Where did these values come from?

[mbrooke]

Where did these impedance values come from? Are they resistance or Impedance (R+Jx)?

https://imgur.com/a/dlppeeb

 

[ptonsparky]

I typed the given information into MH spreadsheet for Fault current and came up with the 583 amps. I used the 8 as what would normally be the Neutral conductor in the SS calculation. Used 10,000 amp as Utility fault current and Cu in Nonmetallic raceway.

 

[mbrooke]

I typed the given information into MH spreadsheet for Fault current and came up with the 583 amps. I used the 8 as what would normally be the Neutral conductor in the SS calculation. Used 10,000 amp as Utility fault current and Cu in Nonmetallic raceway.

Do you have a link to the spread sheet? Is it the one in the free stuff?

 

[ptonsparky]

Do you have a link to the spread sheet? Is it the one in the free stuff?

Yes, it is.

 

[mbrooke]

Yes, it is.

Nice, I will give it a look. Can I ask what methods the spread sheet uses to get these ohm values?

 

[mwm1752]

I thought resistance can be formulated using Chapter 9 table 8 - working on it

 

[mbrooke]

I thought resistance can be formulated using Chapter 9 table 8 - working on it

I was just about to start a thread on this very table:

https://imgur.com/a/fclTKui

 

[Nuber]

Where did these impedance values come from? Are they resistance or Impedance (R+Jx)?

https://imgur.com/a/dlppeeb

I am betting resistance. See table 9 in chapter 9 under alternating current resistance for copper wires. .25 ohms per thousand feet. 200 feet is 1/5 of the length and also 1/5 of the resistance = .05 ohms.

Side note - is Jx common for reactance in your experience? Not busting on you but I was taught 25 years ago that Z is impedance, R is resistance, X is reactance. Z=R+X

I am aware that there are a multitude of symbols that are used are not universal. Just curious - I very well might just be out of touch.

 

[mbrooke]

I thought resistance can be formulated using Chapter 9 table 8 - working on it

I want to make a table for each wire method and gauge in simple ohm values. The issue I'm having is:

1) 3 phase systems with single phase line to ground faults.
2) Parallel ground current paths which lower resistance but raise reactance.
3) deriving an ohm value for 3 phase and single phase transformers.

 

[mbrooke]

I am betting resistance. See table 9 in chapter 9 under alternating current resistance for copper wires. .25 ohms per thousand feet. 200 feet is 1/5 of the length and also 1/5 of the resistance = .05 ohms.

Side note - is Jx common for reactance in your experience? Not busting on you but I was taught 25 years ago that Z is impedance, R is resistance, X is reactance. Z=R+X

I am aware that there are a multitude of symbols that are used are not universal. Just curious - I very well might just be out of touch.

I might be thinking of this: https://en.wikipedia.org/wiki/Cartesian_coordinate_system

Its common for transmission lines. Not sure if calling it Z= R+jX would be appropraite here.
The thing about AC or DC resistance only is that it produces high fault current values (vs actual) especially with larger conductors.

 

[ptonsparky]

I thought resistance can be formulated using Chapter 9 table 8 - working on it

Yes, Table 8, Chapter 9.

 

[Nuber]

I might be thinking of this: https://en.wikipedia.org/wiki/Cartesian_coordinate_system

Its common for transmission lines. Not sure if calling it Z= R+jX would be appropraite here.
The thing about AC or DC resistance only is that it produces high fault current values (vs actual) especially with larger conductors.

Ahhhh. {insert light bulb moment here}

 

[mwm1752]

Where is the info that this is a 3-phase circuit? -

 

[mbrooke]

Ahhhh. {}

Light bulb given!

Ideally I'd like to develop a set tables where I can simply add two or more ohm values together for single phase line to ground faults. Both for breaker clearing time and short circuit calcs... in addition to labeling requirements.

 

[mbrooke]

Where is the info that this is a 3-phase circuit? -

Single phase in the graphic, but my understanding is that line to ground faults in a 3 phase system vary in fault current vs phase-phase faults.

 

[ptonsparky]

or Turn page and use Table 9

 

[Nuber]

Where is the info that this is a 3-phase circuit? -

Valid point. That table is best I can come up with. Then again, does wire resistance change in a three phase circuit compared to a single phase one?

I don't think so, maybe I'm wrong.

 

[mbrooke]

or Turn page and use Table 9

I'm not sure how though... I mean how do I apply these numbers for various scenarios... for example, in a commercial building parallel current paths would change the reactance of the fault current path.

 

[ptonsparky]

Single phase in the graphic, but my understanding is that line to ground faults in a 3 phase system vary in fault current vs phase-phase faults.

That is what the SS indicates.

 

[mbrooke]

Valid point. That table is best I can come up with. Then again, does wire resistance change in a three phase circuit compared to a single phase one?

I don't think so, maybe I'm wrong.

If I'm right, (forgive me folks) reactance changes for L-G, L-L-G, L-L, and L-L-L.