I am reading about a similar problem in the EEx365 blog but have not read /found a solution to the following problem I had on Friday, Dec 31st.
A 4 wire, SIL rated, 4-20 MA output transmitter is read in DeltaV as 10 to 12 MA higher when connected to Term 2 & 4 of a 4 point Charm Terminal Block, ( Not an IS AI Charm) . Changing out the 4 pt TB & HART AI Charm has no change in the reading. The AI higher value reading is verified by breaking in series with a Fluke 87 VOM. However, the transmitter AI output is very accurate from 4 to 20 MA when the transmitter output is in series with ONLY the Fluke meter. Also, using ONLY the Fluke in MA simulate output mode is read very accurately by the DeltaV from 4 to 20 MA. The shielded twisted pair loop from the DeltaV does not read any voltage across the pair of wires (at the transmitter) or to earth or shield ground at the transmitter. The resistance across the shielded twisted pair from the DeltaV Charm is 300 ohm at the transmitter. The 300 ohm is the value that I would expect due to the wire resistance and 250 ohm Charm input for the A/D circuit. The Transmitter is powered by a 24dc Phoenix power supply that also provides the active 4-20 MA signal to the DeltaV AI HART Charm. Unfortunately, the Transmitter does not have a passive MA output.
I suspect a ground loop but I have never seen this problem with any other 4 wire instruments and a HART AI Charm input. I am also wondering how well the Charm is isolated for stopping ground loops. The Charm wiring diagram shows, for a 4 wire input, #2 TB pt (+) is going to ground through a 250 ohm resister for the A/D input and #4 TB pt (-) is coupled to ground. If there is a ground loop, then I wonder is there another or better way to isolate the 4-20 MA loop using only a Charm input and not having to add a separate isolation device to the circuit. I have not found another AI Charm that may be more isolated. (HART is not needed.) I have considered using a precision 250 ohm resistor ( 1-5 volt input) with an isolated Voltage AI Charm but that would be a unique solution to the standard plant wiring. Plus, I understand that new Charm deliveries are now quoted at 4 to 6 months.
I will continue troubleshooting on Jan 4th when I return from the holiday, and have plan some other tests, but I am hoping for any suggestions others may have. I will update this when I find a solution to this interesting problem.
In reply to Cedric Dawnhawk:
In reply to ha nguyen:
I noticed that I had made some comments to the original post which still apply to your problem. In particular, try disconnecting the wire from the transmitter to terminal 4 leaving the wire to terminal 2 connected. The DeltaV indication should go zero. If it doesn't, there is some kind of connection to ground at the transmitter end.
The sketch shows how this can occur. The additional current i2 flows back via the ground connection and so is not controlled by the transmitter. If a number of transmitters share a power supply, the connection to ground does not have to be in the "faulty" transmitter, it could be in one of the others. This agrees with your observations that adjacent CHARMS are affecting each other.
Thank you for your response.
I did look at your earlier response after my posting and did some studying up on the design and build of our CHARM I/O cabinet (by a local Emerson vendor) for possible ground loop issues. Below is the current design of the cabinet's internal wiring and our field wiring. The wiring between the CHARM baseplates and the intermediate terminal blocks were all pre-wired at the vendor's shop. Due to a facility configuration, we had to request intermediate terminal blocks (we could not wire straight to the baseplates which would minimize any ground loop issues in my opinion).
From what I saw, it looks to me the shield (SH) terminals on the intermediate terminal blocks should not have been grounded to the DIN rail (and to cabinet). I would very much appreciate your feedback. Thank you.
Andre Dicaire
I should clarify that, in my opinion, the proper way to do this is to have the SH terminals at the intermediate terminal blocks not grounded such the shield wire for each twisted pair is only grounded at the baseplates and no where else.
In reply to Andre Dicaire: