A Novel Current–Mode High–Frequency Polyphase Filter using Multi–Output Current Differencing Transconductance Amplifiers

[1] ABUELMA’ATTI, A.—ABUELMA’ATTI, M. T. : A New Active Polyphase Filter for Image Rejection Using Second Generation Current Conveyors, Proc. the 9th International Conf. on Circuits, 2005, pp. 1–4.Search in Google Scholar

[2] HARTLEY, R. : Single-Sideband Modulator, U.S. Patent 1666206, April, 1928.Search in Google Scholar

[3] WEAVER, D. : A Third Method of Generation and Detection of Single-Sideband Signals, Proc. IRE (1956), 1703–1705.10.1109/JRPROC.1956.275061Search in Google Scholar

[4] RAZAVI, B. : RF Microelectronics, Prentice hall, U.S.A, 1998.Search in Google Scholar

[5] HORNAK, T. : Using Polyphase Filters as Image Attenuators, RF Design 6 (2001), 26–34.Search in Google Scholar

[6] HADDAD, F.—ZAÏD, L.-FRIOUI, O. : Polyphase Filter Design Methodology for Wireless Communication Applications, INTECH Open Access Publisher, 2010.10.5772/7707Search in Google Scholar

[7] CROLS, J.—STEYAERT, M. : An Analog Integrated Polyphase Filter for High Performance Low-IF Receiver, Proc. VLSI Circuits, 1995, pp. 87–88.10.1007/978-1-4757-2353-3_8Search in Google Scholar

[8] SEDRA, A.—SNELGROVE, W.—ALLEN, R. : Complex Analog Bandpass Filters Designed by Linearly Shifting Real Low-Pass Prototypes, Proc. IEEE Int. Symp. on Circuits and Systems, 1985, pp. 1223–1226.Search in Google Scholar

[9] MINNIS, B.—MOORE, P. : Non-Complex Signal Processing in a Low-IF Receiver, IEE Proceedings-Circuits, Devices and Systems 149 (2002), 322–330.10.1049/ip-cds:20020583Search in Google Scholar

[10] SHAHRANI, S.—GAHTANI, M. : A New Polyphase Current-Mode Filter Using Digitally-Programmable CCCII, Proc. 18th Int. Conf. on Micro-electronics ICM, 2006, pp. 142–145.Search in Google Scholar

[11] SAGBAS, M. : Design of CDBA-based Active Polyphase Filter for Low-IF Receiver Applications, Turk. J. Elec. Eng. & Comp. 19 (2011), 565–574.Search in Google Scholar

[12] STIKVOORT, E. : Polyphase Filter Section with OPAMPs, IEEE Transactions on Circuits and Systems-II: Analog and Digital Signal Processing 50 (2003), 376–378.10.1109/TCSII.2003.812915Search in Google Scholar

[13] EMIRA, A.—SÁNCHEZ-SINENCIO, E. : A Pseudo Differential Complex Filter for Bluetooth with Frequency Tuning, IEEE Trans. Circuits Syst. II, Analog. Digit. Signal Process 50 (2003), 742–754.Search in Google Scholar

[14] ANDREANI, P.—MATTISSON, S.—ESSINK, B. : A CMOS gm-C Polyphase Filter with High Image Band Rejection, Proc. The European Solid State Circuits Conf., 2000, pp. 244–247.Search in Google Scholar

[15] NOTTEN, M.—BREKELMANS, H.—RAMBEAU, V. : A 5th Order 14 mWatt Active Polyphase Filter for Analog and Digital TV on Mobile Applications, Proc. IEEE Solid-State Circuits Conf., 2006, pp. 211–214.10.1109/ESSCIR.2006.307568Search in Google Scholar

[16] ZHOU, M. : A Tunable Gm-C Polyphase Filter with High Linearity and Automatic Frequency Calibration, IEICE Electronics Express 11 (2014), 1–6.Search in Google Scholar

[17] LIU, S. : A New Fourth-Order Gm-C CMOS Polyphase Filter for Low-IF Receiver, Proc. 2012 IEEE 11th Int. Conf., 2012, pp. 1–3.Search in Google Scholar

[18] LAOUDIAS, C.—PSYCHALINOS, C. : Low-Voltage Bluetooth/ZigBee Complex Filter Using Current Mirrors, Proc. ISCAS, May 2010, pp. 1268–1271.10.1109/ISCAS.2010.5537273Search in Google Scholar

[19] LAOUDIAS, C.—PSYCHALINOS, C. : 1.5V Complex Filters Using Current Mirrors, IEEE Transactions on Circuits and Systems II 58 (2011), 575–579.10.1109/TCSII.2011.2161169Search in Google Scholar

