도식방법에 의한 MOSFET 단안정 멀티바이브레이터의 설계

Design of a MOSFET Monostable Multivibrator by Graphical Method

게이트 전류가 흐르지 않는 MOSFET를 사용한 단안정 멀티바치브레이터는 도전시에도 게이트 전압이 일정하게 유지되지 않기 때문에 이 전압을 기준으로 한 회로해석이나 설계는 매우 어려워서, 비교적 간단히 해결할 수있는 도식방법을 소개하였다. 즉 각FET의 전압이득곡선을 구하고 이 유선의 기본적인 성질과 국로 설계에 이용하는 방법들에 대해서 논하였다. In a MOSFET multivibrator, the gate do not hold into a constant clamp voltage during a conduction period. The analysis of the operation and the 43sign of a MOSFET multivibrator circuit are much more discult than that using a bipolar transistor and a electron tube because of above reason. And therefore, in the designing procedures of the MOSFET monostable multivibrator of this paper, a graphical method is adopted in order to analyze and design easily. The voltage gain curves of the both FETs are drawn using a parameter the voltage Vc across the coupling condenser, and the curves are utilized to investigate the voltages of the drains and the gates and determine the gate bias voltage. The diagram gives also important informations for the design of the multivibrator.

In a MOSFET multivibrator, the gate do not hold into a constant clamp voltage during a conduction period. The analysis of the operation and the 43sign of a MOSFET multivibrator circuit are much more discult than that using a bipolar transistor and a electron tube because of above reason. And therefore, in the designing procedures of the MOSFET monostable multivibrator of this paper, a graphical method is adopted in order to analyze and design easily. The voltage gain curves of the both FETs are drawn using a parameter the voltage Vc across the coupling condenser, and the curves are utilized to investigate the voltages of the drains and the gates and determine the gate bias voltage. The diagram gives also important informations for the design of the multivibrator.