Transistor's equivalent circuit

In summary, the small-signal equivalent circuit for transistors is valid for small signals only and does not include DC values. This is because the small-signal parameters depend on the DC currents. While the current can be thought of as alternating in terms of small signal variations on a larger DC bias, it is not technically alternating. The equivalent circuit is the same for both NPN and PNP transistors, as the small-signal parameters are determined by transistor physics which is identical for both types. This is why the structure of the small-signal diagrams for both types is identical.
  • #1
potatowhisperer
31
1
well in midfrequency the transistor has a simplified equivalent system . our professor told us that even though pnp and npn transistors have different current directions they both have the same circuit, and that the direction of the currents in the equivalent circuit doesn t change whether it s pnp or npn .
the currents come from B and C and go towards E.
the reason he said was because we are working with alternating current.
is this true ?
 
Engineering news on Phys.org
  • #2
Yes - it is true. The "simplified" equivalent diagram you have mentioned is valid for small signals only .
With other words: For small changes of the dc voltages/currents only
For this reason, the dc values do NOT appear in this equivalent diagram - but the values of the small-signal parameters depend on the dc currents.
 
  • #3
Good answer LvW.

Your professor's statement that you are working with alternating current is technically imprecise. The current is not alternating except in the sense that you could think of the small signal variations as a small AC signal imposed on a larger DC bias.
 
  • #4
ah ok . but is the equivalent circuit exactly the same for both npn and pnp transistors ?
cause i am in a loss now , as another professor that works exercises with us , told us that the current in the simplified diagram changes direction depending if it s npn or pnp . and the other says that they do not .
thank you very much for your help and assistance.
 
  • #5
...and what is your opinion?
 
  • #6
i am sorry , i am just a bit dumb with electronics , and professors not agreeing is just not a good sign .
i think they are the same , for pnp or npn , courses say that this is the equiv circuit of a transistor not an npn , but then go and show examples only using npn transistors.
i m sorry again .
 
  • #7
The small-signal parameters (as shown in the equivalent circuit diagram) are the slopes of the corresponding characteristiv curces I=f(V).
The form and the slope of these curves is determined by transistor physics only. And the physics is identical for npn and pnp.
Hence, the small-signal diagrams of both types are comparable (and the structure is identical).
 
  • #8
thank you very very very much . honestly.
 

Related to Transistor's equivalent circuit

1. What is a transistor's equivalent circuit?

A transistor's equivalent circuit is a simplified representation of the internal components and connections of a transistor. It is used to analyze and design circuits using transistors.

2. Why is it important to understand a transistor's equivalent circuit?

Understanding a transistor's equivalent circuit allows for better analysis and design of circuits using transistors. It also helps in troubleshooting and identifying potential issues in a circuit.

3. What components are included in a transistor's equivalent circuit?

A transistor's equivalent circuit typically includes the base, emitter, and collector terminals, as well as resistors and capacitors that represent the internal components of the transistor.

4. How is a transistor's equivalent circuit different from its actual circuit?

A transistor's equivalent circuit is a simplified version of its actual circuit, which includes all of the internal components and connections. It is used for analysis and design purposes and does not account for all of the nuances and variations that may exist in an actual circuit.

5. How can I use a transistor's equivalent circuit in my circuit design?

A transistor's equivalent circuit can be used to determine the behavior and characteristics of a transistor in a circuit. This information can then be used to choose appropriate values for other components and optimize the performance of the circuit.

Similar threads

NPN transistor overheating even when used with appropriate parameters
    • Electrical Engineering
Replies
11
Views
2K
Magnetic equivalent circuit for a UU-core inductor
    • Electrical Engineering
Replies
7
Views
476
Why does a transistor in saturation act like a short circuit?
    • Electrical Engineering
Replies
5
Views
2K
Will the bleed resistors enable a shorter path to ground or not?
    • Electrical Engineering
3
Replies
80
Views
3K
NPN and PNP transistors and load
    • Electrical Engineering
Replies
7
Views
3K
Build a H-Bridge Circuit: Tips & Info
    • Electrical Engineering
Replies
10
Views
5K
Pnp transistor with base connected to collector
    • Electrical Engineering
Replies
5
Views
3K
DC equivalent circuit of CB transistor?
    • Electrical Engineering
Replies
2
Views
990
How is KVL used in the node method KCL equations?
    • Electrical Engineering
Replies
3
Views
827
Beta of a Transistor (both NPN and PNP), how would I do that?
    • Electrical Engineering
Replies
9
Views
6K

Hot Threads

Recent Insights

Back
Top