The all-new MIM flowmeter has been developed to measure and control small and medium flows of conductive liquids.
The instrument operates on the electromagnetic measuring principle. According to Faraday's law of magnetic induction, a voltage is generated by the movement of a conductive body through a magnetic field. The conductive fluid corresponds to this body, and the induced voltage is proportional to the flow velocity, i.e. the volumetric flow rate. The fluid to be measured must have a minimum conductivity. The induced voltage is measured by 2 electrodes in contact with the liquid and processed by the electronics.
The flow rate is calculated on the basis of the flowmeter's cross-sectional area.
The measurement does not depend on the nature of the liquid, nor on its properties such as density, viscosity or temperature.
Two output signals can be set as contact, frequency or current. It is also possible to set output 1 as a dosing contact (PNP, NPN, PP) and output 2 as an alarm.
Watch the video below
MIM electromagnetic flow indicator/controller
Measurement scale : 0.03 - 3 l/min ... 1.5 - 350 l/min (conductive liquids)
Note: ±(0.8% from measurement + 0.5% from EM)
pmax : 16 bar
tmax : +140°C
Process connection : G ½, G ¾ , G 1, G 2, 2″ NPT
Materials : stainless steel, PEEK
Release: 2x configurable outputs (4-20mA, 0-10V, pulse, contact, frequency), IO-Link
Entrance : 1x contact
Options/features : pt1000 temperature measurement as standard, dosing function, swiveling color TFT display (can be used even when wearing gloves), partial and grand totalizer, stainless steel design