Engineering Structures Jobs in Allen Collin County Tx Remote

Job Summary

The SMT Process Engineer IV is a senior-level technical expert responsible for optimizing and maintaining surface mount technology (SMT) processes to ensure high-quality, efficient, and cost-effective electronic assembly. This role involves advanced troubleshooting, process development, and continuous improvement initiatives across multiple SMT lines, often acting as a lead or mentor within the engineering team.

Job Responsibilities

- Lead the development, implementation, and optimization of complex SMT processes, including stencil printing, pick-and-place FUJI, reflow soldering, and automated optical inspection (AOI).

- Conduct advanced root cause analysis and implement corrective actions for SMT process defects (e.g., shorts, opens, voids, component placement issues) using statistical process control (SPC) and other analytical tools.

- Design and execute experiments (DOE) to improve SMT process robustness, yield, and throughput, focusing on new product introduction (NPI) and existing product enhancements.

- Collaborate with design engineering, manufacturing, and quality teams to ensure manufacturability (DFM) and resolve complex technical issues related to SMT assembly.

- Develop and maintain comprehensive process documentation, work instructions, and training materials for SMT operators and technicians.

- Evaluate and recommend new SMT equipment, materials, and technologies to enhance capabilities and improve manufacturing efficiency.

- Provide technical mentorship and guidance to junior engineers and manufacturing personnel on SMT best practices and problem-solving techniques.

- Drive continuous improvement projects using Lean manufacturing and Six Sigma methodologies to reduce waste and increase productivity within SMT operations.

- Monitor key performance indicators (KPIs) for SMT processes and present findings and recommendations to management.

- Ensure compliance with all relevant industry standards, safety regulations, and quality management systems (e.g., ISO, IPC).

Job Qualifications

- Bachelor's degree in Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. Master's degree preferred.

- 8+ years of progressive experience in SMT process engineering within a high-volume electronics manufacturing environment.

- Expert-level knowledge of SMT equipment (e.g., printers, pick-and-place machines, reflow ovens, AOI/SPI) from various manufacturers (e.g., Fuji, Universal, Koh Young, Agilent).

- Deep understanding of IPC-A-610 and J-STD-001 standards.

- Proficiency in statistical process control (SPC), design of experiments (DOE), and advanced problem-solving methodologies (e.g., 8D, Six Sigma).

- Strong analytical skills with the ability to interpret complex data and make data-driven decisions.

- Demonstrated ability to lead technical projects and drive process improvements.

- Excellent communication, interpersonal, and presentation skills, with the ability to effectively collaborate with cross-functional teams and mentor others.

- Experience with CAD/CAM software for SMT programming and DFM analysis is a plus.

- Ability to work effectively in a fast-paced, dynamic manufacturing environment.

Job Summary

The SMT Process Engineer IV is a senior-level technical expert responsible for optimizing and maintaining surface mount technology (SMT) processes to ensure high-quality, efficient, and cost-effective electronic assembly. This role involves advanced troubleshooting, process development, and continuous improvement initiatives across multiple SMT lines, often acting as a lead or mentor within the engineering team. Job Responsibilities

• Lead the development, implementation, and optimization of complex SMT processes, including stencil printing, pick-and-place FUJI, reflow soldering, and automated optical inspection (AOI).

• Conduct advanced root cause analysis and implement corrective actions for SMT process defects (e.g., shorts, opens, voids, component placement issues) using statistical process control (SPC) and other analytical tools.

• Design and execute experiments (DOE) to improve SMT process robustness, yield, and throughput, focusing on new product introduction (NPI) and existing product enhancements.

• Collaborate with design engineering, manufacturing, and quality teams to ensure manufacturability (DFM) and resolve complex technical issues related to SMT assembly.

• Develop and maintain comprehensive process documentation, work instructions, and training materials for SMT operators and technicians.

• Evaluate and recommend new SMT equipment, materials, and technologies to enhance capabilities and improve manufacturing efficiency.

• Provide technical mentorship and guidance to junior engineers and manufacturing personnel on SMT best practices and problem-solving techniques.

• Drive continuous improvement projects using Lean manufacturing and Six Sigma methodologies to reduce waste and increase productivity within SMT operations.

• Monitor key performance indicators (KPIs) for SMT processes and present findings and recommendations to management.

• Ensure compliance with all relevant industry standards, safety regulations, and quality management systems (e.g., ISO, IPC).

