Radar Level Sensor
FR series
Long range Sensor main unit Sanitary model FR-LS20
*Please note that accessories depicted in the image are for illustrative purposes only and may not be included with the product.
Specifications
Model | FR-LS20 | |||
Type | Long range Sanitary model | |||
Measuring range | Up to 20 m *1 | |||
Display range | Up to 25 m *1 | |||
Measurable dielectric constant of medium | 2 or higher *2 | |||
Resolution | 1 mm | |||
Precision | Up to 0.1 m: ±10 mm; | |||
Response time | 0.4 s, 1.5 s, 4 s (default value), 10 s | |||
Tank pressure | -0.1 to +1 MPa | |||
Material | Tank interior | Lens: PTFE | ||
Housing | SUS304 | |||
Connection diameter | 2 S ferrule | |||
Output | No. of control outputs | Maximum 5 | ||
Control output/auxiliary output | NPN/PNP open collector (switching type) | |||
Analogue output | 0–20 mA/4–20 mA maximum load resistance 260 Ω | |||
External input | ─ | |||
Network compatibility | IO-Link v1.1/COM2 | |||
Analogue output Precision | Resolution | 1 mm *4 | ||
Zero accuracy | ±0.1 mA (zero point = 4 mA) *4 | |||
Analogue output accuracy | F.S. accuracy | ±0.2 mA (full-scale = 20 mA) *4 | ||
Power supply | Power voltage | 24 VDC + 25%/–20% | ||
Current consumption | 106 mA or less (Excluding Load Current) | |||
Environmental resistance | Ambient temperature | −20°C to +60°C *5 *6 | ||
Relative humidity | Up to 85% RH (no condensation) | |||
Temperature of coupling used | –20 to +100°C (no freezing) *5 *6 | |||
Vibration resistance | 10–500 Hz Power spectral density: 0.816 G2; X, Y and Z directions | |||
Shock resistance | 100 m/s2 (10 G), 16 ms pulses, 1000 times each for X, Y and Z directions | |||
Enclosure rating | IP67 (IEC60529), | |||
Protection circuit | Protection against reverse power connection, power supply surges, output overcurrent protection, and output surges | |||
Weight | Approx. 900 g | |||
*1 Guaranteed value in water with the recommended installation. Static water can be measured up to the edge of the lens. An undetectable area on the short-range side is created owing to the environment and measurement medium. The maximum measuring distance is also shortened. |