• DocumentCode
    3336328
  • Title

    Next generation HEMTs

  • Author

    Docter, D. ; Matlouvian, M. ; Micovic, M. ; Nguyen, C. ; Ngo, C. ; Bui, S. ; Janke, P.

  • Author_Institution
    HRL Labs., Malibu, CA, USA
  • fYear
    1999
  • fDate
    23-23 June 1999
  • Firstpage
    146
  • Lastpage
    149
  • Abstract
    The High Electron Mobility Transistor (HEMT) device structure has played a significant role in analog and digital integrated circuit technology since the early 1980s. The development of the HEMT followed a typical path from fundamental studies of materials to device design and modeling. As the HEMT developed, the details of the device layer structure also evolved. In fact, the original GaAs/AlGaAs HEMT is now obsolete, while other HEMT technologies, such as the InGaAs/AlGaAs pseudomorphic HEMT (PHEMT) and the InP based InGaAs/InAlAs HEMT, have fully matured. Most recent work related to PHEMT and InP HEMT technologies has focused on device integration, circuit and system development, device manufacturability, and reliability issues. As such, device performance progress, relatively speaking, has slowed. At HRL we are investigating new combinations of materials which may lead to significant improvements in existing HEMT and PHEMT devices. The focus of our research is mixed antimonide phosphide (SbP) and mixed antimonide arsenide (SbAs) compounds. In particular, AlGaPSb, which can be grown lattice matched to both InP and GaAs, and InAlAsSb on InP. These compounds offer larger energy bandgaps and larger conduction band offsets than the more commonly used compounds (InAlAs for InP HEMTs and AlGaAs for PHEMTs). Hence, they should lead to devices that have higher sheet carrier concentration, higher breakdown voltage, higher turn-on voltage, higher gain, higher current, higher output power, improved power added efficiency, and lower noise figure.
  • Keywords
    III-V semiconductors; aluminium compounds; antimony compounds; arsenic compounds; gallium compounds; high electron mobility transistors; indium compounds; molecular beam epitaxial growth; phosphorus compounds; semiconductor growth; vapour phase epitaxial growth; AlGaPSb; HEMT device structure; HRL; InAlAsSb; MBE growth; MOCVD growth; PHEMT; breakdown voltage; conduction band offsets; energy bandgap; high electron mobility transistors; mixed SbAs compounds; mixed SbP compounds; noise figure; output power; power added efficiency; pseudomorphic HEMT; sheet carrier concentration; turn-on voltage; Circuits and systems; Digital integrated circuits; Gallium arsenide; HEMTs; Indium compounds; Indium gallium arsenide; Indium phosphide; Integrated circuit technology; MODFETs; PHEMTs;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Device Research Conference Digest, 1999 57th Annual
  • Conference_Location
    Santa Barbara, CA, USA
  • Print_ISBN
    0-7803-5170-3
  • Type

    conf

  • DOI
    10.1109/DRC.1999.806351
  • Filename
    806351