Job Qualifications

• Bachelor's degree in Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. Master's degree preferred.

• 8+ years of progressive experience in SMT process engineering within a high-volume electronics manufacturing environment.

• Expert-level knowledge of SMT equipment (e.g., printers, pick-and-place machines, reflow ovens, AOI/SPI) from various manufacturers (e.g., Fuji, Universal, Koh Young, Agilent).

• Deep understanding of IPC-A-610 and J-STD-001 standards.

• Proficiency in statistical process control (SPC), design of experiments (DOE), and advanced problem-solving methodologies (e.g., 8D, Six Sigma).

• Strong analytical skills with the ability to interpret complex data and make data-driven decisions.

• Demonstrated ability to lead technical projects and drive process improvements.

• Excellent communication, interpersonal, and presentation skills, with the ability to effectively collaborate with cross-functional teams and mentor others.

• Experience with CAD/CAM software for SMT programming and DFM analysis is a plus.

• Ability to work effectively in a fast-paced, dynamic manufacturing environment.

Job Summary

The SMT Principal Engineer I at Jabil, Inc. is a senior technical contributor responsible for leading advanced surface mount technology (SMT) process development, optimization, and continuous improvement initiatives across multiple manufacturing lines to ensure high-quality and efficient production of complex electronic assemblies.

Job Responsibilities

- Lead the development, implementation, and optimization of SMT processes, including paste printing, pick-and-place FUJI, reflow soldering, and post-reflow inspection (AOI, X-ray).

- Conduct in-depth analysis of SMT process data, identifying root causes of defects and implementing effective corrective and preventive actions.

- Develop and qualify new SMT equipment, materials, and processes, ensuring seamless integration into existing production environments.

- Provide expert technical guidance and mentorship to junior engineers and production teams on SMT best practices, troubleshooting, and process control.

- Collaborate with design engineering, supply chain, and quality departments to ensure manufacturability (DFM) of new products and resolve SMT-related design issues.

- Drive continuous improvement projects utilizing methodologies such as Six Sigma, Lean Manufacturing, and SPC to enhance SMT yield, throughput, and reliability.

- Author and maintain comprehensive SMT process documentation, including work instructions, process specifications, and failure analysis reports.

- Evaluate and implement new SMT technologies and industry trends to maintain Jabil's competitive edge and address evolving product requirements.

- Lead efforts in root cause analysis for complex SMT failures, implementing robust solutions to prevent recurrence.

- Represent Jabil in technical discussions with customers and suppliers regarding SMT process capabilities and new product introductions.

Job Qualifications

- Bachelor's degree in Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. Master's degree preferred.

- 8-12 years of progressive experience in SMT process engineering within a high-volume electronics manufacturing environment.

- Strong Knowledge of FUJI Setup, Nexim and Valor

- Demonstrated expertise in SMT equipment operation, programming, and maintenance, including printers, pick-and-place machines (e.g., Fuji, Programming, etc.), reflow ovens, and inspection systems (AOI, SPI, X-ray).

- In-depth knowledge of various soldering technologies, solder paste chemistries, and component packaging.

- Proven track record of leading process improvement projects and achieving significant yield and cost reductions.

- Strong analytical and problem-solving skills with a data-driven approach to decision-making (e.g., SPC, DOE).

- Excellent communication, interpersonal, and presentation skills, with the ability to effectively collaborate with cross-functional teams and external stakeholders.

- Proficiency in statistical analysis software (e.g., Minitab, JMP) and CAD software for DFM analysis.

- Familiarity with industry standards such as IPC-A-610 and J-STD-001.

- Ability to work independently and manage multiple complex projects simultaneously.

Job Summary

The SMT Principal Engineer I at Jabil, Inc. is a senior technical contributor responsible for leading advanced surface mount technology (SMT) process development, optimization, and continuous improvement initiatives across multiple manufacturing lines to ensure high-quality and efficient production of complex electronic assemblies.

Job Responsibilities

- Lead the development, implementation, and optimization of SMT processes, including paste printing, pick-and-place FUJI, reflow soldering, and post-reflow inspection (AOI, X-ray).

- Conduct in-depth analysis of SMT process data, identifying root causes of defects and implementing effective corrective and preventive actions.

- Develop and qualify new SMT equipment, materials, and processes, ensuring seamless integration into existing production environments.

- Provide expert technical guidance and mentorship to junior engineers and production teams on SMT best practices, troubleshooting, and process control.

