Magnetostrictive level transmitter EG series
for liquids4-20 mA2-wire

magnetostrictive level transmitter
magnetostrictive level transmitter
magnetostrictive level transmitter
magnetostrictive level transmitter
magnetostrictive level transmitter
magnetostrictive level transmitter
magnetostrictive level transmitter
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Characteristics

Technology
magnetostrictive
Medium
for liquids
Interface
4-20 mA, 2-wire, RS-485
Applications
for storage tanks, for industrial applications, for the food and beverage industry
Other characteristics
stainless steel, high-precision, with digital display
Level range

Max.: 5,500 mm
(216.54 in)

Min.: 50 mm
(1.97 in)

Process pressure

5 bar, 30 bar
(72.52 psi, 435.11 psi)

Process temperature

Max.: 195 °C
(383 °F)

Min.: -40 °C
(-40 °F)

Description

The EG Series is a magnetostrictive level transmitter used to accurately measure the changing level of liquids. The EG magnetostrictive level transmitter uses the principles of buoyancy and magnetostriction. Single and two-float designs are available. EGX Magnetostrictive Level Transmitter, Liquid Level Transmitter The EG series is a magnetostrictive level transmitter using buoyancy, magnetostriction and state-of-the-art electronics technologies to accurately measure the level of a wide variety of liquids, including interface and insoluble multiple liquids with a two-float design. In the typical EG series magnetostrictive level transmitter a float, appropriately sized for the specific fluid density, is mounted on the level transmitter stem such that the float will travel up and down due to the buoyancy of the float from the fluid being measured. The float contains a magnetic element. To locate the float position the magentostrictive level transmitter electronics sends a short current pulse down a sensor wire located within the level transmitter stem with a specific frequency, setting up a magnetic field along its entire length. This field interacts immediately with the field generated by the magnet contained within the float. The overall effect is that during the brief time that the current flows, a torsional force is produced in the wire, much like a sonic vibration or wave, and travels back to the magnetostrictive level transmitter electronics. A timing circuit exists within the electronics which measures the time-of-flight (TOF) between the start of the current pulse and the return signal.

Exhibitions

Meet this supplier at the following exhibition(s):

ACHEMA 2024
ACHEMA 2024

10-14 Jun 2024 Frankfurt am Main (Germany) Hall 11.0 - Stand G42

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    *Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.