Senior Substation Automation Engineer - Grid Modernization
Black & Veatch · Overland Park, KS · 1 wk ago
HybridEngineeringFull-time
About the role
The Senior Substation Automation Engineer will lead the transition of IEC 61850-based digital and virtual substations from pilot to production, design secure, vendor-agnostic substation automation architectures, serve as a technical leader, and collaborate with utilities, technology partners, and industry groups.
Responsibilities
- Develop SCL engineering artifacts including ICD, CID, and SCD files, datasets, logical node mappings, reporting and control blocks, and GOOSE publications and subscriptions.
- Configure and validate MMS, GOOSE, and SV messaging for protection, automation, monitoring, and SCADA applications.
- Design and document station-bus and process-bus network architectures using PRP/HSR, VLANs, QoS, multicast management, and traffic segmentation practices.
- Design deterministic real-time networking paths for time-sensitive protection and automation applications, incorporating latency budgeting, PTP timing performance, and behaviors defined for substation-class devices meeting IEC 61850-3 and IEEE 1613 environmental and EMC requirements.
- Diagnose and optimize real-time network behavior through traffic-capture analysis, timing-accuracy evaluation, and system-level tuning techniques for time-critical digital-substation workloads.
- Develop PTP-based time-synchronization architectures including grandmaster, boundary, and transparent clock configurations and incorporate timing considerations into the system design.
- Integrate multi-vendor IEDs with protection settings and logic, coordinating measurements, controls, alarms, and event data with SCADA and HMI systems.
- Apply IEC 61850 data-modeling concepts to confirm interoperability across mixed fleets of protection and control devices.
- Incorporate cybersecurity principles into system architecture, including authentication, role-based access control, network segmentation, secure communications, and device hardening.
- Develop and configure virtualized protection, HMI, gateway/RTU, and related substation applications on platforms including VMware ESXi with vCenter, vSAN, and NSX; Red Hat KVM or OpenShift Virtualization; and SEAPATH’s real-time, high-availability hypervisor platform designed to run virtualized protection, automation, and control workloads with deterministic performance and PTP-synchronized operation on industrial servers meeting IEC 61850-3 and IEEE 1613 criteria.
- Contribute to, or develop toward contributing to, IEEE and IEC standards and collaborative initiatives related to IEC 61850, digital substations, time synchronization, and cybersecurity.
- Support participation in technical bodies and industry groups such as IEC, IEEE, CIGRE, ISA99, and vPAC Alliance workstreams.
- Support the advancement and practical application of virtualized protection, automation, and control concepts in alignment with the architectural direction established by the vPAC Alliance.
- Produce engineering documentation including network specifications, SCL models, timing plans, interface definitions, and system diagrams used across design, laboratory validation, and field implementation.
- Collaborate with project managers, technical leads, clients, and vendors to align designs with project goals, operational requirements, and industry best practices.
Qualifications
- Bachelor's Degree in Engineering from a recognized accredited program or equivalent experience in Engineering work.
- Minimum of 11 years related work experience.
- Familiarity with cybersecurity frameworks for operational technology environments, including secure communications and system-hardening practices.
- Experience deploying or supporting virtualized protection, automation, and control applications on VMware ESXi/vCenter/vSAN/NSX, Red Hat KVM or OpenShift Virtualization, and SEAPATH’s real-time, high-availability hypervisor platform for vPAC workloads.
- Experience deploying virtualized substation workloads on industrial servers certified to IEC 61850-3 and IEEE 1613 environmental and EMC requirements.
- Familiarity with vPAC architectural principles and emerging practices for hosting protection, automation, and control systems on virtualized platforms.
- Interest in or experience with virtualized protection, automation, and control concepts.