Positive/Negative/Zero Sequence voltages/currents

  • Thread starter Thread starter jegues
  • Start date Start date
  • Tags Tags
    Sequence
AI Thread Summary
Positive, negative, and zero sequence voltages/currents are essential concepts in analyzing three-phase power systems, particularly for unbalanced conditions. Positive sequence voltages follow a clockwise phasor rotation (A, B, C), while negative sequence voltages reverse this order (C, B, A). Zero sequence quantities consist of phasors that are in phase with each other, simplifying the analysis of unbalanced systems through the symmetrical components method. This method allows for the conversion of unbalanced phases into independent sources, facilitating the analysis of asymmetric faults. The term "symmetrical" refers to the balanced nature of these phasor sets, which aids in understanding and resolving complex electrical issues.
jegues
Messages
1,085
Reaction score
3
What does it mean when one refers to,

  • Positive
  • Negative
  • Zero

sequence voltages/currents in relation to 3 phase power system?

My blunt understanding is that in say positive sequence voltages, as we rotate around the phasor diagram in a clockwise manner we see the voltages in the following sequence:

A, B, C, A, B, C... And so on.

In negative sequence voltages the sequence is reversed like so,

C, B, A, C, B, A... And so on.

Am I understanding this correctly?

Why do we chose to make such a distinction anyways?

Also, what does one mean when they refer to zero sequence quantities?

Thanks again!
 
Engineering news on Phys.org
I believe these sequences are used when analyzing unbalanced systems with the Symmetrical components method.

In a three-phase system, one set of phasors has the same phase sequence as the system under study (positive sequence; say ABC), the second set has the reverse phase sequence (negative sequence; CBA), and in the third set the phasors A, B and C are in phase with each other (zero sequence). Essentially, this method converts three unbalanced phases into three independent sources, which makes asymmetric fault analysis more tractable.
 
dlgoff said:
I believe these sequences are used when analyzing unbalanced systems with the Symmetrical components method.

I read the wiki page you linked and it added some clarity, but its still not obvious to me why they are called symmetrical components.

Why the word symmetrical?

What does one mean when they refer to, "symmetrical sets of balanced phasors"?

Thanks again!
 
The reason for using symmetrical components is that a 3 phase unsymetrical system can be analyzed by three symmetrical system/circuits. That is +, - and 0 sequence.

It is (purely?) a mathematical decomposition, and has no physical meaning. (To my knowledge)
 
From the wiki Symmetrical components page:

Essentially, this method converts three unbalanced phases into three independent sources, which makes asymmetric fault analysis more tractable.

When looking at electric power system faults,

In a polyphase system, a fault may affect all phases equally which is a "symmetrical fault". If only some phases are affected, the resulting "asymmetrical fault" becomes more complicated to analyse...

bold by me,
 

Thread 'What happens if shielded cable has a short to the shield?'

While I was rolling out a shielded cable, a though came to my mind - what happens to the current flow in the cable if there came a short between the wire and the shield in both ends of the cable? For simplicity, lets assume a 1-wire copper wire wrapped in an aluminum shield. The wire and the shield has the same cross section area. There are insulating material between them, and in both ends there is a short between them. My first thought, the total resistance of the cable would be reduced...
View full post »

Thread 'Underwater piezoelectric sensor array receive sensitivity'

Hi all I have some confusion about piezoelectrical sensors combination. If i have three acoustic piezoelectrical sensors (with same receive sensitivity in dB ref V/1uPa) placed at specific distance, these sensors receive acoustic signal from a sound source placed at far field distance (Plane Wave) and from broadside. I receive output of these sensors through individual preamplifiers, add them through hardware like summer circuit adder or in software after digitization and in this way got an...
View full post »

Thread 'Question about bonding ground and neutral'

I am not an electrical engineering student, but a lowly apprentice electrician. I learn both on the job and also take classes for my apprenticeship. I recently wired my first transformer and I understand that the neutral and ground are bonded together in the transformer or in the service. What I don't understand is, if the neutral is a current carrying conductor, which is then bonded to the ground conductor, why does current only flow back to its source and not on the ground path...
View full post »

Similar threads

Negative and zero sequence impedance of alternator
Replies
5
Views
10K
Fault in ungrounded system -> zero sequence voltage
Replies
1
Views
3K
Rotor and negative sequence impedance of alternator
Replies
7
Views
3K
Phase voltages in line-to-neutral fault
Replies
6
Views
3K
Negative sequence currents in an alternator
Replies
4
Views
3K
Help me understand zero sequence currents
Replies
11
Views
5K
Zero sequence braking of induction motor
Replies
1
Views
3K
Why Does Amplitude Not Matter in Positive Sequence Detector Circuits?
Replies
1
Views
2K
Back EMF: Phase-to-Phase Voltage Explained
Replies
2
Views
3K
What is a positive sequence model of an induction machine?
Replies
1
Views
1K

Hot Threads

Recent Insights

Back
Top