InP HBT technology and applications

被引:3
|
作者
Streit, DC [1 ]
Cowles, JC [1 ]
Kobayashi, KW [1 ]
Gutierrez-Aitken, A [1 ]
Block, TR [1 ]
Wojotowicz, M [1 ]
Yamada, F [1 ]
Kaneshiro, E [1 ]
Tran, LT [1 ]
Grossman, C [1 ]
Yang, LW [1 ]
Lammert, M [1 ]
Leslie, G [1 ]
Steel, V [1 ]
Denning, D [1 ]
Oki, AK [1 ]
机构
[1] TRW Co Inc, Div Elect & Technol, Redondo Beach, CA 90278 USA
来源
1998 INTERNATIONAL CONFERENCE ON INDIUM PHOSPHIDE AND RELATED MATERIALS - CONFERENCE PROCEEDINGS | 1998年
关键词
D O I
10.1109/ICIPRM.1998.712402
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
TRW has the world's only production Molecular Beam Epitaxy (MBE) based GaAs Heterojunction Bipolar Transistor (HBT) technology, delivering over 3 million commercial chips per month, as well as space qualified HBT MMICs. Using this foundation, we have developed the next generation InP-based HBT technology to produce advanced HBT integrated circuits for space and defense applications as well as high volume commercial applications. Here we present performance characteristics for InP HBT ICs for consumer products and advanced space and defense applications.
引用
收藏
页码:64 / 67
页数:4
相关论文
共 50 条
  • [21] Metamorphic 6.0 A narrow band gap HBT technology on InP substrates
    Cavus, A.
    Sandhu, R.
    Monier, C.
    Pascua, D.
    Cox, C.
    Poust, B.
    Hsing, R.
    Noori, A.
    Hayashi, S.
    Goorsky, M.
    Gutierrez-Aitken, A.
    2006 INTERNATIONAL CONFERENCE ON INDIUM PHOSPHIDE AND RELATED MATERIALS CONFERENCE PROCEEDINGS, 2006, : 382 - +
  • [22] A double InGaAs/InP HBT technology for ligthwave communication circuits design
    Launay, P
    Caffin, D
    Duchenois, AM
    Heliot, F
    1996 EIGHTH INTERNATIONAL CONFERENCE ON INDIUM PHOSPHIDE AND RELATED MATERIALS, 1996, : 701 - 703
  • [23] A 110 GHz Comb Generator in a 250 nm InP HBT Technology
    Cheron, Jerome
    Williams, Dylan F.
    Chamberlin, Richard A.
    Urteaga, Miguel E.
    Hale, Paul D.
    Jones, Rob D.
    Feldman, Ari D.
    IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2022, 32 (06) : 736 - 739
  • [24] A 300-GHz Integrated Transmitter based on InP HBT Technology
    Son, Heekang
    Kim, Doyoon
    Song, Kiryong
    Cho, Jai-Heon
    Rieh, Jae-Sung
    2018 ASIA-PACIFIC MICROWAVE CONFERENCE PROCEEDINGS (APMC), 2018, : 524 - 526
  • [25] Heavily carbon-doped GaAsSb grown on InP for HBT applications
    Watkins, SP
    Pitts, OJ
    Dale, C
    Xu, XG
    Dvorak, MW
    Matine, N
    Bolognesi, CR
    JOURNAL OF CRYSTAL GROWTH, 2000, 221 : 59 - 65
  • [26] A Highly Efficient W-Band Rectifier MMIC in InP HBT Technology
    Wentzel, Andreas
    Yacoub, Hady
    Johansen, Tom K.
    Heinrich, Wolfgang
    Krozer, Viktor
    2022 17TH EUROPEAN MICROWAVE INTEGRATED CIRCUITS CONFERENCE (EUMIC 2022), 2022, : 208 - 211
  • [27] 200 GHz Low Noise Amplifiers in 250 nm InP HBT Technology
    Soylu, Utku
    Ahmed, Ahmed S. H.
    Seo, Munkyo
    Farid, Ali
    Rodwell, Mark
    2021 16TH EUROPEAN MICROWAVE INTEGRATED CIRCUITS CONFERENCE (EUMIC 2021), 2021, : 129 - 132
  • [28] InP-based HBT technology for millimeter-wave MMIC VCOs
    Cowles, J
    Tran, L
    Wang, H
    Lin, E
    Block, T
    Streit, D
    Oki, A
    IEDM - INTERNATIONAL ELECTRON DEVICES MEETING, TECHNICAL DIGEST 1996, 1996, : 199 - 202
  • [29] Design and fabrication of wideband transimpedance amplifier by using InGaAs/InP HBT technology
    Lee, JM
    Kim, SI
    Min, BG
    Ju, CW
    Lee, KH
    JOURNAL OF THE KOREAN PHYSICAL SOCIETY, 2004, 45 : S906 - S908
  • [30] Traveling-Wave Amplifiers in Transferred Substrate InP-HBT Technology
    Kraemer, Tomas
    Meliani, Chafik
    Schmueckle, Franz Josef
    Wuerfl, Joachim
    Traenkle, Guenther
    IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2009, 57 (09) : 2114 - 2121
12345