Hardware Reference
In-Depth Information
103. Fabre A (1995) Third-generation current conveyor: a new helpful active element. Electron
Lett 31:338-339
104. Maheshwari S, Khan IA (2001) Novel first order all-pass sections using a single CCIII. Int J
Electron 88:773-778
105. Kuntman H, Cicekoglu O, Ozoguz S (2002) A modified third generation current conveyor, its
characterization and applications. Frequenz 56:47-54
106. Maheshwari S, Khan IA (2004) Novel first-order current-mode all-pass sections using CCIII.
Active Passive Electron Comp 27:111-117
107. Yuce E, Metin B, Cicekoglu O (2004) Current-mode biquadratic filters using single CCIII
and minimum number of passive elements. Frequenz 58:225-228
108. Cam U (2005) A new transadmittance type first-order allpass filter employing single third
generation current conveyor. Analog Integr Circ Sig Process 43:97-99
109. Hwang YS, Chen JJ, Li JP (2007) New current-mode all-pole and elliptic filters employing
current conveyors. Electr Eng 89:457-459
110. Chunhua W, Keskin AU, Yang L, Qiujing Z, Sichuan D (2010) Minimum configuration
insensitive multifunctional current-mode biquad using current conveyors and all-grounded
passive components. Radioengineering 19:178-184
111. Minaei S (2009) Electronically tunable current-mode universal biquad filter using dual-X
current conveyors. J Circ Syst Comp 18:665-680
112. Minaei S, Yuce E (2010) Unity/variable-gain voltage-mode/current-mode first-order all-pass
filters using single dual-X second-generation current conveyor. IETE J Res 56:305-312
113. Maheshwari S, Chaturvedi B (2012) High-input low-output impedance all-pass filters using
one active element. IET Circ Devices Syst 6:103-110
114. Maheshwari S, Chaturvedi B (2013) Additional high input low output impedance analog
networks. Active Passiv Electron Comp 2013: Article ID 574925, 9p
115. Mohan J (2013) Single active element based current-mode all-pass filter. Int J Comput Appl
82:23-27
116. Beg P (2014) Tunable first-order resistless all-pass filter with low output impedance. Sci
World J 2014: Article ID 219453, 6p
117. Gunes EO, Anday F (1995) Realization of current-mode low pass filters using CFCCIIs.
Electron Lett 31:2161-2162
118. Gunes EO, Anday F (1996) Realization of current-mode universal filter using
CFCCII
p
s. Electron Lett 32:1081-1082
119. Abuelma
atti MT, Tassaduq NA (1998) High-order current transfer function synthesis using
translinear current conveyors. Frequenz 52:76-78
120. Keskin AU, Cam U (2007) Insensitive high-output impedance minimum configuration SITO-
type current-mode biquad using dual-output current conveyors and grounded passive com-
ponents. Int J Electron Commun (AEU) 61:341-344
121. Yucel F, Yuce E (2014) CCII based more tunable voltage-mode all-pass filters and their
quadrature oscillator applications. Int J Electron Commun (AEU) 68:1-9
122. Ghallab YH, Badawy W (2006) The operational floating current conveyor and its applica-
tions. J Circ Syst Comp 15:351-372
123. Pandey N, Nand D, Khan Z (2013) Single-input four-output current mode filter using
operational floating current conveyor. Active Passiv Electron Comp 2013: Article ID
318560, 8p
124. Biolek D, Vrba K, Cajka J, Dostal T (2000) General three-port current conveyor: a useful tool
for network design. J Electr Eng 51:36-39
125. Senani R, Singh AK (2002) A new universal current mode biquad filter. Frequenz 56:55-59
126. Senani R, Singh AK, Singh VK (2003) New tunable SIMO type current mode universal
biquad using only three MOCCs and all grounded passive elements. Frequenz 57:160-161
127. Abdalla KK, Bhaskar DR, Senani R (2012) Configuration for realizing a current mode
universal filter and dual mode quadrature single resistor controlled oscillator. IET Circ
Devices Syst 6:159-167
'
Search WWH ::
Custom Search