How Does Internal Resistance Affect Diode Load Line Graphs?

In summary, the conversation involves two questions: the difference between the load line graph of a circuit with a DC supply, diode, and resistor with and without internal resistance, and whether the maximum voltage can be determined if the DC supply is replaced with an AC one. The second question is not clear and needs to be rephrased for better understanding.
  • #1
M. next
382
0
Hello there,
I have 2 questions:

1)What's the difference between the load line graph of a circuit having (a DC supply, diode with no internal resistance, and a resistor R) & another circuit having (a DC supply, diode WITH internal resistance, and a resistor R)?

2)If we have a circuit supplying the diode with DC voltage, let's say of value (E) - can we conclude from that the Vm (Maximum Voltage) if DC source was replaced by AC one (of the form V=Vmsin(ωt)? Can we? :S
 
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  • #2
M. next said:
I have 2 questions:

1)What's the difference between the load line graph of a circuit having (a DC supply, diode with no internal resistance, and a resistor R) & another circuit having (a DC supply, diode WITH internal resistance, and a resistor R)?
What are your thoughts on this?
2)If we have a circuit supplying the diode with DC voltage, let's say of value (E) - can we conclude from that the Vm (Maximum Voltage) if DC source was replaced by AC one (of the form V=Vmsin(ωt)? Can we? :S
Your question is not phrased sufficiently clearly for my understanding.
 
  • #3
What's not clear about my second question? What exactly?
And what do you mean by " What are your thoughts on this?"
 
  • #4
M. next said:
What's not clear about my second question? What exactly?
Exactly the whole question. Can you please re-phrase it in proper english?
 
  • #5


1) The load line graph of a circuit with a diode and no internal resistance will have a steeper slope compared to a circuit with a diode and internal resistance. This is because the internal resistance of the diode will limit the current flow and therefore affect the voltage drop across the diode. In the first circuit, the diode will have a constant voltage drop regardless of the current, whereas in the second circuit, the voltage drop will vary with the current due to the internal resistance.

2) No, we cannot conclude the Vm (maximum voltage) of an AC source by knowing the DC voltage applied to the diode. This is because the behavior of a diode changes when an AC source is applied, and it will not have a constant voltage drop like in the DC case. The Vm will depend on the frequency and characteristics of the AC source, and cannot be determined solely by the DC voltage.
 

Related to How Does Internal Resistance Affect Diode Load Line Graphs?

1. What is a diode and how does it work?

A diode is a semiconductor device that allows current to flow in only one direction. It works by having a p-n junction, which is the interface between a positively doped (p-type) and negatively doped (n-type) semiconductor material. When a voltage is applied in the forward direction, the diode conducts current, but when the voltage is applied in the reverse direction, the diode blocks current flow.

2. What are the different types of diodes?

There are several types of diodes, including the standard p-n diode, Schottky diode, Zener diode, and light-emitting diode (LED). Each type has unique properties and applications, such as the Zener diode being used for voltage regulation and the LED being used for emitting light in electronic displays and indicators.

3. What is a power supply and how does it work?

A power supply is a device that converts one form of energy into electrical energy to power electronic devices. It typically takes in AC (alternating current) power from an outlet and converts it into DC (direct current) power using components such as diodes, capacitors, and transformers. The DC power is then regulated and distributed to the electronic devices.

4. How are diodes and power supplies related?

Diodes are commonly used in power supplies to convert AC to DC, as well as to regulate the voltage and prevent reverse current flow. They are also used in rectifiers, which are circuits that convert AC power to DC power.

5. What is the purpose of a graph in relation to diodes and supplies?

Graphs are often used to visualize the relationship between voltage and current in a diode or power supply circuit. This can help in understanding the behavior of the circuit and determining the best operating conditions. For example, a graph of the forward voltage vs. current for a diode can show the forward voltage drop and the knee voltage, which is the point where the diode begins to conduct.

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