- Collaborate with design engineering, supply chain, and quality departments to ensure manufacturability (DFM) of new products and resolve SMT-related design issues.

- Drive continuous improvement projects utilizing methodologies such as Six Sigma, Lean Manufacturing, and SPC to enhance SMT yield, throughput, and reliability.

- Author and maintain comprehensive SMT process documentation, including work instructions, process specifications, and failure analysis reports.

- Evaluate and implement new SMT technologies and industry trends to maintain Jabil's competitive edge and address evolving product requirements.

- Lead efforts in root cause analysis for complex SMT failures, implementing robust solutions to prevent recurrence.

- Represent Jabil in technical discussions with customers and suppliers regarding SMT process capabilities and new product introductions.

Job Qualifications

- Bachelor's degree in Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. Master's degree preferred.

- 8-12 years of progressive experience in SMT process engineering within a high-volume electronics manufacturing environment.

- Strong Knowledge of FUJI Setup, Nexim and Valor

- Demonstrated expertise in SMT equipment operation, programming, and maintenance, including printers, pick-and-place machines (e.g., Fuji, Programming, etc.), reflow ovens, and inspection systems (AOI, SPI, X-ray).

- In-depth knowledge of various soldering technologies, solder paste chemistries, and component packaging.

- Proven track record of leading process improvement projects and achieving significant yield and cost reductions.

- Strong analytical and problem-solving skills with a data-driven approach to decision-making (e.g., SPC, DOE).

- Excellent communication, interpersonal, and presentation skills, with the ability to effectively collaborate with cross-functional teams and external stakeholders.

- Proficiency in statistical analysis software (e.g., Minitab, JMP) and CAD software for DFM analysis.

- Familiarity with industry standards such as IPC-A-610 and J-STD-001.

- Ability to work independently and manage multiple complex projects simultaneously.

Job Summary

The SMT Principal Engineer I at Jabil, Inc. is a senior technical contributor responsible for leading advanced surface mount technology (SMT) process development, optimization, and continuous improvement initiatives across multiple manufacturing lines to ensure high-quality and efficient production of complex electronic assemblies. Job Responsibilities

• Lead the development, implementation, and optimization of SMT processes, including paste printing, pick-and-place FUJI, reflow soldering, and post-reflow inspection (AOI, X-ray).

• Conduct in-depth analysis of SMT process data, identifying root causes of defects and implementing effective corrective and preventive actions.

• Develop and qualify new SMT equipment, materials, and processes, ensuring seamless integration into existing production environments.

• Provide expert technical guidance and mentorship to junior engineers and production teams on SMT best practices, troubleshooting, and process control.

• Collaborate with design engineering, supply chain, and quality departments to ensure manufacturability (DFM) of new products and resolve SMT-related design issues.

• Drive continuous improvement projects utilizing methodologies such as Six Sigma, Lean Manufacturing, and SPC to enhance SMT yield, throughput, and reliability.

• Author and maintain comprehensive SMT process documentation, including work instructions, process specifications, and failure analysis reports.

• Evaluate and implement new SMT technologies and industry trends to maintain Jabil's competitive edge and address evolving product requirements.

• Lead efforts in root cause analysis for complex SMT failures, implementing robust solutions to prevent recurrence.

• Represent Jabil in technical discussions with customers and suppliers regarding SMT process capabilities and new product introductions.

Job Qualifications

• Bachelor's degree in Electrical Engineering, Mechanical Engineering, Materials Science, or a related technical field. Master's degree preferred.

• 8-12 years of progressive experience in SMT process engineering within a high-volume electronics manufacturing environment.

• Strong Knowledge of FUJI Setup, Nexim and Valor

• Demonstrated expertise in SMT equipment operation, programming, and maintenance, including printers, pick-and-place machines (e.g., Fuji, Programming, etc.), reflow ovens, and inspection systems (AOI, SPI, X-ray).

• In-depth knowledge of various soldering technologies, solder paste chemistries, and component packaging.

• Proven track record of leading process improvement projects and achieving significant yield and cost reductions.

• Strong analytical and problem-solving skills with a data-driven approach to decision-making (e.g., SPC, DOE).

• Excellent communication, interpersonal, and presentation skills, with the ability to effectively collaborate with cross-functional teams and external stakeholders.

• Proficiency in statistical analysis software (e.g., Minitab, JMP) and CAD software for DFM analysis.

