A CMOS second generation current conveyor consisting of two matched differential pairs and based on the first generation current conveyor is presented. PSPICE simulations have shown that its performance is quite satisfactory for wideband current-mode signal processing.
References
-
-
1)
-
O. Oliaei ,
J. Porte
.
Compound current conveyor (CCII+ and CCII).
Electron. Lett.
,
253 -
254
-
2)
-
W. Surakampontorn ,
V. Riewruja ,
K. Kumwachara ,
K. Dejhan
.
Accurate CMOS-based current conveyors.
IEEE Trans.
,
699 -
702
-
3)
-
M.C.H. Cheng ,
C. Toumazou
.
3V CMOS current conveyor cell for VLSI technology.
Electron. Lett.
,
317 -
318
-
4)
-
A.S. Sedra ,
G.W. Roberts ,
F. Gohn
.
The current conveyor: history, progress and new results.
IEE Proc. G
,
78 -
87
-
5)
-
R.H. Zele ,
D.J. Allstot ,
T.S.F. Fiez
.
Fully balanced CMOS current-mode circuits.
IEEE J. Solid-State Circuits
,
569 -
575
-
6)
-
A. Fabre
.
Wideband translinear current conveyor.
Electron. Lett.
,
241 -
242
-
7)
-
H.-W. Cha ,
K. Watanabe
.
Wideband CMOS current conveyor.
Electron. Lett.
,
1245 -
1246
-
8)
-
H.O. Elwan ,
A.M. Soliman
.
Low-voltage low-power CMOS current conveyors.
IEEE Trans. Circuits Syst. I
,
828 -
835
-
9)
-
E. Brunn
.
CMOS High speed, high precision current conveyor and current feedbackamplifier structures.
Int. J. Electron.
,
93 -
100
-
10)
-
H.O. Elwan ,
A.M. Soliman
.
A novel CMOS Current conveyor realization with an electronically tunablecurrent mode ifiter suitable for VLSI.
IEEE Trans. Circuits Syst. II
,
663 -
670
-
11)
-
S.I. Liu ,
H.W. Tsao ,
J. Wu
.
CCII based continuous time filters with reduced gain bandwidth sensitivity.
IEE Proc. G
,
210 -
216
-
12)
-
H.O. Elwan ,
A.M. Soliman
.
Novel CMOS differential voltage current conveyor and its applications.
IEE Proc. Circuits Devices Syst.
,
195 -
200
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