3 or more transistor darlington

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In summary, the conversation discusses the possibility of amplifying a signal further using additional transistors in a darlington pair setup. However, it is noted that this may lead to problems such as increased pedestal voltage, thermal and noise effects, and degradation of frequency response. It is mentioned that some manufacturers have successfully used darlington triples in high power audio amplifiers, but it is not recommended for general use. The conversation ends with a recommendation to consider alternative methods for achieving the desired gain, such as using a FET stage.
  • #1
ramonegumpert
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Hello Experts,

My darlington pair cannot amplify the signal to the desired level.
To further amplify, is it as simple as adding another transistor (all NPN) where the Emitter of the second transistor is fed into the base of the 3rd transistor and this 3rd transistor collector is shorted to the collectors of the 1st and 2nd transistor?

And does it mean signals can be amplified like this infinitely?

regards
Ramone
 
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  • #2
Hi experts, please could you confirm if it is correct that i can amplify output from a darlington pair with a 3rd amplifer connected as described?

regards
Ramone
 
  • #3
Lets start with a schematic.
 
  • #4
Yes you can add further transistors to the amplifying chain so long as you can overcome the problems.

1) Each transistor adds to the pedestal voltage.
2) The thermal and noise effects are multiplied by each added transistor.
3) You can arrange for the collector and base currents to match at each stage interface.
4) You can overcome the degradation of frequency response due to the capacitance of each additional stage.

And does it mean signals can be amplified like this infinitely?

No, the pedestal voltage increases with each additional transistor.

Having said all that, several famous manufacturers have successfully employed darlington triples in high power audio amplifiers.

go well
 
Last edited:
  • #5
What AverageSupernova said.

The gain of the complete circuit, and the gain of the transistor, are two different things,
and only they are often intentionally orders of magnitude different from each other.
 
  • #6
Also the change in bias and gain with temperature may be too much to be useful in the circuit. Out of curiosity I once designed in SPICE but never actually built a "darlington" using a FET and a BJT that seemed to work quite well.
 
  • #7
ramonegumpert said:
Hello Experts,

My darlington pair cannot amplify the signal to the desired level.
To further amplify, is it as simple as adding another transistor (all NPN) where the Emitter of the second transistor is fed into the base of the 3rd transistor and this 3rd transistor collector is shorted to the collectors of the 1st and 2nd transistor?

And does it mean signals can be amplified like this infinitely?

regards
Ramone

Why don't you post the details of the signal source that you need to amplify and we can make recommendations. There may be better ways to achieve it than simply increasing the gain of a composite transistor in a single stage design. Perhaps the reason (for not getting enough overall gain) is the source impedance, in which case a FET stage may be more appropriate (for example).
 

1. What is a "3 or more transistor darlington"?

A "3 or more transistor darlington" is a type of electronic circuit that is commonly used to amplify weak signals. It consists of three or more transistors connected in a specific way to increase the overall gain of the circuit.

2. How does a "3 or more transistor darlington" work?

The first transistor in the darlington pair acts as an amplifier, while the second transistor acts as a buffer. The third transistor is added to further increase the overall gain of the circuit. This allows for a larger output signal compared to the input signal.

3. What are the advantages of using a "3 or more transistor darlington" circuit?

One of the main advantages is its high gain, which makes it suitable for amplifying weak signals. It also has a low input impedance, making it easy to drive with other circuits. Additionally, it has a high output impedance, which means it can drive loads without causing significant changes in the circuit.

4. What are some common applications of a "3 or more transistor darlington"?

The darlington circuit is commonly used in audio amplifiers, motor control circuits, and power supplies. It can also be used in sensors and other low-level signal amplification applications.

5. Are there any drawbacks to using a "3 or more transistor darlington" circuit?

One potential drawback is its relatively slow response time due to the multiple transistors in the circuit. It also has a high power consumption compared to other amplifier circuits. Additionally, it may introduce noise or distortion to the amplified signal.

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