What are the responsibilities and job description for the Sr Embedded Platform Engineer position at Accord Technologies Inc?
Sr Embedded Platform Engineer
Location: Irvine CA (100% Onsite)
Visa: US personal only
Total Position 2
Positon type: Open (FTE/C2C)
Note: Platform engineer should be low level can develop drivers and has developed them in past.
Role Overview
We re seeking a Senior Embedded Systems Software Engineer with strong systems intuition and a passion for building robust, safety-critical control software. This role sits at the intersection of embedded platform software, and system level control logic owning the supervisory controllayers that coordinate actuators, motor drives, and flight-level systems.
You will architect and implement system control logic, state machines, sequencing, diagnostics,and communication interfaces that ensure safe, deterministic operation across complex aerospace systems. While this role interfaces closely with actuator control, BMS, and vehicle control software, its primary focus is system behavior, integration, and correctness not fast inner-loop control.
Key Responsibilities
System Control Architecture & Logic
Design and own system level control architecture spanning actuator control, power sequencing, and operational state management. Develop supervisory logic, state machines, and mode management that coordinate lower- level motor control, embedded platform software, andhardware subsystems. Define and implement safe power-up, power-down, input processing, fault response, and degraded operating modes consistent with system safety assessments and aerospace certification requirements.
Embedded Software Development
Develop and maintain embedded software in C/C or MATLAB/Simulink on real-time microcontroller platforms (e.g., TI C2000, NXP, or comparable safety-oriented MCUs). Architect. scalable and maintainable software frameworks supporting control execution, communication, diagnostics, and monitoring. Work across BSPs, middleware, and application layers to ensure deterministic behavior and system robustness.
System Interfaces & Communication
Define, implement, and document system interfaces between controllers, subsystems, and external equipment. Author and maintain Interface Control Documents (ICDs) for communication protocols such as CAN (including safety-oriented profiles), ARINC 825, and other aerospace or automotive buses. Ensure reliable data exchange, arbitration, and fault handling across system boundaries.
Model-Based Design & Validation
Use MATLAB/Simulink to develop and validate system level control logic, sequencing, and coordination strategies. Support model-based design workflows spanning MIL, SIL, and HIL environments. Leverage simulation and lab data to validate system behavior across nominal, corner-case, and fault scenarios.
Integration, Test & Bring-Up
Lead system level integration activities across motor control, BMS, sensors, and vehicle control software. Support hardware bring-up, HIL testing, and lab validation, diagnosing issues that span software, hardware, and system interactions. Develop test strategies, automation hooks, and data analysis workflows to ensure repeat able verification.
Safety, Process & Lifecycle Support
Support development of safety-critical embedded software by following disciplined software development processes. Contribute to requirements definition, traceability, verification planning, and certification readiness activities aligned with standards such as DO-178C, ARP4754/4761, or equivalent safety frameworks. Maintain configuration control and long-term maintainability of system software artifacts.
Required Qualifications
5 to 10years of experience developing embedded control software for complex real-time systems
Strong proficiency in embedded C/C and real-time software architecture.
Experience designing system-level control logic, state machines, and sequencing
Hands-on experience with communication protocols such as CAN (and derivatives), SPI,Ethernet, or ARINC (825/664)
Experience with model-based design tools (MATLAB/Simulink) and SIL/HIL testing
Proven ability to integrate and debug software across hardware, firmware, and system boundariesStrong analytical skills and system level problem-solving ability
Preferred / Bonus Experience
Experience with TI C2000, NXP, or similar real-time control microcontrollers
Prior work on safety-critical or regulated systems (aerospace, automotive, industrial)
Exposure to certification oriented development processes (DO-178C, ARP4754/4761, ISO26262 concepts)
Experience defining software architectures and development processes for growing teams
Background spanning motor control, BMS, or vehicle control systems
Experience supporting production launch, field issues, and system level validation
Why This Role Matters
This role defines how complex control systems behave as a whole.
Your work ensures that motors, actuators, power, and climate systems operate coherently, safely, and predictably under all conditions. You ll have deep technical ownership and influence system architecture decisions. Play a key role in bringing flight-ready control systems from concept to deployment.
