← Back to vacancy list

Electrical Test Engineer

We are looking for an Electrical Test Engineer to contribute to the development and automation of experimental and production test setups, including HW, SW, and verification. We are looking for somebody with a hands-on mentality; it is expected that besides the design work a significant amount of time is spent in our Electronics/Optics lab for the development of the different measurement setups.

The ideal candidate has an engineering background (2+ years) and holds an HBO/HVE, BSc or MSc in Electrical Engineering, Telecommunications, Industrial Automation or comparable education.

EFFECT Photonics is a cutting-edge developer of high-speed optical transceivers for communication networks based on Photonic Integrated technology. Our teams are made up of enthusiastic and energetic employees who all share a passion for developing and creating interesting products that will carry the internet of the future. The combination of the international character of the teams and the high level of education make EFFECT an interesting working environment.

Job tasks

Responsibilities
The Electrical Test Engineer will:

  • Work in a multi-disciplinary team for the development of opto-electrical measurement- and process setups.
  • Responsible for the design and improvements of our in-house ATE (Automated Test Equipment).
  • Contribute to the verification and validation of current and upcoming products.
  • Co-design and implement new setups capable of testing high end integrated optics.
  • Define tests and analysis required for characterization and production test purposes.
  • Provide engineering support to the NPI and Operations team across different process and test stations.

Job requirements

Required Knowledge, Skills, and Abilities

We are looking for a self-starting engineer who possesses broad knowledge and experience in electrical engineering. This function requires a high-level understanding of C++ and Python software for providing the required support and implementing improvements. In the past, you have proven to have the ability to rework existing PCBA’s and to read and understand electrical schematics and PCB’s. Knowledge of optical integration is a big plus.

 What do we have to offer?

  • Working in an exciting entrepreneurial environment;
  • Working on state of the art technology;
  • Being part of a very enthusiastic and highly skilled team;
  • Develop your own skills and contribute to a company that is in full development;
  • A competitive salary;
  • Stock Appreciation Rights (SAR stock program);
  • Relocation assistance.

 

For more information regarding this position please send your question to recruitment@effectphotonics.nl

Applications via this email will not be considered.

Function details

  • Hours: 0 - 40 Hours
  • Location: 5617BC, Eindhoven, Nederland
  • Experience: 2 - 5 year

About EFFECT Photonics B.V.

Founded in 2010, EFFECT Photonics delivers highly integrated optical communications products based on its Dense Wavelength Division Multiplexing (DWDM) optical System-on-Chip technology.

As a spin out of the prestigious Technical University of Eindhoven, EFFECT Photonics takes a platform approach to integration using high-yielding building blocks within the wafer.  Growing different quaternary alloys of Indium Phosphide on a single wafer means that all of the active and passive optical functions of a system can be created within a single chip, which is then combined with simple packaging, designed for high-volume, low-cost manufacture from the very start.

The key enabling technology for DWDM systems is full monolithic integration of all photonic components within a single chip and being able to produce these in volume with high yield at low cost. With this capability, EFFECT Photonics is addressing the need for low cost DWDM solutions driven by the soaring demand for high bandwidth connections between datacenters and back from mobile cell towers.

EFFECT Photonics develops and delivers highly integrated optical products based on InP (Indium Phosphide) which is the material of choice for creating efficient laser light sources, waveguides, modulators, and photodiodes used in optical communication systems throughout the world.

Extensive development work and European funding has already been invested to develop and refine the processes needed for the integration of multiple optical functions within a single chip.