• Familiarity with industry standards such as IPC-A-610 and J-STD-001.

• Ability to work independently and manage multiple complex projects simultaneously.

Job Title: Principal Electrical Design Engineer

Job Family: Electrical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact?

We are seeking a highly experienced and innovative Principal Controls Engineer to lead the development, optimization and implementation of advanced control systems across critical infrastructure products and automation platforms. This role is critical to ensuring the performance, reliability, and scalability of critical systems, with a strong emphasis on data center infrastructure, power/energy management, and industrial automation.

This role will involve designing and developing wiring harness systems, including schematic creation, harness architecture, panel layout, developing specifications, selecting key components, and transitioning design to manufacturing. Furthermore, the position includes leading test process implementation and ensuring equipment alignment to maintain the highest standards of operational excellence and reliability.

What will you do?

- Define and own the control system architecture across multiple platforms, including PLCs, BMS, EPMS, and ATS systems, ensuring scalability, reliability, and maintainability.
- Develop detailed control system specifications, functional design documents, and interface definitions for all subsystems.
- Proficiency in PLC/SCADA programming, HMI development, and system integration with IT networks and facility equipment.
- Ability to read and create BOMs. visual aids, electrical schematics, control diagrams, and sequence of operations.
- Define control logic, sensor integration, and communication protocols (e.g., Modbus, BACnet, SNMP) for intelligent power and cooling management.
- Validate control systems through simulation, testing, and commissioning to ensure reliability, safety, and responsiveness.
- Experience with critical infrastructure systems: UPS, generators, switchgear, chillers, CRAC/CRAH units, fire suppression systems.
- Lead Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT) for new projects and revisions.
- Drive the development of system-level simulations and digital twins to validate control strategies before deployment
- Architect integration strategies for control systems with enterprise platforms such as SCADA, CMMS, and cloud-based monitoring tools
- Establish design patterns and best practices for modular and reusable control logic across projects
- Lead root cause analysis and resolution of complex control system issues during commissioning and operations
- Evaluate emerging technologies and automation trends to continuously improve system performance and efficiency
- Develop and maintain documentation for system architecture, control logic, and operational procedures
- Collaborate with electrical, mechanical, software, and facilities engineering teams to ensure seamless integration of control systems with physical infrastructure
- Work closely with cross functional teams to align control system designs with business requirements, timelines, and operational constraints
- Facilitate design reviews, technical workshops, and cross-functional planning sessions to ensure alignment and transparency across engineering disciplines
- Support commissioning and field teams during deployment, troubleshooting, and optimization of control systems

How will you get here?

Education:

- Bachelor’s Degree in Electrical Engineering or a relevant engineering discipline.

Experience:

- 8+ years pf experience in control system design and implementation
- Deep expertise in the following:

- PLC programming (Allen-Bradley, Siemens, Schneider Electric)

- Building Management Systems (BMS) integration and optimization

- Electrical Power Monitoring Systems (EPMS/EDPM) for real-time energy analytics

- Automatic Transfer Switches (ATS) control and failover logic

- Strong proficiency in control theory, system modeling, and simulation tools (MATLAB/Simulink)
- Experience with industrial protocols (Modbus, BACnet, OPC UA, Ethernet/IP)
- Familiarity with NFPA, IEC, and ISO standards related to control systems and safety.

Knowledge, Skills, Abilities:

- Excellent interpersonal and communication skills
- Creative, self-motivated, accountable, and team-oriented
- Able to work independently with minimal oversight as part of a global team
- Proficient in reading, analyzing, and interpreting general business publications, professional journals, technical procedures, and government regulations
- Skilled in writing reports, business correspondence, and procedural guides
- Effective at presenting information and responding to management, clients, and public queries
- Capable of influencing others and sharing best practices while mentoring less experienced engineers
- Capable of assessing projects, articulating risks, and developing project milestones
- Familiar with stage-gate processes in project lifecycle management (PLCM)
- Excellent problem-solving skills and attention to detail
- Experience in EPlan, WindChill, SolidWorks, and DevOps are a plus
- Experience with hyperscale or colocation data center environments
- Familiarity with low and medium-voltage systems

Preferred Qualifications: 

- Master’s Degree in Electrical Engineering or a relevant engineering discipline
- Active Professional Engineer (PE) license
- Experience in mission-critical environments such as data centers, manufacturing, or energy systems.
- Experience with digital twin modeling and predictive maintenance strategies.
Remote working/work at home options are available for this role.

