Current loops For industrial process control Instruments
For industrial process control instruments,
analog 4–20 mA and 10–50 mA current loops are commonly used for analog
signaling, with 4 mA representing the lowest end of the range and 20 mA
the highest. The key advantages of the current loop are that the
accuracy of the signal is not affected by voltage drop in the
interconnecting wiring, and that the loop can supply operating power to
the device. Even if there is significant electrical resistance in the
line, the current loop transmitter will maintain the proper current, up
to its maximum voltage capability. The live-zero represented by 4 mA
allows the receiving instrument to detect some failures of the loop, and
also allows transmitter devices to be powered by the same current loop
(called two-wire transmitters). Such instruments are used to measure
pressure, temperature, flow, pH or other process variables. A current
loop can also be used to control a valve positioner or other output
actuator. An analog current loop can be converted to a voltage input
with a precision resistor. Since input terminals of instruments may have
one side of the current loop input tied to the chassis ground (earth),
analog isolators may be required when connecting several instruments in
series.
Depending on the source of current for the loop, devices may be classified as active (supplying power) or passive (relying on loop power). For example, a chart recorder may provide loop power to a pressure transmitter. The pressure transmitter modulates the current on the loop to send the signal to the strip chart recorder, but does not in itself supply power to the loop and so is passive. (A 4-wire instrument has a power supply input separate from the current loop.) Another loop may contain two passive chart recorders, a passive pressure transmitter, and a 24 V battery. (The battery is the active device).
Panel mount displays and chart recorders are commonly termed 'indicator devices' or 'process monitors'. Several passive indicator devices may be connected in series, but a loop must have only one transmitter device and only one power source (active device).
The relationship between current value and process variable measurement is set by calibration, which assigns different ranges of engineering units to the span between 4 and 20 mA. The mapping between engineering units and current can be inverted, so that 4 mA represents the maximum and 20 mA the minimum
Depending on the source of current for the loop, devices may be classified as active (supplying power) or passive (relying on loop power). For example, a chart recorder may provide loop power to a pressure transmitter. The pressure transmitter modulates the current on the loop to send the signal to the strip chart recorder, but does not in itself supply power to the loop and so is passive. (A 4-wire instrument has a power supply input separate from the current loop.) Another loop may contain two passive chart recorders, a passive pressure transmitter, and a 24 V battery. (The battery is the active device).
Panel mount displays and chart recorders are commonly termed 'indicator devices' or 'process monitors'. Several passive indicator devices may be connected in series, but a loop must have only one transmitter device and only one power source (active device).
The relationship between current value and process variable measurement is set by calibration, which assigns different ranges of engineering units to the span between 4 and 20 mA. The mapping between engineering units and current can be inverted, so that 4 mA represents the maximum and 20 mA the minimum
6 comments:
Nice post. I used to be checking constantly this ωeblog
and I'm impressed! Extremely helpful information particularly the final section :) I maintain such information a lot. I was seeking this particular information for a very long time. Thanks and best of luck.
my website :: wire wound Resistor
Τhis is а topiс which is near to my heaгt.
.. Βеst wishes! Wherе are your cοntact
detaіls thοugh?
Have a look at my blog Potentiometers
Very desсriptiѵe post, I lіκed
that a lot. Will thегe be a part 2?
my page ... resistance of a resistor
You really make іt seem so easy with youг ρrеsentatiоn
but I finԁ thіs topic to be reallу sοmething that I think I ωould nеver undеrstand.
It ѕeems tоo complicated and extremely bгoad foг me.
Ӏ'm looking forward for your next post, I'll try to get the hаng of
it!
Ηerе is my blοg ... resistancе of а
reѕiѕtоr - wikitechproject.com -
When I origіnally left a commеnt I ѕeem to have clicked
the -Notify me when neω commеnts аre added- сheckbοx and frоm now on
еvеry time a cοmment is аdded I rеcieve four emaіls with the exact same сomment.
There haѕ to be a ωay you can гemоve me from that seгѵice?
Many thanks!
my homepage; Wirewοunԁ Resistor - Http://Www.Terhorstnet.Nl -
Wow, amazing blog lаyοut! Hoω lοng hаvе you beеn
blοgging foг? yоu maԁe blogging look eаsy.
Тhe οverall loοk of your wеbsіte іs
magnificеnt, lеt alonе the contеnt!
My weblog - resistor resistance
Post a Comment