Home › Companies › Tract Capital Management, LP › Senior Electrical Systems Engineer
Senior Electrical Systems Engineer
Tract Capital Management, LP · Mercer Island, WA, United States · On Site · Active · $120,000–$150,000 / year · Rippling ATS
Job facts
| Field | Value |
|---|---|
| Company | Tract Capital Management, LP |
| Title | Senior Electrical Systems Engineer |
| Normalized title | - |
| Department / team | DC Design & Engineering |
| Location | Mercer Island, WA, United States |
| Work model | On Site |
| Employment type | Full Time |
| Salary | $120,000–$150,000 / year |
| Status | active |
| ATS provider | Rippling ATS |
| Posted / first seen | 2026-01-15 / 2026-05-29 |
| Changed / last seen | 2026-06-06 / 2026-06-06 |
Related slices
| Page | What it contains | Open |
|---|---|---|
| Company jobs | Active postings from Tract Capital Management, LP. | Open |
| Company breakdowns | Role, location, ATS, and work model facets for this company. | Open |
| ATS provider jobs | Active postings observed through Rippling ATS. | Open |
| Provider filtered search | The same provider as a filtered job collection. | Open |
| City jobs | Active postings in Mercer Island. | Open |
| Department jobs | Active postings in DC Design & Engineering. | Open |
| Work model jobs | Active On Site postings. | Open |
| Lifecycle events | Open, update, close, and reopen events for this posting. | Open |
| Original posting | Canonical source or apply URL captured from the ATS. | Open |
Linked records
| Company | Tract Capital Management, LP |
| Source | 4e0fb9ca-6e07-46ca-b879-76c060ff9caa |
| ATS provider | Rippling ATS |
Description
company
Fleet Data Centers designs, builds and operates mega-scale data center campuses. Fleet provides its customers flexibility and predictability to meet their upside demand forecasts, addressing a key need in the market as traditional leased models are struggling to keep pace with the demand for new Cloud and AI infrastructure. Fleet is led by a team of industry veterans that have already made a lasting imprint on the evolution of global digital infrastructure and are committed and uniquely capable of upleveling data center development scale and operations in the face of rising demand. Fleet is well positioned to bring in-house design, engineering and operational capabilities to collaborate with customers on tailored solutions for campuses of 500MW+. This unique model enables Fleet to provide the world’s largest and most sophisticated customers a seamless extension of their own data center fleets with constant access to design innovation. Fleet is headquartered in Denver, Colorado, with satellite offices in Seattle, WA and Arlington, VA.
role
Position Overview:
We are seeking a Senior Systems Engineer – Electrical to own the detailed design validation, analysis, and optimization of Fleet’s data center power distribution topology from utility through the rack. This role requires a deep understanding of Fleet data center power topology, including breakers, PDUs, UPS systems, generators, busways, tap boxes, R-boxes, and whips, and how these elements behave across normal, maintenance, and failure scenarios.
The ideal candidate combines strong electrical engineering fundamentals with practical data center experience, ensuring rack-level power requirements are met, specifications and counts for power components are correct, and failover behaviors are well understood. This role is accountable for end-to-end electrical system integrity, including feed-down simulations, outage analysis, and upgrade impact assessments to optimize uptime SLAs and minimize power stranding.