Job Title: Principal Electrical Controls Engineer

Job Family: Electrical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact?

We are seeking a highly experienced and innovative Principal Controls Engineer to lead the development, optimization and implementation of advanced control systems across critical infrastructure products and automation platforms. This role is critical to ensuring the performance, reliability, and scalability of critical systems, with a strong emphasis on data center infrastructure, power/energy management, and industrial automation.

This role will involve designing and developing wiring harness systems, including schematic creation, harness architecture, panel layout, developing specifications, selecting key components, and transitioning design to manufacturing. Furthermore, the position includes leading test process implementation and ensuring equipment alignment to maintain the highest standards of operational excellence and reliability.

What will you do?

- Define and own the control system architecture across multiple platforms, including PLCs, BMS, EPMS, and ATS systems, ensuring scalability, reliability, and maintainability.

- Develop detailed control system specifications, functional design documents, and interface definitions for all subsystems.

- Proficiency in PLC/SCADA programming, HMI development, and system integration with IT networks and facility equipment.

- Ability to read and create BOMs. visual aids, electrical schematics, control diagrams, and sequence of operations.

- Define control logic, sensor integration, and communication protocols (e.g., Modbus, BACnet, SNMP) for intelligent power and cooling management.

- Validate control systems through simulation, testing, and commissioning to ensure reliability, safety, and responsiveness.

- Experience with critical infrastructure systems: UPS, generators, switchgear, chillers, CRAC/CRAH units, fire suppression systems.

- Lead Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT) for new projects and revisions.

- Drive the development of system-level simulations and digital twins to validate control strategies before deployment

- Architect integration strategies for control systems with enterprise platforms such as SCADA, CMMS, and cloud-based monitoring tools

- Establish design patterns and best practices for modular and reusable control logic across projects

- Lead root cause analysis and resolution of complex control system issues during commissioning and operations

- Evaluate emerging technologies and automation trends to continuously improve system performance and efficiency

- Develop and maintain documentation for system architecture, control logic, and operational procedures

- Collaborate with electrical, mechanical, software, and facilities engineering teams to ensure seamless integration of control systems with physical infrastructure

- Work closely with cross functional teams to align control system designs with business requirements, timelines, and operational constraints

- Facilitate design reviews, technical workshops, and cross-functional planning sessions to ensure alignment and transparency across engineering disciplines

- Support commissioning and field teams during deployment, troubleshooting, and optimization of control systems

How will you get here?

Education:

- Bachelor’s Degree in Electrical Engineering or a relevant engineering discipline.

Experience:

- 8+ years pf experience in control system design and implementation

- Deep expertise in the following:

- PLC programming (Allen-Bradley, Siemens, Schneider Electric)

- Building Management Systems (BMS) integration and optimization

- Electrical Power Monitoring Systems (EPMS/EDPM) for real-time energy analytics

- Automatic Transfer Switches (ATS) control and failover logic

- Strong proficiency in control theory, system modeling, and simulation tools (MATLAB/Simulink)

- Experience with industrial protocols (Modbus, BACnet, OPC UA, Ethernet/IP)

- Familiarity with NFPA, IEC, and ISO standards related to control systems and safety.

Knowledge, Skills, Abilities:

- Excellent interpersonal and communication skills

- Creative, self-motivated, accountable, and team-oriented

- Able to work independently with minimal oversight as part of a global team

- Proficient in reading, analyzing, and interpreting general business publications, professional journals, technical procedures, and government regulations

- Skilled in writing reports, business correspondence, and procedural guides

- Effective at presenting information and responding to management, clients, and public queries

- Capable of influencing others and sharing best practices while mentoring less experienced engineers

- Capable of assessing projects, articulating risks, and developing project milestones

- Familiar with stage-gate processes in project lifecycle management (PLCM)

- Excellent problem-solving skills and attention to detail

- Experience in EPlan, WindChill, SolidWorks, and DevOps are a plus

- Experience with hyperscale or colocation data center environments

- Familiarity with low and medium-voltage systems

Preferred Qualifications: 

- Master’s Degree in Electrical Engineering or a relevant engineering discipline

- Active Professional Engineer (PE) license

- Experience in mission-critical environments such as data centers, manufacturing, or energy systems.

- Experience with digital twin modeling and predictive maintenance strategies.
Remote working/work at home options are available for this role.

