Hardware Design Engineer

Role: Hardware Design Engineer

Duration: 12+ Months

Location: Round Rock, TX (just north of Austin) || 4 Days Per Week Onsite Role & 1 day Remote

Job Description-

Notes:

• Need someone who can apply the functional safety concepts to embedded systems rather than power electronics.

• Hardware design their devices are generally low power, I/O and control modules. Wants to see functional safety experience as well.

As part of a team that is shaping the future of industries worldwide through innovative process automation systems. Our cutting-edge technologies help industries operate more efficiently, sustainably, and safely. From optimizing energy use to ensuring the consistent quality of essential goods, solutions are integral to the global infrastructure. Here, your work will contribute to a smarter, greener future where automation enhances everyday life and paves the way for sustainable growth.

We are seeking a highly skilled Hardware Design Engineer with expertise in Functional Safety to lead the development of high-availability electronic systems. In this role, you will be responsible for ensuring that hardware designs meet industry safety standards such as IEC 61508.
As a key technical leader, you will work on the design, analysis, validation, and certification of safety-critical electronic products. You will collaborate with system architects, hardware engineers, firmware engineers, reliability teams, and compliance specialists to develop solutions that meet the highest safety and reliability standards.

AS A DESIGN ENGINEER, YOU WILL:

Lead the design, development, and validation of complex, mixed-signal electronic hardware systems that comply with Functional Safety requirements for industrial automation industry.
Work closely with embedded software engineers to ensure safety-critical hardware-software interaction.
Conduct design reviews, reliability testing, and safety analysis to ensure product robustness.
Define safety requirements, hazard analysis, and risk assessments in accordance with industry standards.
Perform Failure Modes, Effects, and Diagnostic Analysis (FMEDA) and Fault Tree Analysis (FTA) to ensure fault tolerant hardware design.
Implement redundancy, fail-safe mechanisms, fault detection, and diagnostic features in hardware products.
Collaborate with certification bodies to show compliance with functional safety standards.
Implement system-level safety concepts, including safety integrity levels and hardware fault tolerance requirements.
Keep up to date with the latest industry trends, regulations, and emerging technologies