Key Responsibilities:
Power Topology Ownership & Rack-Level Alignment:
Develop and maintain a deep understanding of Fleet data center power topology, from utility through medium-voltage and low-voltage distribution, busways, tap boxes, R-boxes, and rack whips, down to rack power supplies and power shelves Ensure that tap box and R-box ratings meet rack power requirements, including continuous, peak, and redundancy constraints (e.g., N, N+1, 2N) Review and validate rack SKUs and associated power supply or power shelf specifications, ensuring compatibility with upstream distribution (feed counts, breaker ratings, connector types, redundancy configurations) Partner with rack engineering, capacity planners, and operations to ensure that rack layouts and deployment plans are electrically feasible within Fleet’s standard power lineups and site-specific constraints Configuration, Specification, and Data Accuracy:
Define, review, and maintain R-box specifications and counts, tap box specifications and counts, and whip specifications and counts for each deployment Ensure that all specifications and quantities are accurate, documented, and transmitted to capacity planners and procurement teams in a timely manner so they can plan, model, and procure required infrastructure Create and maintain standardized BOM templates and configuration libraries for electrical distribution components (busways, tap boxes, R-boxes, whips, breakers, PDUs, etc.) tied to specific rack SKUs and power tiers Collaborate with DCIM and tooling teams to ensure electrical topology, ratings, and connectivity are modeled with high fidelity and kept current Electrical Failover & Outage Analysis:
Perform electrical failover analysis across the power chain to ensure that credible outage scenarios (utility loss, generator failure, UPS failure, breaker trips, busway/tap/R-box faults, rack-level faults) do not lead to cascading failures Analyze breaker coordination, protective device settings, and selective tripping behavior to confirm faults are isolated without compromising redundant paths Model and validate how breakers, PDUs, UPS systems, generators, busways, tap boxes, R-boxes, and whips behave under fault, overload, and transfer conditions, and identify design or configuration changes to reduce operational risk Work closely with Site Operations and Facilities Engineering to incorporate lessons learned from real incidents into design standards, operating procedures, and protection settings Feed-Down Simulation & System-Level Optimization:
Simulate feed-down scenarios (e.g., loss of a feed, maintenance bypass, partial generator availability, UPS module failures) to understand upstream and downstream effects on the entire power lineup Use these simulations and scenario analyses to keep failure and maintenance events within uptime SLAs Minimize power stranding by balancing capacity across feeds, phases, and power paths while preserving redundancy Identify structural constraints or choke points and propose improvements Translate simulation results into clear requirements and guidance for capacity planning, rack deployment policies, and operational runbooks Infrastructure Upgrades & Expansion Impact Analysis:
Lead or support infrastructure upgrade and expansion impact analyses for electrical systems, including adding or upgrading busways, tap boxes, R-boxes, or whips, upgrading UPS, PDU, or generator capacity, and changing feeder configurations or protection schemes Quantify the electrical and operational impact of proposed changes on available and stranded power capacity, redundancy levels and single-/dual-corded load behavior, and expected fault and failover behavior across the lineup Provide engineering input into method-of-procedure (MOP) documents and risk assessments for all electrical changes, ensuring impacts to critical load are understood and mitigated Cross-Functional Collaboration & Documentation:
Partner with capacity planners, customers engineering teams, site operations, facilities engineering, and procurement to ensure alignment between electrical design, deployment plans, and capital/operational constraints Produce clear, repeatable design guides, reference one-lines, and standard topologies for different site types, power tiers, and rack densities Contribute to internal standards and playbooks covering power topology design rules and constraints, component specification and qualification criteria, and failover expectations, tests, and acceptance criteria Support incident reviews, design reviews, and vendor evaluations from an electrical systems standpoint Qualifications:
Required:
