Chapter 3: Difference between revisions
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*Full-wave rectifier circuits: Center-tapped transformer & diode bridge. What are the pros and cons to each? |
*Full-wave rectifier circuits: Center-tapped transformer & diode bridge. What are the pros and cons to each? |
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*Diode clipper circuits and their zener diode equivalents |
*Diode clipper circuits and their zener diode equivalents |
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===Clipper Circuit=== |
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*The resistor is large enough that the forward diode current is within reasonable bounds and small enough so that the reverse bias current results in a negligible voltage drop. |
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**Need help understanding the above sentance |
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===Clamp Circuit=== |
===Clamp Circuit=== |
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*The large capacitor acts as a DC offset and has a very small impedance for the AC signal |
*The large capacitor acts as a DC offset and has a very small impedance for the AC signal. A large resistor is chosen to allow the capacitor to discharge slowly. |
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*Diodes are then used to define the upper and lower limit by conducting if the voltage goes outside their specified range. |
*Diodes are then used to define the upper and lower limit by conducting if the voltage goes outside their specified range. |
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*Why aren't the waveforms clipping in F3.20 (P149) |
*Why aren't the waveforms clipping in F3.20 (P149) |
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Revision as of 08:49, 26 February 2010
- 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 pān 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 possibilities.
- Assume a set of states for the diodes
- Solve the circuit to find for diodes assumed to be on and for diodes assumed to be off
- Check to see if is positive for all diodes assumed to be on and if 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
Clipper Circuit
- The resistor is large enough that the forward diode current is within reasonable bounds and small enough so that the reverse bias current results in a negligible voltage drop.
- Need help understanding the above sentance
Clamp Circuit
- The large capacitor acts as a DC offset and has a very small impedance for the AC signal. A large resistor is chosen to allow the capacitor to discharge slowly.
- Diodes are then used to define the upper and lower limit by conducting if the voltage goes outside their specified range.
- Why aren't the waveforms clipping in F3.20 (P149)
- Continue at 3.8
To Do
- Start up Chapter 3 problems
- Extend the bag of tricks post. Have subsections for op amps and diodes now. Then BJTs later.
References
<references/>