Senior Hardware Engineer (Teradyne, North Reading) at Teradyne
North Reading, MA 01864, USA -
Full Time


Start Date

Immediate

Expiry Date

28 Oct, 25

Salary

0.0

Posted On

28 Jul, 25

Experience

0 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

No

Skills

Design, Validation, Debugging, Design Specifications, Testability, Signal Conditioning, Measurement Tools, Ict, Software, Dft, Cost Reduction, Engineers, Test Systems, Software Engineers, Manufacturing

Industry

Electrical/Electronic Manufacturing

Description

We are the global test and automation specialists, powering next-generation technologies through sophisticated solutions. Behind every electronic device you use, Teradyne’s test technology ensures your device works right the first time, every time! Our portfolio of automation solutions help manufacturers to develop and deliver products quickly, efficiently and cost-effectively. Together, Teradyne companies deliver manufacturing automation across industries and applications around the world!
We attract, develop, and retain a high-performance workforce, comprised of people with diverse backgrounds and a shared drive for excellence. We strive to foster a positive and inclusive work environment that helps employees, and communities, thrive.

OPPORTUNITY OVERVIEW

We are seeking a highly skilled and detail-oriented Hardware Engineer to join our engineering team. In this role, you will be responsible for designing, developing and supporting printed circuit boards and associated electronics used in In-Circuit Board Tester (ICT) systems, with an emphasis on high-precision analog signal measurement and control. Tasks may include new instrument design, design maintenance for obsolescence, cost reduction, and root cause investigation and resolution. You’ll collaborate with cross-functional teams including software and mechanical engineering to create reliable and high-performance test platforms.

  • Design and develop multi-layer PCB layouts for In-Circuit Test systems, including analog and digital circuits.
  • Create schematics for precision analog front-ends, signal conditioning, and control circuitry.
  • Select components optimized for low-noise, low-drift, and high-accuracy analog performance.
  • Interface with manufacturing and test engineers to ensure design for manufacturability (DFM) and design for testability (DFT).
  • Perform board bring-up, debugging, and validation with oscilloscopes, multimeters, logic analyzers, and precision measurement tools.
  • Document design specifications, test plans, and analysis results.
  • Collaborate with firmware and software engineers to ensure seamless integration and performance.
Responsibilities

OUR PURPOSE

TERADYNE, where experience meets innovation and driving excellence in every connection. We are fueled by creativity and diversity of thought and in our workforce. Our employees are supported to innovate and learn something new every day.
We cultivate a culture of inclusion for all employees that respects their individual strengths, views, and experiences. We believe that our differences enable us to be a better team – one that makes better decisions, drives innovation and delivers better business results.

We are seeking a highly skilled and detail-oriented Hardware Engineer to join our engineering team. In this role, you will be responsible for designing, developing and supporting printed circuit boards and associated electronics used in In-Circuit Board Tester (ICT) systems, with an emphasis on high-precision analog signal measurement and control. Tasks may include new instrument design, design maintenance for obsolescence, cost reduction, and root cause investigation and resolution. You’ll collaborate with cross-functional teams including software and mechanical engineering to create reliable and high-performance test platforms.

  • Design and develop multi-layer PCB layouts for In-Circuit Test systems, including analog and digital circuits.
  • Create schematics for precision analog front-ends, signal conditioning, and control circuitry.
  • Select components optimized for low-noise, low-drift, and high-accuracy analog performance.
  • Interface with manufacturing and test engineers to ensure design for manufacturability (DFM) and design for testability (DFT).
  • Perform board bring-up, debugging, and validation with oscilloscopes, multimeters, logic analyzers, and precision measurement tools.
  • Document design specifications, test plans, and analysis results.
  • Collaborate with firmware and software engineers to ensure seamless integration and performance
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