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BJT transistor saturation

Hi all
I have a homework question which i would like someone to verify my results please.
I have a npn transistor. Rl and Rb are not given. Common emitter configuration.
Vcc is 18V. Power is 2W.
So using P=VI, transpose this gives me I = P/V = 2/18= 111mA
Hfe is IC/IB Note hfe min is 180
Ib is therefore ic/hfe = 111mA/ 180 = 616uA

If the input to base is 3V, then to calculate
Rb is
3-vbe/Ib, this is then 3-0.7/616uA= 1.8K.

Dies this seem correct??
 
Hi all
I have a homework question which i would like someone to verify my results please.
I have a npn transistor. Rl and Rb are not given. Common emitter configuration.
Vcc is 18V. Power is 2W.
So using P=VI, transpose this gives me I = P/V = 2/18= 111mA
Hfe is IC/IB Note hfe min is 180
Ib is therefore ic/hfe = 111mA/ 180 = 616uA

If the input to base is 3V, then to calculate
Rb is
3-vbe/Ib, this is then 3-0.7/616uA= 1.8K.

Dies this seem correct??

1) What are you trying to find? You never say what.

2) You should write (3 - 0.7)/616 uA, not 3-0.7/616uA .

3) Saturation voltage of a BJT is between 0.2 - 0.5 volts.

4) Does, not Dies.

5) Personal pronouns are capitalized. I, not i .

Ratch
 
Hi
Sorry i was typing in a hurry.
I was trying to find out the collector current, base current and value of base resistor to saturate the transistor.
Thanks.
 
Hi
Sorry i was typing in a hurry.
I was trying to find out the collector current, base current and value of base resistor to saturate the transistor.
Thanks.

Reduce the 18 volts by the saturation voltage of the BJT to refine your answer. Calculations look OK.

Ratch
 
If you put 3 volts on the base of an npn transistor with the emitter grounded you will let the smoke out.

.7 volts on the base will drive it into cut off.
 
If you put 3 volts on the base of an npn transistor with the emitter grounded you will let the smoke out.

.7 volts on the base will drive it into cut off.

True, but the OP proposes to put a 1k8 base resistor in series with the 3.0 V. According to the calculations.

Ratch
 
Yes i have a base resistor of 1k8 in the circuit.
Will my calculations saturate the transistor?

Also if the transistor was a bc847 npn, can someone show me how to use the datasheet to obtain saturation values for Ic and Ib.
Thanks
 
Yes i have a base resistor of 1k8 in the circuit.
Will my calculations saturate the transistor?

As long as the beta is more than 180, the transistor will be in saturation at the values given for the circuit.

Also if the transistor was a bc847 npn, can someone show me how to use the datasheet to obtain saturation values for Ic and Ib.
Thanks

Saturation depends on the beta and the values of the components and voltages external to the transistor. Anytime the Vec goes near or below Veb, saturation occurs. That can happen for an infinite number of different values of Ib and Ic. You won't find those values on a data sheet.

Ratch
 
Thanks. I have seen on datasheets information like vce(sat)=0.2v, Ic =10mA, ib 0.5mA.
Are these not saturation conditions too?
 

(*steve*)

¡sǝpodᴉʇuɐ ǝɥʇ ɹɐǝɥd
Moderator
In addition to the above post by @Ratch, transistors are frequently specified as having a range of HFE. This means that two transistors picked at random and biased with the same base current could vary significantly in their state. For the same load, one might be in saturation, and the other not.

I believe we have a thread somewhere where we give some hints on ensuring a transistor is in saturation.

Basically it boils down to calculating the current required based on the minimum HFE and than applying 3 to 10 times this base current.

To determine whether a particular transistor is actually saturated, first you need to define saturation. If it is Vce < Vbe (a good starting point) then you can simply measure these values (or even just Vce, assuming Vbe is approx 0.7V).

Transistors can be forced further into saturation, the datasheet will often give a Vce well under 0.7V when fully saturated (it may be 0.15V).

For a particular purpose (e.g. reducing dissipation in switching applications) you may want to reduce Vce to a minimum, and here is where you might use a multiplier closer to 10 rather than 3 in the heuristic given above.
 

(*steve*)

¡sǝpodᴉʇuɐ ǝɥʇ ɹɐǝɥd
Moderator
Yes your example indicates saturation, but the transistor would not be in saturation for a significantly higher Ic.

Unless your load corresponds to the example given in the datasheet, you need to do some calculations yourself.

Out of curiosity, what is the minimum HFE specified for that transistor in the datasheet?
 
Vce(sat) specs are usually Ic/Ib=10~20 and the Vce/Ic=ESR is a calculation to make useful projections of Vce vs Ic. But on the fringe , Saturation is the effective rapid decline in Hfe vs Vce for various Ic levels. In a linea amp operation into a low impedance load, Vce<2V for me is considered going into saturation, due to rapid rise in THD due to rapid decline in hFE, towards 10% of max.
 
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