturing and quality assurance teams during the mass production ramp-up.

📝 Enhancement Note: Adapted the "Portfolio & Creative Requirements" section to focus on technical project documentation and case studies relevant to a power electronics design role, emphasizing the engineering design process rather than visual design.

💵 Compensation & Benefits

Salary Range: Based on research for Power Design Manager roles with 5+ years of experience in Taiwan, specifically in the technology sector, the estimated annual salary range is approximately TWD 1,200,000 - TWD 2,000,000. This estimate is based on typical compensation for engineering management roles in the region, considering the required experience level and technical specialization. Actual compensation may vary based on qualifications, interview performance, and company-specific compensation structures.

Benefits:

Comprehensive health insurance coverage, likely including medical, dental, and vision plans.
Retirement savings plan or pension scheme in accordance with local regulations.
Paid time off, including annual leave and public holidays.
Potential for performance-based bonuses or incentives.
Opportunities for professional development and training relevant to power electronics and energy storage technologies.

Working Hours: Standard full-time working hours, likely 40 hours per week, though flexibility may be required based on project deadlines and team management needs.

📝 Enhancement Note: A salary range for Taiwan has been estimated based on general compensation data for engineering management roles with similar experience in the technology sector. This is a general estimate and may not reflect Super Micro Computer's specific compensation structure.

🎯Team & Company Context

🏢 Company & Design Culture

Industry: Super Micro Computer operates in the Computer Hardware Manufacturing industry, specifically focused on advanced server, storage, and networking solutions. This context implies a strong emphasis on performance, efficiency, and reliability in their power design efforts.

Company Size: With over 5,000 employees globally, Super Micro Computer is a large, established technology company. This suggests a structured environment with defined processes and potential for cross-functional collaboration across various engineering disciplines.

Founded: Founded in 1993, Super Micro Computer has a long history in the server and storage market, indicating stability and established engineering practices. Their focus on "Green Computing" suggests a commitment to energy efficiency, which is highly relevant to energy storage power design.

Team Structure:

This role involves building and leading a new R&D team of approximately 10 engineers, indicating a focus on expanding capabilities in the energy storage domain.
The team will likely collaborate closely with other engineering teams (e.g., system design, thermal engineering) and manufacturing.
Reporting structure will likely be to a higher-level engineering or R&D director.

Methodology:

The R&D process will likely involve rigorous testing and verification in the new lab.
Emphasis will be on designing for manufacturability and ensuring product quality through mass production.
Agile or Waterfall methodologies, or a hybrid approach, may be used for project management within the R&D team.

Company Website: https://www.supermicro.com

📝 Enhancement Note: Company and industry context, team structure, and potential methodologies have been inferred based on Super Micro Computer's established presence in the hardware manufacturing industry and the requirements of building a new R&D team.

📈 Career & Growth Analysis

Design Career Level: This position is at the Manager level, requiring significant technical expertise in power design combined with leadership and team management responsibilities. It represents a step up from a senior engineering role into a leadership position with direct impact on product development strategy.

Reporting Structure: The role reports to a higher-level manager or director within the R&D or Engineering department, overseeing the new energy storage power design team.

Design Impact: The design work in this role directly impacts Super Micro Computer's expansion into the energy storage market, contributing to new product lines and potentially influencing the company's overall "Green Computing" initiatives.

Growth Opportunities:

Opportunity to build and shape a new R&D team from the ground up, establishing processes and technical direction.
Potential for advancement to a Senior Manager or Director role within the R&D organization as the energy storage segment grows.
Opportunity to become a subject matter expert in energy storage power design within a large technology company.

📝 Enhancement Note: Career progression and growth opportunities have been analyzed based on the managerial level of the role and the context of building a new team within an established company.

🌐 Work Environment

Studio Type: The role is based in Bade, Taiwan, and is on-site. This suggests a traditional office and laboratory environment dedicated to hardware design and testing.

Office Location(s): The primary location is Bade, Taoyuan, Taiwan. Super Micro Computer also has offices globally, but this role is specifically tied to the Taiwan location for R&D activities.

Design Workspace Context:

Access to a newly established R&D lab equipped for power electronics testing and battery system validation.
Likely involves a mix of office work for design and documentation, and lab work for prototyping, testing, and troubleshooting.
Requires close interaction with the R&D team members and potentially other engineering departments on-site.

Work Schedule: Full-time, on-site presence is required, implying a standard work schedule aligned with the R&D lab operations.

📝 Enhancement Note: Work environment details are based on the on-site requirement and the description of setting up a new R&D lab, which is typical for hardware development roles.

📄 Application & Portfolio Review Process

Design Interview Process:

Initial screening call to assess basic qualifications and experience in power design and team leadership.
Technical interviews focusing on power electronics fundamentals, battery technologies, and experience with relevant design challenges. Prepare to discuss your technical approach and problem-solving skills.
Behavioral and leadership interviews assessing your ability to build and manage a team, manage multiple projects, and collaborate effectively.
A presentation or discussion of your technical portfolio/project summaries, explaining your design process and the outcomes of previous work.

Portfolio Review Tips:

Organize your technical portfolio logically, focusing on projects most relevant to power electronics and battery systems.
For each project case study, clearly articulate the technical problem, your design solution, the tools and methodologies used, and the final results or impact.
Highlight your specific contributions to team projects and demonstrate your leadership in driving design decisions.
Be prepared to discuss the challenges you faced and how you overcame them during the design and development process.

