We are a diverse, enthusiastic, and growing team of multidisciplined engineers committed to
advancing our mission of delivering mission-critical environments where it really matters through
functionality, performance, and reliability of HVACR products meet and exceed demanding uptime
and performance targets for applications such as data centers, commercial buildings, and industrial
facilities. We work across multiple development programs and often step outside our normal roles
to support a fast-paced environment.
About You and The Role
You are a hands-on engineer, who partners directly with design, controls, testing, manufacturing,
service, and supplier teams to deliver reliability by design for our chiller portfolio.
You’ll focus on compressors (screw, centrifugal, scroll), heat exchangers, pumps, fans, VFDs
(Variable Frequency Drives), power electronics, sensors/actuators, and control systems—and the
interactions among them—to ensure products meet stringent reliability, availability, and
maintainability goals over the entire lifecycle.
You will apply DFMEA (Design Failure Modes & Effects Analysis), Accelerated testing, RCA (Root
Cause Analysis)/8D (Problem solving), and statistical life data analysis to drive decisions.
We are the knowledge holders for how to validate field driven use cases, define critical parameters,
and guide Cross functional execution so proper scope and timely outcomes are achieved.
What You'll Do
● Own and drive the reliability strategy across air-cooled and water-cooled chiller
programs with clear goals for failure-rate reduction, B10 life, and warranty cost.
● Translate design intent into reliability plans (Design-for-Reliability, DVP&R - Design
Verification Plan, and Results) ensuring coverage of likely failure modes under realistic
environmental and load profiles (thermal cycling, vibration, electrical stress, fouling).
● Manage and report reliability status for all programs—dashboards, risk registers, and
readiness for phase gates—leading data-driven decisions.
● Connect field failure modes with validation standards and plans; update strategies as
new field learnings emerge.
● Review
○ Requirements and validation methods to ensure what’s written matches how it’s
verified and validated.
○ Program test strategies to maximize coverage and reduce redundant testing.
○ Program readiness at key milestones (concept, design freeze, design validation,
product validation, launch).
● Conduct Root Cause Analysis (RCA/8D) on chronic issues across disciplines (e.g., bearing
wear, VFD trips, refrigerant leaks, corrosion) and implement systemic corrective actions.
● Standardize reliability practices (DFMEA, Accelerated testing) with principal engineers
and align supplier qualifications to reliability needs
Must have Requirements
• Bachelor’s degree in electrical, Mechatronics, Mechanical, or related engineering discipline.
• 7-10 years of experience in product development, test, or field reliability;
• Understanding of FMEA, RCA, recreating failure modes, and statistical analysis (e.g., Weibull)
• Experience in designing and executing accelerated testing, Reliability testing.
• Failure analysis experience.
● Demonstrated aptitude for debugging and troubleshooting in lab and field environments;
strong curiosity and systematic problem solving
Preferred qualifications
● Certified Reliability Engineer (ASQ-CRE) or equivalent, and understands distributions, Life
Stress models, Reliability allocations, Design of Experiments (DoE)
● Ability to analyze test/field data, generate reliability reports, and communicate findings to
drive design and process improvements.
• Familiarity with electronics & controls (sensors, HMIs, drives), electro-mechanical interactions,
and manufacturing processes affecting reliability.
PART 2
Day to Day (what a typical day or week looks like in this role)
● Review DFMEA, DVP&R, field data, and customer duty cycles for a new chiller platforms;
identify knowledge gaps and key risk areas; propose targeted reliability tests.
● Create reliability test requests with clear purpose, hypotheses/predictions, and acceptance
criteria; align labs on configurations, fixtures, and schedules.
● Lead cross-functional discussions (design, controls, manufacturing, supply chain, service) to
confirm deliverables, test readiness, and maturity; align on phase-gate expectations.
● Coordinate with lab personnel to ensure samples, instrumentation, and test stands (water
loops, ambient chambers, power cycling rigs, vibration tables) meet the plan; manage
execution across multiple labs.
● Review lab reports for completeness and traceability to requirements; ensure failure
evidence, stress profiles, and data quality are adequate for decisions.
● Facilitate RCA/8D on failures (e.g., compressor internals, electronics thermal stress,
refrigerant circuit leaks) and define effective short- and long-term corrective actions.
● Summarize test conclusions; document risks and defects; drive systemic learning. Use DoE
where needed to confirm cause–effect and optimize design margins.
● Assess platform cross-impact—identify other models/options sharing similar risk—and
communicate proactively to stakeholders.
● Lead process improvements in verification & validation and reliability standard work (gate
criteria, stress profiles, acceptance tests).
● Engage with quality and service teams to capture field use cases (BMS logs, alarms,
ambient/wet-bulb trends), perform site investigations when needed, and translate learnings
into tests.
● Maintain reliability dashboards (program status, risks, actions) and trackers; keep Test-to
Fail / Test-to-Learn (TTF/TTL) metrics current and visible.