Analyse
Les auteurs présentent une nouvelle solution microélectronique sous forme de circuit intégré pour le filtrage des fréquences. Elle est fondée sur un principe de recirculation passive des charges dans une structure MOS.Après avoir décrit le mécanisme de fonctionnement, les auteurs présentent les procédés de synthèse. Ils discutent les premiers résultats concernant des structures expérimentales. Ce nouveau principe entre en concurrence avec les techniques du filtre transversal à transfert de charges et du filtre à capacités commutées. L’amélioration attendue tant en surface de silicium utilisée qu’en dissipation est substantielle.
Abstract
A new fully integrated mos frequency filter is suggested, using passive charge routing structure. The principle of operation, the synthesis procedure, and the first experimental results are discussed. This new device has to be compared with finite impulse CCD-filters and switched capacitor filters. Large improvements are expected in terms of silicon area and power consumption. Finally, this solution should be of large economical interest for digital communications.
Similar content being viewed by others
Bibliographie
Sangster (F. L. J.). The bucket-brigade delay-line, a shift register for analog signals.Philips Tech. Rev. Netherl. (1970),31, pp. 97–110.
Collins (D. R.),Bailey (W. H.),Gosney (W. M.), Buss (D. D.). Charge-coupled device analogue matched filters.Electron. Lett., GB (1972),8, n∘ 13, pp. 328–329.
Buss (D. D.),Collins (D. R.),Bailey (W. H.), Reeves (C. R.). Transversal filtering using charge-transfer devices.IEEE Trans. SC., USA (1973),8, n∘ 2, pp. 134–146.
Hosticka (B. J.),Brodersen (R. N.),Gray (P. R.). mos sampled-data recursive filters using switched capacitor integrators.IEEE Trans. SC., USA (1977),12, pp. 600–608.
Smith (D. A.),Puckette (C. M.),Butler (W. J.). Active bandpass filtering with bucket brigade delay lines.IEEE Trans. SC., USA (1972),7, pp. 421–425.
Bounden (J. E.),Tomlinson (M. J.). CCD Chebyshev filter for radar mti applications.Electron. Lett., GB (1974),10, n∘ 7, pp. 89–90.
Engeler (W. E.), Tiemann (J. J.), Baertsch (R. D.), Goldberg (H. S.). A charge transfer recursive filter. Int. symp. solid-state circuits conf. San Francisco, Can. Dig. Tech. Papers (1980), pp. 154–155.
Tiemann (J. J.), Vogelsong (T. L.), Steckl (A. J.). Charge domain recursive filters. Int. symp. solid-state circuits conf. San Francisco, Can. Dig. Tech. Papers (1980), pp. 96–97.
Klar (H.), Mauthe (M.), Pfleiderer (H. J.), Poenisch (O.) Künemund (F.). Passive recursive ccd filters, part I: basic circuit configuration. Int. symp. circuits and systems.IEEE, New York (1980), CH 1564, pp. 1039–1040.
Schreiber (R.), Bardl (A.), Betzl (H.), Feil (M.), Kunemund (F.). Passive recursive ccd filters, part II : bandselect filters. Int. symp. circuits and systems,IEEE, New York (1980), CH 1564, pp. 1041–1042.
Gersho (A.),Gopinath (B.). Charge-routing networks.IEEE Trans. CAS, USA (1979),26, n∘ 2, pp. 81–92.
Feldmann (M.),Henaff (J.). New charge transfer recursive filter.Electron. Lett., GB (1980),16, n∘ 15, pp. 585–587.
Feldmann (M.), Henaff (J.). A new charge-routing filter. European Solid State Circuit Conf. Grenoble, France, Proc. 6thESSCIRC (1980), pp. 341–343.
Feldmann (M.). New charge-routing filter.IEEE work shop on ASSP. l’Aquila, Italy (1980).
Sequin (C. H.), Tompsett (M. F.). Charge transfer devices.Academic Press, New-York (1975).
Gantmacher (F. R.). Théorie des matrices, tome 2,Dunod, Paris (1966) (traduit du russe).
Karpelevitch (F. I.). Valeurs propres des matrices à coefficients non négatifs (en russe). Comptes rendus de l’Académiedes Sciences d’URSS, série mathématique, vol. (1951),15, pp. 361–383.
Dmitriev (N.),Dynkin (E.). On characteristic roots of stochastic matrices (en russe, résumé en anglais). Bulletin del’Académie des Sciences d’URSS, série mathématique (1946),10, pp. 167–184.
Feldmann (M.), Duhamel (P.). The multibridge charge coupled filter : general synthesis using bias conservative structure. Int. Symp. Acoustics, Speech and Signal Processing, Atlanta, USA (1981), pp. 259–262.
Feldmann (M.). The multibridge charge coupled filter: a general synthesis using all-pole structure. Int. symp. circuits and systems, Chicago, USA (1981), pp. 46–49.
Ralston (A.), Rabinowitz (P.). A first course in numerical analysis.McGraw Hill, New-York (1978), 2e édition.
Amstutz (P.). Elliptic approximation and elliptic filter design on small computer.IEEE Trans. CAS, USA (1978),25, pp. 1001–1011.
Madsen (K.). An algorithm for minimax solution of over-determined systems of non linear equations.J. Inst. Math. Appl., USA (1975), 16, pp. 321–328.
Madsen (K.),Schjaer-Jacobsen (H.),Voldby (J.). Automated minimax design of networks.IEEE Trans. CAS, USA (1975),22, pp. 791–795.
Berger (J. L.)et al. Les dispositifs à transfert de charge.Rev. tech. Thomson-CSF, Fr. (1980),12, n∘ 1, pp. 5–69.
***CCITT, 6e assemblée plénière, Genève (1976), livre orange, vol. III, n∘ 2, pp. 415–423.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Feldmann, M., Henaff, J., Kirov, MA. et al. Filtre intégré à transferts récursifs. Ann. Télécommun. 37, 47–62 (1982). https://doi.org/10.1007/BF02995594
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02995594
Mots clés
- Circuit intégré
- Filtrage fréquence
- Filtre récursif
- Dispositif transfert charge
- Structure mos
- Conception circuit