Senior Electrical Engineer - Motion Control & Embedded Systems

About Veeco

You probably don’t realize it, but what we do at Veeco touches the lives of every person, every day. It’s a bold statement, but it’s true. From the smartphones in our pockets that access the world’s collective knowledge, to the cloud-based services where all that information lives, to high-speed wireless communication and computing power needed to drive artificial intelligence, augmented and virtual reality, gaming and so much more, our technology is all around us.

We design, develop, manufacture, and service highly complex, cutting‑edge machines used by our customers to create the essential devices that drive the digital age, connect the world, and improve the human experience. Along with the world’s leading technology companies, many of which are household names, we help solve their most difficult material science challenges, enabling technologies for a more connected, sustainable, and convenient world.

At Veeco, our equipment enables the world’s most advanced semiconductors, photonics, MEMS, and compound devices. Veeco is seeking a Senior Electrical Engineer to play a critical role in designing precision motion control, sensing, and embedded electronic systems that make these breakthroughs possible. In this hands‑on senior individual contributor role, you will own critical electrical subsystems—from architectural definition through validation and field deployment—on complex, high‑performance semiconductor manufacturing platforms.

You will work at the intersection of control theory, embedded electronics, real‑time software, and industrial automation, collaborating closely with mechanical, software, and systems engineering teams to solve challenging technical problems.

• Your work directly enables cutting‑edge technologies used across semiconductors, photonics, displays, and power electronics.
• You’ll tackle problems where precision, physics, and reliability truly matter—not just in the lab, but in production environments worldwide.
• You’ll have meaningful technical ownership and influence while remaining deeply hands‑on.
• You’ll collaborate with some of the most talented engineers in the industry, learning from and contributing to a world‑class engineering culture.

• Create and refine high‑performance, multi‑axis motion control systems that deliver repeatable, nanometer‑scale positioning.
• Integrate advanced sensing technologies—optical, capacitive, inductive, and laser‑based—into closed‑loop control architectures.
• Model system behavior, perform tuning and stability analysis, and ensure robust operation across real‑world conditions.
• Translate system‑level requirements into detailed electrical and control specifications for actuators, sensors, encoders, and electronics.
• Evaluate technologies and suppliers with a balance of performance, reliability, manufacturability, and cost.
• Develop real‑time control software using C, C++, Python, and IEC 61131‑3 Structured Text.
• Implement motion, sequencing, and safety logic on PLC platforms, with strong emphasis on Beckhoff (TwinCAT, TwinSAFE).
• Integrate and debug industrial communication networks such as Ether
  
  CAT and Device Net.
• Design complex, multi‑layer PCBs featuring microcontrollers, compute modules, precision ADCs/DACs, and mixed‑signal circuitry.
• Define board‑level architectures, power budgets, timing constraints, and signal‑integrity requirements.
• Create detailed schematics including power delivery, clocking, analog front ends, and communication interfaces (UART, I²C, SPI, USB).
• Specify PCB fabrication requirements such as stack‑ups, materials, impedance control, and controlled differential pairs.
• Develop embedded firmware in C/C++ and support hardware bring‑up.
• Design and execute verification and validation plans covering motion performance, calibration, thermal behavior, and reliability.
• Lead hardware bring‑up and hands‑on debugging using oscilloscopes, logic analyzers, spectrum analyzers, and JTAG tools.
• Troubleshoot challenging system‑level issues using data analysis, modeling, and real‑time diagnostics.
• Participate in DFM/DFT reviews and collaborate with manufacturing partners to transition designs into…