Hardware Reference
In-Depth Information
(continued)
hoped that the material covered here gives ample proof of the versatility of
the CCs, particularly those of the DVCC with dual outputs and the FDCCII.
This should serve as a stimulus for IC manufacturers to think of making such
varieties of CCs available as off-the-shelf ICs.
References
1. Yuce E, Tokat S, Kizilkaya A, Cicekoglu O (2006) CCII-based PID controllers employing
grounded passive components. Int J Electron Commun 60:399-403
2. Yuce E, Minaei S (2010) New CCII-based versatile structure for realizing PID controller and
instrumentation amplifier. Microelectron J 41:311-316
3. Godara B, Fabre A (2008) A new application of current conveyors: the design of wideband
controllable low-noise amplifiers. Radioengineering 17:91-100
4. Centurelli F, Diqual M, Ferri G, Guerrini NC, Scotti G, Trifiletti A (2005) A novel dual-output
CCII-based single ended to differential converter. Analog Integr Circ Sig Process 43:87-90
5. Koton J, Herencsar N, Vrba K (2011) Current and voltage conveyors in current-and voltage-
mode precision full-wave rectifiers. Radioengineering 20:19-24
6. Kumngern M (2011) Precision full-wave rectifier using two DDCCs. Circ Syst 2:127-132
7. Minaei S, Yuce E (2008) A new full-wave rectifier circuit employing single dual-X current
conveyor. Int J Electron 95:777-784
8. Koton J, Herencsar N, Vrba K (2010) Minimal configuration precision full-wave rectifier using
current and voltage conveyors. IEICE Electron Express 7:844-849
9. Monpapassorn A (2013) Low output impedance dual CCII full-wave rectifier. Int J Electron
100:648-654
10. Kumngern M, Knobnob B, Dejhan K (2010) High frequency and high precision CMOS Half-
wave rectifier. Circ Syst Sig Process 29:815-836
11. Marcellis AD, Carlo CD, Ferri G, Stornelli V (2013) A CCII-based wide frequency range
square waveform generator. Int J Circ Theor Appl 41:1-13
12. Chien H-C (2012) Voltage-controlled dual slope operation square/triangular wave generator
and its application as a dual mode operation pulse width modulator employing differential
voltage current conveyors. Microelectron J 43:962-974
13. Chien HC (2011) Switch-controllable dual-hysteresis mode bistable multivibrator employing
single differential voltage current conveyor. Microelectron J 42:745-753
14. Chien HC, Lo YK (2011) Design and implementation of monostable multivibrators employing
differential voltage current conveyors. Microelectron J 42:1107-1115
15. Chien HC (2013) Design and implementation of relaxation generators: new application
circuits of the DVCC. Int J Electron 100:227-244
16. Chien HC (2013) Square/triangular wave generator using single DO-DVCC and three
grounded passive components. Am J Electr Electron Eng 1:32-36
17. Godara B, Fabre A (2007) Versatile wideband impedance matching circuit based on current
conveyors. Electron Lett 43:37-38
18. Godara B, Fabre A (2008) The first active tunable wideband impedance matching circuit.
Electroscope Appl Electron 2008:7p
19. Hwang YS, Chen JJ, Wu SY, Liao LP, Tsai CC (2007) A new pipelined analog-to-digital
converter using current conveyors. Analog Integr Circ Sig Process 50:213-220
20. Hwang YS, Wang SF, Sheu P-W, Chen JJ (2008) Novel FBCCII-based sample and hold and
MDAC circuits. Int J Electron 95:1111-1117
Search WWH ::
Custom Search