Phase-orthogonal FIR filters: An efficient VLSI architecture for communication applications

[1]  J. Gomes,et al.  An analog sampled-data DSB to SSB converter using recursive Hilbert transformer for accurate I and Q channel matching , 2002 .

[2]  Dong Shi,et al.  Design of Linear Phase FIR Filters With High Probability of Achieving Minimum Number of Adders , 2011, IEEE Transactions on Circuits and Systems I: Regular Papers.

[3]  Dennis Gabor,et al.  Theory of communication , 1946 .

[4]  R. Hartley Subexpression sharing in filters using canonic signed digit multipliers , 1996 .

[5]  Xiao Li,et al.  Synchronous delay based UWB pulse generator in FPGA , 2012, IEICE Electron. Express.

[6]  Abhijit Chandra,et al.  Design of hardware efficient FIR filter: A review of the state-of-the-art approaches , 2016 .

[7]  Taewon Hwang,et al.  Cost-efficient IQ imbalance compensation scheme for DRM plus , 2009, IEICE Electron. Express.

[8]  Todor Cooklev,et al.  Maximally flat fir hilbert transformers , 1993, International journal of circuit theory and applications.

[9]  Zhang Kai,et al.  FPGA-Based Expanded Circuit Design for DSP Signal Processing , 2014, 2014 Fifth International Conference on Intelligent Systems Design and Engineering Applications.

[10]  Asgar Abbaszadeh,et al.  Efficient realization of reconfigurable FIR filter using the new coefficient representation , 2011, IEICE Electron. Express.

[11]  H. Samueli,et al.  An improved search algorithm for the design of multiplierless FIR filters with powers-of-two coefficients , 1989 .

[12]  S Raghu,et al.  Efficient Implementation of Low Mismatch IQ Signal Generator Based on 90° Differential Phase Shifting , 2018, 2018 15th IEEE India Council International Conference (INDICON).

[13]  Sorin P. Voinigescu,et al.  A High Modulation Bandwidth, 110 GHz Power-DAC Cell for IQ Transmitter Arrays With Direct Amplitude and Phase Modulation , 2014, IEEE Journal of Solid-State Circuits.

[14]  Jan Vandewege,et al.  Efficient implementation of 90° phase shifter in FPGA , 2011, EURASIP J. Adv. Signal Process..

[15]  Sang Yoon Park,et al.  Efficient FPGA and ASIC Realizations of a DA-Based Reconfigurable FIR Digital Filter , 2014, IEEE Transactions on Circuits and Systems II: Express Briefs.

[16]  Punithavathi Duraiswamy,et al.  FPGA-GSM based gas leakage detection system , 2016, 2016 IEEE Annual India Conference (INDICON).

[17]  Tzi-Dar Chiueh,et al.  A Low-Power Digit-Based Reconfigurable FIR Filter , 2006, IEEE Transactions on Circuits and Systems II: Express Briefs.

[18]  Boualem Boashash,et al.  Analytic signal generation-tips and traps , 1994, IEEE Trans. Signal Process..

[19]  C. Botteron,et al.  Low power ASIC transmitter for UWB-IR radio communication and positioning , 2010, 2010 International Conference on Indoor Positioning and Indoor Navigation.

[20]  Bumman Kim,et al.  Efficient Digital Quadrature Transmitter Based on IQ Cell Sharing , 2017, IEEE Journal of Solid-State Circuits.

[21]  R.N. Gorgui-Naguib,et al.  Hardware implementation of a Hilbert transformer , 1991, [1991 Proceedings] 6th Mediterranean Electrotechnical Conference.

[22]  Shousheng He,et al.  FPGA implementation of FIR filters using pipelined bit-serial canonical signed digit multipliers , 1994, Proceedings of IEEE Custom Integrated Circuits Conference - CICC '94.

[23]  R. Abhilash,et al.  Asic design of low power VLSI architecture for different multiplier algorithms using compressors , 2016, 2016 11th International Conference on Industrial and Information Systems (ICIIS).

[24]  R. Lyons An Efficient Analytic Signal Generator , 2012 .

[25]  Yong Ching Lim,et al.  Optimization of Linear Phase FIR Filters in Dynamically Expanding Subexpression Space , 2010, Circuits Syst. Signal Process..

[26]  Todd Gaier,et al.  Miniature low noise G-band I-Q receiver , 2010, 2010 IEEE MTT-S International Microwave Symposium.

[27]  P V Sridevi,et al.  ASIC realization of FIR digital filters — A comparision study of power, area and delay for various architecures , 2015, 2015 13th International Conference on Electromagnetic Interference and Compatibility (INCEMIC).