Single Channel Node


Price:
Sale price£0 GBP

Description

Our Single Channel Node is a wireless data logger that makes geotechnical probes suited for LoRaWAN wireless communication. Each node supports one technical probe and the probe's internal NTC (when present). The Single Channel Node can be configured on our Move Cloud Platform: you can set different parameters remotely and monitor the data collected at any time. This new Node comes with increased battery life, a wider range of supported probes and a new accelerometer-triggered acquisition mode.

Our Single Channel Node is a wireless data logger that makes geotechnical probes suited for LoRaWAN wireless communication. Each node supports one technical probe and the probe’s internal NTC (when present). The Single Channel Node can be configured on our Move Cloud Platform: you can set different parameters remotely and monitor the data collected at any time. This new Node comes with increased battery life, a wider range of supported probes and a new accelerometer-triggered acquisition mode.

 Key Parameters

  • LoRaWAN wireless communication for wired geotechnical sensors 
  • Built-in long-life battery  
  • Acquisition cadence to be set remotely 
  • Two types of acquisition methods: programmed and triggered by unusual events  
  • Each node supports the probe’s internal NTC (except DECKSCN-PT1 and DECKSCN-NTC nodes) 
  • Improved accuracy 
  • Internal antenna 
  • Small package (130×171.2×62 mm) 
  • Deeply integrated with Move Solutions Cloud Platform 
  • Easy installation with options suitable for every structure 
  • Waterproof rating IP67 

Sensors Supported

Some of the geotechnical probes compatible with the Single Channel Node:

  • Crackmeter
  • Strain-Gauges
  • Temperature sensor
  • Inclinometer probes
  • Pressure cell
  • Load cell
  • Hygrometer
  • Piezometer
  • Anemometer
  • Rain gauge
  • Radar level probe
OPERATION
Modes of Acquisition: Scheduled, Scheduled + Accelerometer Trigger
Cadence for Scheduled Acquisition: 2 min - 10 min - 20 min - 30 min - 1 hour - 6 hours - 12 hours
Supply: 2 Lithium batteries 3.6V (Suggested: EVE ER34615EHR2)
Absolute synchronization: ± 1 sec
Integrated accelerometer: ± 2 g, 1 mg resolution, 0.7 - 25 Hz bandwidth

 

RADIO
Radio Protocol: LoRaWAN
Supported LoRaWAN bands: EU868, US915, AU915
Link Coverage: 1 km (line of sight with gateway)


GENERAL DATA
Waterproof class: IP67
Size: 130 x 171.2 x 62 mm
Material: Polycarbonate
Operating temperature: - 40°C / + 85°C
Weight: 500 g


INSTALLATION
Input cable section: 30 - 14 AWG terminal block, Ø 3 mm - Ø 8 mm PG9 cable gland
Method: Pole or wall mounting using special plates and screws
Configuration: - Pole fixing
- Mesh fixing
- Wall fixing
- Ceiling fixing
- Floor fixing


DECKSCN-MA0
Interface: 4 - 20 mA (2 or 3 wires)
Sensor Supply: 12.3 VDC
Minimum Accuracy: ± 0.002 mA
Measuring Span: 0 - 24 mA
Auxiliary NTC channel: Yes


DECKSCN-MVV
Interface: mV/V
Sensor Supply: 5 VDC
Minimum Accuracy: ± 0.002 mV/V
Measuring Span: ± 8 mV/V
Auxiliary NTC channel: Yes


DECKSCN-V05
Interface: Voltage Output
Sensor Supply: 5 VDC
Minimum Accuracy: ± 0.002 V
Measuring Span: 0 - 5 V
Auxiliary NTC channel: Yes


DECKSCN-V12
Interface: Voltage Output
Sensor Supply: 12.3 VDC
Minimum Accuracy: ± 0.002 V
Measuring Span: 0 - 12 V
Auxiliary NTC channel: Yes


DECKSCN-POT
Interface: Potentiometer
Sensor Supply: 2.7 VDC
Minimum Accuracy: ± 0.002 % of Full Scale
Measuring Span: 0 - 100 %
Auxiliary NTC channel: Yes


DECKSCN-PT1
Interface: Pt100 - Pt1000 (4 wires)
Minimum Accuracy: ± 0.001 Ω (@ 150 Ω), ± 0.005 Ω (@ 1500 Ω)
Measuring Span: 1500 Ω max
Auxiliary NTC channel: No


DECKSCN-NTC
Interface: NTC
Minimum Accuracy: ± 0.1% of reading
Measuring Span: 1 MΩ max
Auxiliary NTC channel: No


DECKSCN-VBW
Interface: Vibrating Wire
Measuring Span: 400 - 10000 Hz
Auxiliary NTC channel: Yes


BATTERY LIFE ESTIMATION (without accelerometer)
Interface Conditions Read Duration Read Cadence Estimated Battery Life
4-20 mA, 2 wires The probe is reading half of its full scale (12 mA). 5 seconds 10 minutes 3.2 years
4-20 mA, 3 wires Probe supply current of 50 mA. 8 seconds 30 minutes 2.3 years
mV/V Probe load resistance = 350 Ω. 5 seconds 10 minutes 3.4 years
Voltage (5 V) Probe supply current of 50 mA. 8 seconds
20 minutes 2.5 years
Voltage (12 V) Probe supply current of 50 mA. 8 seconds
30 minutes 2.1 years
Vibrating Wire 2 seconds
10 minutes 4.1 years
Pt100-Pt1000 5 seconds
10 minutes 5.2 years
NTC 5 seconds
10 minutes 5.2 years
Potentiometer Resistance of potentiometer = 1kΩ 5 seconds
10 minutes 5.2 years

 

BATTERY LIFE ESTIMATION (with accelerometer)
Interface Conditions Read Duration Read Cadence Estimated Battery Life
4-20 mA, 2 wires The probe is reading half of its full scale (12 mA). 5 seconds 20 events/day 2.0 years
4-20 mA, 3 wires Probe supply current of 50 mA. 8 seconds 20 events/day 2.5 years
mV/V Probe load resistance = 350 Ω. 5 seconds 100 events/day 2.1 years
Voltage (5 V) Probe supply current of 50 mA. 8 seconds
20 events/day 2.3 years
Voltage (12 V) Probe supply current of 50 mA. 8 seconds
20 events/day 2.0 years
Vibrating Wire 2 seconds
100 events/day 2.2 years
Pt100-Pt1000 5 seconds
100 events/day 2.5 years
NTC 5 seconds
100 events/day 2.5 years
Potentiometer Resistance of potentiometer = 1kΩ 5 seconds
100 events/day 2.5 years

Payment & Security

American Express Apple Pay Diners Club Discover Maestro Mastercard Shop Pay Union Pay Visa

Your payment information is processed securely. We do not store credit card details nor have access to your credit card information.

You may also like

Recently viewed