Bachelor’s degree in electrical engineering or a closely related engineering discipline 6+ years of experience in data center electrical engineering, critical power systems design, industrial power distribution, or a similar field involving medium- and low-voltage systems Demonstrated deep understanding of data center or industrial power distribution topologies, including utility feeds, generators, UPS systems, switchgear, PDUs, busways, tap boxes, R-boxes, and rack-level power delivery Proven ability to analyze electrical failover and outage scenarios, including breaker coordination, redundancy schemes (N/N+1/2N), and cascading failure risks Experience validating that rack power requirements (per-rack kW, inlet configuration, redundancy model) are met by upstream infrastructure, including tap box and R-box ratings and whip configurations Proficiency with electrical design and analysis tools and the ability to interpret one-line diagrams, protection settings, and equipment submittals Strong analytical and problem-solving skills, with the ability to translate simulation and analysis results into practical design and operational recommendations Clear written and verbal communication skills, including the ability to document complex electrical concepts and present findings to engineering and operations stakeholders Preferred:
Experience in hyperscale or colocation data centers, with exposure to high-density compute (AI/GPU) power distribution challenges Familiarity with rack power supply and power shelf design, including redundancy configurations, inrush behavior, and interaction with upstream protection Hands-on experience with DCIM and asset management tools and integrating accurate electrical data and connectivity into those systems Knowledge of relevant electrical codes and standards (e.g., NEC, IEEE) as applied to mission-critical facilities Prior experience conducting infrastructure upgrade or expansion impact analyses in live production environments, including MOP development and risk mitigation Understanding of broader data center performance metrics (e.g., PUE, capacity utilization) and how electrical design decisions influence them Required Traits and Skills:
Integrity and Ethical Standards: Operate with a high degree of integrity and safety-consciousness in all engineering decisions, especially when affecting live critical environments Effective Communication: Clearly explain complex electrical concepts and tradeoffs to both technical and non-technical audiences; comfortable delivering findings to internal engineering, operations, and leadership teams Operational Paranoia: Anticipate risks, identify vulnerabilities in the electrical topology, and proactively implement mechanisms to prevent and minimize disruptions and safeguard safety, security, availability, and scale Strategic & Systems Thinking: Understand how local design decisions (e.g., a tap box or R-box configuration) impact the behavior of the entire power lineup and overall uptime SLA Critical Thinking & Analytical Ability: Use data, simulation, and empirical evidence to drive decisions; evaluate cost, risk, and performance tradeoffs for alternative designs or configurations Collaboration & Relationship Management: Build strong working relationships with capacity planners, site operations, facilities engineers, vendors, and other partners to drive aligned, high-quality outcomes Leadership & Mentorship: Provide technical leadership within the electrical engineering domain, mentor peers and junior engineers, and contribute to a culture of continuous improvement Expected Salary Range: $120,000-$150,000 Salary + Discretionary Bonus Fleet Data Centers Employment Fleet Data Center employees enjoy competitive compensation and comprehensive benefits, including 100% employer-covered medical, dental, and vision insurance, a 401K program, standard paid holidays, and unlimited PTO.
NOTE: This job description is not intended to be all-inclusive. Employees may perform other related duties as assigned to meet the organization’s ongoing needs.
Fleet Data Centers is proud to be an Equal Opportunity Employer. Qualified applicants are considered for employment regardless of age, race, color, religion, sex, national origin, sexual orientation, gender identity, disability, or veteran status.
If you need assistance applying for any of our open positions, please contact us at [email protected].
Full job record
| Job ID | 756bde67e4ec0794228b8055bba5d5c07582b2c9 |
| Org ID | ba9be8ec-994a-44d4-80ec-16a3d3af85c3 |
| Source ID | 4e0fb9ca-6e07-46ca-b879-76c060ff9caa |
| Board ID | 4e0fb9ca-6e07-46ca-b879-76c060ff9caa |
| Provider | rippling |
| Provider Job Key | c196cd1d-c9c8-44a6-8c8a-4ed1a2087169 |
| Title | Senior Electrical Systems Engineer |
| Normalized Title | — |
| Status | active |
| Active | yes |
| Location Text | Mercer Island, WA, United States |
| Department | DC Design & Engineering |
| Team | — |
| Employment Type | full_time |
| Workplace Type | on_site |
| Remote Policy | — |
| Country | United States |
| Region | WA |
| City | Mercer Island |
| Salary Raw | Salary Range: $120,000-$150,000 Salary + Discretionary Bonus Fleet Data Centers Employment Fleet Data Center em |
| Salary Min | 120,000 |
| Salary Max | 150,000 |
| Salary Currency | USD |
| Salary Period | year |
