The SNiP-PSE is a 'Sensor Node Integrated Package' for LoRaWAN or CAT-M1 communication of real-time water level measurements for continuous environmental monitoring.
The base SNiP-PSE integrates 1x S-NODE and 1x 6541 Unidata Precision Shaft Encoder (Water Level Instrument) to a site’s unique network, communication and power requirements. The S-NODE can support an added 3x Sensors.
The 6541 Precision Shaft Encoder is a high accuracy float and pulley based shaft encoder instrument for measuring the level of water in many different applications. The Unidata 6541 precision water level instrument can achieve operating accuracy and resolution of 0.2mm with high stability and minimum drift.
The 6541 Unidata Precision Shaft Encoder Water Level Instrument is a high accuracy float and pulley based shaft encoder instrument for measuring the level of water in many different applications. Float-operated instruments can be the most accurate way to monitor water levels, and they are the most common method to measure river levels. The Unidata 6541 precision water level instrument can achieve operating accuracy and resolution of 0.2mm with high stability and minimum drift.
This accuracy is maintained for the service life of the instrument without calibration or maintenance, apart from battery changes. The 6541 has the range to monitor surface and underground waters and the precision to monitor rainfall and evaporation.
The water level instrument is normally connected to the surface of the water by a float system. As the water level changes, the input shaft rotates. An optical encoder is mounted on the input shaft. On installation, the instrument is set to display the water level.
The encoder is continuously monitored as the instrument tracks water level changes. These changes update the LCD display and the readings can be recorded by an associated datalogger.
The very low mechanical friction and inertia of the instrument means that it can produce data with high precision and accuracy. A replaceable battery pack powers the instrument for more than twelve months. Practical design and rugged construction ensures easy operation and long service life.
The S-NODE (for Environmental Monitoring) has been designed to support the broad suite of SDI-12 based environmental sensors. The S-NODE can support sensors with higher power requirements; a solar panel can charge either the internal lithium-ion battery or both the node and sensor can be powered by an external 12V system (e.g. battery or mains source).
A decoder suitable for TTN will be provided based upon sensor configuration.
6541C Precision Water Level Instrument
Material: Powder coated aluminium mounting with Polycarbonate Enclosure IP66
Size: 180mm x 140mm x 275mm (LxWxH)
Weight: 2.7kg (including battery)
Operating temperature: -10°C to 60°C
Battery: 6 x 1.5V industrial grade D size Alkaline battery pack 6910A (non-rechargeable)
Battery life: up to 1 year (based on daily schedule)
External power: External battery power 7-15VDC may be connected
Range: Standard 0m-65.5m or -199.999m to 199.999m
Accuracy: 1mm, 0.2mm or 0.1inch depending on the chosen float pulley size
Resolution: 1mm, 0.2mm or 0.1inch depending on the chosen float pulley size
I/O: 2 x HSIO bi-directional channels, Up to eight instruments can be daisy chained
SDI-12: SDI-12V 1.3 recorder (1200 baud smart instrument channel)
LCD Type: Reflective grey no backlight
Display Format: One line x 6 Characters, 7 segments
Optimum Viewing: 6 o’clock
Cable: 5m 8 core data cable
Storage memory: Low power CMOS RAM 512k standard
RAM Back up battery: Lithium Battery 3V, 950mAh
Time clock: Crystal regulated, +/- 10 seconds/month
Scan rates: Programmable from 5 seconds to 5 minutes
Log intervals: Programmable from 5 seconds to 24 hours
CPU: 80C552 microcontroller, 14.7456 MHz