Design of High Dynamic Range Fully Integratable Translinear Filters
Analog Integrated Circuits and Signal Processing
A 1-V Class-AB Translinear Integrator for Filter Applications
Analog Integrated Circuits and Signal Processing - Special issue on selected papers from ECS '97
Systematic Design of Companding Systems by Component Substitution
Analog Integrated Circuits and Signal Processing - Special issue on the 1998 and 1999 midwest symposia on circuits and systems
On the transposition of Gm–C filters to DC stabilized log-domain filters: Research Articles
International Journal of Circuit Theory and Applications
An ultra low-power class-AB sinh integrator
SBCCI '06 Proceedings of the 19th annual symposium on Integrated circuits and systems design
International Journal of Circuit Theory and Applications
Square-root domain wave filters: Research Articles
International Journal of Circuit Theory and Applications
Log-domain linear transformation filters revised: improved building blocks and comparison results
International Journal of Circuit Theory and Applications
Universal current-mode filters and parasitic impedance effects on the filter performances
International Journal of Circuit Theory and Applications
International Journal of Circuit Theory and Applications
A new electronically tunable current mode universal filter using MO-CCCII
Analog Integrated Circuits and Signal Processing
Design of current-mode MOSFET-C filters using OTRAs
International Journal of Circuit Theory and Applications
A mixed-mode KHN-biquad using DVCC and grounded passive elements suitable for direct cascading
International Journal of Circuit Theory and Applications
Generation and classification of Kerwin–Huelsman–Newcomb circuits using the DVCC
International Journal of Circuit Theory and Applications
International Journal of Circuit Theory and Applications
Current-mode biquadratic filter using DO-CCCDBAs
International Journal of Circuit Theory and Applications
Current-mode wave field programmable analogue arrays
International Journal of Circuit Theory and Applications
Realizations of fully differential voltage second generation current conveyor with an application
International Journal of Circuit Theory and Applications
Programmable feedforward linearized CMOS OTA for fully differential continuous-time filter design
International Journal of Circuit Theory and Applications
On the systematic synthesis of CCII-based floating simulators
International Journal of Circuit Theory and Applications
CMOS-controlled inverting CDBA with a new all-pass filter application
International Journal of Circuit Theory and Applications
Square-root domain linear transformation filters
International Journal of Circuit Theory and Applications
All-pass filters using DDCC- and MOSFET-based electronic resistor
International Journal of Circuit Theory and Applications
All-pass sections with rich cascadability and IC realization suitability
International Journal of Circuit Theory and Applications
Universal biquad filter topology using low-voltage current mirrors
International Journal of Circuit Theory and Applications
Sinh-Domain multiphase sinusoidal oscillator
Microelectronics Journal
Realization of companding filters with large time-constants for biomedical applications
Analog Integrated Circuits and Signal Processing
Hi-index | 0.00 |
A new systematic method for designing Sinh-Domain filters is introduced in this paper. This is achieved by employing an appropriate set of complementary operators, in order to transpose the conventional functional block diagram representation of each linear operation to the corresponding one into the Sinh-Domain. The proposed method offers the benefits of facilitating the design procedure of high-order Sinh-Domain filters and of the absence of any restriction concerning the type and/or the order of the realized filter function. As an example, a third-order Sinh-Domain leapfrog filter is designed by employing the proposed set of operators. Two possible realizations are given and their performance has been evaluated and compared through simulation results. Copyright © 2011 John Wiley & Sons, Ltd.