Realization of n-th Order Voltage Transfer Function Using a Single Operational Transresistance Amplifier

  • Kilinc, Selcuk (Department of Electrical and Electronics Engineering,Dokuz Eylul University) ;
  • Cam, Ugur (Department of Electrical and Electronics Engineering,Dokuz Eylul University)
  • Received : 2005.05.02
  • Published : 2005.10.31

Abstract

A new configuration to realize the most general n-th order voltage transfer function is proposed. It employs only one operational transresistance amplifier (OTRA) as the active element. In the synthesis of the transfer function, the RC:-RC decomposition technique is used. To the best of author's knowledge, this is the first topology to be used in the realization of n-th order transfer function employing single OTRA.

References

  1. Int’l J. of Electronics v.42 no.6 Realization of n-th Order Transfer Functions Using Current Diferencing Amplifiers Anday, F.
  2. Int’l J. of Electronics v.44 no.6 Realization of n-th Order Transfer Functions Using Current Differencing Amplifiers Brodie, J.H.
  3. IEEE Transactions Circuits and Systems v.CAS-24 no.12 Active Realization of n-th Order Lowpass Transfer Functions Anday, F.
  4. Int’l J. of Electronics v.53 no.3 Realization of Norton Amplifier n-th Order Switched-Capacitor Networks Anday, F.
  5. Int’l J. of Electronics v.90 no.4 Realization of n-th Order Current Transfer Function Using Current-Differencing Buffered Amplifiers Acar, C.;Sedef, H.
  6. Microelectronics J. v.30 CMOS Operational Transresistance Amplifier for Analog Signal Processing Applications Salama, K.N.;Soliman, A.M.
  7. AEU-Int’l J. of Electronics and Communications v.53 no.1 Universal Filters Using the Operational Transresistance Amplifiers Salama, K.N.;Soliman, A.M.
  8. European Conf. on Circuit Theory and Design v.1 A New Biquadratic Filter Configuration Employing a Single Operational Transresistance Amplifier Kilinc, S.;Cam, U.
  9. IEEE Int’l Midwest Symp. Circuits and Systems v.1 Operational Transresistance Amplifier Based First-Order Allpass Filter with an Application Example Kilinc, S.;Cam, U.
  10. IEEE Int’l Midwest Symp. Circuits and Systems v.3 A 0.8V CMOS Filter Based on a Novel Low Voltage Operational Transresistance Amplifier Ravindran, A.;Savla, A.;Younus, M.D.I;Ismail, A.
  11. IEEE Int’l Symp. on Circuits and Systems v.2 The New CMOS 2V Low-Power IF Fully Diferential Rm-C Bandpass Amplifier for RF Wireless Receivers Wu, C.Y.;Cheng, Y.;Gong, J.
  12. AEU Int’l J. of Electronics and Comunications v.57 no.4 Novel Grounded Parallel Immitance Simulator Topologies Employing Single OTRA Cam, U.;Kacar, F.;Cicekoglu, O.;Kuntman, H.;Kuntman, A.
  13. Analog Integrated Circuits and Signal Proc. v.39 Novel Two OTRA-Based Grounded Immitance Simulator Topologies Cam, U.;Kacar, F.;Cicekoglu, O.;Kuntman, H.;Kuntman, A.