Add to ORKGThis paper describes the design of current mode low-pass ladder filters based on CMOS technology. The filters are derived from passive RLC ladder filter prototypes using new CMOS lossy and lossless integrators. The all-pole and Elliptic approximations are used in the proposed low-pass filter realizations. The proposed two types of filter can be electronically tuned between 10kHz and 100MHz through bias current from 0.03µA to 300µA. The proposed filters use 1.5 V power supply with 3 mW power consumption at 300 µA bias current. The proposed filters are resistorless, use grounded capacitors and are suitable for further integration. The total harmonic distortion (THD) of the low-pass filters is less than 1% over the operating frequency range. P...
In this paper, a new bipolar junction transistor (BJT) based configuration for providing first-order...
Abstract—This paper is concerned with a new design method of low-sensitivity current-mode filters, w...
It is well known that fully differential signal processing is more advantageous than single-ended si...
This paper describes the design of current mode low-pass ladder filters based on CMOS technology. Th...
A method for operational simulation of all-pole low-pass LC ladders filters by using current-mode da...
Abstract-A systematic design of continuous-time current-mode ladder filter using Dual-Output OTAs (D...
Abstract : The circuits using current-mode (CM) building blocks have received considerable attentio...
Abstract- In this paper, a new tunable CMOS resistor is proposed. The resistance is inversely propor...
In this paper, a current-mode circuit for realizing high-order low-pass (LP) and high-pass (HP) filt...
Abstruct-This paper presents a third-order elliptic low-pass continu-ous-time filter with a 4-MHz cu...
In this paper, a novel first-order current-mode (CM) electronically tunable all-pass filter includin...
In this paper, a current-mode circuit for realizing high-order low-pass (LP) and high-pass (HP) filt...
Abstract — The paper implements the well-known leapfrog method of LC-ladder filters simulation by ci...
In this paper, a novel first-order current-mode (CM) electronically tunable all-pass filter includin...
In this study, electronically-tunable, current-mode, square-root-domain, third-order low-pass filter...
In this paper, a new bipolar junction transistor (BJT) based configuration for providing first-order...
Abstract—This paper is concerned with a new design method of low-sensitivity current-mode filters, w...
It is well known that fully differential signal processing is more advantageous than single-ended si...
This paper describes the design of current mode low-pass ladder filters based on CMOS technology. Th...
A method for operational simulation of all-pole low-pass LC ladders filters by using current-mode da...
Abstract-A systematic design of continuous-time current-mode ladder filter using Dual-Output OTAs (D...
Abstract : The circuits using current-mode (CM) building blocks have received considerable attentio...
Abstract- In this paper, a new tunable CMOS resistor is proposed. The resistance is inversely propor...
In this paper, a current-mode circuit for realizing high-order low-pass (LP) and high-pass (HP) filt...
Abstruct-This paper presents a third-order elliptic low-pass continu-ous-time filter with a 4-MHz cu...
In this paper, a novel first-order current-mode (CM) electronically tunable all-pass filter includin...
In this paper, a current-mode circuit for realizing high-order low-pass (LP) and high-pass (HP) filt...
Abstract — The paper implements the well-known leapfrog method of LC-ladder filters simulation by ci...
In this paper, a novel first-order current-mode (CM) electronically tunable all-pass filter includin...
In this study, electronically-tunable, current-mode, square-root-domain, third-order low-pass filter...
In this paper, a new bipolar junction transistor (BJT) based configuration for providing first-order...
Abstract—This paper is concerned with a new design method of low-sensitivity current-mode filters, w...
It is well known that fully differential signal processing is more advantageous than single-ended si...