Advertisement

Springer Nature is making SARS-CoV-2 and COVID-19 research free. View research | View latest news | Sign up for updates

Development of 60 GHz minimum delay spread indoor local area network

Développement D’un Réseau local intra-immeuble à 60 GHz en configuration à dispersion minimale du retard

Abstract

This paper describes the design, fabrication, and experimenting of an indoor millimeter-wave local area network system, operating in a new concept of the indoor propagation configuration named minimum delay spread configuration; brass-board models of 10, 100, and 155 Mbit/s transceivers operating at 60 GHz, and a 60 GHz mmic chip set installed in the brass-board models are also described.

Résumé

L’article décrit la conception, la fabrication et ’ expérimentation d’un réseau local d’entreprise intraimmeuble fonctionnant en ondes millimétriques en utilisant une nouvelle configuration à dispersion minimale du retard. II présente aussi des maquettes d’émetteursrecepteurs fonctionnant à 60 GHz aux débits 10, 100 et 155 Mbit/s, ainsi que le circuit intégré monolithique à 60 GHz installé dans ces maquettes.

This is a preview of subscription content, log in to check access.

References

  1. [1]

    Takimoto (Y.). Millimeter-wave indoor LAN transceiver development.1996 International Workshop on Millimeter Waves, Orvieto, Italy (Apr. 1996), pp. 27–34.

  2. [2]

    Takimoto (Y.), Inoue (A.). Millimeter-wave communications development in Japan.MIOP’95, Sindelfingen, Germany (June 1995), pp. 539–543.

  3. [3]

    ***. Pasolink 50.NEC Catalogue.

  4. [4]

    Takimoto (Y.), Kotaki (M.). Millimeter-wave and development of sensing technology.MWE’92 Microwave Workshop Digest, Tokyo, Japan (Sep. 1992), pp. 313–318.

  5. [5]

    ***. MPT.News, Japan, (Dec. 28, 1992).

  6. [6]

    Takimoto (Y.). Recent activities on millimeter-wave indoor lan system development in Japan.1995 IEEE MTT-S International Microwave Symposium, Orlando, USA, WE1D-3 (May 1995), pp. 405–408.

  7. [7]

    Takimoto (Y.), Inoue (A.). Study on minimum delay spread condition for millimeter-wave indoor local area network.Proc. ofMicrowaves’94, London (Oct. 1994), pp. 386–391.

  8. [8]

    Mitzlaff (J. E.). Radio propagation and anti-multipath techniques in the win environment.IEEE Network Magazine (Nov. 1991), pp. 21–26.

  9. [9]

    Kuroki (R), Oneyama (T.). Nonradiative dielectric waveguide digital transceiver at 60 GHz band.19th International Conf. on Infrared and Millimeter Waves, Sendai, Japan, Th2.5 (Oct. 1994), pp. 437–438.

  10. [10]

    Takimoto (Y.). Development of 60 GHz short range communication systems.MWE’95, Microwave Workshop Digest, Yokohama, Japan (Dec. 1995), pp. 231–236.

  11. [11]

    Takimoto (Y.), Yatsuka (H.), Inoue (A.), Yokoyama (T.), Aoyagi (T.), Ohata (K.), Saito (T.), Neoishi (T.), Okubo (N.). 60 GHz short range transceivers and applications for minimum delay spread LAN.1996 IEEE MTT-S International Microwave Symposium, San Francisco, WEI E-2 (June 1996), pp. 509–512.

  12. [12]

    Ohata (K.), Saito (T.). Millimeter-wave mmics for wireless communication systems.MWE’95 Microwave Workshop Digest, Yokohama, Japan (Dec. 1995), pp. 305–310.

  13. [13]

    Funabashi (M.)et al. A V-band AlGaAs/InGaAs heterojunction fet mmic dielectric resonator oscillator.1994 GaAs IC Symp. Digest, pp. 30–33.

  14. [14]

    Inoue (T.)et al. 60 GHz dielectrically stabilized monolithic voltage controlled oscillator.1995 European Microwave Conference Proc, pp. 281–284.

  15. [15]

    Funabashi (M.)et al. A 50-70 GHz band heterojunction fet mmic power amplifier.19th International Conf. on Infrared and Millimeter Waves, Sendai, Japan Th 2.3. (Oct. 1994), pp. 433–434.

  16. [16]

    Saito (T.)et al. 60 GHz mmic image-rejection downconverter using InGaP/InGaAs hemt.1995 GaAs IC Symp. Digest, San Diego (Oct. 1995), pp. 222–225.

  17. [17]

    Hashimoto (O.), Abe (T.), Satake (R.), Kaneko (M), Hashimoto (Y). Design and manufacturing of resistive-sheet type wave absorber at 60 GHz frequency band.IEICE Trans. Commun. (Feb. 1995),E78-B, n° 2, pp. 246–252.

  18. [18]

    Takimoto (Y), Inoue (A.). Time and frequency domain reflection loss measurement for millimeter-wave indoor local area network.19th International Conf. on Infrared and Millimeter Waves, Sendai, Japan Th 6.3. (Oct. 1994), pp. 498–499.

Download references

Author information

Correspondence to Yukio Takimoto.

Rights and permissions

Reprints and Permissions

About this article

Cite this article

Takimoto, Y. Development of 60 GHz minimum delay spread indoor local area network. Ann. Télécommun. 52, 112–122 (1997). https://doi.org/10.1007/BF02996034

Download citation

Key words

  • Local area network
  • Indoor radiocommunication
  • Millimetric wave
  • Breadboard
  • Microwave integrated circuit
  • Monolithic microwave integrated circuit
  • Experimentation
  • Error rate
  • Measurement method
  • Wave reflection

Mots dés

  • Réseau local entreprise
  • Radiocommunication intraimmeuble
  • Onde millimétrique
  • Emetteur récepteur
  • Maquette
  • Circuit intégré hyperfréquence
  • Circuit intégré monolithique
  • Expérimentation
  • Taux erreur
  • Méthode mesure
  • Réflexion onde