tagawatt – plug&play submetering – electricity

tagawatt™ is a plug&play submetering solution for monitoring of disaggregated energy consumption in buildings.

Thanks to a number of innovations, the tagawatt solution makes it possible to instrument numerous subcircuits in the electrical panel without cutting off the power supply, which considerably reduces installation time and greatly simplifies the operation.

tagawatt™ enables precise end-use by end-use measurement, detection of overconsumption, identification of improvement strategies and support for corrective actions.

  • Plug&Play: Easy and fast, installed in 15 minutes instead of hours!
  • Accurate: Measures precisely the real (active) power every second
  • Universal: Compatible with all electrical installations
  • European: Designed and manufactured in France
  • Patented: Multiple innovations protected by Patents

Description

tagawatt™ is an IoT system for improving the energy performance of buildings. The system consists of innovative sensors capable of measuring and monitoring all a building’s electrical consumption.

The system consists of:

  • watTag: Current clamp that can open on the front (half-Rogos inside)
  • volTag:  Measures voltage on circuit breaker screws
  • watt-L: Concentrator that orchestrates the measurement protocol and uploads data to the cloud
  • special plyers to position the clamps (keeping the fingers away from the hot wires)
  • daisy chain to connect the watTags and volTags (no wire tangle mess)

schéma tagawatt

configuration tagawatt

Configuration

Configuring tagawatt™ is simple and can be done locally or remotely using an application. It is thus possible to specify the sending protocol, name the various sensors, associate volTags and waTags, etc.

Various data transmission protocols are available:

architecture tagawatt

Technical characteristics

  • Fonction
    • watTag: Current measurement, active power calculation
    • volTag: Voltage measurement
    • watt-L: Local and remote configuration – Data remote transfer
  • Measurement: Active power every second
  • Available values: Active energy over 1 minute, 10 minutes or 15 minutes (or other configurations)
  • Uplink frequency
    • NB-IoT / LTE-M: Configurable
    • LoRaWAN: Same as available values
  • Configuration
    • Locally: NB-IoT/LTE-M or special cable for PC/android phone
    • Remotely: NB-IoT/LTE-M
  • Power supply
    • Mains supply: 5V adapter
    • Batteries: 2 replaceable batteries (3,6V) for temporary supply
  • Data transfer architectures
    • NB-IoT/LTE-M: Transmission using the cellular network, replaceable nano SIM
    • LoRaWAN: transmission to an operated LoRaWAN Network or a private LoRaWAN gateway
    • LoRa local to F-Bridge: LoRa point-to-point transmission to an F-bridge (bridge to NB-IoT/LTE-M)
    • LoRa local to F-Link: LoRa point-to-point transmission to an F-Link (bridge to Ethernet, WiFi or MODBUS TCP/IP)

References

  • watTag_S (small)
  • watTag_M (medium)
  • watTag_L (large)
  • volTag
  • watt-L

For further information, please contact Marc Bons on +33 (0)6 61 46 82 84 or by email marc.bons@fludia.com. You can also fill in the contact form by clicking on the button below.

Scroll to Top