| Source URL | https://ats.rippling.com/fleet-data-centers/jobs/c196cd1d-c9c8-44a6-8c8a-4ed1a2087169 |
| Apply URL | https://ats.rippling.com/fleet-data-centers/jobs/c196cd1d-c9c8-44a6-8c8a-4ed1a2087169 |
| First Seen At | 2026-05-29 07:11:51Z |
| Last Seen At | 2026-06-06 20:15:35Z |
| Last Checked At | 2026-06-06 20:15:35Z |
| Last Changed At | 2026-06-06 20:15:35Z |
| Inactive At | — |
| Source Posted At | 2026-01-15 19:58:08Z |
| Source Updated At | — |
| Raw Payload Uri | s3://job-postings-prod-raw-590183727216/raw/provider=rippling/board=fleet-data-centers/date=2026-06-06/2026-06-06T20-15-30-275Z-03a59df6a2ca8e7d20cf21ea819ab346eff61f646135e851ecd5f5c478b1dc64.json |
Event Fields
{
"content_hash": "9cd8e6990810b9be87581640b8264619c210ca18b86201ce1f37f2bb29cda87c",
"source_hash": "1c6aa48c9b4a8cedbf70ebccea1a52d9403ed9df3bfbe2ca3ab9455135d4acc4",
"last_changed_at": "2026-06-06T20:15:35.220Z",
"active_status": "active"
}Parsed Structured
{
"language": "en-us",
"location": {
"raw": "Mercer Island, WA, United States",
"city": "Mercer Island",
"region": "WA",
"country": "United States",
"is_remote": false,
"confidence": 0.98,
"workplace_type": "on_site"
},
"salary_max": 150000,
"salary_min": 120000,
"inferred_at": "2026-06-06T20:15:35.164Z",
"launch_scope": {
"reason": "english_us_canada",
"included": true,
"language": "en-us",
"location": {
"raw": "Mercer Island, WA, United States",
"city": "Mercer Island",
"region": "WA",
"country": "United States",
"is_remote": false,
"confidence": 0.98,
"workplace_type": "on_site"
},
"countries": [
"United States"
]
},
"remote_policy": null,
"salary_period": "year",
"workplace_type": "on_site",
"salary_currency": "USD"
}Extensions
{}Native Structured
{
"list_job": {
"id": "c196cd1d-c9c8-44a6-8c8a-4ed1a2087169",
"url": "https://ats.rippling.com/fleet-data-centers/jobs/c196cd1d-c9c8-44a6-8c8a-4ed1a2087169",
"name": "Senior Electrical Systems Engineer ",
"language": "en-US",
"locations": [
{
"city": "Mercer Island",
"name": "Mercer Island, WA",
"state": "Washington",
"country": "United States",
"stateCode": "WA",
"countryCode": "US",
"workplaceType": "ON_SITE"
}
],
"department": {
"name": "Fleet"
}
},
"detail_job": {
"url": "https://ats.rippling.com/fleet-data-centers/jobs/c196cd1d-c9c8-44a6-8c8a-4ed1a2087169",
"name": "Senior Electrical Systems Engineer ",
"uuid": "c196cd1d-c9c8-44a6-8c8a-4ed1a2087169",
"board": {
"logo": {
"url": "https://secured-assets.ripplingcdn.com/us1/ats/6525a7b70c8bf1684c692515/ats_public/f1392b3dd5fb477abc85eef8ea7c5fad-sensitive.png?Expires=1780863333&Signature=wC4QQ-arJfl5WkbFn7oRxRYRKw~S1OIOdfc3CqYRJC5kvVDws5lm74KcYI2jdXAld4iN~nE0w81X~7mAV1-XmYT4mpawNarTZpzE4E1xMh6EddEz6JggI8FBOjWFGkL8qOwBRfDsUz3mfDLT3xIvLWnTaan7iFpcO7LdC9JL9rFUchLhBNk8kR~Lw7v1x2syr4DW~hG8LJe1hAu52x1kYrsxx2gwN~7gWu3e9WRsi876GS6ZrT-zJFU3Q8RE1X7wioffoeXGWIUQdGTO8x~RFPWyird3vielc6v7AKUmx6DlKmZKhKel2lofw747v5pyPwZe5R0yF5MfgVBYblRyMg__&Key-Pair-Id=K2SM3GXN9F9XGM",
"name": "Fleet Logo.png",
"type": "image/png"
},
"slug": "fleet-data-centers",
"title": "Fleet Data Centers",
"banner": {
"url": null,
"name": "",
"type": ""
},
"boardURL": "https://ats.rippling.com/fleet-data-centers/jobs",
"fontType": null,
"subtitle": null,
"boardType": "RIPPLING",
"linkColor": null,
"buttonColor": null,
"legalNotice": "<meta name=\"rteConfig\" content=\"{"version":"0.410.0","producedBy":"block","themeName":"berry"}\"><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;text-align:left;\"><span style=\"font-size:12pt;white-space:pre-wrap;\">Fleet Data Center employees enjoy competitive compensation and comprehensive benefits, including 100% employer-covered medical, dental, and vision insurance, a 401K program, standard paid holidays, and unlimited PTO. </span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;text-align:left;\"><span style=\"font-size:12pt;white-space:pre-wrap;\"> </span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;text-align:left;\"><i><em style=\"font-size:12pt;white-space:pre-wrap;\">NOTE: This job description is not intended to be all-inclusive. Employees may perform other related duties as assigned to meet the organization's ongoing needs.</em></i><span style=\"font-size:12pt;white-space:pre-wrap;\"> </span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;text-align:left;\"><span style=\"font-size:12pt;white-space:pre-wrap;\"> </span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;text-align:left;\"><i><em style=\"font-size:12pt;white-space:pre-wrap;\">Fleet Data Centers is proud to be an Equal Opportunity Employer. Qualified applicants are considered for employment regardless of age, race, color, religion, sex, national origin, sexual orientation, gender identity, disability, or veteran status. If you need assistance applying for any of our open positions, please contact us at [email protected].</em></i><span style=\"font-size:12pt;white-space:pre-wrap;\"> </span></p>",
"buttonTextColor": null,
"noOpeningsMessage": null,
"groupJobsByLocation": true,
