This is the basic design of an analog input.
-------+
| +----------------------+
+----------> | |
| | ADC |
+---+ | |
| | | |
4-20 mA | | Precision | Voltage |
Signal | | Resistor | Discriminator |
Controlled | | | Where the Voltage |
by some | | | is converted to a |
device in | | | numerical value |
the field +---+ | |
| | |
+----------> | |
| +----------------------+
-------+
.
When speaking of current, we are speaking of "conventional current", not "electron current".
A current, controlled by a device in the field, is applied to a precision resistor. The ADC reads the voltage across that resistor and converts it to a numerical value.
The idea of using the terms sourcing and sinking in relation to an analog input module is problematic.
The power source for the 4-20 loop might be located at the field device or at the analog input module.
Regardless of where the power source is, the current leaves the power source, and then enters either the controlling device followed by the precision resistor, or, the precision resistor followed by the controlling device. In either case, the current then returns to the power source.
The power source is "the source" and "the sink"... it's a loop.
"Sourcing" and "Sinking" are RELATIVE terms. And bear in mind, a "Sourcing Device" is NOT the SOURCE. Nor is a "Sinking Device" the SINK. The Power Supply is the SOURCE and the SINK.
If a device connects an incoming current to the (-) terminal on the Power Source then the device is called "sinking".
If a device accepts an incoming current from the (+) terminal on the Power Source then the device is called "sourcing".
If the current moves from the power source to the field device and then to the precision resistor...
SOURCE SINK
(-)Power Source(+)---------> (+)Field Device(-)
(+)Field Device(-)---------> (+)Precision Resistor(-)
(+)Precision Resistor(-)---> (-)Power Source(+)
.
If the current moves from the power source to the precision resistor and then to the field device...
SOURCE SINK
(-)Power Source(+)----------> (+)Precision Resistor(-)
(+)Precision Resistor(-)----> (+)Field Device(-)
(+)Field Device(-)----------> (-)Power Source(+)
.
In the first list, the Precision Resistor is connecting the incoming current to the (-) terminal on the Power Source. The Precision Resistor is said to be "sinking" to (-).
In the second list, the Field Device is connecting the incoming current to the (-) terminal on the Power Source. The Field Device is said to be "sinking" to (-).
It might be the case that the power source is physically located at the analog input module.
If one side of the Precision Resistor is connected to the (+) terminal of the Power Source and the other side is connected to the Field Device, then the Field Device will be "sinking" to the (-) terminal on the Power Source. In this case, the Precision Resistor (Analog Input Module) is "sourcing".
On the other hand...
If one side of the Precision Resistor is connected to the (-) terminal of the Power Source and the other side is connected to the Field Device, then the Precision Resistor (Analog Input Module) will be "sinking" to the (-) terminal on the Power Source. In this case, the Field Device is "sourcing".
It might be the case that the power source is physically located at the Field Device.
If one side of the Field Device is connected to the (+) terminal of the Power Source and the other side is connected to the Precision Resistor, then the Precision Resistor will be "sinking" to the (-) terminal on the Power Source. In this case, the Precision Resistor (Analog Input Module) is "sinking".
On the other hand...
If one side of the Field Device is connected to the (-) terminal of the Power Source and the other side is connected to the Precision Resistor, then the Field Device will be "sinking" to the (-) terminal on the Power Source. In this case, the Precision Resistor (Analog Input Module) is "sourcing".