Comparing AC Currents for Equality

In summary, the Ground Fault Protector is a device that compares the currents in your two phases, Line and Neutral, to ensure they're the same magnitude and opposite phase. If one acts different from the other, it reacts by popping the breaker. There are similar devices on an industrial scale.
  • #1
dk99
10
0
There are two AC current carrying conductors.(both are of the same frequency)
How do you compare the currents to know if they're not equal at all times...?

Please Answer as soon as possible ...
 
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  • #2
If the currents are in phase or 180 degrees out of phase, just run the the conductors through a current transformer.

If the currents are not in phase or 180 degrees out of phase, you could rectifify the currents and compare the DC value.
 
  • #3
Thanks carl..
but i don't know anything about those currents... I mean their phase relationships.
Can we use something like 2 current transducers and a comparator??
Do such hardware exist?
 
  • #4
dk99 said:
Thanks carl..
but i don't know anything about those currents... I mean their phase relationships.
Can we use something like 2 current transducers and a comparator??
Do such hardware exist?
Wind equal number M turns (or just pass the conductors through) a window-frame (or toroid) magnetic core, such that the two currents oppose each other. Wind a third coil (N turns) on the window frame, terminate it in a low resistance, and monitor the waveform on an oscilliscope. If constructed correctly, the current in the third coil, times N/M, is the current offset between the two conductors. It is necessary to conduct sufficient current in the third winding to prevent the current offset in the two main conductors from saturating the core. Very roughly, if each primary winding has M turns and the third winding is unterminated, then a current difference of ~30/M amps (very rough number) will saturate the core.
Bob S
 
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  • #5
If the two signals are at some unknown phase to each other, you would have to rectify the signals and measure the currents as DC and then compare them.

Rectifying them would involve something like this for each signal:
AC current meter.PNG


Comparing them would depend on whether the signals had a common return wire or returns that could be joined together. If there was no common return, you could just have two meters and compare them visually, I guess.

If they did have a common return, you could use something like this:

AC current meter 2.PNG


The voltage across the two shunts is rectified and filtered and compared.

Because there is a common ground, these DC voltages could be compared in a microprocessor so that allowances for small variations could be made.
 
  • #6
These toroids are examples of single-turn current transformers.
http://www.toroid.com/standard_transformers/current_sensing_transformers/current_sensing.htm
If you run both current conductors through the hole so that the currents cancel, the output signal will be the current difference signal, even if both currents are equal amplitude and have a slight phase difference.

[added] If you wind 10 turns of each conductor on the 1:300 transformer in the URL, the output will be 1:30 ratio for the current difference. The output is a real-time sine wave of the difference current. You could also use two toriods, and make lissajous curves on an oscilliscope.
Bob S
 
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  • #7
Quick note -
.
The Ground Fault Protector, which is installed in most bathrooms, is circuit that compares the currents in your two phases, Line and Neutral, to ensure they're the same magnitude and opposite phase. If one acts different from the other, it reacts by popping the breaker. There are similar devices on an industrial scale.
.
If you're worried about shocking people, than the common GFI outlet is good. If you're worried about motor winding shorts, you may want something bigger. Contact your square D dealer regarding Ground Fault Interrupters (GFI) or Ground Fault Circuit Interrupters (GFCI)
.
. Mike
 
  • #8
Thank you all... (especially mike :P)

It was helpful..
 

FAQ: Comparing AC Currents for Equality

1. What is the purpose of comparing AC currents for equality?

The purpose of comparing AC currents for equality is to determine if two alternating currents have the same magnitude and frequency. This is important in many applications, such as electrical engineering and power systems, to ensure the proper functioning of equipment and to prevent damage.

2. How do you compare AC currents for equality?

To compare AC currents for equality, you can use a variety of methods, including using an oscilloscope to measure and compare the waveforms, using a multimeter to measure the voltage and frequency, or using mathematical calculations to determine the root mean square (RMS) values of the currents.

3. Why is it important to compare AC currents for equality?

It is important to compare AC currents for equality because differences in magnitude and frequency can affect the performance and safety of electrical systems. For example, imbalanced currents in a three-phase system can cause overheating and damage to equipment. Additionally, if currents in a circuit are not equal, it can indicate a malfunction or faulty component that needs to be addressed.

4. What factors can cause differences in AC currents?

Differences in AC currents can be caused by a variety of factors, including changes in the load on the circuit, variations in the power supply, or issues with the electrical components or connections. Environmental factors, such as temperature and humidity, can also affect the behavior of AC currents.

5. How can you ensure accurate comparison of AC currents for equality?

To ensure accurate comparison of AC currents for equality, it is important to use precise and calibrated measuring equipment, follow proper measurement techniques, and perform multiple measurements to ensure consistency. It is also important to consider any external factors that may affect the currents and take steps to minimize their impact on the measurements.

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