"showBoardLogoOnJobPost": true,
"showCompanyInfoUnderJobPost": false
},
"createdOn": "2026-01-15T11:58:08.338000-08:00",
"department": {
"name": "DC Design & Engineering",
"base_department": "Fleet",
"department_tree": [
"Fleet",
"Fleet - US",
"DC Design & Engineering"
]
},
"companyName": "Tract Capital Management, LP",
"description": {
"role": "<meta><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Position Overview:</strong></b></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"white-space:pre-wrap;\">We are seeking a Senior Systems Engineer – Electrical to own the detailed design validation, analysis, and optimization of Fleet’s data center power distribution topology from utility through the rack. This role requires a deep understanding of Fleet data center power topology, including breakers, PDUs, UPS systems, generators, busways, tap boxes, R-boxes, and whips, and how these elements behave across normal, maintenance, and failure scenarios.</span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"white-space:pre-wrap;\">The ideal candidate combines strong electrical engineering fundamentals with practical data center experience, ensuring rack-level power requirements are met, specifications and counts for power components are correct, and failover behaviors are well understood. This role is accountable for end-to-end electrical system integrity, including feed-down simulations, outage analysis, and upgrade impact assessments to optimize uptime SLAs and minimize power stranding.</span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Key Responsibilities:</strong></b></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Power Topology Ownership & Rack-Level Alignment:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Develop and maintain a deep understanding of Fleet data center power topology, from utility through medium-voltage and low-voltage distribution, busways, tap boxes, R-boxes, and rack whips, down to rack power supplies and power shelves</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Ensure that tap box and R-box ratings meet rack power requirements, including continuous, peak, and redundancy constraints (e.g., N, N+1, 2N)</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Review and validate rack SKUs and associated power supply or power shelf specifications, ensuring compatibility with upstream distribution (feed counts, breaker ratings, connector types, redundancy configurations)</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Partner with rack engineering, capacity planners, and operations to ensure that rack layouts and deployment plans are electrically feasible within Fleet’s standard power lineups and site-specific constraints</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Configuration, Specification, and Data Accuracy:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Define, review, and maintain R-box specifications and counts, tap box specifications and counts, and whip specifications and counts for each deployment</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Ensure that all specifications and quantities are accurate, documented, and transmitted to capacity planners and procurement teams in a timely manner so they can plan, model, and procure required infrastructure</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Create and maintain standardized BOM templates and configuration libraries for electrical distribution components (busways, tap boxes, R-boxes, whips, breakers, PDUs, etc.) tied to specific rack SKUs and power tiers</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Collaborate with DCIM and tooling teams to ensure electrical topology, ratings, and connectivity are modeled with high fidelity and kept current</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Electrical Failover & Outage Analysis:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Perform electrical failover analysis across the power chain to ensure that credible outage scenarios (utility loss, generator failure, UPS failure, breaker trips, busway/tap/R-box faults, rack-level faults) do not lead to cascading failures</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Analyze breaker coordination, protective device settings, and selective tripping behavior to confirm faults are isolated without compromising redundant paths</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Model and validate how breakers, PDUs, UPS systems, generators, busways, tap boxes, R-boxes, and whips behave under fault, overload, and transfer conditions, and identify design or configuration changes to reduce operational risk</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Work closely with Site Operations and Facilities Engineering to incorporate lessons learned from real incidents into design standards, operating procedures, and protection settings</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Feed-Down Simulation & System-Level