{"schemaVersion":"jobsearcher.job.v1","id":"962f51f01c1e1d088b5de7df","url":"https://jobsearcher.com/jobs/962f51f01c1e1d088b5de7df","canonicalUrl":"https://jobsearcher.com/jobs/962f51f01c1e1d088b5de7df","title":"Power Electronics Microgrid Solution Engineer","description":"Who We Are\nDelta Electronics is a global innovator at the forefront of technologies powering the future. Since 1971, we’ve been leading the way in high‑efficiency power and thermal management solutions. Today, we’re driving transformation across industries with smart, sustainable systems that enable everything from AI, industrial automation, and data centers to EV charging, renewable energy, and intelligent buildings.\n\nDelta is powering the AI age with cutting‑edge infrastructure solutions for hyperscale and edge data centers. Our high‑efficiency power systems, thermal management, and intelligent monitoring technologies help the world’s largest data operators achieve peak performance and sustainability. Join us to help build the cornerstone solutions that will run tomorrow’s digital world.\n\nKey Responsibilities\nThe Power Electronics and Control Design Engineer is responsible for the design, development, validation, and deployment of power electronic converters and their associated control algorithms for grid‑connected and islanded energy systems. This role focuses on delivering robust, standards‑compliant control solutions for applications such as BESS, inverters, converters, and microgrid systems, while collaborating closely with hardware, firmware, protection, and systems engineering teams.\n\nMain Accountabilities\n\nOwn the control system architecture and design for power electronic converters (AC/DC, DC/DC, DC/AC).\n\nDevelop real‑time control algorithms to ensure stability, performance, and grid compliance under normal and abnormal operating conditions.\n\nEnsure designs meet functional, performance, reliability, and regulatory requirements across the product lifecycle.\n\nSupport system‑level integration of power converters into microgrids, utility, data center, and industrial environments.\n\nDrive technical decisions related to control strategy trade‑offs, dynamic performance, and grid interaction behavior.\n\nProvide technical leadership during product development reviews, design validation, and customer or third‑party technical discussions.\n\nContribute to the continuous improvement of engineering processes, modeling practices, and design standards.\n\nKey Activities and Responsibilities\n\nDesign and implement control algorithms for:\n\nGrid‑forming, grid‑following, and grid‑supporting converters\n\nVoltage, current, power, frequency, and DC‑link regulation\n\nDroop control, virtual inertia, PLL‑based synchronization\n\nDevelop fast inner‑loop and supervisory‑level controls with appropriate bandwidth separation.\n\nImplement fault ride‑through, black‑start, islanding, and reconnection logic.\n\nMinimum Qualifications\n\nStrong fundamentals in control theory (linear and non‑linear systems) and power electronics and electrical power systems.\n\nHands‑on experience with inverter‑based resources (BESS, PV, PCS, UPS, STATCOM, etc.) and embedded control implementation.\n\nProficiency in modeling and simulation tools (e.g., MATLAB/Simulink/PLECS).\n\nUnderstanding of grid dynamics, fault behavior, and protection coordination.\n\nAbility to interpret electrical schematics and system‑level architecture.\n\nCollaborate with system architects, EMS/SCADA teams, protection engineers, and product managers.\n\nProvide clear documentation of control logic, interfaces, assumptions, and limitations.\n\nValidate control performance through Software‑in‑the‑Loop (SIL), Hardware‑in‑the‑Loop (HIL), and Factory and site acceptance testing (FAT/SAT).\n\nSoft Skills & Behavioral Competencies\n\nSystems thinker – able to balance control performance, hardware limits, grid requirements, and operational constraints.\n\nStructured problem solver – approaches complex technical problems methodically and transparently.\n\nTechnical communicator – can clearly explain control concepts to non‑control experts, customers, and leadership.\n\nCollaborative mindset – works effectively across disciplines and organizational boundaries.\n\nOwnership & accountability – takes responsibility for technical outcomes from concept through deployment.\n\nAdaptability – comfortable working in evolving architectures and handling ambiguous requirements.\n\nAttention to detail – maintains rigor in documentation, testing, and validation.\n\nPreferred Qualifications\n\nExperience with microgrid controllers, EMS, or plant‑level supervisory controls.\n\nExposure to utility interconnection processes and grid code compliance.\n\nAdvanced degree (M.S. or Ph.D.) in Electrical Engineering or related field.\n\nBenefit at Delta Electronics Americas\nLife at Delta\n\nEEO Statement\nDelta Electronics Americas is an Equal Opportunity Employer and is committed to compliance with all applicable federal, state, and local laws. Delta Electronics America is committed to fostering a diverse, inclusive, and respectful workplace. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity or expression, age, marital status, national origin, disability, veteran status, or any other protected characteristic.