Improved on-chip CMOS astable multivibrator

Wei Cui; Yue Qiu Han; He Chen

Improved on-chip CMOS astable multivibrator

Wei Cui^*, Yue Qiu Han, He Chen

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

An improved on-chip CMOS astable multivibrator is proposed, which overcomes the shortcomings of the traditional one that the signal duty-cycle is depending on model parameters, and generates stable clock signal with duty-cycle equaling 50%. The latch-up effect has been prevented on the improved circuit. It is extremely important that all the excellent performances of the improved astable multivibrator have been achieved with a dynamic power consumption equaling its predecessor one. The advantage of the structure has been verified by SPICE simulation.

Original language	English
Pages (from-to)	360-363
Number of pages	4
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	11
Issue number	4
Publication status	Published - Dec 2002

Keywords

ASIC
Astable multivibrator
CMOS
Duty-cycle
Latch-up effect
Two divided-frequency

Cite this

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abstract = "An improved on-chip CMOS astable multivibrator is proposed, which overcomes the shortcomings of the traditional one that the signal duty-cycle is depending on model parameters, and generates stable clock signal with duty-cycle equaling 50%. The latch-up effect has been prevented on the improved circuit. It is extremely important that all the excellent performances of the improved astable multivibrator have been achieved with a dynamic power consumption equaling its predecessor one. The advantage of the structure has been verified by SPICE simulation.",

keywords = "ASIC, Astable multivibrator, CMOS, Duty-cycle, Latch-up effect, Two divided-frequency",

author = "Wei Cui and Han, {Yue Qiu} and He Chen",

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AU - Han, Yue Qiu

AU - Chen, He

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AB - An improved on-chip CMOS astable multivibrator is proposed, which overcomes the shortcomings of the traditional one that the signal duty-cycle is depending on model parameters, and generates stable clock signal with duty-cycle equaling 50%. The latch-up effect has been prevented on the improved circuit. It is extremely important that all the excellent performances of the improved astable multivibrator have been achieved with a dynamic power consumption equaling its predecessor one. The advantage of the structure has been verified by SPICE simulation.

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KW - Astable multivibrator

KW - CMOS

KW - Duty-cycle

KW - Latch-up effect

KW - Two divided-frequency

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ER -

Improved on-chip CMOS astable multivibrator

Abstract

Keywords

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