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Operational floating conveyor

Operational floating conveyor

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© The Institution of Electrical Engineers
Published

A new versatile analogue building block is described, termed an operational floating conveyor (OFC). The OFC has similar transmission properties to the current conveyor and current-feedback operational amplifier, but with a differential current output which allows accurate output current sampling. This feature improves circuit building block versatility and allows accurate closed loop current amplifiers and current convenors to be realised, including a closed loop current conveyor.

Inspec keywords: analogue circuits; active networks; operational amplifiers

Other keywords: transmission properties; current convertors; analogue building block; closed loop current conveyor; differential current output; closed loop current amplifiers; operational floating conveyor

Subjects: Other analogue circuits; Active filters and other active networks

References

    1. 1)
      • C. Toumazou , F.J. Lidgey , D.G. Haigh . (1990) , Analogue IC design: the current-mode approach.
    2. 2)
      • B. Wilson . Recent developments in current conveyors and current-mode circuits. IEE Proc. G , 2 , 63 - 77
    3. 3)
      • J.H. Huijsing . (1981) , Integrated circuits for accurate linear analogue electric signal processing.
    4. 4)
      • M. Higashimura . Realisation of current-mode transfer function using four-terminal floatingnullor. Electron. Lett. , 2 , 170 - 171
    5. 5)
      • S. Franco . Current-feedback amplifiers benefit high speed designs. Electron. Des. News , 211 - 215
    6. 6)
      • B. Wilson . High performance current conveyor implementation. Electron. Lett. , 24 , 990 - 991
    7. 7)
      • A.S. Sedra , K.C. Smith . A second generation current conveyor and its applications. IEEE Trans. , 132 - 134
    8. 8)
      • Analogue Devices AD844 Data Sheet.
    9. 9)
      • B. Wilson . Using current conveyors. Electron. Wireless World , 28 - 32
    10. 10)
      • D.C. Wadsworth . Accurate current conveyor integrated circuit. Electron. Lett. , 16 , 1251 - 1253
    11. 11)
      • J. Wong . Current-feedback opamps extend high-frequency performance. Electron. Des. News , 211 - 215
    12. 12)
      • PMI OP260 Data Sheet.
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