/Student project: Energy efficient adiabatic stimulator circuit for peripheral nerve stimulation

Student project: Energy efficient adiabatic stimulator circuit for peripheral nerve stimulation

Research & development - Eindhoven | More than two weeks ago

This project aims to architect, design and implement an adaptable power supply circuit for a current mode nerve stimulator, such that energy efficient adiabatic stimulation can be achieved.

Student project: Energy efficient adiabatic stimulator circuit for peripheral nerve stimulation

What you will do

The peripheral nervous system (PNS) consists of the nerves outside of the central nervous system (CNS) and connects the CNS to the organs, limbs, and skin. It is a two directional pathway between CNS and internal organs and hence can have powerful impact on the functionality of both. Currently, interest in peripheral nerve stimulation is growing as an alternative or a complement to pharmacological treatment, i.e., treatment with medication, for applications such as epilepsy, pain, depression, and inflammatory bowel disease.

One of the major challenges is reducing the power consumption and self-heating during the peripheral nerve stimulation. To minimize the power consumption, an adaptive power supply is beneficial. With this adaptive supply, the current mode stimulator can provide only the minimally required voltage for the load to keep the desired stimulation current, such that “adiabatic” stimulation is achieved. This “adiabatic” feature avoids unnecessary power waste and reduces self-heating during the stimulation. 

This project aims to develop an adaptive power supply circuit to facilitate energy efficient adiabatic peripheral nerve stimulation.

  • Literature survey of the state-of-the-art for PNS stimulation circuits and the energy saving techniques.
  • Research and development of an adaptive power supply IC to facilitate energy efficient adiabatic nerve stimulation.
  • Collaborate with IMEC experts in PNS, analog and mixed-signal circuits to maximize your research impact.
  • Modelling of the system in Cadence.
  • Development and simulation of the target circuit, including drawing the schematics and layout using Cadence EDA tools.
  • Tape-out and measurement of the chip (if time permits).
  • Optionally, depending on results write a paper.

What we do for you

You will be working on cutting-edge research on a topic that is relevant to both academic and industrial research groups. To help you in this journey, we offer a flexible environment where you can be the leader of your own research while at the same time have support of experts to complete your tasks. As part of the team in IMEC-Netherlands you will have opportunities to learn from the some of the best minds.

IMEC has in-house experts in analog and mixed-signal design who can help you in shaping this multi-disciplinary research project.

Who you are

  • You are a Msc student in Electronics Engineering.
  • You are available for a period of at least 9 months.
  • You have knowledge of analog/mixed-signal circuits through course and/or project work.
  • You have knowledge of power management circuit architectures and design.
  • You are excited about low-power analog circuit design (in health applications).
  • You are familiar with Cadence design environment or similar CAD tools.
  • You are familiar with MATLAB or Python.
  • You are entitled to do an internship in the Netherlands.
  • You are self-starter and able to work independently.
  • Good written and verbal English skills.

Interested

Does this project sound like an interesting next step in your career at imec? Don’t hesitate to submit your application by clicking on ‘APPLY NOW’.

Please be advised that non-EU/EEA country students that are studying outside of the Netherlands, need to have a student work-permit to be able to do an internship in the Netherlands, we do not facilitate this process.

Please note that in order to be considered for an internship, you need to be registered as a student during the entire internship period.