Chapter 3

Diode load line

• Forward bias occurs when the P-type semiconductor material is connected to the positive terminal of a battery and the N-type semiconductor material is connected to the negative terminal, as shown below. This usually makes the p–n junction conduct. <ref> Wikipedia P-N junction</ref>

• Will the current always flow from the anode to the cathode when the diode is forward biased?

• Because diodes are a nonlinear device, traditional circuit analysis will not work on them. One method of analyze the diodes is to do it graphically. This technique is called Load-line analysis.

• Load-line is only used for dc analysis?

• In circuits with multiple diodes, it is not immediately apparent which diodes are on or off. The ideal-diode model assumes that the diode is a perfect conductor with zero voltage drop in the forward direction and an open circuit in the reverse direction.

• Is there a better, less exhaustive method to determine which diodes are on or off? With the current system, for n diodes there are ${\displaystyle 2^{n}}$ possibilities.

1. Assume a set of states for the diodes
2. Solve the circuit to find ${\displaystyle i_{D}}$ for diodes assumed to be on and ${\displaystyle v_{D}}$ for diodes assumed to be off
3. Check to see if ${\displaystyle i_{D}}$ is positive for all diodes assumed to be on and if ${\displaystyle v_{D}}$ is negative for all diodes assumed to be off.

• Explain peak inverse voltage, PIV.
• Full-wave rectifier circuits: Center-tapped transformer & diode bridge. What are the pros and cons to each?
• Diode clipper circuits and their zener diode equivalents
• Explain how a clamp circuit works

References

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