Why is a bridge rectifier necessary in this circuit?

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In summary, the conversation discusses shortcircuiting D1 and D2 and disconnecting D3 and D4 in a circuit to calculate the average Vrl. It is clarified that shortcircuiting D1 and D2 means replacing them with wires, and disconnecting D3 means removing it from the circuit. The conversation also mentions a block on the right that controls firing angle and the role of an SCR in blocking the negative cycle. The need for a bridge rectifier is questioned.
  • #1
Femme_physics
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I am told that in this circuit (above pic) we shortcircuit D1 and D2, and disconnect D3 and D4... then we are to calculate Vrl(average)

But the way I see it, if we shortcircuit D1 and D2 the entire circuit is shortcircuit and current only flows like this (below pic)

http://img195.imageshack.us/img195/8396/d1d2d3.jpg
 
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  • #2
When the question asks "shortcircuit D1 and D2", I think it means: "replace D1 with a wire and replace D2 with a wire"
 
  • #3
Yep.
And disconnecting D3 means taking D3 out.
So there cannot go current anymore through the place where D3 used to be...
 
  • #5
Yep. The current would flow like that. :)

What about that block on the right? What does it do?
Does it draw any current?
And is the SCR always conductive?
Doesn't that depend on the voltage at its gate?
 
  • #6
So current only flows at the positive cycle

Yes and no. You have only modeled the positive cycle.

To model the negative cycle put the diodes back and pretend the other two are shorted/conducting.
 
  • #7
The block to the right is a circuit to control firing angle (At 30 degrees).

CWatter - There is no negative cycle. The SCR blocks it! All the voltage falls on the SCR and nothing on the load.
 
  • #8
Okay.
Then I guess you are set to calculate the average Vrl.
 
  • #9
Femme_physics said:
CWatter - There is no negative cycle. The SCR blocks it! All the voltage falls on the SCR and nothing on the load.

Perhaps you can explain why a bridge rectifier is needed then :-)
 

Related to Why is a bridge rectifier necessary in this circuit?

1. What is a shortcircuiting diode bridge?

A shortcircuiting diode bridge is a type of electronic circuit that is used to convert alternating current (AC) to direct current (DC). It consists of four diodes arranged in a bridge configuration, where two diodes are connected in series in each direction. The diodes allow current to flow in only one direction, effectively converting the AC input to a pulsating DC output.

2. How does a shortcircuiting diode bridge work?

The shortcircuiting diode bridge works by using the four diodes to rectify the AC input. When the AC voltage is positive, two of the diodes will conduct and allow current to flow in one direction, while the other two diodes will be reverse biased and block the current. When the AC voltage is negative, the roles of the diodes will switch, allowing current to flow in the opposite direction. This results in an overall pulsating DC output.

3. What are the advantages of using a shortcircuiting diode bridge?

One of the main advantages of a shortcircuiting diode bridge is its simplicity. It is a relatively simple and inexpensive circuit to construct, making it a popular choice for converting AC to DC in electronic devices. Additionally, the pulsating DC output can be further smoothed and regulated using capacitors and voltage regulators, making it suitable for a wide range of applications.

4. Are there any limitations to using a shortcircuiting diode bridge?

One limitation of a shortcircuiting diode bridge is that the output will still have some ripple, or fluctuations, due to the pulsating nature of the DC output. This can be reduced by using additional components, but it may not be suitable for applications that require a completely steady DC output. Additionally, the diodes used in the bridge can only handle a certain amount of current and voltage, so the bridge may need to be designed with these limitations in mind.

5. What are some common applications of a shortcircuiting diode bridge?

A shortcircuiting diode bridge is commonly used in electronic devices that require a DC power supply, such as computers, televisions, and audio equipment. It is also used in power supplies for electronic circuits, battery chargers, and motor control circuits. Additionally, it can be used in rectifiers for AC motors, generators, and other industrial equipment.

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