참고문헌 (22)

1. 1 Moschytz GS . Low‐sensitivity, low‐power, active‐ RC allpole filters using impedance tapering . IEEE Transactions on Circuits and Systems Part II 1999 ; 46 ( 8 ): 1009 – 1026 . 

2. 2 Jurisic D , Moschytz GS , Mijat N . Low‐noise, low‐sensitivity, active‐RC allpole filters using impedance tapering . International Journal of Circuit Theory and Applications ; DOI: 10.1002/cta.740 . 

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3. 3 Jurisic D , Mijat N . Use of ‘lossy’ LP‐BP‐transformation in active second‐order bp filter design procedure . Proceeding of IEEE International Symposium on Image and Signal Processing and Analysis ISPA, Pula, Croatia, 2001; 491 – 495 . 

4. 4 Jurisic D , Mijat N , Moschytz GS . Design of fourth‐order bp active‐rc filters using a ‘lossy’ LP‐BP transformation . Proceeding of IEEE European Conference on Circuit Theory and Design ECCTD, Espoo, Finland, 2001; 117 – 120 . 

5. 5 Jurisic D , Moschytz GS , Mijat N . Low‐sensitivity, low‐power fourth‐order band‐pass active‐RC allpole filter using impedance tapering . Proceeding of International IEEE Conference on Electronics, Circuits, and Systems ICECS, Msida, Malta, 2001; 815 – 818 . 

6. 6 Jurisic D , Moschytz GS , Mijat N . Low‐power high‐order band‐pass active‐RC allpole filters using a ‘lossy’ LP‐BP transformation . Proceeding of International IEEE Conference on Electronics, Circuits, and Systems ICECS, Dubrovnik, Croatia, 2002; 209 – 214 . 

7. 7 Jurisic D , Mijat N , Moschytz GS . Optimal design of low‐sensitivity, low‐power 2nd‐order BP filters . Proceeding of IEEE International Conference On Signals And Electronic Systems ICSES, Krakow, Poland, 2008; 375 – 378 . 

8. 8 Seok JH , Jo JG , Yoo C . A 0.6 V, 2.11 MHz, 62 dB, SFDR active‐RC filter in 0.13 µm CMOS process . International Journal of Circuit Theory and Applications 2010 ; 38 ( 1 ): 99 – 107 . 

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9. 9 Moschytz GS , Horn P . Active Filter Design Handbook . Wiley : Chichester, U.K. , 1981 . 

10. 10 Weinberg L . Network Analysis and Synthesis . McGraw‐Hill : New York, U.S.A. , 1962 . 

11. 11 Zverev AI . Handbook of Filter Synthesis . Wiley : New York, U.S.A. , 1967 . 

12. 12 Saal R , Ulbrich E . On the design of filters by synthesis . IRE Transactions on Circuit Theory 1958 ; 5 ( 4 ): 284 – 327 . 

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13. 13 Daniels RW . Approximation Methods for Electronic Filter Design: With Applications to Passive, Active and Digital Networks . McGraw‐Hill : New York, U.S.A. , 1974 . 

14. 14 Jurisic D , Moschytz GS , Mijat N . Low‐sensitivity, low‐power 4th‐order low‐pass active‐RC allpole filter using impedance tapering . Proceeding of IEEE Mediterranean Electrotechnical Conference MELECON, Dubrovnik, Croatia, 2004; 107 – 110 . 

15. 15 Geffe PR . Designer's Guide to Active Bandpass Filters , EDN, 1974 ; 46 – 52 . 

16. 16 Perry DJ . Scaling transformation of multiple‐feedback filters . IEE Proceedings G Electronic Circuits and Systems 1981 ; 128 ( 4 ): 176 – 179 . 

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17. 17 Giusi G , Pace C , Crupi F . Cross‐correlation‐based trans‐impedance amplifier for current noise measurements . International Journal of Circuit Theory and Applications 2009 ; 37 ( 6 ): 781 – 792 . 

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18. 18 Wolfram S . The Mathematica Book . Wolfram Media, Cambridge University Press : IL, U.S.A., Cambridge, U.K. , 1999 . 

19. 19 Alves LN , Aguiar RL . A time‐delay technique to improve GBW on negative feedback amplifiers . International Journal of Circuit Theory and Applications 2008 ; 36 ( 4 ): 375 – 386 . 

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20. 20 Bhusan M , Newcomb RW . Grounding of capacitors in integrated circuits . Electronics Letters 1967 ; 3 : 148 – 149 . 

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21. 21 Souliotis G , Psychalinos C . Harmonic oscillators realized using current amplifiers and grounded capacitors . International Journal of Circuit Theory and Applications 2007 ; 35 : 165 – 173 . 

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22. 22 Mijat N , Moschytz GS . Sensitivity of narrowband biquartic BP active filter block . Proceeding of IEEE International Symposium on Network Theory and Design, Sarajevo, Bosnia, Herzegovina, 1984; 158 – 163 .