The Flow-Captor system 4320/xx + 402x.1x S200 comprises a sensor tube and separate electronics. Separate systems are employed when special protection of the electronics is necessary.
Key benefits for you:
Seperate system for special protection
Precisely switching flow monitor
high switching accuracy even at lower flows
Robust industrial design (special potting of both parts)
The Flow-Captor system 4320/xx + 4020.1x S200 comprises a sensor tube and distinct electronic components. Specialized systems are utilized in situations demanding enhanced electronic protection, particularly in automation processes or other industrial applications requiring continuous monitoring of liquid media.
Functioning on the calorimetric measuring principle, the flow-captor operates entirely electronically, eliminating the need for mechanical moving parts. The sensor detects the flow velocity of the medium and translates it into an electrical signal.
High temperature version
The high-temperature version Flow-Captor 4320/xx + 402x.1x S202 ensures reliable flow monitoring in situations where the operating conditions involve extremes of heat.
4320/xx + 4020.1x S200 and 4320/xx + 4020.1x S202 is applicable for water-based media
4320/xx + 4021.1x S200 and 4320/xx + 4021.1x S202 is applicable for oil-based media
Free flow
The sensor element is positioned externally on the tube, ensuring that the flow remains uninfluenced by any elements protruding into the cross-section.
The sensor housing is constructed from either POM (polyacetal) or PSU (polysulfone) for elevated temperature applications.
Efficiency and Durability Unleashed: Flow-Captor's Mechanical Simplicity with Calorimetry
Flow-Captor type 4120 S100 + 402x.1x S100 operates on the versatile calorimetric measuring principle, eliminating the need for mechanical moving parts and ensuring increased durability and adaptability. Calorimetry, measuring temperature changes, allows precise detection within liquid media for a wide range of applications.
This measuring principle's exceptional flexibility enables the flow-captor to adapt to various measurement ranges, making it suitable for automation, industrial processes, and marine applications. Its ability to handle subtle or significant temperature shifts ensures tailored performance for diverse scenarios.
Moreover, the calorimetry eliminates the need for mechanical parts, reducing wear on the sensor. This advantage significantly enhances the device's durability and reliability, translating to fewer maintenance requirements and an extended operational lifespan. In essence, the flow-captor's calorimetric approach combines ingenuity with adaptability, making it an indispensable, precise, and reliable tool in industries where liquid media control is critical.
