Universal resistorless current-mode filters employing CCCIIs

In this paper, four different‐type second‐order current‐mode filters, employing second‐generation current‐controlled conveyors (CCCIIs) and two capacitors, are proposed. The first two of the presented filters can simultaneously realize high‐output impedance low‐pass, band‐pass and high‐pass response...

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Bibliographic Details
Published in:International journal of circuit theory and applications 2008-07, Vol.36 (5-6), p.739-755
Main Authors: Yuce, Erkan, Kircay, Ali, Tokat, Sezai
Format: Article
Language:English
Subjects:
analog filters
current-controlled conveyors
current-mode circuits
signal limitations
stability problems
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Summary:In this paper, four different‐type second‐order current‐mode filters, employing second‐generation current‐controlled conveyors (CCCIIs) and two capacitors, are proposed. The first two of the presented filters can simultaneously realize high‐output impedance low‐pass, band‐pass and high‐pass responses. Also, the two filters can provide notch and all‐pass filter responses with interconnection of the relevant output currents. The first developed one needs no critical active and passive element matching conditions and/or cancellation constraints. The second and third introduced ones employ only grounded capacitors. The fourth proposed filter derived from the third one uses only plus‐type single output CCCIIs (CCCII+s). The fifth filter can be constructed using commercially available active devices such as AD844s along with additional resistors instead of CCCII+s of the fourth proposed filter to perform experimental test easily. All of the proposed filters have low active and passive element sensitivities. Time and frequency domain analyses are performed for the first, second and third realized filters using SPICE simulation program. Also, experimental test is achieved for the fifth filter. In this study, stability problems attributed to non‐ideal gains of the CCCIIs and signal limitations of the first, second and third introduced filters due to restricted power supply voltages are investigated. Copyright © 2007 John Wiley & Sons, Ltd.
ISSN:0098-9886
1097-007X
DOI:10.1002/cta.455