Base emitter voltage and collector current

In summary, a decrease in base-emitter voltage leads to a decrease in collector current due to the characteristic of a p-n junction diode. This decrease occurs because the base current decreases with decreasing base-emitter voltage. The equation Ib=Vb/Rb - Vbe/Rb shows that as Vbe increases, base current decreases. However, this equation involves external components and does not directly relate to the junction. The relationship between base current and collector current is also influenced by the transistor's Beta, which is a function of collector current.
  • #1
ranju
223
3
Does decrease in value of base-emitter voltage decreases collector current..??
As I studied that decrease in base-emitter voltage of some part of signal to lesser ammplification of that part due to smaller current..but how base emitter voltage is leading to less collector current..
because if base-emitter voltage decrease , base current increase which further increase collector current..
 
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  • #2
ranju said:
Does decrease in value of base-emitter voltage decreases collector current..??
Yes.

As I studied that decrease in base-emitter voltage of some part of signal to lesser ammplification of that part due to smaller current..but how base emitter voltage is leading to less collector current..
because if base-emitter voltage decrease , base current increase which further increase collector current..
If VBE decreases, base current decreases. It's a p-n junction, so the characteristic is that of a p-n junction diode. If the forward voltage increases, the forward current increases.
 
  • #3
But base-emitter voltage is a barrier voltage.. so if it decreases , base current should increase..!
 
  • #4
ranju said:
But base-emitter voltage is a barrier voltage.. so if it decreases , base current should increase..!
No. NascentOxygen has given you the correct answer. Consider the Base-Emitter Voltage curves:

basemit.gif


Check out these Base-Emitter Junction Details.
 
  • #5
But is'nt there any logic behind it...??
because if we see this equ.
Ib=Vb/Rb - Vbe/Rb
so from this equ. it can be seen that if Vbe increase base current decrease..!
 
  • #6
have you ever run across the formula for current through a junction,
I=eqv/kt
where v would be your Vbe ?
That's what dlgoff's graph is showing you.


because if we see this equ.
Ib=Vb/Rb - Vbe/Rb
so from this equ. it can be seen that if Vbe increase base current decrease..!

that involves not only Vbe but an external Vb and an external Rb.

Your original question
Does decrease in value of base-emitter voltage decreases collector current..??
did not involve either.

It is important to be rigorous in your thinking. Focus on the junction, after you've figured it out then add the external components.

Base current and collector current are related by the transistor's Beta,
which itself is a function of collector current...
 

1. What is the relationship between base emitter voltage and collector current?

The base emitter voltage and collector current have a direct relationship. As the base emitter voltage increases, the collector current also increases. This is known as the forward active region of a transistor.

2. How does the base emitter voltage affect the operation of a transistor?

The base emitter voltage plays a crucial role in controlling the flow of current in a transistor. By adjusting the base emitter voltage, the collector current can be varied, allowing for amplification and switching functions in electronic circuits.

3. What is the significance of the base emitter voltage in transistor biasing?

Transistor biasing is the process of setting the base emitter voltage to a specific value in order to ensure proper transistor operation. The base emitter voltage determines the operating point of the transistor and affects its stability and linearity.

4. Can the base emitter voltage and collector current be controlled independently?

No, the base emitter voltage and collector current are not completely independent. The collector current is directly proportional to the base emitter voltage, and any changes in one will affect the other.

5. How does temperature affect the base emitter voltage and collector current?

Temperature can have a significant impact on the base emitter voltage and collector current of a transistor. As temperature increases, the base emitter voltage decreases, causing a decrease in collector current. This is known as the negative temperature coefficient of a transistor.

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