Challenge Preparation:

While a formal design challenge isn't explicitly mentioned, be prepared for technical discussions that delve into your problem-solving approach for power electronics design scenarios.
Review fundamental concepts in power conversion, battery management, and system integration.
Think through how you would approach setting up a new R&D lab and managing the technical aspects of team leadership.

ATS Keywords: Power Design, Energy Storage, Battery Products, R&D, Team Leadership, Engineering Management, Power Electronics, UPS, Battery Management System (BMS), AC-DC Conversion, DC-DC Conversion, DC-AC Conversion, Schematic Design, PCB Layout, Thermal Management, Product Development, Mass Production, Quality Control, Project Management, Electrical Engineering, Hardware Design, System Integration, Validation Testing, Prototyping, Troubleshooting.

📝 Enhancement Note: Interview process and preparation tips are based on typical technical leadership roles in hardware development, with a focus on power electronics and team management.

🛠 Tools & Technology Stack

Primary Design Tools:

Likely includes schematic capture and PCB layout software (e.g., Altium Designer, Cadence Allegro, KiCad). Skill level expectations will be high, focusing on complex power supply designs.
Could involve simulation tools for power electronics (e.g., SPICE variants, MATLAB/Simulink) to model circuit behavior and optimize performance.
Requires proficiency in using laboratory equipment such as oscilloscopes, power analyzers, electronic loads, and spectrum analyzers for testing and validation.

Collaboration & Handoff:

Collaboration tools like Slack, Microsoft Teams, or similar for team communication and project coordination.
Version control systems (e.g., Git) for managing design files and documentation.
Project management software (e.g., Jira, Asana) for tracking tasks and project progress.

Research & Testing:

Access to specialized equipment for battery testing and characterization (e.g., battery cyclers, impedance analyzers).
Tools for data acquisition and analysis to evaluate product performance and identify issues.
Potentially includes thermal imaging cameras and environmental chambers for testing under various conditions.

📝 Enhancement Note: Specific tools and technologies have been inferred based on standard practices in power electronics design and R&D lab environments.

👥 Team Culture & Values

Design Values:

Emphasis on technical excellence and innovation in power electronics design for energy storage applications.
Commitment to product quality, reliability, and safety standards for hardware products.
Focus on efficiency and performance optimization, aligning with Super Micro Computer's "Green Computing" initiatives.
A collaborative approach within the R&D team and across different engineering disciplines.

Collaboration Style:

Likely involves regular technical discussions, design reviews, and knowledge sharing within the R&D team.
Requires strong collaboration with manufacturing and quality assurance teams to ensure successful product transitions.
Effective communication with stakeholders to report on project progress and technical challenges.

📝 Enhancement Note: Team culture and values are inferred based on the technical nature of the role, the company's industry, and the requirement for building and leading a team.

⚡ Challenges & Growth Opportunities

Design Challenges:

Successfully building and integrating a new R&D team with diverse technical backgrounds.
Setting up and fully operationalizing a new R&D lab with the necessary equipment and processes within a defined timeline.
Designing complex power electronics and battery systems that meet stringent performance, efficiency, and safety requirements.
Managing multiple concurrent design projects and prioritizing resources effectively in a dynamic environment.

Learning & Development Opportunities:

Opportunity to deepen expertise in advanced power electronics topologies and energy storage technologies.
Gain significant experience in leading and scaling a technical R&D team.
Develop skills in laboratory management and establishing R&D infrastructure.

📝 Enhancement Note: Challenges are based on the explicit requirements of building a new team and lab, combined with the inherent complexities of power electronics design. Growth opportunities align with the managerial and technical aspects of the role.

💡 Interview Preparation

Design Process Questions:

Describe your typical design process for a new power supply or battery management system. Be prepared to discuss each stage from requirements gathering to validation.
How do you approach component selection and trade-offs in power electronics design? Provide examples of critical components and your reasoning.
Explain your experience with simulating power electronics circuits and how you use simulation results to inform your design decisions.

Company Culture Questions:

What is your leadership style, and how do you motivate and manage a team of engineers?
Describe a situation where you had to manage multiple complex projects simultaneously. How did you prioritize and ensure timely delivery?
How do you ensure product quality and reliability throughout the design and manufacturing process?

Portfolio Presentation Strategy:

Prepare 2-3 detailed case studies of your most relevant power electronics or battery system design projects.
For each case study, clearly explain the project goals, your technical contributions, the challenges you faced, and the final outcome or performance metrics.
Be ready to discuss the specific design decisions you made and the rationale behind them.

📝 Enhancement Note: Interview questions are tailored to assess technical depth in power electronics, leadership capabilities, and project management experience, which are critical for this role.

📌 Application Steps

To apply for this design position:

Submit your application through this link
Prepare a comprehensive resume highlighting your experience in power electronics design, battery systems, and team leadership.
Develop a technical portfolio or project summaries showcasing your relevant design projects and technical expertise.
Research Super Micro Computer's products and focus areas, particularly in energy efficiency and server/storage solutions, to understand the context of the role.
Be prepared to discuss your experience with setting up and managing a technical laboratory environment.

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

Power Design Manager, Energy Storage