SITRANS FC 300 DN 4

Coriolis mass flow meter sensor

Description

SITRANS FC300 is a compact coriolis mass flow meter sensor suitable for flow measurement of all kind of liquids and gases. The sensor offers superior performance in terms of flow accuracy, turn-down range and density accuracy.

The single tube construction without internal welds, reductions or flow splitters offers optimal hygiene, safety and CIP cleanability for food & beverage and pharmaceutical applications.

The ease of installation through a plug & play interface ensures optimum performance and operation. Combined with the robust stainless steel encapsulation the SITRANS FC300 sets new standards in system integration, and fits any process industry environment and application.

In order to make a complete flowmeter, the SITRANS FC300 flow sensor must be combined with one of the following MASS transmitters:

Typical applications: Dosing within chemical industry (dosing of chemicals), Food & beverage industry (concentrates, ketchup, pastes) and Pharmaceutical industry (preparations, dialysis liquids)


Detail

Specifications

Measuring Range

From 0 to 350 kg/h (0 to 772 lb/h)

Nominal size

DN 4 / 1/16"

Accuracy

≤ 0.1 % of rate

Nominal pressure

Max 410 bar (Max 5946 psi)

Medium temperature

From -50 to 180 °C (-58 to 356 °F )

Sensor design

One tube bended

Enclosure

IP67/NEMA4

Approvals

EEx (ia) IIC T3-T6
ATEX and UL/CSA


Benefits

  • Compact in-line sensor design only 135x205x58 mm (5.12"x7.87"x23.6") makes it easy to install everywhere

  • Rugged and space saving sensor design in stainless steel matching all environments

  • Balanced pipe design with little mechanical energy-loss, ensures optimal performance and stability even under non ideal and unstable process conditions

  • 4-wire Pt1000 temperature measurement ensures optimum accuracy on mass flow, density and % fraction

  • Multiplug electrical connector and SENSORPROM enables true Plug & Play facilitating cost efficient installation and commissioning

  • Enhanced safety due to standard intrinsically safe EEx ia design


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