ETRI Journal

Electronics and Telecommunications Research Institute (한국전자통신연구원)
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CDBA-Based Synthetic Floating Inductance Circuits with Electronic Tuning Properties

  • Received : 2004.11.03
  • Published : 2005.04.30
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Abstract

This paper introduces two different current differencing buffered amplifier (CDBA)-based synthetic floating inductance circuits. Both configurations use a grounded capacitor. They are fully integrable and provide the advantages of electronic tuning.

Keywords

References

  1. IEEE Trans. Circuits and Systems v.36 no.Oct. Three-Op-Amp Floating Immittance Simulators: A retrospection Senani, R.
  2. Electronics Letters v.23 no.22 Generation of New Two-Amplifier Synthetic Floating Inductors Senani, R.
  3. Electronics Letters IEE v.33 no.21 Floating Inductance Simulation Based on Current Conveyors Kiranon, W.;Pawarangkoon, P.
  4. Analog Integrated Circuits and Signal Proc. v.29 no.3 Novel Lossless Floating Immittance Simulator Employing Only Two FTFNs Cam, U.;Cicekoglu, O.;Kuntman, H.
  5. Int’l J. Electronics v.82 no.6 A CMOS Programmable Balanced Output Transconductor for Analogue Signal Processing Mahmoud, S.A.;Soliman, A.M.
  6. Active and Passive Electronic Components v.26 no.2 A Novel Ideal Floating Inductor Using Translinear Conveyors Khan, I.;Zaidi, M.
  7. Electronics Letters v.30 no.1 Class of Floating, Generalized Positive/Negative Immittance Converters/Inverters Realized with Operational Mirrored Amplifiers Malhotra, J.;Senani, R.
  8. Electronics Letters v.16 no.17 Lossless Inductor Simulation: Novel Configurations Using the DVCCS Nandi, R.
  9. Int’l J. Circuit Theory and Applications v.25 no.29 On the Derivation of Current?Mode Floating Inductors Layos, M.C.;Haritantis, I.
  10. Frequenz: J. Telecommunications v.52 no.9/10 Realisation of a Class of Analog Signal Processing/Signal Generation Circuits: Novel Configurations Using Current Feedback Op-Amps Senani, R.
  11. Electronics Letters IEE v.17 no.18 Novel Floating Inductance Using Current Conveyors Pal, K.
  12. Proc. IEEE v.67 no.12 A New Active-RC Circuit Realization of Floating Inductance Singh, V.
  13. Electronics Letters v.18 no.10 Novel Lossless Synthetic Floating Inductor Employing a Grounded Capacitor Senani, R.
  14. Frequenz v.52 Simulation of Active-Only Floating Inductance Abuelma’atti, M.T.;Khan, M.H.;Al-Zaher, H.A.
  15. Int’l J. Electronics v.89 no.12 Electronically Tunable Active Only Floating Inductance Simulators Minaei, S.;Cicekoglu, O.;Kuntman, H.;Turkoz, S.
  16. Microelectronics J. v.30 A Versatile Building Block: Current Differencing Buffered Amplifier Suitable for Analog Signal Processing Filters Acar, C.;Ozoguz, S.
  17. IEEE Trans. Circuits and Systems v.CAS-33 Novel MOS Resistive Circuit for Synthesis of Fully-Integrated Continuous-Time Filters Czarnul, Z.
  18. IEEE Trans. Circuits and Systems―I Fundamental Theory and Applications v.CAS-44 Generalization of MRC Circuits and Its Applications Takagi, S.;Czarnul, Z.;Iida, T.;Fujii, N.
  19. AEU Int’l J. Electronics and Communications v.54 no.5 CDBA-Based Fully Integrated Gyrator Circuit Suitable for Electronically Tunable Inductance Simulation Toker, A.;Ozoguz, S.;Acar, C.
  20. IEEE Trans. Circuits and Systems?II Analog Digital Signal Processing v.CAS-47 Current Mode All-Pass Filters Using Current Differencing Buffered Amplifier and New High ?Q Bandpass Filter Configuration Toker, A.;Ozoguz, S.;Cicekoglu, O.;Acar, C.