[20] ZHANG, X.—KAMBAYASHI, N.—SHINADA, Y. : A Realization of Active Current-Mode Resonator with Complex Coefficients Using CCIIs, IEICE Transactions on Fundamentals 80 (1997), 413–415.Search in Google Scholar

[21] SOLIMAN, E.—MAHMOUD, S. : New CMOS fully differential current conveyor and its application in realizing sixth order complex filter, Pro. The IEEE Int. Symposium on Circuits and Systems, May,.Search in Google Scholar

[22] ABUELMA’ATTI, M.—AL-SHAHRANI, S. : A New Polyphase Current-Mode Filter Using Programmable-Gain Current-Controlled Current-Conveyor, WSEAS Trans. Electron 2 (2005), 138–141.Search in Google Scholar

[23] ALZAHER, H.—TASADDUQ, N. : A CMOS Low Power Current-Mode Polyphase Filter, Proc. IEEE Int. Symp. On Low Power Electronics Design, 2009, pp. 75–79.10.1145/1594233.1594251Search in Google Scholar

[24] UN, M. : Implementation of Polyphase Filter Section with CFAs, Frequenz 58 (2004), 221–224.10.1515/FREQ.2004.58.9-10.221Search in Google Scholar

[25] UN, M. : Analysis of Polyphase Filter Section with CFAs, WSEAS Trans. on CAS 2 (2003), 421.Search in Google Scholar

[26] SAMIOTIS, P.—PSYCHALINOS, C. : Low-Voltage Complex Filters Using Current Feedback Operational Amplifiers, ISRN Electronics (2013), 1–7.10.1155/2013/915758Search in Google Scholar

[27] TOUMAZOU, C—LIDGEY, F.-HAIGH, D. : Analogue IC Design: The Current Mode Approach, Presbyterian Publishing Corp., London, 1990.Search in Google Scholar

[28] ALZAHER, H.—TASADDUQ, N.—AL-AMMARI, F. : Optimal Low Power Complex Filters, IEEE Transactions on Circuits and Systems I 60 (885–895).10.1109/TCSI.2012.2209293Search in Google Scholar

[29] GUO, C. : A Fully-Integrated 900-MHz CMOS Wireless Receiver with On-Chip RF and IF Filters and 79-dB Image Rejection, IEEE Solid-State Circuits 37 (2001), 1084–1089.Search in Google Scholar

[30] BIOLEK, D. : CDTA-Building Block for Current-Mode Analog Signal Processing, Proc. The ECCTD03, Poland, 2003, pp. 397–40000.Search in Google Scholar

[31] HASSAN, M.—PAUL, S. : A New Current Mode Quadrature Oscillator using Current Differencing Transconductance Amplifier (CDTA), Journal of VLSI Design Tools & Technology 4 (2014), 39–42.Search in Google Scholar

[32] JIN, J.—WANG, C. : CDTA-Based Electronically Tunable Current-Mode Quadrature Oscillator, International Journal of Electronics 101 (2014), 1086–1095.10.1080/00207217.2013.805394Search in Google Scholar

[33] JANTAKUN, A.—JAIKLA, W. : Current-Mode Quadrature Oscillator Based on CCCDTAs with Noninteractive Dual-Current Control for Both Condition of Oscillation and Frequency of Oscillation, Turkish Journal of Electrical Engineering & Computer Sciences 21 (2013), 81–89.Search in Google Scholar

[34] NORGAARD, D. : The Phase-Shift Method of Single-Sideband Signal Reception, Proc. the IRE, 1956, pp. 1735–1743.10.1109/JRPROC.1956.275065Search in Google Scholar

[35] KAUKOVUORI, J.—STADIUS, K. : Analysis and Design of Passive Polyphase Filters, IEEE Transactions on Circuits and Systems I: Regular Papers 55 (2008), 3023–3037.10.1109/TCSI.2008.917990Search in Google Scholar

[36] BULT, K.—WALLINGA, H. : A class of analog CMOS circuits based on the square-law characteristic of an MOS transistor in saturation, IEEE Journal of Solid-State Circuits 22 (.10.1109/JSSC.1987.1052733Search in Google Scholar

[37] ARORA, N. : Mosfet Models for VLSI Circuit Simulation, Springer-Verlag, Austria, 1993.10.1007/978-3-7091-9247-4Search in Google Scholar

[38] SEDRA, A.—SMITH, K. : A Second-Generation Current Conveyor and its Applications, IEEE Trans. Circuit Theory CT-17 (1970), 132–133.10.1109/TCT.1970.1083067Search in Google Scholar