Optimization:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Simulate feed-down scenarios (e.g., loss of a feed, maintenance bypass, partial generator availability, UPS module failures) to understand upstream and downstream effects on the entire power lineup</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Use these simulations and scenario analyses to keep failure and maintenance events within uptime SLAs</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Minimize power stranding by balancing capacity across feeds, phases, and power paths while preserving redundancy</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Identify structural constraints or choke points and propose improvements</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Translate simulation results into clear requirements and guidance for capacity planning, rack deployment policies, and operational runbooks</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Infrastructure Upgrades & Expansion Impact Analysis:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Lead or support infrastructure upgrade and expansion impact analyses for electrical systems, including adding or upgrading busways, tap boxes, R-boxes, or whips, upgrading UPS, PDU, or generator capacity, and changing feeder configurations or protection schemes</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Quantify the electrical and operational impact of proposed changes on available and stranded power capacity, redundancy levels and single-/dual-corded load behavior, and expected fault and failover behavior across the lineup</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Provide engineering input into method-of-procedure (MOP) documents and risk assessments for all electrical changes, ensuring impacts to critical load are understood and mitigated</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Cross-Functional Collaboration & Documentation:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Partner with capacity planners, customers engineering teams, site operations, facilities engineering, and procurement to ensure alignment between electrical design, deployment plans, and capital/operational constraints</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Produce clear, repeatable design guides, reference one-lines, and standard topologies for different site types, power tiers, and rack densities</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Contribute to internal standards and playbooks covering power topology design rules and constraints, component specification and qualification criteria, and failover expectations, tests, and acceptance criteria</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Support incident reviews, design reviews, and vendor evaluations from an electrical systems standpoint</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Qualifications:</strong></b></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Required:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Bachelor’s degree in electrical engineering or a closely related engineering discipline</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">6+ years of experience in data center electrical engineering, critical power systems design, industrial power distribution, or a similar field involving medium- and low-voltage systems</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Demonstrated deep understanding of data center or industrial power distribution topologies, including utility feeds, generators, UPS systems, switchgear, PDUs, busways, tap boxes, R-boxes, and rack-level power delivery</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Proven ability to analyze electrical failover and outage scenarios, including breaker coordination, redundancy schemes (N/N+1/2N), and cascading failure risks</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Experience validating that rack power requirements (per-rack kW, inlet configuration, redundancy model) are met by upstream infrastructure, including tap box and R-box ratings and whip configurations</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Proficiency with electrical design and analysis tools and the ability to interpret one-line diagrams, protection settings, and equipment submittals</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Strong analytical and problem-solving skills, with the ability to translate simulation and analysis results into practical design and operational recommendations</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Clear written and verbal communication skills, including the ability to document complex electrical concepts and present findings to engineering and operations stakeholders</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Preferred:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Experience in hyperscale or colocation data centers, with exposure to high-density compute (AI/GPU) power distribution