Job Title: Principal Electrical Design Engineer

Job Family: Electrical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact?

We are seeking a highly experienced and innovative Principal Controls Engineer to lead the development, optimization and implementation of advanced control systems across critical infrastructure products and automation platforms. This role is critical to ensuring the performance, reliability, and scalability of critical systems, with a strong emphasis on data center infrastructure, power/energy management, and industrial automation.

This role will involve designing and developing wiring harness systems, including schematic creation, harness architecture, panel layout, developing specifications, selecting key components, and transitioning design to manufacturing. Furthermore, the position includes leading test process implementation and ensuring equipment alignment to maintain the highest standards of operational excellence and reliability.

What will you do?

- Define and own the control system architecture across multiple platforms, including PLCs, BMS, EPMS, and ATS systems, ensuring scalability, reliability, and maintainability.
- Develop detailed control system specifications, functional design documents, and interface definitions for all subsystems.
- Proficiency in PLC/SCADA programming, HMI development, and system integration with IT networks and facility equipment.
- Ability to read and create BOMs. visual aids, electrical schematics, control diagrams, and sequence of operations.
- Define control logic, sensor integration, and communication protocols (e.g., Modbus, BACnet, SNMP) for intelligent power and cooling management.
- Validate control systems through simulation, testing, and commissioning to ensure reliability, safety, and responsiveness.
- Experience with critical infrastructure systems: UPS, generators, switchgear, chillers, CRAC/CRAH units, fire suppression systems.
- Lead Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT) for new projects and revisions.
- Drive the development of system-level simulations and digital twins to validate control strategies before deployment
- Architect integration strategies for control systems with enterprise platforms such as SCADA, CMMS, and cloud-based monitoring tools
- Establish design patterns and best practices for modular and reusable control logic across projects
- Lead root cause analysis and resolution of complex control system issues during commissioning and operations
- Evaluate emerging technologies and automation trends to continuously improve system performance and efficiency
- Develop and maintain documentation for system architecture, control logic, and operational procedures
- Collaborate with electrical, mechanical, software, and facilities engineering teams to ensure seamless integration of control systems with physical infrastructure
- Work closely with cross functional teams to align control system designs with business requirements, timelines, and operational constraints
- Facilitate design reviews, technical workshops, and cross-functional planning sessions to ensure alignment and transparency across engineering disciplines
- Support commissioning and field teams during deployment, troubleshooting, and optimization of control systems

How will you get here?

Education:

- Bachelor’s Degree in Electrical Engineering or a relevant engineering discipline.

Experience:

- 8+ years pf experience in control system design and implementation
- Deep expertise in the following:

- PLC programming (Allen-Bradley, Siemens, Schneider Electric)

- Building Management Systems (BMS) integration and optimization

- Electrical Power Monitoring Systems (EPMS/EDPM) for real-time energy analytics

- Automatic Transfer Switches (ATS) control and failover logic

- Strong proficiency in control theory, system modeling, and simulation tools (MATLAB/Simulink)
- Experience with industrial protocols (Modbus, BACnet, OPC UA, Ethernet/IP)
- Familiarity with NFPA, IEC, and ISO standards related to control systems and safety.

Knowledge, Skills, Abilities:

- Excellent interpersonal and communication skills
- Creative, self-motivated, accountable, and team-oriented
- Able to work independently with minimal oversight as part of a global team
- Proficient in reading, analyzing, and interpreting general business publications, professional journals, technical procedures, and government regulations
- Skilled in writing reports, business correspondence, and procedural guides
- Effective at presenting information and responding to management, clients, and public queries
- Capable of influencing others and sharing best practices while mentoring less experienced engineers
- Capable of assessing projects, articulating risks, and developing project milestones
- Familiar with stage-gate processes in project lifecycle management (PLCM)
- Excellent problem-solving skills and attention to detail
- Experience in EPlan, WindChill, SolidWorks, and DevOps are a plus
- Experience with hyperscale or colocation data center environments
- Familiarity with low and medium-voltage systems

Preferred Qualifications: 

- Master’s Degree in Electrical Engineering or a relevant engineering discipline
- Active Professional Engineer (PE) license
- Experience in mission-critical environments such as data centers, manufacturing, or energy systems.
- Experience with digital twin modeling and predictive maintenance strategies.
Remote working/work at home options are available for this role.

