Next generation GaN power HEMTs Silicon
Anzeige vom: 06.06.2024

Next generation GaN power HEMTs

Standort:
  • Jahnatal
Silicon

Zusammenfassung

  • Arbeitszeit
    Vollzeit
  • Typ
    Festanstellung

Gewünschte Fähigkeiten & Kenntnisse

Python
CAN
Data-Analysis
GAN
Simulation
Mobile App
CAD
Engineering
Synopsys

Stellenbeschreibung

Next generation GaN power HEMTs: from device design to application

PhD - Leuven | Just now
You will contribute to energy saving by optimizing GaN-based power switches used in electronic power applications
Apply

It is estimated that up to 25% of electrical energy is lost due to electronic energy conversions. In Europe, this means that up to 730 TWh is lost, or an equivalent of 365 megatons of CO[2]. The electronic energy conversions (for example, from AC to DC, or DC to DC at different voltage levels) are realized by power electronic circuits that typically contain several power switches. These power switches are either realized as discrete semiconductor components such as (Schottky) diodes, MOSFETs, or IGBTs; or as part of an IC in which the power switches are incorporated with dedicated circuitry to drive and control the power switches.

The vast majority of power switches or power electronic circuits in general are - still today - using silicon as the active semiconductor. Yet wide band gap semiconductors such as SiC and GaN hold better cards when it comes to energy conversion. Material properties such as higher critical electric fields at breakdown, higher mobilities associated with two-dimensional electron gases, and higher saturation velocities outperform silicon's properties. As a result, devices made in these wide band gap materials can operate at frequencies, voltages and current levels beyond the reach of silicon, opening new paths for more efficient and more dense power electronic switches and circuits. Silicon can rely on decades of technological advancements driven by the digital revolution. Wide band gap materials need to catch up and one of the main challenges is the growth of these crystals and their efficient use in power applications. GaN is typically grown epitaxially onto a
silicon substrate whereby a complex layer stack is built consisting of several III-nitride layers.

The main objective of this PhD topic is to help optimize the next generation of GaN devices. The PhD candidate will have to understand thoroughly the device physics and collaborate with the GaN teams to improve the performance and reliability of the lateral GaN power switches. From device design towards application, including processing and characterization, the PhD student will be involved in all aspects. The focus will be on the device design (eventually including Technology CAD simulations) and on-wafer electrical characterization. The PhD student joins a team with over a decade of experience in processing, simulation, and characterization of GaN switches in a top-notch environment. The student will receive training by highly-skilled professionals and will be embedded in the GaN device team. Typical tools that will be used by the student include probe stations for on-wafer electrical characterization, software tools for data analysis (python), and TCAD Synopsys
software suite.

Required background : Engineering: (device) physics or microelectronics. Experience with electronic measurement equipment, python or TCAD simulation tools is a plus.

Type of work : Literature study (10 %), Simulation and Design (30 %), Electrical characterization and physical understanding (40 %), Technology (20 %)

Supervisor : Benoit Bakeroot

Daily advisor : Matteo Borga

The reference code for this position is 2024-118 . Mention this reference code on your application form.

Profil

Fachliche Voraussetzung

  • CAD, Data Analysis, Elektronik, Elektronische Schaltungstechnik, Elektrotechnik, Energieumwandlung, Halbleiter, Ingenieurwesen, Literatur, Materialwissenschaft und Werkstofftechnik, Messsysteme, Mikroelektronik, Physik, Python, Simulationen, Software-Suite, Software-Tools, Stromspannung

Persönliche Fähigkeiten

  • Zuverlässigkeit

Bewerbung

    Branche:

    IKT

    Arbeitgeber:

    Silicon

    Adresse:

    Silicon
    Konrad Zuse Ring 28
    68163 Mannheim