challenges</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Familiarity with rack power supply and power shelf design, including redundancy configurations, inrush behavior, and interaction with upstream protection</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Hands-on experience with DCIM and asset management tools and integrating accurate electrical data and connectivity into those systems</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Knowledge of relevant electrical codes and standards (e.g., NEC, IEEE) as applied to mission-critical facilities</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Prior experience conducting infrastructure upgrade or expansion impact analyses in live production environments, including MOP development and risk mitigation</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Understanding of broader data center performance metrics (e.g., PUE, capacity utilization) and how electrical design decisions influence them</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Required Traits and Skills:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Integrity and Ethical Standards: Operate with a high degree of integrity and safety-consciousness in all engineering decisions, especially when affecting live critical environments</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Effective Communication: Clearly explain complex electrical concepts and tradeoffs to both technical and non-technical audiences; comfortable delivering findings to internal engineering, operations, and leadership teams</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Operational Paranoia: Anticipate risks, identify vulnerabilities in the electrical topology, and proactively implement mechanisms to prevent and minimize disruptions and safeguard safety, security, availability, and scale</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Strategic & Systems Thinking: Understand how local design decisions (e.g., a tap box or R-box configuration) impact the behavior of the entire power lineup and overall uptime SLA</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Critical Thinking & Analytical Ability: Use data, simulation, and empirical evidence to drive decisions; evaluate cost, risk, and performance tradeoffs for alternative designs or configurations</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Collaboration & Relationship Management: Build strong working relationships with capacity planners, site operations, facilities engineers, vendors, and other partners to drive aligned, high-quality outcomes</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Leadership & Mentorship: Provide technical leadership within the electrical engineering domain, mentor peers and junior engineers, and contribute to a culture of continuous improvement</span></li></ul><h2 style=\"font-family:"Basel Grotesk",Arial,sans-serif;line-height:1.6;font-size:11pt;font-weight:600;letter-spacing:0.5px;margin-top:18px;margin-bottom:4px;padding-left:0px;\"><span style=\"font-size:11pt;white-space:pre-wrap;\">Expected Salary Range: $120,000-$150,000 Salary </span><span style=\"white-space:pre-wrap;\">+ Discretionary Bonus </span></h2><h2 style=\"font-family:"Basel Grotesk",Arial,sans-serif;line-height:1.6;font-size:11pt;font-weight:600;letter-spacing:0.5px;margin-top:18px;margin-bottom:4px;padding-left:0px;\"><u><span style=\"font-size:11pt;text-decoration:underline;white-space:pre-wrap;\">Fleet Data Centers Employment</span></u></h2><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">Fleet Data Center employees enjoy competitive compensation and comprehensive benefits, including 100% employer-covered medical, dental, and vision insurance, a 401K program, standard paid holidays, and unlimited PTO.</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">NOTE: This job description is not intended to be all-inclusive. Employees may perform other related duties as assigned to meet the organization’s ongoing needs.</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">Fleet Data Centers is proud to be an Equal Opportunity Employer. Qualified applicants are considered for employment regardless of age, race, color, religion, sex, national origin, sexual orientation, gender identity, disability, or veteran status.</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">If you need assistance applying for any of our open positions, please contact us at [email protected].</em></i></p>",