\n\n#J-18808-Ljbffr","company":"Delta Electronics","rawCompany":"delta electronics","city":"Plano","state":"TX","isRemote":false,"isActive":false,"createdAt":"2026-07-08T03:40:36.002Z","occupations":[{"code":"17-2071.00","title":"Electrical Engineers","slug":"electrical-engineers"},{"code":"17-2072.00","title":"Electronics Engineers, Except Computer","slug":"electronics-engineers-except-computer"},{"code":"17-2199.05","title":"Mechatronics Engineers","slug":"mechatronics-engineers"}],"industries":[{"code":"335314","title":"Relay and Industrial Control Manufacturing","slug":"relay-and-industrial-control-manufacturing"},{"code":"335313","title":"Switchgear and Switchboard Apparatus Manufacturing","slug":"switchgear-and-switchboard-apparatus-manufacturing"},{"code":"541330","title":"Engineering Services","slug":"engineering-services"}],"jobPosting":{"@context":"https://schema.org","@type":"JobPosting","title":"Power Electronics Microgrid Solution Engineer","description":"Who We Are\nDelta Electronics is a global innovator at the forefront of technologies powering the future. Since 1971, we’ve been leading the way in high‑efficiency power and thermal management solutions. Today, we’re driving transformation across industries with smart, sustainable systems that enable everything from AI, industrial automation, and data centers to EV charging, renewable energy, and intelligent buildings.\n\nDelta is powering the AI age with cutting‑edge infrastructure solutions for hyperscale and edge data centers. Our high‑efficiency power systems, thermal management, and intelligent monitoring technologies help the world’s largest data operators achieve peak performance and sustainability. Join us to help build the cornerstone solutions that will run tomorrow’s digital world.\n\nKey Responsibilities\nThe Power Electronics and Control Design Engineer is responsible for the design, development, validation, and deployment of power electronic converters and their associated control algorithms for grid‑connected and islanded energy systems. This role focuses on delivering robust, standards‑compliant control solutions for applications such as BESS, inverters, converters, and microgrid systems, while collaborating closely with hardware, firmware, protection, and systems engineering teams.\n\nMain Accountabilities\n\nOwn the control system architecture and design for power electronic converters (AC/DC, DC/DC, DC/AC).\n\nDevelop real‑time control algorithms to ensure stability, performance, and grid compliance under normal and abnormal operating conditions.\n\nEnsure designs meet functional, performance, reliability, and regulatory requirements across the product lifecycle.\n\nSupport system‑level integration of power converters into microgrids, utility, data center, and industrial environments.\n\nDrive technical decisions related to control strategy trade‑offs, dynamic performance, and grid interaction behavior.\n\nProvide technical leadership during product development reviews, design validation, and customer or third‑party technical discussions.\n\nContribute to the continuous improvement of engineering processes, modeling practices, and design standards.\n\nKey Activities and Responsibilities\n\nDesign and implement control algorithms for:\n\nGrid‑forming, grid‑following, and grid‑supporting converters\n\nVoltage, current, power, frequency, and DC‑link regulation\n\nDroop control, virtual inertia, PLL‑based synchronization\n\nDevelop fast inner‑loop and supervisory‑level controls with appropriate bandwidth separation.\n\nImplement fault ride‑through, black‑start, islanding, and reconnection logic.\n\nMinimum Qualifications\n\nStrong fundamentals in control theory (linear and non‑linear systems) and power electronics and electrical power systems.\n\nHands‑on experience with inverter‑based resources (BESS, PV, PCS, UPS, STATCOM, etc.) and embedded control implementation.\n\nProficiency in modeling and simulation tools (e.g., MATLAB/Simulink/PLECS).\n\nUnderstanding of grid dynamics, fault behavior, and protection coordination.\n\nAbility to interpret electrical schematics and system‑level architecture.\n\nCollaborate with system architects, EMS/SCADA teams, protection engineers, and product managers.\n\nProvide clear documentation of control logic, interfaces, assumptions, and limitations.\n\nValidate control performance through Software‑in‑the‑Loop (SIL), Hardware‑in‑the‑Loop (HIL), and Factory and site acceptance testing (FAT/SAT).\n\nSoft Skills & Behavioral Competencies\n\nSystems thinker – able to balance control performance, hardware limits, grid requirements, and operational constraints.\n\nStructured problem solver – approaches complex technical problems methodically and transparently.\n\nTechnical communicator – can clearly explain control concepts to non‑control experts, customers, and leadership.\n\nCollaborative mindset – works effectively across disciplines and organizational boundaries.\n\nOwnership & accountability – takes responsibility for technical outcomes from concept through deployment.\n\nAdaptability – comfortable working in evolving architectures and handling ambiguous requirements.\n\nAttention to detail – maintains rigor in documentation, testing, and validation.\n\nPreferred Qualifications\n\nExperience with microgrid controllers, EMS, or plant‑level supervisory controls.\n\nExposure to utility interconnection processes and grid code compliance.\n\nAdvanced degree (M.S. or Ph.D.) in Electrical Engineering or related field.\n\nBenefit at Delta Electronics Americas\nLife at Delta\n\nEEO Statement\nDelta Electronics Americas is an Equal Opportunity Employer and is committed to compliance with all applicable federal, state, and local laws. Delta Electronics America is committed to fostering a diverse, inclusive, and respectful workplace. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity or expression, age, marital status, national origin, disability, veteran status, or any other protected characteristic.\n\n#J-18808-Ljbffr","datePosted":"2026-07-08T03:40:36.002Z","dateModified":"2026-07-08T03:40:36.002Z","hiringOrganization":{"@type":"Organization","name":"Delta Electronics","sameAs":"https://jobsearcher.com"},"jobLocation":{"@type":"Place","address":{"@type":"PostalAddress","addressLocality":"Plano","addressRegion":"TX","addressCountry":"US"}},"identifier":{"@type":"PropertyValue","name":"JobSearcher","value":"962f51f01c1e1d088b5de7df"},"url":"https://jobsearcher.com/jobs/962f51f01c1e1d088b5de7df"}}