Sir my question is a in rtd use platinum material so my question is how many current are flow in platinum material (RTD) and how to go current in platinum.
As you described on the graph, the more immersion of the PT-100 (wirewound) into the fluid the more accuracy. What if we insert the tip of the meter very deep in the fluid, in that way the distance between pt-100(wirewound) and the tip do not make sense as you explain in the graph. Can you explain more?
In general the complete RTD element must be surrounded by the medium, that should be measured, as more insertion length as better, as closer the RTD element is at the tip as better too. The wire wound sensor is longer, so it needs more insertion length. It can happen that the "classical" installation orientation in a T-shape is not possible, because the recommended insertion length is larger than the pipe diameter. Here the installation into an elbow is recommended.
Sir my question is a in rtd use platinum material so my question is how many current are flow in platinum material (RTD) and how to go current in platinum.
As you described on the graph, the more immersion of the PT-100 (wirewound) into the fluid the more accuracy. What if we insert the tip of the meter very deep in the fluid, in that way the distance between pt-100(wirewound) and the tip do not make sense as you explain in the graph. Can you explain more?
In general the complete RTD element must be surrounded by the medium, that should be measured, as more insertion length as better, as closer the RTD element is at the tip as better too. The wire wound sensor is longer, so it needs more insertion length. It can happen that the "classical" installation orientation in a T-shape is not possible, because the recommended insertion length is larger than the pipe diameter. Here the installation into an elbow is recommended.