A 4-20mA single CT has a max range of 150 amp what is the amps at 14mA?
140A
105A
150A
90A
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Member
Posted November 2, 2021
A 4-20mA single CT has a max range of 150 amp what is the amps at 14mA?
140A
105A
150A
90A
Seasoned Member
Posted November 2, 2021
I'm seeing 105A.Originally Posted by cnowak
Member
Posted November 2, 2021
Can you please explain how you got that?
Junior Member
Posted November 2, 2021
I think this is what they're looking for.
20mA is represented by 150A so 14mA/20mA * 150 = 105A...
This would mean 4mA would be equivalent to 30A and nothing under that value would pick up. I'm not positive if this is correct, but it seams to line up. If 4mA is equivalent to 0A then I'm not sure, because that answer doesn't seem to be there or I was doing that incorrectly.
Seasoned Member
Posted November 3, 2021
I found it the unconventional way I'm sure and might not be correct.
150 / .020 = 7500
.014 * 7500 = 105
Like the poster above noted, 4mA would be 30A.
Experienced Member
Posted November 3, 2021
Pro Subscriber
I think ya'll have a slight conceptual misunderstanding of how transducers work. Transducer typically output range of 4mA to 20mA. That means 4mA equals the low range minimum, and 20mA is high range maximum. For a 0-150A CT, 4mA is equal to 0A and 20mA is equal to 150A.
So, I've always just made my range 0mA to 16mA, with my reading minus 4.
So, at 14mA, my calculation would be (10mA*150A)/16mA = 93.75, so my guess would be the answer of 90A due the possibility of inaccurate.
Not sure if this question is the best example to work off of, did you get this from the question bank? Might be one to bring up to the administrators.
To check my work I use calculators similar to this one:
https://www.sensorsone.com/4-20ma-to...&olo=0&ohi=150
Seasoned Member
Posted November 3, 2021
Interesting. Are transducers and CTs commonly assumed to be the same? It didn't feel like I was doing it correctly 🙃Thanks.
Edit: the mA output should have made it obvious.
Experienced Member
Posted November 3, 2021
Pro Subscriber
Transducers are made for various applications, such as: voltage, current, power, pf, etc.
The outputs can be different also, typically you will find 4mA - 20mA or mV. This output is typically used on older systems using analog meters, etc. It is very common in PLC applications.
So, the application above, the CT converts your system current down to 0-5A signal (extra calculation that wasn't needed), which is fed to the transducer and converted to a 4mA to 20mA signal. Transducers must also be adjusted using the zero (null setting x ->) and span (range setting |<- x ->|) screws.
WARNING: I haven't touched a transducer in years and going of my hazy memory.
Junior Member
Posted November 3, 2021
That was my original answer as well. Since that wasn't an answer option I assumed it wasn't what they were looking for. I'd be curious to see if anyone knows what they actually intended with this question.
Member
Posted November 4, 2021
20/150=14/x
x=105amp
