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PCBA Test Fixture & Robotic Automation Design Manager

PCBA Test Fixture & Robotic Automation Design Manager

Job ID:  39349
Job ID:  39349
Date:  27 Apr 2026
Date:  27 Apr 2026
Location: 

Vemagal, KA, IN

Location: 

Vemagal, KA, IN

Department:  Test Technology Development
Department:  Test Technology Development
Business:  TSAT India
Business:  TSAT India

About The Business:

 

Tata Electronics Private Limited (TEPL) is a greenfield venture of the Tata Group with expertise in manufacturing precision components.

 

Tata Electronics (a wholly owned subsidiary of Tata Sons Pvt. Ltd.) is building India’s first AI-enabled state-of-the-art Semiconductor Foundry. This facility will produce chips for applications such as power management IC, display drivers, microcontrollers (MCU) and high-performance computing logic, addressing the growing demand in markets such as automotive, computing and data storage, wireless communications and artificial intelligence.

 

Tata Electronics is a subsidiary of the Tata group. The Tata Group operates in more than 100 countries across six continents, with the mission 'To improve the quality of life of the communities we serve globally, through long term stakeholder value creation based on leadership with Trust.’

 

Role Overview:

 

You will oversee end-to-end engineering of PCBA-based testing and automation systems including ICT (In-Circuit Test), FVT (Functional Validation Test) fixtures, robotic integration, and automated equipment design — within high-volume manufacturing. Your expertise will span hardware design, automation systems, process engineering, and equipment deployment.

 

Key Responsibilities

 

Test Fixture & PCBA Design:

 

  • Design ICT/FVT test fixtures, including PCBA-based interface boards, load boards, and DUT connectors.
  • Develop high-precision fixture layouts for electrical testing, pogo-pin sockets, and contact validation.
  • Ensure SI/PI integrity for high-speed signals (e.g. digital I/O, RF, power rails), using controlled impedance designs and board stack-up practices.
  • Support PCB schematic capture, layout review, and DFM/DFA compliance.

 

Automation & Robotic Integration:

 

  • Engineer robotic automation systems and motion-control integration supporting ICT/FVT fixture flows.
  • Program and configure PLCs, robot controllers (e.g. Fanuc, ABB), HMIs, and motion control software for test automation.
  • Integrate vision systems (multi-camera AOI/inspection) and IIoT sensor data for quality validation.
  • Simulate and optimize motion paths, cycle times, and fixture throughput.
  • Provide end‑to‑end engineering for LabVIEW-based platforms: design and deploy automated test systems, DAQ/control solutions, real‑time applications, and instrumentation software. Work closely with hardware, automation, and cross‑functional teams to deliver robust and modular virtual instrumentation systems.
  • Interface with instrumentation and hardware via DAQmx/VISA over communication protocols such as Modbus, CAN, RS‑232/485, SPI, USB, or Ethernet.

 

Equipment & Production Engineering:

 

  • Lead deployment, calibration, and validation of test and automation systems in the PCBA production environment.
  • Support process qualification and equipment engineering activities including preventive maintenance, SPC, and reliability validation.
  • Collaborate with operations, maintenance, and quality teams to implement FMEA, Six Sigma, root cause analysis workflows.
  • Implement predictive maintenance strategies using data analytics and equipment performance monitoring.

 

Validation & Debug:

 

  • Drive hardware bring-up, fault diagnosis, and test debug during NPI/test-floor integration.
  • Interface with failure analysis, yield engineering, and validation teams to optimize fixture performance and uptime.
  • Handle process documentation, SOPs, validation metrics, and continuous improvement initiatives.

 

Collaboration & Leadership:

 

  • Partner with cross-functional teams: process engineering, product/test engineering, SMT/assembly, and quality.

 

Essential Attributes:

 

  • Proven experience with ICT, FVT, flying-probe, functional testers, or test handler systems.
  • Strong background in PLC programming (Siemens, Allen‑Bradley, Omron), HMI design, and robot motion/control integration.
  • Practical skills in SI/PI simulation and PCB layout tools (Cadence Allegro/SiWave, Mentor Xpedition, PADS).
  • Solid understanding of DFM/DFA, SMT/ICT/FVT process environments, statistical process control, and quality systems (Lean, Six Sigma, FMEA).
  • Hands-on debugging, validation, and automation deployment experience in manufacturing test floors.

 

Qualifications:

 

  • Bachelor’s or Master’s in Electrical, Electronics, Mechatronics, Mechanical, or Industrial Engineering.