Job Title: Principal Electrical Controls Engineer

Job Family: Electrical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact?

We are seeking a highly experienced and innovative Principal Controls Engineer to lead the development, optimization and implementation of advanced control systems across critical infrastructure products and automation platforms. This role is critical to ensuring the performance, reliability, and scalability of critical systems, with a strong emphasis on data center infrastructure, power/energy management, and industrial automation.

This role will involve designing and developing wiring harness systems, including schematic creation, harness architecture, panel layout, developing specifications, selecting key components, and transitioning design to manufacturing. Furthermore, the position includes leading test process implementation and ensuring equipment alignment to maintain the highest standards of operational excellence and reliability.

What will you do?

- Define and own the control system architecture across multiple platforms, including PLCs, BMS, EPMS, and ATS systems, ensuring scalability, reliability, and maintainability.

- Develop detailed control system specifications, functional design documents, and interface definitions for all subsystems.

- Proficiency in PLC/SCADA programming, HMI development, and system integration with IT networks and facility equipment.

- Ability to read and create BOMs. visual aids, electrical schematics, control diagrams, and sequence of operations.

- Define control logic, sensor integration, and communication protocols (e.g., Modbus, BACnet, SNMP) for intelligent power and cooling management.

- Validate control systems through simulation, testing, and commissioning to ensure reliability, safety, and responsiveness.

- Experience with critical infrastructure systems: UPS, generators, switchgear, chillers, CRAC/CRAH units, fire suppression systems.

- Lead Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT) for new projects and revisions.

- Drive the development of system-level simulations and digital twins to validate control strategies before deployment

- Architect integration strategies for control systems with enterprise platforms such as SCADA, CMMS, and cloud-based monitoring tools

- Establish design patterns and best practices for modular and reusable control logic across projects

- Lead root cause analysis and resolution of complex control system issues during commissioning and operations

- Evaluate emerging technologies and automation trends to continuously improve system performance and efficiency

- Develop and maintain documentation for system architecture, control logic, and operational procedures

- Collaborate with electrical, mechanical, software, and facilities engineering teams to ensure seamless integration of control systems with physical infrastructure

- Work closely with cross functional teams to align control system designs with business requirements, timelines, and operational constraints

- Facilitate design reviews, technical workshops, and cross-functional planning sessions to ensure alignment and transparency across engineering disciplines

- Support commissioning and field teams during deployment, troubleshooting, and optimization of control systems

How will you get here?

Education:

- Bachelor’s Degree in Electrical Engineering or a relevant engineering discipline.

Experience:

- 8+ years pf experience in control system design and implementation

- Deep expertise in the following:

- PLC programming (Allen-Bradley, Siemens, Schneider Electric)

- Building Management Systems (BMS) integration and optimization

- Electrical Power Monitoring Systems (EPMS/EDPM) for real-time energy analytics

- Automatic Transfer Switches (ATS) control and failover logic

- Strong proficiency in control theory, system modeling, and simulation tools (MATLAB/Simulink)

- Experience with industrial protocols (Modbus, BACnet, OPC UA, Ethernet/IP)

- Familiarity with NFPA, IEC, and ISO standards related to control systems and safety.

Knowledge, Skills, Abilities:

- Excellent interpersonal and communication skills

- Creative, self-motivated, accountable, and team-oriented

- Able to work independently with minimal oversight as part of a global team

- Proficient in reading, analyzing, and interpreting general business publications, professional journals, technical procedures, and government regulations

- Skilled in writing reports, business correspondence, and procedural guides

- Effective at presenting information and responding to management, clients, and public queries

- Capable of influencing others and sharing best practices while mentoring less experienced engineers

- Capable of assessing projects, articulating risks, and developing project milestones

- Familiar with stage-gate processes in project lifecycle management (PLCM)

- Excellent problem-solving skills and attention to detail

- Experience in EPlan, WindChill, SolidWorks, and DevOps are a plus

- Experience with hyperscale or colocation data center environments

- Familiarity with low and medium-voltage systems

Preferred Qualifications: 

- Master’s Degree in Electrical Engineering or a relevant engineering discipline

- Active Professional Engineer (PE) license

- Experience in mission-critical environments such as data centers, manufacturing, or energy systems.

- Experience with digital twin modeling and predictive maintenance strategies.
Remote working/work at home options are available for this role.

