Ram Automations
Website : https://ramautomations.com/
Email : info@ramautomations.com
The Endress+Hauser Liquisys-m 20mA conductivity transmitter, with the order code Clm223-cd0110, is a top-of-the-line measuring instrument capable of providing accurate readings in a wide range of application scenarios. With a measurement range of 0 to 600Ms/Cm or 0 to 200Mohmcm, this device is suitable for use in various industrial settings where precise conductivity measurement is essential.
Equipped with temperature compensation capabilities ranging from -35 to 250°C, the Liquisys-m ensures that temperature variations do not compromise the accuracy of the measurements. It features two output channels, each capable of delivering a 0/4 to 20mA signal, allowing for seamless integration into different monitoring and control systems. Operating at a mains voltage of 230Vac, 50/60 Hz, with a power consumption of 7.5Va, this device is designed to deliver reliable performance consistently.
The Endress+Hauser Liquisys-m conductivity transmitter is built to withstand challenging environmental conditions, with a protection class of IP54/IP30 and an operating temperature range of -10 to +55°C. Made in Germany, this product reflects the highest standards of quality and reliability in industrial instrumentation. With a weight of 720 grams, this transmitter is lightweight and easy to install, making it an ideal choice for applications where precision and durability are paramount.
In conclusion, the Endress+Hauser Liquisys-m 20mA conductivity transmitter combines advanced technology with robust construction to deliver accurate and reliable measurements in industrial settings. Whether used in water treatment plants, chemical processing facilities, or other industrial environments, this transmitter is designed to meet the demands of modern process automation systems. With Endress+Hauser's reputation for excellence and innovation, you can trust the Liquisys-m to provide precise and consistent conductivity measurements for your critical applications.