 

Desired Experience Level:

 

  • 5–10+ years in PCBA test fixture design, automation tooling, robotic system deployment, or equipment engineering in electronics manufacturing.
  • 6+ years of hands‑on experience with LabVIEW development and NI hardware platforms (e.g. cRIO, PXI, DAQms).

About The Business:

 

Tata Electronics Private Limited (TEPL) is a greenfield venture of the Tata Group with expertise in manufacturing precision components.

 

Tata Electronics (a wholly owned subsidiary of Tata Sons Pvt. Ltd.) is building India’s first AI-enabled state-of-the-art Semiconductor Foundry. This facility will produce chips for applications such as power management IC, display drivers, microcontrollers (MCU) and high-performance computing logic, addressing the growing demand in markets such as automotive, computing and data storage, wireless communications and artificial intelligence.

 

Tata Electronics is a subsidiary of the Tata group. The Tata Group operates in more than 100 countries across six continents, with the mission 'To improve the quality of life of the communities we serve globally, through long term stakeholder value creation based on leadership with Trust.’

 

Role Overview:

 

You will oversee end-to-end engineering of PCBA-based testing and automation systems including ICT (In-Circuit Test), FVT (Functional Validation Test) fixtures, robotic integration, and automated equipment design — within high-volume manufacturing. Your expertise will span hardware design, automation systems, process engineering, and equipment deployment.

 

Key Responsibilities

 

Test Fixture & PCBA Design:

 

  • Design ICT/FVT test fixtures, including PCBA-based interface boards, load boards, and DUT connectors.
  • Develop high-precision fixture layouts for electrical testing, pogo-pin sockets, and contact validation.
  • Ensure SI/PI integrity for high-speed signals (e.g. digital I/O, RF, power rails), using controlled impedance designs and board stack-up practices.
  • Support PCB schematic capture, layout review, and DFM/DFA compliance.

 

Automation & Robotic Integration:

 

  • Engineer robotic automation systems and motion-control integration supporting ICT/FVT fixture flows.
  • Program and configure PLCs, robot controllers (e.g. Fanuc, ABB), HMIs, and motion control software for test automation.
  • Integrate vision systems (multi-camera AOI/inspection) and IIoT sensor data for quality validation.
  • Simulate and optimize motion paths, cycle times, and fixture throughput.
  • Provide end‑to‑end engineering for LabVIEW-based platforms: design and deploy automated test systems, DAQ/control solutions, real‑time applications, and instrumentation software. Work closely with hardware, automation, and cross‑functional teams to deliver robust and modular virtual instrumentation systems.
  • Interface with instrumentation and hardware via DAQmx/VISA over communication protocols such as Modbus, CAN, RS‑232/485, SPI, USB, or Ethernet.

 

Equipment & Production Engineering:

 

  • Lead deployment, calibration, and validation of test and automation systems in the PCBA production environment.
  • Support process qualification and equipment engineering activities including preventive maintenance, SPC, and reliability validation.
  • Collaborate with operations, maintenance, and quality teams to implement FMEA, Six Sigma, root cause analysis workflows.
  • Implement predictive maintenance strategies using data analytics and equipment performance monitoring.

 

Validation & Debug:

 

  • Drive hardware bring-up, fault diagnosis, and test debug during NPI/test-floor integration.
  • Interface with failure analysis, yield engineering, and validation teams to optimize fixture performance and uptime.
  • Handle process documentation, SOPs, validation metrics, and continuous improvement initiatives.

 

Collaboration & Leadership:

 

  • Partner with cross-functional teams: process engineering, product/test engineering, SMT/assembly, and quality.

 

Essential Attributes:

 

  • Proven experience with ICT, FVT, flying-probe, functional testers, or test handler systems.
  • Strong background in PLC programming (Siemens, Allen‑Bradley, Omron), HMI design, and robot motion/control integration.
  • Practical skills in SI/PI simulation and PCB layout tools (Cadence Allegro/SiWave, Mentor Xpedition, PADS).
  • Solid understanding of DFM/DFA, SMT/ICT/FVT process environments, statistical process control, and quality systems (Lean, Six Sigma, FMEA).
  • Hands-on debugging, validation, and automation deployment experience in manufacturing test floors.

 

Qualifications:

 

  • Bachelor’s or Master’s in Electrical, Electronics, Mechatronics, Mechanical, or Industrial Engineering.

 

Desired Experience Level:

 

  • 5–10+ years in PCBA test fixture design, automation tooling, robotic system deployment, or equipment engineering in electronics manufacturing.
  • 6+ years of hands‑on experience with LabVIEW development and NI hardware platforms (e.g. cRIO, PXI, DAQms).

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