Location: Irvine CA (100% Onsite)
Visa: US personal only
Total Position 2
Positon type: Open (FTE/C2C)
Note: Platform engineer should be low level can develop drivers and has developed them in past.
Role Overview
We re seeking a Senior Embedded Systems Software Engineer with strong systems intuition and a passion for building robust, safety-critical control software. This role sits at the intersection of embedded platform software, and system level control logic owning the supervisory controllayers that coordinate actuators, motor drives, and flight-level systems.
You will architect and implement system control logic, state machines, sequencing, diagnostics,and communication interfaces that ensure safe, deterministic operation across complex aerospace systems. While this role interfaces closely with actuator control, BMS, and vehicle control software, its primary focus is system behavior, integration, and correctness not fast inner-loop control.
Key Responsibilities
System Control Architecture & Logic
Design and own system level control architecture spanning actuator control, power sequencing, and operational state management. Develop supervisory logic, state machines, and mode management that coordinate lower- level motor control, embedded platform software, andhardware subsystems. Define and implement safe power-up, power-down, input processing, fault response, and degraded operating modes consistent with system safety assessments and aerospace certification requirements.
Embedded Software Development
Develop and maintain embedded software in C/C or MATLAB/Simulink on real-time microcontroller platforms (e.g., TI C2000, NXP, or comparable safety-oriented MCUs). Architect. scalable and maintainable software frameworks supporting control execution, communication, diagnostics, and monitoring. Work across BSPs, middleware, and application layers to ensure deterministic behavior and system robustness.
System Interfaces & Communication
Define, implement, and document system interfaces between controllers, subsystems, and external equipment. Author and maintain Interface Control Documents (ICDs) for communication protocols such as CAN (including safety-oriented profiles), ARINC 825, and other aerospace or automotive buses. Ensure reliable data exchange, arbitration, and fault handling across system boundaries.
Model-Based Design & Validation
Use MATLAB/Simulink to develop and validate system level control logic, sequencing, and coordination strategies. Support model-based design workflows spanning MIL, SIL, and HIL environments. Leverage simulation and lab data to validate system behavior across nominal, corner-case, and fault scenarios.
Integration, Test & Bring-Up
Lead system level integration activities across motor control, BMS, sensors, and vehicle control software. Support hardware bring-up, HIL testing, and lab validation, diagnosing issues that span software, hardware, and system interactions. Develop test strategies, automation hooks, and data analysis workflows to ensure repeat able verification.
Safety, Process & Lifecycle Support
Support development of safety-critical embedded software by following disciplined software development processes. Contribute to requirements definition, traceability, verification planning, and certification readiness activities aligned with standards such as DO-178C, ARP4754/4761, or equivalent safety frameworks. Maintain configuration control and long-term maintainability of system software artifacts.
Required Qualifications
5 to 10years of experience developing embedded control software for complex real-time systems
Strong proficiency in embedded C/C and real-time software architecture.
Experience designing system-level control logic, state machines, and sequencing
Hands-on experience with communication protocols such as CAN (and derivatives), SPI,Ethernet, or ARINC (825/664)
Experience with model-based design tools (MATLAB/Simulink) and SIL/HIL testing
Proven ability to integrate and debug software across hardware, firmware, and system boundariesStrong analytical skills and system level problem-solving ability
Preferred / Bonus Experience
Experience with TI C2000, NXP, or similar real-time control microcontrollers
Prior work on safety-critical or regulated systems (aerospace, automotive, industrial)
Exposure to certification oriented development processes (DO-178C, ARP4754/4761, ISO26262 concepts)
Experience defining software architectures and development processes for growing teams
Background spanning motor control, BMS, or vehicle control systems
Experience supporting production launch, field issues, and system level validation
Why This Role Matters
This role defines how complex control systems behave as a whole.
Your work ensures that motors, actuators, power, and climate systems operate coherently, safely, and predictably under all conditions. You ll have deep technical ownership and influence system architecture decisions. Play a key role in bringing flight-ready control systems from concept to deployment.
Salary : $60 - $65