by DecentLab
DecentLab Ultrasonic Distance/Level Sensor (0.3~10m – Snow Level)
Original price
$925.00
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Original price
$925.00
Original price
$925.00
$925.00
-
$925.00
Current price
$925.00
Product description
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- The DecentLab Ultrasonic Distance/Level Sensor DL-MBX-003 is an adaptable commercial device designed for accurate distance and level measurements within a 0.3 to 10 meters range. Built on ultrasonic technology
- this sensor serves a variety of industrial applications
- including the remote monitoring of water levels
- tank and silo fill levels
- waste container fill levels
- and even the presence of objects or snow levels. Its functionality lies in its ability to measure the distance between the sensor head and the target
- functioning as a rangefinder.
This sensor operates on the principle of ultrasonic waves - which it emits and then receives after they are reflected from objects. By calculating the time of flight of the sound waves
- factoring in the speed of sound (compensated for temperature variations)
- the sensor computes the distance the waves have traveled
- thereby determining the distance to the object. This design ensures reliable and accurate measurements even under varying environmental conditions.
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The DL-MBX-002 LoRaWAN Ultrasonic Distance/Level Sensor by DecentLab is a versatile
- commercial-grade instrument engineered for precise distance and level estimations between 0.3 to 10 meters. Utilizing ultrasonic technology at its core
- this sensor caters to a diverse range of industrial uses. These include remotely tracking water levels
- monitoring the filling status of tanks and silos
- assessing waste container occupancy
- and even detecting objects or measuring snow depth. The device’s primary function is to evaluate the gap between its sensor head and the target
- effectively serving as a rangefinder.
The DL-MBX-002 works by transmitting ultrasonic waves which bounce back after hitting objects. It then gauges the time it takes for these sound waves to return - considers the speed of sound (adjusted for temperature fluctuations)
- and uses this data to calculate the distance covered by the waves
- thus establishing the distance to the object. This innovative design guarantees reliable and accurate readings even amidst changing environmental conditions.