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Technology

One sensor.
All the depth.

A common electronic core, declined according to the point in the network and access to water. The same 55 mm disc carries quality, hydraulics and metering: you activate what matters.

Anatomy

The sensor, layer by layer.

Hover or select each layer to isolate it. An industrialised design (multilayer electronics, a robust composite housing) built to last on the network.

06 couches
  • 01Composite housing
    Hardened packaging

    Use-specific packaging, resistant and durable, with excellent acoustic conduction.

  • 02Active electronics
    Embedded analysis

    Analysis microcontroller, modular power (mains, solar or battery), expansion via modular add-ons as needed.

  • 03LoRaWAN radio
    Standard protocol

    Natively LoRaWAN communication: integrable into the public network, with no proprietary intermediary.

  • 04Acoustic listening
    Ultra-low-noise

    Ultra-low-noise vibration sensing, capturing pressure waves through the pipe wall.

  • 05Common electronic core
    Motherboard

    The motherboard shared by every capability: one architecture, one coherent data set.

  • 06Electrochemical face
    Bare electrodes

    Bare electrodes in contact with water for electrochemical measurement: signature-based quality vigilance.

Hardware platform

One electronic core, every measurement.

Every capability rests on the same board. This pooling cuts cost, simplifies maintenance and guarantees data coherence across uses.

01

Electrochemical measurement

Several complementary electrochemical methods, combined to track the water’s multi-parameter signature and detect its deviations.

02

Acoustic / hydraulic listening

Ultra-low-noise vibration sensor with a high sampling rate, capturing the solid conduction of pressure waves in the pipe.

03

Embedded analysis & AI

Local signal processing and learning models: anomaly detection, leak pre-location, embedded virtual sensors, no internet dependency.

04

Form & dimensions

55 mm disc, multilayer electronics, active face and electrochemical face, modular add-ons as needed.

Measurement principles

From physics to data, on board.

Q

Electrochemical signature

The water signature is monitored continuously. The sensor identifies deviations from a jointly established reference and directs (without replacing) accredited laboratory analyses.

H

Vibration listening

The accelerometer captures solid conduction of pressure waves in the wall: leaks, flow, water hammer. Pre-location happens at the scale of a day.

AI

Embedded intelligence

Models run on the sensor, closest to the signal: robustness, low latency, resilience even offline. Raw data stays controlled locally.

Deployment formats

The right format, in the right place.

The sensor is declined according to the point in the network and access to water. A sensor in contact carries quality; a sensor on a pipe carries hydraulics.

On-pipe node

On-pipe mounting, rigid coupling, no water access.

Hydraulics

Water-access node

Chamber, tapping, reservoir, main connection.

Quality & Hydraulics

Meter module

At the delivery point, on the subscriber meter head.

Metering & services

Tap module

At the point of use, at the user: compact, long-life battery.

Quality at the last metre

Industrialisation

An industrialised design. Built to endure.

The reliability of a partner is judged as much by its technology as by its ability to produce, deliver and endure over time.

Electronics assembly line in a workshop (illustration)
Production quality control · illustration

Industrialised design

Multilayer electronics, robust composite packaging, built for series production.

Controlled supply chain

Established suppliers, safety stocks on critical parts.

Sized capacity

Qualified electronics manufacturer (EMS) to absorb ramp-up.

Managed obsolescence

Backward compatibility and proactive obsolescence management.

Next

See the capabilities at work.

Quality, hydraulics, metering: discover what each capability changes in the field.