Hardware Reference
In-Depth Information
31. Horng JW, Chang CW, Lee MH (1997) Single-element controlled sinusoidal oscillators using
CCIIs. Int J Electron 83:831-836
32. Soliman AM (1998) Current mode CCII oscillators using grounded capacitors and resistors. Int
J Circ Theor Appl 26:431-438
33. Abuelma
atti MT, Al-Qahtani MA (1998) A grounded-resistor current conveyor-based active-
R multiphase sinusoidal oscillator. Analog Integr Circ Sig Process 16:29-34
34. Abuelma
'
atti MT, Al-Qahtani M (1998) Low component count second-generation current
conveyor-based multiphase sinusoidal oscillators. Int J Electron 84:45-52
35. Martinez PA, Sabadell J, Aldea C, Celma S (1999) Variable frequency sinusoidal oscillators
based on CCII+. IEEE Trans Circ Syst-I 46:1386-1390
36. Soliman AM, Elwakil AS (1999) Wien oscillators using current conveyors. Comput Electr Eng
25:45-55
37. Soliman AM (1999) Synthesis of grounded capacitor and grounded resistor oscillators. J
Franklin Inst 336:735-746
38. Senani R, Gupta SS (2000) Novel SRCOs using first generation current conveyor. Int J
Electron 87:1187-1192
39. Papazoglou CA, Karybakas CA (2000) An electronically tunable sinusoidal oscillator suitable
for high frequencies operation based on single dual-output variable-gain CCII. Analog Integr
Circ Sig Process 23:31-44
40. Abuelma ' atti MT (2000) New sinusoidal oscillators with fully uncoupled control of oscillation
frequency and condition using three CCII+ s. Analog Integr Circ Sig Process 24:253-261
41. Horng JW (2001) A sinusoidal oscillator using current-controlled current conveyors. Int J
Electron 88:659-664
42. Bhaskar DR, Prasad D, Imam SA (2004) Grounded-capacitor SRCOs realized through a
simple general scheme. Frequenz 58:175-177
43. Khan AA, Bimal S, Dey KK, Roy SS (2005) Novel RC sinusoidal oscillator using second-
generation current conveyor. IEEE Instrum Meas 54:2402-2406
44. Horng JW (2005) Current conveyor based allpass filters and quadrature oscillators employing
grounded capacitors and resistors. Comput Electr Eng 31:81-92
45. Horng JW, Hou CL, Chang CM, Chung WY, Tang HW, Wen YH (2005) Quadrature
oscillators using CCIIs. Int J of Electron 92:21-31
46. Martinez PA, Sanz BMM (2005) Generation of two integrator loop variable frequency
sinusoidal oscillator. Int J Electron 92(10):619-629
47. Fongsamut C, Anuntahirunrat K, Kumwachara K, Surakampontorn W (2006) Current-
conveyor-based single-element-controlled and current-controlled sinusoidal oscillators. Int J
Electron 93:467-478
48. Khan IA, Hasan S (2006) Current mode four phase quadrature oscillator using CCIIs. J Active
Passive Electron Devices 1:273-279
49. Minhaj N (2007) Current conveyor-based voltage-mode two-phase and four-phase quadrature
oscillators. Int J Electron 94:663-669
50. Kumar A, Vyas AL (2007) A single resistance controlled eight possible oscillator circuits for
analog signal processing applications. Acad Open Internet J 21:1-8, ISSN 1311-4360
51. Kumar V, Pal K (2009) Single element controlled sinusoidal oscillators using current con-
veyors. J Active Passive Electron Devices 8:197-202
52. Skotis GD, Psychalinos C (2010) Multiphase sinusoidal oscillators using second generation
current conveyors. Int J Electron Commun 64:1178-1181
53. Abdalla KK, Bhaskar DR, Senani R (2010) Configuration for realizing a current-mode
universal filter and dual-mode quadrature single resistor controlled oscillator. IET Circ
Devices Syst 6:159-167
54. Lahiri A (2011) New canonic active RC sinusoidal oscillator circuits using second-generation
current conveyors with application as a wide-frequency digitally controlled sinusoid generator.
Active Passive Electron Comp 2011, 274394, 8p
'
Search WWH ::




Custom Search