"company": "<meta><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"color:black;white-space:pre-wrap;\">Fleet Data Centers designs, builds and operates mega-scale data center campuses. Fleet provides its customers flexibility and predictability to meet their upside demand forecasts, addressing a key need in the market as traditional leased models are struggling to keep pace with the demand for new Cloud and AI infrastructure. Fleet is led by a team of industry veterans that have already made a lasting imprint on the evolution of global digital infrastructure and are committed and uniquely capable of upleveling data center development scale and operations in the face of rising demand. Fleet is well positioned to bring in-house design, engineering and operational capabilities to collaborate with customers on tailored solutions for campuses of 500MW+. This unique model enables Fleet to provide the world’s largest and most sophisticated customers a seamless extension of their own data center fleets with constant access to design innovation. Fleet is headquartered in Denver, Colorado, with satellite offices in Seattle, WA and Arlington, VA.</span></p>"
},
"workLocations": [
"Mercer Island, WA"
],
"employmentType": {
"id": "Salaried, full-time",
"label": "SALARIED_FT"
},
"payRangeDetails": [],
"activeJobApplication": {
"basicQuestions": [
{
"oid": "first_name",
"title": "First name",
"required": true,
"fieldType": "SHORT_ANSWER"
},
{
"oid": "last_name",
"title": "Last name",
"required": true,
"fieldType": "SHORT_ANSWER"
},
{
"oid": "email",
"title": "Email",
"required": true,
"fieldType": "SHORT_ANSWER"
},
{
"oid": "pronouns",
"title": "Pronouns",
"required": false,
"fieldType": "PRONOUN"
},
{
"oid": "current_company",
"title": "Current company",
"required": true,
"fieldType": "SHORT_ANSWER"
},
{
"oid": "phone_number",
"title": "Phone number",
"required": true,
"fieldType": "PHONE_NUMBER"
},
{
"oid": "location",
"title": "Location (city only)",
"required": true,
"fieldType": "SHORT_ANSWER"
},
{
"oid": "linkedin_link",
"title": "LinkedIn link",
"required": true,
"fieldType": "SHORT_ANSWER"
},
{
"oid": "resume",
"title": "Resume",
"required": true,
"fieldType": "FILE"
},
{
"oid": "cover_letter",
"title": "Cover letter",
"required": false,
"fieldType": "FILE"
}
],
"customQuestions": {
"fields": [
{
"oid": "first_name",
"title": "First name",
"required": true,
"fieldData": {},
"fieldType": "SHORT_ANSWER"
},
{
"oid": "last_name",
"title": "Last name",
"required": true,
"fieldData": {},
"fieldType": "SHORT_ANSWER"
},
{
"oid": "email",
"title": "Email",
"required": true,
"fieldData": {},
"fieldType": "SHORT_ANSWER"
},
{
"oid": "pronouns",
"title": "Pronouns",
"required": false,
"fieldData": {},
"fieldType": "PRONOUN"
},
{
"oid": "current_company",
"title": "Current company",
"required": true,
"fieldData": {},
"fieldType": "SHORT_ANSWER"
},
{
"oid": "phone_number",
"title": "Phone number",
"required": true,
"fieldData": {},
"fieldType": "PHONE_NUMBER"
},
{
"oid": "location",
"title": "Location (city only)",
"required": true,
"fieldData": {},
"fieldType": "SHORT_ANSWER"
},
{
"oid": "linkedin_link",
"title": "LinkedIn link",
"required": true,
"fieldData": {},
"fieldType": "SHORT_ANSWER"
},
{
"oid": "resume",
"title": "Resume",
"required": true,
"fieldData": {},
"fieldType": "FILE"
},
{
"oid": "cover_letter",
"title": "Cover letter",
"required": false,
"fieldData": {},
"fieldType": "FILE"
}
]
},
"additionalQuestions": [
{
"id": "69cd71cbc22d7ff827baf7bc",
"form": {
"sections": [],
"questions": [
{
"tags": [],
"title": "Do you now or will you ever in the future require sponsorship to work in the United States?",
"canEdit": false,
"dataType": "select",
"isPrivate": false,
"uniqueKey": "28b7c4fd-b8f9-4832-8967-7bb5e23521ac",
"intChoices": [],
"isRequired": true,
"strChoices": [
"Yes",
"No"
],
"description": "",
"questionType": "KNOCKOUT",
"allowComments": false,
"isOtherEnabled": false,
"isMultiSelectEnabled": true
}
],
"skipLogic": [],
"deletedSections": [],
"deletedQuestions": []
},
"name": "Sponsorship KO"
},
{
"id": "69cd71cbc22d7ff827baf7bd",
"form": {
"sections": [],
"questions": [
{
"tags": [],
"title": "Do you have a completed Bachelor's Degree?",
"canEdit": false,
"dataType": "select",
"isPrivate": false,
"uniqueKey": "63cfe455-9182-44f6-b70b-67b0bdcf8a1a",
"intChoices": [],
"isRequired": true,
"strChoices": [
"Yes",
"No"
],
"description": "",
"questionType": "KNOCKOUT",
"allowComments": false,
"isOtherEnabled": false,
"isMultiSelectEnabled": true
}
],
"skipLogic": [],
"deletedSections": [],
"deletedQuestions": []
},
"name": "Bachelor's Degree Requirement"
}
]
},
"hasAIEvaluationsEnabled": true,
"eeocQuestionnaireEnabled": true,
"applicationConfirmationTemplate": "6762f2c6132a80374a68d57f",
"eeocQuestionnaireEnabledForJobPost": true
},
"detail_meta": {
"url": "https://ats.rippling.com/api/v2/board/fleet-data-centers/jobs/c196cd1d-c9c8-44a6-8c8a-4ed1a2087169",
"http_status": 200,
"content_type": "application/json",
"response_bytes": 31918
},
"detail_errors": []
}Get this page with API
Rendered from the bluedoor Job Postings API. Reproduce it:
GET https://api.bluedoor.sh/job-postings/v1/jobs/756bde67e4ec0794228b8055bba5d5c07582b2c9?include=descriptionJSONGET https://api.bluedoor.sh/job-postings/v1/orgs/ba9be8ec-994a-44d4-80ec-16a3d3af85c3JSONGET https://api.bluedoor.sh/job-postings/v1/sources/4e0fb9ca-6e07-46ca-b879-76c060ff9caaJSONGET https://api.bluedoor.sh/job-postings/v1/jobs/756bde67e4ec0794228b8055bba5d5c07582b2c9/eventsJSON