Yang Yongmin. STUDY OF START-OSCILLATION AND AMPLITUDE-STABILIZATION OF SC OSCILLATORS[J]. Journal of Electronics & Information Technology, 1992, 14(1): 29-34.
Citation:
Yang Yongmin. STUDY OF START-OSCILLATION AND AMPLITUDE-STABILIZATION OF SC OSCILLATORS[J]. Journal of Electronics & Information Technology, 1992, 14(1): 29-34.
Yang Yongmin. STUDY OF START-OSCILLATION AND AMPLITUDE-STABILIZATION OF SC OSCILLATORS[J]. Journal of Electronics & Information Technology, 1992, 14(1): 29-34.
Citation:
Yang Yongmin. STUDY OF START-OSCILLATION AND AMPLITUDE-STABILIZATION OF SC OSCILLATORS[J]. Journal of Electronics & Information Technology, 1992, 14(1): 29-34.
How to start oscillation and how to stabilize amplitude in SC oscillators are discussed. New methods for start-oscillation and amplitude-stabilization of SC oscillators are presented. The control circuitry with good stability for amplitude-stabilization is given. It is shown that the complexity of the amplitude-stabilization circuitry does not increase as the number of oscillator phases in the multiphase oscillator increases. The experimental results are in agreement with the presented theory.
杨永明,电子科学学刊,10(1988)6, 491-500.[2]W. B. Mikhae, S. Tu, IEEE Trans. on CAS, CAS-31(1984), 280-291.[3]R. Gregorian, K. R. Matin, G. C. Temes, Proc. IEEE, 71(1983) 8, 941-965.[4]E. Vittoz, IEEE J. of SC, SC-14 (1979) 3. 644-647.[5]R. P. Colbeck, IEEE J, of SC, SC-19 (1984) 6, 996-998.[6]P. E. Fleischer, A. Ganesun, K. R. Laker, IEEE J. of SC, SC-20 (1985) 2, 641-647.[7]G. C. Temes.[J].Electron. Lett..1978,14:9-
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