M – Multi-Jet Magnetic Water Meter
Water meters using the multi-jet principle are the best cost/performance, long life, flow measurement instruments.
Wide clearances in the measuring chamber and negligible area of contact between static and moving parts are the main reasons for the high reliability of this design even in hard water.
MH model for hot water available.
Applications
For residential, agriculture and industrial use
Available Sizes
DN15-DN32 (1/2”-1 1/4”)
Communication
Supported Protocols: Dialog 3G™
Supported Outputs: EV, EF, ER
Multi-Jet Water Meter Features
- Only one moving part – the impeller – in contact with the water for minimum wear and utmost reliability
- Magnetically driven sealed registers. Stainless steel/glass
encapsulated option is unconditionally guaranteed against fogging - Wide selection of dial configurations (3 pointers; central pointer) and units of measurements
- Optional Electrical Output – EV, EF, Dialog 3G, ER
Standards
MID 2014/32/EU (based on OIML R49:2013, EN 14154 and ISO 4064:2014)
WRAS 1307073/ 1504700
Related Leaflets
Installation Guide
Spare Parts
Technical Specification
- Maximum Working Pressure – 10 bar
- Liquid Temperature – up to 50 º C
- Body Material –Corrosion proof copper alloy
- Coupling Threads (for inline) – BSP, NPSM
Featured Products
Q – Multi-Jet Magnetic Water Meter
The Q Model is a multi jet meter with light body and top attachable totally isolated register unit.
Dialog3G™ Register
The register is unified into the meter and set to transmit readings according to initial programmed set of time.
Output Registers
Arad Water Meters equipped with magnetically driven register combined with a wide variety of output options.
FAM – Flexible Axis Water Meter
The FAM (Flexible Axis Meter) – New concept in design and construction of water meters.
P – Positive Displacement Water Meter
ARAD Model P is a positive displacement water meter, rotating piston type.
Dialog3G™ Interpreter Register
The Dialog3G™ Interpreter registers improves functionality of existing meter installations by utilizing optical encoding sensors.