Small Signal Model for transistors

AI Thread Summary
The small-signal model is crucial for analyzing the AC characteristics of transistors around a biased point, allowing for easier calculations of gain and impedance in electronic circuits. It is applicable when the input signals are small enough not to alter the device's operating point, simplifying the analysis significantly. In contrast, the large-signal model is used for larger signal variations and accounts for the nonlinear behavior of transistors, which can complicate calculations. The small-signal model linearizes the transistor's characteristics, making it more manageable for design and analysis. Understanding when to use each model is essential for effective circuit design in practical applications.
nebbione
Messages
131
Reaction score
0
Hi everyone, at my university (Computer engineering) we are studying the small signal model, but i didn't understand the practical application, i mean, why and when should it be used ?

For example at home i usually make electronics circuits, so i wanted to know how can i use the small signal model in my experiments ?

And when to use the large signal model ?

Thank you,
 
Engineering news on Phys.org
The small-signal model tells you the AC characteristics around a biased point. It is used when you need the AC characteristics (gain, impedance) of the transistor so that you can calculate the AC gain or impedance of the circuit that incorporates that transistor.
 
And what's the difference between large signal model?
 
nebbione said:
And what's the difference between large signal model?

... a small signal model, which lends itself well to small signal design and analysis. ... charge control model, which is particularly well suited to analyze the large-signal transient behavior ...


http://ecee.colorado.edu/~bart/book/book/chapter5/ch5_6.htm
 
nebbione said:
And what's the difference between large signal model?

The issue is that it is VERY difficult to calculate things like gain, bandwidth, and distortion directly from first principles. You end up with Volterra series which are notoriously difficult to deal with.

By making some assumptions (the main one being the signal is small enough not to change the device's operating point) you can make the calculations MUCH easier, and also more insightful.

In practice you use the small-signal model whenever you can, and the large-signal model when you must.
 
nebbione said:
And what's the difference between large signal model?
The characteristic curves of a transistor are very nonlinear. Its β varies with IC, its VBE varies exponentially with IB, etc. The small signal model is a linear approximation that works well for small excursions around a fixedpoint, and allows much easier analysis & design. See below.

The best idea is to think of the diode's exponential curve. For small excursions around a point on that curve, we can represent the exponential's behaviour as a DC voltage source in series with a fixed resistor, we have linearised the characteristic. The resistor value needed? It's determined as being equal to the slope of the exponential at that operating point.

Suppose you see that your transistor's collector current is 100mA when its base current is 1mA. You'd probably say its β = 100. But then you notice that for a collector current of 115mA the base current needed is 1.3mA. So it seems β here is only about 90? But when designing for small changes, we say IC changed by 15mA when IB changed by 0.3mA, giving a small signal β = ΔIC / ΔIB = 50[/color]
 

Thread 'Underwater piezoelectric sensor array receive sensitivity'

Hi all I have some confusion about piezoelectrical sensors combination. If i have three acoustic piezoelectrical sensors (with same receive sensitivity in dB ref V/1uPa) placed at specific distance, these sensors receive acoustic signal from a sound source placed at far field distance (Plane Wave) and from broadside. I receive output of these sensors through individual preamplifiers, add them through hardware like summer circuit adder or in software after digitization and in this way got an...
View full post »

Thread 'Following up on the recent thread about Earth Resistance measurements'

I have recently moved into a new (rather ancient) house and had a few trips of my Residual Current breaker. I dug out my old Socket tester which tell me the three pins are correct. But then the Red warning light tells me my socket(s) fail the loop test. I never had this before but my last house had an overhead supply with no Earth from the company. The tester said "get this checked" and the man said the (high but not ridiculous) earth resistance was acceptable. I stuck a new copper earth...
View full post »
Thread 'Beauty of old electrical and measuring things, etc.'

Thread 'Beauty of old electrical and measuring things, etc.'

Even as a kid, I saw beauty in old devices. That made me want to understand how they worked. I had lots of old things that I keep and now reviving. Old things need to work to see the beauty. Here's what I've done so far. Two views of the gadgets shelves and my small work space: Here's a close up look at the meters, gauges and other measuring things: This is what I think of as surface-mount electrical components and wiring. The components are very old and shows how...
View full post »

Similar threads

Resistance, capacitance, inductance of a real wire
Replies
2
Views
2K
NPN transistor and how it operates....
Replies
11
Views
2K
Troubleshooting Laser Diode Circuit with Arduino and PN2222a Transistor
Replies
10
Views
2K
Engineering Input and Output Impedance of circuit
Replies
12
Views
3K
Signal Speed Below the Speed of Light for Circuit Abstraction
Replies
8
Views
2K
Mosfet, Mesfet vs Bipolar transistors in RF circuits
Replies
28
Views
5K
Difference between large signal and small signal models
Replies
3
Views
4K
Can I use PID to maximize a detector signal?
Replies
23
Views
2K
Class A Amplifier Sinusoidal Input/Output Relation
Replies
3
Views
3K
Is my understanding of the Nyquist theorem correct?
Replies
4
Views
2K

Hot Threads

Recent Insights

Back
Top