Job Title: Principal Electrical Controls Engineer

Job Family: Electrical Design Engineering

Organization: Data Center Infrastructure Team

Location: Remote* OR Austin, TX

*Requires up to 20% domestic and/or international travel (rare)

How will you make an impact?

We are seeking a highly experienced and innovative Principal Controls Engineer to lead the development, optimization and implementation of advanced control systems across critical infrastructure products and automation platforms. This role is critical to ensuring the performance, reliability, and scalability of critical systems, with a strong emphasis on data center infrastructure, power/energy management, and industrial automation.

This role will involve designing and developing wiring harness systems, including schematic creation, harness architecture, panel layout, developing specifications, selecting key components, and transitioning design to manufacturing. Furthermore, the position includes leading test process implementation and ensuring equipment alignment to maintain the highest standards of operational excellence and reliability.

What will you do?

- Define and own the control system architecture across multiple platforms, including PLCs, BMS, EPMS, and ATS systems, ensuring scalability, reliability, and maintainability.

- Develop detailed control system specifications, functional design documents, and interface definitions for all subsystems.

- Proficiency in PLC/SCADA programming, HMI development, and system integration with IT networks and facility equipment.

- Ability to read and create BOMs. visual aids, electrical schematics, control diagrams, and sequence of operations.

- Define control logic, sensor integration, and communication protocols (e.g., Modbus, BACnet, SNMP) for intelligent power and cooling management.

- Validate control systems through simulation, testing, and commissioning to ensure reliability, safety, and responsiveness.

- Experience with critical infrastructure systems: UPS, generators, switchgear, chillers, CRAC/CRAH units, fire suppression systems.

- Lead Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT) for new projects and revisions.

- Drive the development of system-level simulations and digital twins to validate control strategies before deployment

- Architect integration strategies for control systems with enterprise platforms such as SCADA, CMMS, and cloud-based monitoring tools

- Establish design patterns and best practices for modular and reusable control logic across projects

- Lead root cause analysis and resolution of complex control system issues during commissioning and operations

- Evaluate emerging technologies and automation trends to continuously improve system performance and efficiency

- Develop and maintain documentation for system architecture, control logic, and operational procedures

- Collaborate with electrical, mechanical, software, and facilities engineering teams to ensure seamless integration of control systems with physical infrastructure

- Work closely with cross functional teams to align control system designs with business requirements, timelines, and operational constraints

- Facilitate design reviews, technical workshops, and cross-functional planning sessions to ensure alignment and transparency across engineering disciplines

- Support commissioning and field teams during deployment, troubleshooting, and optimization of control systems

How will you get here?

Education:

- Bachelor’s Degree in Electrical Engineering or a relevant engineering discipline.

Experience:

- 8+ years pf experience in control system design and implementation

- Deep expertise in the following:

- PLC programming (Allen-Bradley, Siemens, Schneider Electric)

- Building Management Systems (BMS) integration and optimization

- Electrical Power Monitoring Systems (EPMS/EDPM) for real-time energy analytics

- Automatic Transfer Switches (ATS) control and failover logic

- Strong proficiency in control theory, system modeling, and simulation tools (MATLAB/Simulink)

- Experience with industrial protocols (Modbus, BACnet, OPC UA, Ethernet/IP)

- Familiarity with NFPA, IEC, and ISO standards related to control systems and safety.

Knowledge, Skills, Abilities:

- Excellent interpersonal and communication skills

- Creative, self-motivated, accountable, and team-oriented

- Able to work independently with minimal oversight as part of a global team

- Proficient in reading, analyzing, and interpreting general business publications, professional journals, technical procedures, and government regulations

- Skilled in writing reports, business correspondence, and procedural guides

- Effective at presenting information and responding to management, clients, and public queries

- Capable of influencing others and sharing best practices while mentoring less experienced engineers

- Capable of assessing projects, articulating risks, and developing project milestones

- Familiar with stage-gate processes in project lifecycle management (PLCM)

- Excellent problem-solving skills and attention to detail

- Experience in EPlan, WindChill, SolidWorks, and DevOps are a plus

- Experience with hyperscale or colocation data center environments

- Familiarity with low and medium-voltage systems

Preferred Qualifications: 

- Master’s Degree in Electrical Engineering or a relevant engineering discipline

- Active Professional Engineer (PE) license

- Experience in mission-critical environments such as data centers, manufacturing, or energy systems.

- Experience with digital twin modeling and predictive maintenance strategies.
Remote working/work at home options are available for this role.