Hardware Reference
In-Depth Information
Fig. 2.15 Realizing CCI
from MOCCII and CCII
from MOCCI as proposed
by Bruun [
14
]
a
Z+ Z−
z+ z−
z+
CCII
y
x
Y
X
i
y
= i
x
i
x
b
Z− Z+
z− z−
z+
CCI
y
x
X
Y
i
x
i
y
= 0
+V
T
1
Q
1
T
2n
−1
Q
2n+1
T
3
T
5
Q
3
Q
5
Q
2n−1
y
+
I
z+
z−
z−
z−
z+
z+
x
−
T
4
T
6
T
2
T
2n
Q
2
−V
Q
2n+2
Q
4
Q
6
Q
2n
Fig. 2.16 Realization of multiple outputs CCII using power supply current sensing technique
References
1. Black GGA, Friedmann RT, Sedra AS (1971) Gyrator implementation with integrable current
conveyors. IEEE J Solid State Circ 6:396-399
2. Bakhtiar MS, Aronhime P (1978) A current conveyor realization using operational amplifiers.
Int J Electron 45:283-288
3. Senani R (1980) Novel circuit implementation of current conveyors using an O.A. and an
O.T.A. Electron Lett 16:2-3
4. Huertas JL (1980) Circuit implementation of current conveyor. Electron Lett 16:225-226
5. Huijsing JH, Veelenturf CJ (1981) Monolithic class AB operational mirrored amplifier.
Electron Lett 17:119-120
6. Wilson B (1981) A low-distortion bipolar feedback current amplifier technique. Proc IEEE
69:1514-1515
Search WWH ::
Custom Search