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If T1 is in the active region, there will be current flowing✻ in RC1 and R at least.Outrageous said:If T1 is in active mode all the time, will there be any current flow in this circuit? ( I think it is impossible to flow) thanks
NascentOxygen said:If T1 is in the active region, there will be current flowing✻ in RC1 and R at least.
✻ assuming the lower horizontal line is connected to a suitable voltage rail
Thanks, guysNascentOxygen said:If T1 is in the active region, there will be current flowing✻ in RC1 and R at least.
✻ assuming the lower horizontal line is connected to a suitable voltage rail
A monostable multivibrator is an electronic circuit that produces a single pulse or a square wave output in response to a triggering input signal. It has only one stable state and returns to that state after a certain period of time.
In a monostable multivibrator, the transistor1 is in active mode, which means it is biased in the forward direction. When a triggering input signal is applied, it causes the transistor to switch from its active state to its saturated state, producing a pulse at the output. Once the input signal stops, the transistor returns to its active state and the circuit returns to its initial stable state.
The transistor1 in active mode acts as a switch, allowing current to flow from the power supply to the output of the circuit. When the transistor is in its active state, it is biased in the forward direction and can amplify the input signal to produce a pulse at the output.
Monostable multivibrators are commonly used in electronic timing circuits, such as in electronic clocks, timers, and pulse generators. They can also be used in applications where a single pulse or a square wave output is needed, such as in electronic music synthesizers or in remote control systems.
One of the main advantages of using a monostable multivibrator is its ability to produce a precise, single pulse or square wave output. It is also a simple and cost-effective circuit, making it a popular choice in electronic systems. Additionally, it can be easily integrated into larger electronic circuits and can be used in a wide range of applications.