[" In the figure,given that "V_(BB)" supply can vary from "0" to "],[5.0V,V_(CC)=5V,beta_(dc)=200,quad R_(B)=100k Omega,R_(C)=1k Omega" and "],[V_(BE)=1.0V," The minimum base current and the input "],[" voltage at which the transistor will go to saturation,will "],[" be,respectively: "]

In the figure, given that V_(BB) supply can vary from 0 to 5.0V,V_(CC)=5V,beta_(dc)=200,R_(B)=100Komega,R_(C)=1Komega and V_(BE)=1.0V , The minimum base current and the input voltage at which the transistor will go to saturation, will be, respectively:

In the figure, given that V_(BB) supply can vary from 0 to 5.0V,V_(CC)=5V,beta_(dc)=200,R_(B)=100KOmega,R_(C)=1KOmega and V_(BE)=1.0V , The minimum base current and the input voltage at which the transistor will go to saturation, will be, respectively:

In common emitter transistor as shown in Fig., the V_(BB) supply can be varied from 0 V to 5.0V. The Si. Transistor has beta_(ac)=250 and R_(B)=100kOmega, R_(c)=1k Omega,V_(C C)=5.0V . Assume that when the transistor is saturated, V_(CE)=0V and V_(BE)=0.8V . Calculate the minimum base current, for which the transistor will reach saturation. Hence, determine V_(i) when the transistor is 'switched on' find ranges of V_(i) for which the transistor is switched off and switched on.

In common emitter transistor as shown in Fig., the V_(BB) supply can be varied from 0 V to 5.0V. The Si. Transistor has beta_(ac)=250 and R_(B)=100kOmega, R_(c)=1k Omega,V_(C C)=5.0V . Assume that when the transistor is saturated, V_(CE)=0V and V_(BE)=0.8V . Calculate the minimum base current, for which the transistor will reach saturation. Hance, determine V_(i) when the transistor is 'switched on' find ranges of V_(i) for which the transistor is switched off and switched on.

In Fig (a) , the V_(BB) supply can be varied from 0 V to 5.0 V . The Si transistor has beta_(dc) = 250 and R_(B) = 100 kOmega , R_(C) = 1 k Omega , V_(C C) = 5.0 V . Assume that when the transistor is saturated , V_(CE) = 0V and V_(B E) = 0.8 V . Calculate (a) the minimum base current , for which the transistor will reach saturation .

V_("BB") can vary between 0 and 5 V. Find the minimum value of base current and V_("BB") , so that transistor works in saturation mode. ["Given "beta =200 and V_("BE")=1V]