Erkan Yüce scite author profile

In this paper, a new active element called voltage differencing inverting buffered amplifier (VDIBA) is presented. Using single VDIBA and a capacitor, a new resistorless voltage-mode (VM) first-order all-pass filter (APF) is proposed, which provides both inverting and noninverting outputs at the same configuration simultaneously. The pole frequency of the filter can be electronically controlled by means of bias current of the internal transconductance. No component-matching conditions are required and it has low sensitivity. In addition, the parasitic and loading effects are also investigated. By connecting two newly introduced APFs in open loop a novel secondorder APF is proposed. As another application, the proposed VM APF is connected in cascade to a lossy integrator in a closed loop to design a four-phase quadrature oscillator. The theoretical results are verified by SPICE simulations using TSMC 0.18 lm level-7 CMOS process parameters with ±0.9 V supply voltages. Moreover, the behavior of the proposed VM APF was also experimentally measured using commercially available integrated circuit OPA860 by Texas Instruments.Keywords Analog signal processing Á All-pass filter Á Electronically tunable circuit Á Four-phase quadrature oscillator Á Loading effect Á Resistorless filter Á Voltage-mode Á Voltage differencing inverting buffered amplifier (VDIBA)

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Full-wave rectifier realization using only two CCII+s and NMOS transistors

Yüce

Mınaeı

Çiçekoğlu

2006

International Journal of Electronics

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In this paper, a voltage-mode full-wave rectifier employing plus-type second-generation current conveyors (CCII+s) and enhancement-mode n-channel metal-oxide semiconductor field-effect transistors (MOSFETs) is proposed. The presented circuit requires no passive components, and is suitable for high frequency applications. The proposed full-wave rectifier circuit is simulated using HSPICE to verify the theoretical analysis

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Universal current‐mode filters and parasitic impedance effects on the filter performances

Yüce

Mınaeı

2007

Circuit Theory & Apps

101

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Minaei, Shahram (Dogus Author)In this letter, two universal current-mode (CM) filters for simultaneously realizing low-pass, band-pass and high-pass characteristics are proposed. Both of the presented filters can also realize notch and all-pass responses with interconnection of the relevant output currents. They employ second-generation current-controlled conveyors (CCCIIs) and only grounded capacitors. They also have low active and passive element sensitivities along with electronically adjustable angular resonance frequency (omega(0)) and quality factor (Q). Based on the first developed filter, the parasitic impedance effects of the conveyors on the filter performances are investigated in detail. Simulation results using SPICE simulation program are included to verify the theory

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A Versatile Active Circuit for Realising Floating Inductance, Capacitance, FDNR and Admittance Converter

Mınaeı

Yüce

Çiçekoğlu

2006

Analog Integr Circ Sig Process

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An active circuit suitable for realizing floating inductance, capacitance, FDNR and admittance converter depending on the selection of passive elements of the circuit is presented. The proposed circuit employs only two dual output second-generation current conveyors (DO-CCIIs) and does not require passive element matching. The proposed network has a grounded capacitor for the floating inductance and capacitance simulation. Frequency performance of the circuit is tested using SPICE.

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Erkan Yüce

A Modified CFOA and Its Applications to Simulated Inductors, Capacitance Multipliers, and Analog Filters

New resistorless and electronically tunable realization of dual-output VM all-pass filter using VDIBA

Full-wave rectifier realization using only two CCII+s and NMOS transistors

Universal current‐mode filters and parasitic impedance effects on the filter performances

A Versatile Active Circuit for Realising Floating Inductance, Capacitance, FDNR and Admittance Converter

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