SIMO high frequency active universal current mode filter with independent control of pole frequency and quality factor

A high frequency universal current mode filter composed by three second generation current conveyor circuits (MOCCII), three active controlled resistances and two grounded active capacitors in this work. This circuit can simultaneously realize all filter responses without modifying the circuit confi...

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Main Authors: Ettaghzouti, Thouraya, Hassen, Nejib, Garradhi, Karima, Besbes, Kamel
Format: Conference Proceeding
Language:English
Subjects:
Active capacitor
Band-pass filters
Capacitors
Controlled active resistance
Current mode
Gain
Q-factor
Resistance
Second generation current conveyor (CCII)
SIMO
Simulation
Transistors
Universal filter
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creator Ettaghzouti, Thouraya
Hassen, Nejib
Garradhi, Karima
Besbes, Kamel
description A high frequency universal current mode filter composed by three second generation current conveyor circuits (MOCCII), three active controlled resistances and two grounded active capacitors in this work. This circuit can simultaneously realize all filter responses without modifying the circuit configuration. This filter offers the following advantages: (i) pole frequency and quality factor can be tuned independently, (ii) all output terminals are high impedances which are good for cascadability to another circuits, (iii) low active and passive sensitivities. The workability of proposed filter has been verified by TSPICE simulation with 0.18 μm TSMC technology process parameters.
doi_str_mv 10.1109/STA.2017.8314934
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identifier EISSN: 2573-539X
ispartof 2017 18th International Conference on Sciences and Techniques of Automatic Control and Computer Engineering (STA), 2017, p.157-162
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source IEEE Xplore All Conference Series
subjects Active capacitor
Band-pass filters
Capacitors
Controlled active resistance
Current mode
Gain
Q-factor
Resistance
Second generation current conveyor (CCII)
SIMO
Simulation
Transistors
Universal filter
title SIMO high frequency active universal current mode filter with independent control of pole frequency and quality factor
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