Advanced Electrical Reliability & System Safety Engineer

Honeywell AerospacePhoenix, AZ
Hybrid

About The Position

As an Advanced Electrical Reliability Engineer at Honeywell Aerospace, within the Engines and Power Systems (E&PS) Reliability, Maintainability, and System Safety (RMSS) Engineering organization, you will lead reliability and system safety engineering activities for electronic hardware and control systems on multiple propulsion engine and APU programs. You will have ownership for reliability and system safety throughout the entire systems life cycle, from business development through product end of life. You will collaborate across disciplines within the engine and APU development teams to drive growth and achieve critical business milestones. This role reports directly to the Sr. Engineering Manager and is based in Phoenix, AZ or Aguadilla, PR with a hybrid work schedule. New hires must be prepared to work 100% onsite for the first 90 days.

Requirements

  • Reliability analysis – Allocations to define requirements
  • Reliability predictions throughout design process
  • Analyzing circuits for failure mode, effects, and criticality analysis (FMECA) and Part Stress Analysis (PSA)
  • BITE effectiveness analysis (BEA)
  • Fault Tree Analysis (FTA) at the controller level
  • Common Mode Analysis (CMA) at the controller level
  • Authoring Highly Accelerated Life Test (HALT) Plans
  • Authoring and ensuring development process follows system safety program plans
  • Failure conditions requirements analysis
  • Safety requirements decomposition
  • Model based development system design
  • Systems integration
  • Recommending design improvements to enhance reliability and safety
  • Safety requirements validation & verification
  • Aftermarket safety analysis and reliability metrics tracking
  • Customer interaction
  • Project coordination within a team and/or leading a small team of RMSS engineers

Responsibilities

  • Reliability analysis – Allocations to define requirements
  • Reliability predictions throughout design process
  • Analyzing circuits for failure mode, effects, and criticality analysis (FMECA) and Part Stress Analysis (PSA)
  • BITE effectiveness analysis (BEA)
  • Fault Tree Analysis (FTA) at the controller level
  • Common Mode Analysis (CMA) at the controller level
  • Authoring Highly Accelerated Life Test (HALT) Plans
  • Authoring and ensuring development process follows system safety program plans
  • Failure conditions requirements analysis
  • Safety requirements decomposition
  • Model based development system design
  • Systems integration
  • Recommending design improvements to enhance reliability and safety
  • Safety requirements validation & verification
  • Aftermarket safety analysis and reliability metrics tracking
  • Customer interaction
  • Project coordination within a team and/or leading a small team of RMSS engineers

Benefits

  • Relocation support maybe provided
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