Understanding Diode Circuit Analysis: Common Confusions Addressed

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Discussion Overview

The discussion revolves around the analysis of diode circuits, focusing on the assumptions made regarding the biasing of diodes and the resulting implications for circuit modeling. Participants express confusion about the behavior of diodes in different biasing conditions and the calculations related to voltage across specific components.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • Some participants question why a reverse biased diode is modeled as a switch, asking if this is a universal approach for all reverse biased diodes.
  • Others assert that a reverse biased diode acts as an open circuit while a forward biased diode acts as a short circuit, suggesting this is analogous to a switch.
  • There is a discussion about the voltage drop across a forward biased diode being relatively independent of the current, with some approximating it as zero.
  • Participants mention the need to make initial assumptions about the biasing of diodes when solving circuit problems, and the process of reevaluating these assumptions based on circuit behavior.
  • Confusion arises regarding the calculation of voltage across diode D1, specifically the reasoning behind using the expression 10 - 3.
  • Some participants highlight that the assumption of diode states is critical, and if the initial assumption does not hold, a new assumption must be made.
  • There is acknowledgment that the ideal behavior of diodes may not apply to real diodes, which have non-ideal characteristics.

Areas of Agreement / Disagreement

Participants express a mix of agreement and confusion regarding the modeling of diodes and the assumptions made in circuit analysis. While some points are clarified, significant uncertainty remains about the voltage calculations and the assumptions regarding diode states.

Contextual Notes

Limitations include the dependence on ideal diode behavior, which may not reflect real-world characteristics, and the unresolved nature of the voltage calculation across D1, as well as the assumptions made about diode biasing.

influx
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I have just started studying this topic and I am confused about several things.

1) Why does the assumption that D1 is reverse biased mean it is modeled as a switch? Are reverse biased diodes always modeled as a switch?
2) Also, why does the assumption that D2 is forward biased means it can be modeled as above?
3) Where did they get V = 7V from?

Thanks
 
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influx said:
zzzztht.png


I have just started studying this topic and I am confused about several things.

1) Why does the assumption that D1 is reverse biased mean it is modeled as a switch? Are reverse biased diodes always modeled as a switch?
2) Also, why does the assumption that D2 is forward biased means it can be modeled as above?
3) Where did they get V = 7V from?

Thanks

1) A reverse biased diode is an open circuit and a forward biased diode is a short circuit. Doesn't that sound like a switch to you?
2) I don't even understand the question. A forward biased diode is a short circuit and they have shown it as a short circuit. What is it you don't understand?
3) Uh ... what's 10 minus 3?
 
influx said:
zzzztht.png


I have just started studying this topic and I am confused about several things.

1) Why does the assumption that D1 is reverse biased mean it is modeled as a switch? Are reverse biased diodes always modeled as a switch?
2) Also, why does the assumption that D2 is forward biased means it can be modeled as above?
3) Where did they get V = 7V from?

Thanks

2. When a diode is in forward conduction mode it has a voltage drop that is relatively independent from the current through the device. This voltage drop is sometimes approximated as zero (a short circuit).

3. typically for solving multiple diode problem you make a guess as to whether the diodes are conducting or not. you then evaluate your circuit model to figure out if your guess was correct. In this case with 7 volts across diode 1, it would have to be conducting. Therefore you know that your initial guess was wrong, you will have to make another guess and evaluate the circuit again.
 
phinds said:
1) A reverse biased diode is an open circuit and a forward biased diode is a short circuit. Doesn't that sound like a switch to you?
2) I don't even understand the question. A forward biased diode is a short circuit and they have shown it as a short circuit. What is it you don't understand?
3) Uh ... what's 10 minus 3?

donpacino said:
2. When a diode is in forward conduction mode it has a voltage drop that is relatively independent from the current through the device. This voltage drop is sometimes approximated as zero (a short circuit).

3. typically for solving multiple diode problem you make a guess as to whether the diodes are conducting or not. you then evaluate your circuit model to figure out if your guess was correct. In this case with 7 volts across diode 1, it would have to be conducting. Therefore you know that your initial guess was wrong, you will have to make another guess and evaluate the circuit again.

I didn't know that a forward biased diode is a short circuit and that a reverse biased diode is an open circuit. Thanks :)

I'm still confused why its 7V across diode 1 though? Why do we do 10-3 ?

Also, how do you know whether to assume whether a particular diode is forward biased or reverse biased?
 
influx said:
I didn't know that a forward biased diode is a short circuit and that a reverse biased diode is an open circuit. Thanks :)

This is only true of ideal diodes, of course. Real diodes have non-ideal characteristics

I'm still confused why its 7V across diode 1 though? Why do we do 10-3 ?
We do 10 - 3 because it has 10v on one side a 3v on the other side. Just look at the circuit.

Also, how do you know whether to assume whether a particular diode is forward biased or reverse biased?

You don't. That's one of the points of your original problem. You make an assumption and see if the circuit can support the assumption. If it can then you have a solution. If it can't, as in your original problem's assumption, then you don't and you have to try another assumption.

Since the original assumption didn't work, what assumption would you make next?
 
phinds said:
You don't. That's one of the points of your original problem. You make an assumption and see if the circuit can support the assumption. If it can then you have a solution. If it can't, as in your original problem's assumption, then you don't and you have to try another assumption.

Since the original assumption didn't work, what assumption would you make next?

Assume the opposite for each diode. Cool.

phinds said:
We do 10 - 3 because it has 10v on one side a 3v on the other side. Just look at the circuit.

Maybe I am missing something basic but I am failing to see how how that yields the voltage across D1?
 
influx said:
Maybe I am missing something basic but I am failing to see how how that yields the voltage across D1?

I am at a loss as to how to explain that. There is 10V on one side of the diode and 3V on the other side. Draw all the voltages in the circuit.
 
If D2 is conducting the 3V source appears across the 6K resistor. So there you have 4K and D1 in series, and there is 10V on one side and 3V on the other. Note the polarity and work out if D1 is conducting.
 

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